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A reciprocating drive mechanism. The reciprocating drive mechanism may comprise: a spool assembly and a spool housing. The spool assembly may be reciprocally movable within a spool chamber of the spool housing. The spool housing may comprise a first seal, a second seal, and a third seal. When the sp

A reciprocating drive mechanism. The reciprocating drive mechanism may comprise: a spool assembly and a spool housing. The spool assembly may be reciprocally movable within a spool chamber of the spool housing. The spool housing may comprise a first seal, a second seal, and a third seal. When the spool assembly is within the spool chamber, the first seal, the second seal, and the third seal may divide the spool chamber into a distal chamber, an intermediate chamber, a supply chamber, and a proximal chamber, respectively. The spool assembly may comprise a first spool vent that is in fluid communication with the distal chamber. The spool housing may comprise a first housing vent that is in fluid communication with the intermediate chamber. The first spool vent may be in fluid communication with the first housing vent when an outlet of the first spool vent is aligned within the intermediate chamber.

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1. A reciprocating drive mechanism, comprising: a spool assembly; anda spool housing;wherein said spool housing comprises a spool chamber;wherein said spool assembly is disposed in and reciprocally movable within said spool chamber;wherein said spool housing comprises a first seal, a second seal, an

1. A reciprocating drive mechanism, comprising: a spool assembly; anda spool housing;wherein said spool housing comprises a spool chamber;wherein said spool assembly is disposed in and reciprocally movable within said spool chamber;wherein said spool housing comprises a first seal, a second seal, and a third seal;wherein, when said spool assembly is disposed within said spool chamber of said spool housing, said first seal, said second seal, and said third seal divide said spool chamber into a distal chamber, an intermediate chamber, a supply chamber, and a proximal chamber, respectively, such that: (i) said first seal divides said spool chamber into said distal chamber and said intermediate chamber;(ii) said second seal divides said spool chamber into said intermediate chamber and said supply chamber; and(iii) said third seal divides said spool chamber into said supply chamber and said proximal chamber;wherein said spool assembly comprises a first spool vent;wherein said first spool vent is in fluid communication with said distal chamber;wherein said spool housing comprises a first housing vent having an inlet and an outlet;wherein an inlet of said first housing vent is in fluid communication with said intermediate chamber; andwherein said first spool vent is in fluid communication with said first housing vent when said spool assembly reciprocates within said spool housing and aligns an outlet of said first spool vent within said intermediate chamber, such that a fluid trapped within said distal chamber is allowed to escape said distal chamber and into said intermediate chamber to said first housing vent. 2. The reciprocating drive mechanism of claim 1, wherein said spool housing further comprises a first exhaust port; wherein said spool assembly further comprises a first slide valve;wherein said first slide valve is coupled to an outer perimeter of said spool assembly;wherein said first exhaust port is positioned proximally and adjacent to said outlet of said first housing vent;wherein, as said spool assembly moves towards a distal end of said spool housing during an upstroke, a first internal valve space of said first slide valve aligns with an outlet of said first housing vent and said first exhaust port so as to allow said fluid within said first housing vent to communicate through said first internal valve space of said first slide valve and said first exhaust port; andwherein, as said spool assembly moves towards a proximal end of said spool housing during a downstroke, at least a portion of said first slide valve blocks said outlet of said first housing vent so as to prevent said fluid within said first housing vent to communicate through said first internal valve space of said first slide valve and said first exhaust port. 3. The reciprocating drive mechanism of claim 2, wherein said spool housing further comprises a second housing vent; wherein said second housing vent is proximal and adjacent to said first exhaust port and comprises an inlet and an outlet;wherein said inlet of said second housing vent is in fluid communication with said proximal chamber and wherein said outlet of said second housing vent is in fluid communication with said supply chamber;wherein, as said spool assembly moves towards said distal end of said spool housing during an upstroke, said outlet of said second housing vent is in fluid communication with said supply chamber, such that said proximal chamber is in fluid communication with said supply chamber; andwherein, as said spool assembly moves towards said proximal end of said spool housing during a downstroke, said first internal valve space of said first slide valve aligns with said outlet of said second housing vent and said first exhaust port, so as to allow said fluid within said second housing vent and said proximal chamber to communicate through said first internal valve space of said first slide valve and said first exhaust port. 4. The reciprocating drive mechanism of claim 3, wherein said spool housing further comprises: a first fluid port, a second fluid port, and a second exhaust port; wherein said second exhaust port is positioned proximally and adjacent to said first fluid port;wherein said second fluid port is positioned proximally and adjacent to