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For connecting a board member inserted in a board insertion direction, a board connector includes a contact with a first and a second beam portion, a housing holding the contact, and an actuator integral with the first beam portion. The first and the second beam portions include a first and a second

For connecting a board member inserted in a board insertion direction, a board connector includes a contact with a first and a second beam portion, a housing holding the contact, and an actuator integral with the first beam portion. The first and the second beam portions include a first and a second clamping portion, respectively, for clamping therebetween the board member. The actuator includes an effort point portion formed forward with respect to the first clamping portion in the board insertion direction. When an operator inserts the board member into the board connector, the board member pushes and moves the effort point portion.

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1. A board connector for connecting a board member inserted thereto in a board insertion direction, the board connector comprising: a contact which comprises a first and a second beam portion;a housing which holds the contact; andan actuator which is integral with the first beam portion;wherein the

1. A board connector for connecting a board member inserted thereto in a board insertion direction, the board connector comprising: a contact which comprises a first and a second beam portion;a housing which holds the contact; andan actuator which is integral with the first beam portion;wherein the first and the second beam portions comprise a first and a second clamping portion, respectively, for clamping therebetween the board member, andwherein the actuator comprises an effort point portion which is formed forward with respect to the first clamping portion in the board insertion direction and which is pushed and moved by the board member when the board member is inserted into the board connector. 2. The board connector according to claim 1, wherein the actuator is molded integrally with the contact. 3. The board connector according to claim 1, wherein the housing is molded integrally with the contact. 4. The board connector according to claim 1, wherein the first and the second clamping portions are formed by bending the first and the second beam portions, respectively. 5. The board connector according to claim 1, wherein the housing comprises an effort point receiving portion receiving the effort point portion, and the effort point portion has an inclined surface which is inclined with respect to the board insertion direction and which guides an insertion of the board member into the board connector. 6. The board connector according to claim 1, wherein the actuator and the housing have engaging portions, respectively, which are engaged with each other to restrict movement of the actuator with respect to the housing toward a frontward side in the board insertion direction. 7. The board connector according to claim 6, wherein the engaging portions comprises: a concave portion which is formed to one of the actuator and the housing; anda protruding portion which is formed to another of the actuator and the housing and is insertable to the concave portion in a direction intersecting the board insertion direction. 8. The board connector according to claim 1, wherein the contact further comprises a connecting portion connecting the first and the second beam portions to each other. 9. The board connector according to claim 8, wherein the first and the second clamping portions are opposite to each other in a direction intersecting the board insertion direction, and the connecting portion biases the first and the second beam portions to approach the first and the second clamping portions each other. 10. The board connector according to claim 8, wherein the connecting portion, the first clamping portion, and the effort point portion are arranged in the board insertion direction, and a distance between the effort point portion and the connecting portion is set to be longer than a distance between the first clamping portion and the connecting portion. 11. A method of manufacturing a board connector, comprising: preparing a plurality of contacts;arranging the contacts in parallel in a contact wide direction;actuator-forming an actuator integral with first end sides of the contacts to bury portions of the first end sides inside the actuator;housing-forming a housing integral with second end sides of the contacts to bury portions of the second end sides inside the housing; andcollectively folding the contacts that are integral with one another by the actuator and the housing, to face the first end sides and the second end sides to each other. 12. The method according to claim 11, wherein the actuator-forming step comprises forming a second protruding portion to the actuator to protrude in the contact wide direction, the housing-forming step comprises forming a second concave portion to the housing, and the collectively folding step comprises engaging the second protruding portion with the second concave portion. 13. The method according to claim 11, wherein the actuator-forming step comprises forming a concave portion to the actuator, the housing-forming step comprises forming a protruding portion to the housing, and the collectively folding step comprises engaging the protruding portion with the concave portion. 14. The method according to claim 11, wherein the actuator-forming step comprises: forming the actuator integral with the first end sides of the contacts in a condition where the first end side of each contact is held from its outside; andforming a plurality of holes to the actuator in correspondence of the contacts. 15. The method according to claim 11, wherein the housing-forming step comprises forming the housing integral with the second end sides of the contacts to expose a portion of the second end side of each contact, and the collectively folding step comprises facing the portion of the second end side of each contact to the actuator. 16. The method according to claim 11, wherein the contacts are made of metal and each of the housing and the actuator is made of plastic material. 17. The method according to claim 11, wherein the actuator-forming step comprises forming a first protruding portion to the actuator to protrude in the contact wide direction, and the collectively folding step comprises facing the first protruding portion to the housing. 18. The method according to claim 17, wherein the housing-forming step comprises forming a first concave portion to the housing, and the collectively folding step comprises inserting the first protruding portion to the first concave portion. 19. The method according to claim 11, further comprising folding the first end side of each contact after the preparing step to produce a bent and processed portion, and the actuator-forming step comprises forming the actuator integral with both ends of the bent and processed portion to bury the both ends inside the actuator. 20. The method according to claim 19, wherein the actuator-forming step comprises forming the actuator integral with the first end side of each contact to expose a top portion of the bent and processed portion, and the collectively folding step comprises facing the top portion to the housing.