An enclosed pest control device includes a covered tray carrying a tacky glue, bait, etc. The cover is vacuum formed of a transparent thermoplastic sheet and includes an open ended igloo vestibule which leads to the interior. During manufacture, the vestibule open end is formed by cutting the vestib
An enclosed pest control device includes a covered tray carrying a tacky glue, bait, etc. The cover is vacuum formed of a transparent thermoplastic sheet and includes an open ended igloo vestibule which leads to the interior. During manufacture, the vestibule open end is formed by cutting the vestibule in a plane transverse to the plane of the tray, without a backing support. An array of covers is formed of a single sheet with continuous vestibules joining the ends of adjacent covers in a row such that a single cut through each vestibule will form two open ended vestibules without wasted material.
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An enclosed pest control device includes a covered tray carrying a tacky glue, bait, etc. The cover is vacuum formed of a transparent thermoplastic sheet and includes an open ended igloo vestibule which leads to the interior. During manufacture, the vestibule open end is formed by cutting the vestib
An enclosed pest control device includes a covered tray carrying a tacky glue, bait, etc. The cover is vacuum formed of a transparent thermoplastic sheet and includes an open ended igloo vestibule which leads to the interior. During manufacture, the vestibule open end is formed by cutting the vestibule in a plane transverse to the plane of the tray, without a backing support. An array of covers is formed of a single sheet with continuous vestibules joining the ends of adjacent covers in a row such that a single cut through each vestibule will form two open ended vestibules without wasted material. r and the first-order connector, and where a signal connection from the output of the third functional unit which is not a neighbour to the first functional unit and the input of the first functional unit is possible only via the second-order connector, the buffer and the first-order connector rather than via the first-order connector alone so that the connection between the neighbouring functional units is higher in hierarchy than the connection between non-neighbouring units. 2. A device according to claim 1, wherein the signal which is applicable to the at least one input of the second-order connector is bufferable by the buffer until the first functional unit requires the same. 3. A device according to claim 1, wherein the first-order connector and the second-order connector are implemented as multiplexers of the first and second order respectively. 4. A device according to claim 1, wherein the buffer of the signal which is applicable to the at least one input of the second-order connector is implemented by a register which is connected between the output of the second-order connector and the further input of the first-order connector. 5. A device according to claim 1, wherein the plurality of functional units is arranged in a planar formation in the processor. 6. A device according to claim 1, wherein a functional unit comprises a calculator, a memory, a logic unit or a bus interface unit. 7. A device according to claim 1, wherein the number of inputs of the first-order connector is smaller than the number of inputs of the second-order connector. 8. A device according to claim 1, wherein the number of inputs of the first-order connector is at most five and where four inputs of the first-order connector are occupied only by outputs of functional units which are physical neighbours of the first functional unit, while the bufferable signal of the second-order connector is applicable to the fifth input. 9. A device according to claim 1, wherein the output of the first, the second and the third functional unit are each provided with a register to buffer and/or amplify the output value of the respective functional unit. 10. A device according to claim 1, wherein the output value of a functional unit can be fed into an input of the first-order connector which is assigned to this functional unit. 11. A device according to claim 1, wherein the outputs of functional units which are not connectable via the first-order connector are connected to a communication interface which is in turn coupled to further inputs in accordance with the second-order connector. 12. A device according to claim 1, wherein each functional unit has an optional number of inputs and outputs, where each input of a functional unit is connected to the output of a first-order connector which is assigned to this input and where each output is connected to the input of its own register. 13. A processor comprising the following features: a plurality of functional units, the plurality of functional units being arranged in a formation in the processor, in which a first functional unit and a second functional unit are physical neighbours as regards their location in the processor and in which the first functional unit and a third functional unit are not physical neighbours as regards their location in the processor; a device for the hierarchical connection of the plurality of functional units comprising: a first-order connector with at least two inputs and an output, which is adapted to be operated so as to connect one of the at least two inputs to the output, where the output of the first-order connector is connected to an input of the first functional unit and where an output of the second functional unit is connected to a first input of the at least two inputs of the first-order connector; a second-order connector with at least one input and an output, which is adapted to be operated so as to connect the at least one input to the output, where the at leas
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Keith Donald George (Mount Eliza AU), Apparatus for deforming thermoplastic sheet.
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