said second exhaust port;wherein said first fluid port and said second fluid port are in fluid communication with said supply chamber;wherein said spool assembly comprises a second slide valve coupled to an outer perimeter of said spool assembly;wherein, as said spool assembly moves towards said distal end of said spool housing during said upstroke: (i) a second internal valve space of said second slide valve aligns with said first fluid port and said second exhaust port so as to allow said fluid within said first fluid port to communicate through said second internal valve space of said second slide valve and through said second exhaust port; and(ii) said second fluid port is in fluid communication with said supply chamber, so as to prevent said fluid in said second fluid port to communicate through said second internal valve space and said second exhaust port;wherein, as said spool assembly moves towards said proximal end of said spool housing during said downstroke: (i) said second internal valve space of said second slide valve aligns with said second fluid port and said second exhaust port so as to allow said fluid within said second fluid port to communicate through said second internal valve space of said second slide valve and through said second exhaust port; and(ii) said first fluid port is in fluid communication with said supply chamber, so as to prevent said fluid in said first fluid port to communicate through said second internal valve space and said second exhaust port. 5. The reciprocating drive mechanism of claim 4, wherein said spool assembly comprises a center bore; wherein said center bore of said spool assembly is in fluid communication with said distal chamber;wherein, when a pressurized fluid travels from said center bore and towards said distal chamber, said spool assembly performs said downstroke. 6. The reciprocating drive mechanism of claim 5, further comprising: a piston housing;a piston; anda valve stem;wherein said piston housing comprises a top flange, a bottom flange, and a cylindrical side wall;wherein said top flange, said bottom flange, and said cylindrical side wall form a piston chamber;wherein said piston is reciprocally movable within said piston chamber and divides said piston chamber into a first cylindrical space and a second cylindrical space;wherein a proximal portion of said valve stem is connected to said piston;wherein a distal portion of said valve stem is configured to slideably and reciprocally engage within said center bore of said spool assembly;wherein said valve stem comprises a valve stem bore and at least one passage;wherein said valve stem bore and said at least one passage are in fluid communication with said center bore of said spool assembly, such that said valve stem bore and said at least one passage are in fluid communication with said distal chamber;wherein said top flange comprises a valve stem opening and a fourth seal disposed within said valve stem opening;wherein said fourth seal is slideably engaged with said valve stem; andwherein, when said at least one passage is exposed within said first cylindrical space after said piston moves towards said bottom flange and shifts said at least one passage of said valve stem within said first cylindrical space, said valve stem bore is in fluid communication with said first cylindrical space. 7. The reciprocating drive mechanism of claim 6, further comprising: a first fluid conduit; anda second fluid conduit;wherein said first fluid conduit is coupled between said first fluid port and said bottom flange of said piston housingwherein said first fluid conduit allows said first fluid port to be in fluid communication with said first cylindrical space;wherein said second fluid conduit is coupled between said second fluid port and said top flange of said piston housing; andwherein said second fluid conduit allows said second fluid port to be in fluid communication with said second cylindrical space. 8. The reciprocating drive mechanism of claim 1, wherein said spool assembly comprises a second spool vent having an inlet and an outlet; wherein an inlet of said second spool vent is in fluid communication with said distal chamber;wherein said outlet of said second spool vent is located at an outer perimeter of said spool assembly;wherein an outlet of said second spool vent is configured to be in fluid communication with said first housing vent when said spool assembly reciprocates within said spool housing and aligns said outlet of said first spool vent within said intermediate chamber, such that a fluid trapped within said distal chamber is allowed to escape said distal chamber and into said intermediate chamber to said first housing vent via said second spool vent. 9. The reciprocating drive mechanism of claim 1, wherein said fluid is a gas. 10. A reciprocating drive mechanism, comprising: a spool assembly; anda spool housing;wherein said spool housing comprises a spool chamber;wherein said spool assembly is disposed in and reciprocally movable within said spool chamber;wherein said spool housing comprises a first seal, a second seal, and a third seal;wherein, when said spool assembly is disposed within said spool chamber of said spool housing, said first seal, said second seal, and said third seal divide said spool chamber into a distal chamber, an intermediate chamber, a supply chamber, and a proximal chamber, respectively, such that: (i) said first seal divides said spool chamber into said distal chamber and said intermediate chamber;(ii) said second seal divides said spool chamber into said intermediate chamber and said supply chamber; and(iii) said third seal divides said spool chamber into said supply chamber and said proximal chamber;wherein said spool assembly comprises a first spool vent having an inlet and an outlet;wherein said inlet of said first spool vent is in fluid communication with said distal chamber and wherein said outlet of said first spool vent is located at an outer perimeter of said spool assembly;wherein said spool housing comprises a first housing vent having an inlet and an outlet;wherein an inlet of said first housing vent in fluid communication with said intermediate chamber and wherein said outlet of said first housing vent is in fluid communication with said supply chamber; andwherein said first spool vent is in fluid communication with said first housing vent when said spool assembly reciprocates within said spool housing and aligns said outlet of said first spool vent within said intermediate chamber, such that a fluid trapped within said distal chamber is allowed to escape said distal chamber and into said intermediate chamber to said first housing vent. 11. The reciprocating drive mechanism of claim 10, wherein said spool housing further comprises a first exhaust port; wherein said spool assembly further comprises a first slide valve;wherein said first slide valve is coupled to an outer perimeter of said spool assembly;wherein said first exhaust port is positioned proximally and adjacent to said outlet of said first housing vent;wherein, as said spool assembly moves towards a distal end of said spool housing during an upstroke, a first internal valve space of said first slide valve aligns with an outlet of said first housing vent and said first exhaust port so as to allow said fluid within said first housing vent to communicate through said first internal valve space of said first slide valve and said first exhaust port; andwherein, as said spool assembly moves towards a proximal end of said spool housing during a downstroke, at least a portion of said first slide valve blocks said outlet of said first housing vent so as to prevent said fluid within said first housing vent to communicate through said first internal valve space of said first slide valve and said first exhaust port. 12. The reciprocating drive mechanism of claim 11, wherein said spool housing further comprises a second housing vent; wherein said second housing vent is proximal and adjacent to said first exhaust port and comprises an inlet and an outlet;wherein said inlet of said second housing vent is in fluid communication with said proximal chamber and wherein said outlet of said second housing vent is in fluid communication with said supply chamber;wherein, as said spool assembly moves towards said distal end of said spool housing during an upstroke, said outlet of said second housing vent is in fluid communication with said supply chamber, such that said proximal chamber is in fluid communication with said supply chamber; andwherein, as said spool assembly moves towards said proximal end of said spool housing during a downstroke, said first internal valve space of said first slide valve aligns with said outlet of said second housing vent and said first exhaust port, so as to allow said fluid within said second housing vent and said proximal chamber to communicate through said first internal valve space of said first slide valve and said first exhaust port. 13. The reciprocating drive mechanism of claim 12, wherein said spool housing further comprises: a first fluid port, a second fluid port, and a second exhaust port; wherein said second exhaust port is positioned proximally and adjacent to said first fluid port;wherein said second fluid port is positioned proximally and adjacent to said second exhaust port;wherein said first fluid port and said second fluid port are in fluid communication with said supply chamber;wherein said spool assembly comprises a second slide valve coupled to an outer perimeter of said spool assembly;wherein, as said spool assembly moves towards said distal end of said spool housing during said upstroke: (i) a second internal valve space of said second slide valve aligns with said first fluid port and said second exhaust port so as to allow said fluid within said first fluid port to communicate through said second internal valve space of said second slide valve and to said second exhaust port; and(ii) said second fluid port is in fluid communication with said supply chamber, so as to prevent said fluid in said second fluid port to communicate through said second internal valve space and said second exhaust port;wherein, as said spool assembly moves towards said proximal end of said spool housing during said downstroke: (i) said second internal valve space of said second slide valve aligns with said second fluid port and said second exhaust port so as to allow said fluid within said second fluid port to communicate through said second internal valve space of said second slide valve and to said second exhaust port; and(ii) said first fluid port is in fluid communication with said supply chamber, so as to prevent said fluid in said first fluid port to communicate through said second internal valve space and said second exhaust port. 14. The reciprocating drive mechanism of claim 13, wherein said spool assembly comprises a center bore; wherein said center bore of said spool assembly is in fluid communication with said distal chamber;wherein, when a pressurized fluid travels from said center bore and towards said distal chamber, said spool assembly performs said downstroke. 15. The reciprocating drive mechanism of claim 14, further comprising: a piston housing;a piston; anda valve stem;wherein said piston housing comprises a top flange, a bottom flange, and a cylindrical side wall;wherein said top flange, said bottom flange, and said cylindrical side wall form a piston chamber;wherein said piston is reciprocally movable within said piston chamber and divides said piston chamber into a first cylindrical space and a second cylindrical space;wherein a proximal portion of said valve stem is connected to said piston;wherein a distal portion of said valve stem is configured to slideably and reciprocally engage within said center bore of said spool assembly;wherein said valve stem comprises a valve stem bore and at least one passage;wherein said valve stem bore and said at least one passage are in fluid communication with said center bore of said spool assembly, such that said valve stem bore and said at least one passage of said valve stem are in fluid communication with said distal chamber;wherein said top flange comprises a valve stem opening and a fourth seal disposed within said valve stem opening;wherein said fourth seal is slideably engaged with said valve stem; andwherein, when said at least one passage is exposed within said first cylindrical space after said piston moves towards said bottom flange and shifts said at least one passage of said valve stem within said first cylindrical space, said valve stem bore of said valve stem is in fluid communication with said first cylindrical space. 16. The reciprocating drive mechanism of claim 15, further comprising: a first fluid conduit; anda second fluid conduit;wherein said first fluid conduit is coupled between said first fluid port and said bottom flange of said piston housingwherein said first fluid conduit allows said first fluid port to be in fluid communication with said first cylindrical space;wherein said second fluid conduit is coupled between said second fluid port and said top flange of said piston housing; andwherein said second fluid conduit allows said second fluid port to be in fluid communication with said second cylindrical space. 17. The reciprocating drive mechanism of claim 16, wherein said spool assembly comprises a second spool vent having an inlet and an outlet; wherein an inlet of said second spool vent is in fluid communication with said distal chamber;wherein said outlet of said second spool vent is located at an outer perimeter of said spool assembly;wherein an outlet of said second spool vent is configured to be in fluid communication with said first housing vent when said spool assembly reciprocates within said spool housing and aligns said outlet of said second spool vent within said intermediate chamber, such that a fluid trapped within said distal chamber is allowed to escape said distal chamber and into said intermediate chamber to said first housing vent via said second spool vent. 18. The reciprocating drive mechanism of claim 17, wherein said spool assembly comprises a second spool vent having an inlet and an outlet; wherein an inlet of said second spool vent is in fluid communication with said distal chamber;wherein an outlet of said second spool vent is located at an outer perimeter of said spool assembly; andwherein an outlet of said second spool vent is configured to be in fluid communication with said first housing vent when said spool assembly reciprocates within said spool housing and aligns said outlet of said first spool vent within said intermediate chamber, such that a fluid trapped within said distal chamber is allowed to escape said distal chamber and into said intermediate chamber to said first housing vent via said second spool vent. 19. A reciprocating drive mechanism, comprising: a spool assembly;a spool housing;a piston housing;a piston;a valve stem;a first fluid conduit; anda second fluid conduit;wherein said spool assembly comprises: a first seal, a second seal, a third seal, a first spool vent and first slide valve;wherein said spool housing comprises: a spool chamber, a first exhaust port, a second exhaust port, a first fluid port, and a second fluid port;wherein said spool assembly is disposed in and reciprocally movable within said spool chamber;wherein, when said spool assembly is disposed within said spool chamber of said spool housing, said first seal, said second seal, and said third seal divide said spool chamber into a distal chamber, an intermediate chamber, a supply chamber, and a proximal chamber, respectively, such that: (i) said first seal divides said spool chamber into said distal chamber and said intermediate chamber;(ii) said second seal divides said spool chamber into said intermediate chamber and said supply chamber; and(iii) said third seal divides said spool chamber into said supply chamber and said proximal chamber;wherein said first spool vent comprises an inlet and an outlet;wherein said inlet of said first spool vent is in fluid communication with said distal chamber;wherein said outlet of said first spool vent is located at an outer perimeter of said spool assembly and is in fluid communication with said intermediate chamber;wherein said spool housing comprises a first housing vent having an inlet and an outlet;wherein an inlet of said first housing vent is in fluid communication with said intermediate chamber when said inlet of said first housing vent aligns with said intermediate chamber;wherein said outlet of said first housing vent is in fluid communication with said supply chamber;wherein said first spool vent is in fluid communication with said first housing vent when said spool assembly reciprocates within said spool housing and aligns said inlet of said first housing vent within said intermediate chamber, such that a fluid trapped within said distal chamber is allowed to escape said distal chamber, through said spool vent, through said intermediate chamber, and to said first housing vent;wherein said first exhaust port is positioned proximally and adjacent to said outlet of said first housing vent;wherein said second housing vent is proximal and adjacent to said first exhaust port and comprises an inlet and an outlet;wherein said inlet of said second housing vent is in fluid communication with said proximal chamber and wherein said outlet of said second housing vent is in fluid communication with said supply chamber;wherein, as said spool assembly moves towards a distal end of said spool housing during an upstroke: (i) said outlet of said second housing vent is in fluid communication with said supply chamber, such that said proximal chamber is in fluid communication with said supply chamber; and(ii) a first internal valve space of said first slide valve aligns with an outlet of said first housing vent and said first exhaust port so as to allow said fluid within said first housing vent to communicate through said internal valve space of said first slide valve and said first exhaust port;wherein, as said spool assembly moves towards a proximal end of said spool housing during a downstroke: (i) said first internal valve space of said first slide valve aligns with said outlet of said second housing vent and said first exhaust port, so as to allow said fluid within said second housing vent and said proximal chamber to communicate through said first internal valve space of said first slide valve and said first exhaust port; and(ii) at least a portion of said first slide valve blocks said outlet of said first housing vent so as to prevent said fluid within said first housing vent to communicate through said first internal valve space of said first slide valve and said first exhaust port;wherein said second exhaust port is positioned proximally and adjacent to said first fluid port;wherein said second fluid port is positioned proximally and adjacent to said second exhaust port;wherein said first fluid port and said second fluid port are in fluid communication with said supply chamber;wherein said spool assembly comprises a second slide valve coupled to an outer perimeter of said spool assembly;wherein, as said spool assembly moves towards said distal end of said spool housing during said upstroke: (i) a second internal valve space of said second slide valve aligns with said first fluid port and said second exhaust port so as to allow said fluid within said first fluid port to communicate through said second internal valve space of said second slide valve and to said second exhaust port; and(ii) said second fluid port is in fluid communication with said supply chamber, so as to prevent said fluid in said second fluid port to communicate through said second internal valve space and said second exhaust port;wherein, as said spool assembly moves towards said proximal end of said spool housing during said downstroke: (i) a second internal valve space of said second slide valve aligns with said second fluid port and said second exhaust port so as to allow said fluid within said second fluid port to communicate through said second internal valve space of said second slide valve and to said second exhaust port; and(ii) said first fluid port is in fluid communication with said supply chamber, so as to prevent said fluid in said first fluid port to communicate through said second internal valve space and said second exhaust port;wherein said piston housing comprises a top flange, a bottom flange, and a cylindrical side wall;wherein said top flange, said bottom flange, and said cylindrical side walls form a piston chamber;wherein said piston is reciprocally movable within said piston chamber and divides said piston chamber into a first cylindrical space and a second cylindrical space;wherein a proximal portion of said valve stem is connected to said piston;wherein a distal portion of said valve stem is configured to slideably and reciprocally engage within a center bore of said spool assembly;wherein said center bore of said spool assembly is in fluid communication with said distal chamber of said spool housing;wherein, when a pressurized fluid travels from said center bore and towards said distal chamber, said spool assembly performs said downstroke;wherein said valve stem comprises a valve stem bore and at least one passage;wherein said valve stem bore and said at least one passage are in fluid communication with said center bore of said spool assembly, such that said valve stem bore and said at least one passage of said valve stem are in fluid communication with said distal chamber;wherein said top flange comprises a valve stem opening and a fourth seal disposed within said valve stem opening;wherein said fourth seal is slideably engaged with said valve stem;wherein, when said at least one passage is exposed within said first cylindrical space after said piston moves towards said bottom flange and shifts said at least one passage of said valve stem within said first cylindrical space, said valve stem bore of said valve stem is in fluid communication with said first cylindrical space;wherein said first fluid conduit is coupled between said first fluid port and said bottom flange of said piston housing;wherein said first fluid conduit allows said first fluid port to be in fluid communication with said first cylindrical space;wherein said second fluid conduit is coupled between said second fluid port and said top flange of said piston housing; andwherein said second fluid conduit allows said second fluid port to be in fluid communication with said second cylindrical space. 20. The reciprocating drive mechanism of claim 19, wherein said spool assembly comprises a second spool vent having an inlet and an outlet; wherein an inlet of said second spool vent is in fluid communication with said distal chamber;wherein an outlet of said second spool vent is located at an outer perimeter of said spool assembly and is in fluid communication with said intermediate chamber; andwherein an outlet of said second spool vent is configured to be in fluid communication with said first housing vent when said spool assembly reciprocates within said spool housing and aligns said inlet of said first housing vent within said intermediate chamber, such that a fluid trapped within said distal chamber is allowed to escape said distal chamber and into said intermediate chamber to said first housing vent via said second spool vent.