CN205263556U - Female processing machine control circuit that arranges in quadruplex position - Google Patents

Abstract

The utility model provides a female processing machine control circuit that arranges in quadruplex position, including four operation, the crimping, cut, punch a hole and bend, control circuit includes automatic switch, auxiliary relay, signal lamp and diode, automatic switch with auxiliary relay establishes ties, auxiliary relay with the signal lamp is parallelly connected, auxiliary relay with the diode is established ties. Female arrange can realize the crimping, cut, punch a hole and bend four operation's the control of processing machine control circuit, use the relay to select operation, convenient to use, with low costs, the practicality is strong.

Description

A kind of four station bus bar processing machine control circuits

Technical field

The utility model belongs to electrical control field, especially relates to a kind of four station bus bar processing machine control circuits.

Background technology

Existing bus bar processing machine is widely used in electric power, communication, and railway, petrochemical industry, the industries such as vessel, are adapted between large car and the site operation of power transmission and distribution work, and the electric appliances plant such as power distribution cabinet and switch cubicle is used. Busbar is cut off, punching, bending three station processing, easy to operate, to save time, production efficiency is high. Bus bar processing machine is by lathe mechanical, electric, hydraulic pressure comprehensive control, can shear copper bar, aluminium row, cable, the crimping of punching, bending and end.

Summary of the invention

In view of this, the utility model is intended to propose a kind of four station bus bar processing machine control circuits, to realize the control of four operational sequences of bus bar processing machine, simple in structure, easy to use.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of four station bus bar processing machine control circuits, comprise four operational sequence control circuits, crimping process control circuit, cutting operation control circuit, punching operation control circuit and bender's sequence control circuit;

Described crimping process control circuit comprises automatic switch 1QA, auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 1D; Described automatic switch 1QA connects with described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, and described auxiliary reclay 1KA is in parallel with described signal lamp, and described auxiliary reclay 1KA connects with described diode 1D;

Described cutting operation control circuit comprises automatic switch 2QA, auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 2D; Described automatic switch 2QA connects with described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, and described auxiliary reclay 2KA is in parallel with described signal lamp, and described auxiliary reclay 2KA connects with described diode 2D;

Described punching operation control circuit comprises automatic switch 3QA, auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 3D; Described automatic switch 3QA connects with described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, and described auxiliary reclay 3KA is in parallel with described signal lamp, and described auxiliary reclay 3KA connects with described diode 3D;

Described bender's sequence control circuit comprises automatic switch 4QA, auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 4D; Described automatic switch 4QA connects with described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, and described auxiliary reclay 4KA is in parallel with described signal lamp, and described auxiliary reclay 4KA connects with described diode 4D.

Further, in described crimping process control circuit, auxiliary reclay 1KA contact is for often opening, and auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA contact are normally closed.

Further, in described cutting operation control circuit, auxiliary reclay 2KA contact is for often opening, and auxiliary reclay 1KA, auxiliary reclay 3KA, auxiliary reclay 4KA contact are normally closed.

Further, in described punching operation control circuit, auxiliary reclay 3KA contact is for often opening, and auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 4KA contact are normally closed.

Further, in described bender's sequence control circuit, auxiliary reclay 4KA contact is for often opening, and auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA contact are normally closed.

Further, described control circuit also comprises RCCB 1QF.

With respect to prior art, a kind of four station bus bar processing machine control circuits described in the utility model have following advantage: bus bar processing machine control circuit described in the utility model can be realized the control of crimping, shearing, punching and four operational sequences of bending, use relay select operational sequence, easy to use, cost is low, practical.

Brief description of the drawings

The accompanying drawing that forms a part of the present utility model is used to provide further understanding of the present utility model, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model. In the accompanying drawings:

Fig. 1 is the one four station bus bar processing machine control circuit schematic diagrames described in the utility model embodiment.

Detailed description of the invention

It should be noted that, in the situation that not conflicting, the feature in embodiment and embodiment in the utility model can combine mutually.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinally ", " laterally ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", orientation or the position relationship of instructions such as " outward " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of device or the element of instruction or hint indication must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as restriction of the present utility model. in addition, term " first ", " second " etc. are only for describing object, and can not be interpreted as instruction or hint relative importance or the implicit quantity that indicates indicated technical characterictic. thus, one or more these features can be expressed or impliedly be comprised to the feature that is limited with " first ", " second " etc. in description of the present utility model, except as otherwise noted, the implication of " multiple " is two or more.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be mechanical connection, can be also electrical connection; Can be to be directly connected, also can indirectly be connected by intermediary, can be the connection of two element internals. For the ordinary skill in the art, can understand the concrete meaning of above-mentioned term in the utility model by concrete condition.

Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.

As shown in Figure 1, a kind of four station bus bar processing machine control circuits, comprise four operational sequence control circuits, crimping process control circuit, cutting operation control circuit, punching operation control circuit and bender's sequence control circuit; Described crimping process control circuit comprises automatic switch 1QA, auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 1D; Described automatic switch 1QA connects with described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, and described auxiliary reclay 1KA is in parallel with described signal lamp, and described auxiliary reclay 1KA connects with described diode 1D; Described cutting operation control circuit comprises automatic switch 2QA, auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 2D; Described automatic switch 2QA connects with described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, and described auxiliary reclay 2KA is in parallel with described signal lamp, and described auxiliary reclay 2KA connects with described diode 2D; Described punching operation control circuit comprises automatic switch 3QA, auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 3D; Described automatic switch 3QA connects with described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, and described auxiliary reclay 3KA is in parallel with described signal lamp, and described auxiliary reclay 3KA connects with described diode 3D; Described bender's sequence control circuit comprises automatic switch 4QA, auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 4D; Described automatic switch 4QA connects with described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, and described auxiliary reclay 4KA is in parallel with described signal lamp, and described auxiliary reclay 4KA connects with described diode 4D. In described crimping process control circuit, auxiliary reclay 1KA contact is for often opening, and auxiliary reclay 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA contact are normally closed. In described cutting operation control circuit, auxiliary reclay 2KA contact is for often opening, and auxiliary reclay 1KA, auxiliary reclay 3KA, auxiliary reclay 4KA contact are normally closed. In described punching operation control circuit, auxiliary reclay 3KA contact is for often opening, and auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 4KA contact are normally closed. In described bender's sequence control circuit, auxiliary reclay 4KA contact is for often opening, and auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA contact are normally closed. Described control circuit also comprises RCCB 1QF.

The course of work of the present utility model is as follows, RCCB 1QF closes, connect alternating current 220V power supply, the 1QA that closes, selects shearing manipulation operation, auxiliary reclay 1KA coil obtains electric, 1KA often opens the closure of getting an electric shock, and connects crimping operation operation, carries out crimping operation, the normally closed electric shock of 1KA in shearing, punching and bending disconnects, and ensures to only have shearing manipulation operation to work; The 2QA that closes, selects shearing manipulation operation, and auxiliary reclay 2KA coil obtains electric, and 2KA often opens and gets an electric shock closedly, connects shearing manipulation operation, carries out shearing manipulation, and the normally closed electric shock of 2KA in crimping, punching and bending disconnects, and ensures to only have shearing manipulation operation to work; The 3QA that closes, selects punch operation operation, and auxiliary reclay 3KA coil obtains electric, and 3KA often opens and gets an electric shock closedly, connects punch operation operation, carries out punch operation, and the normally closed electric shock of 3KA in shearing, crimping and bending disconnects, and ensures to only have punch operation operation to work; The 4QA that closes, selects shearing manipulation operation, and auxiliary reclay 4KA coil obtains electric, and 4KA often opens and gets an electric shock closedly, connects shearing manipulation operation, carries out bending operation, and the normally closed electric shock of 4KA in shearing, punching and crimping disconnects, and ensures to only have bending operation operation to work; Start high-pressure oil pump motor, when high-pressure oil pump is during to kit oil transportation, oil pressure is Automatic-boosting with the enhancing of load, until workpiece machines, operation locking press button 1QA～4QA, closes oil pump motor, automatic pressure-reducing, return to primitive age state.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (6)

1. four station bus bar processing machine control circuits, is characterized in that: comprise four operational sequencesControl circuit, crimping process control circuit, cutting operation control circuit, punching operation control circuit and foldingCurved operation control circuit;

Described crimping process control circuit comprises automatic switch 1QA, auxiliary reclay 1KA, middle relayDevice 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 1D; Described automaticContinue in switch 1QA and described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, centreElectrical equipment 4KA series connection, described auxiliary reclay 1KA is in parallel with described signal lamp, described auxiliary reclay 1KAConnect with described diode 1D;

Described cutting operation control circuit comprises automatic switch 2QA, auxiliary reclay 1KA, middle relayDevice 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 2D; Described automaticContinue in switch 2QA and described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, centreElectrical equipment 4KA series connection, described auxiliary reclay 2KA is in parallel with described signal lamp, described auxiliary reclay 2KAConnect with described diode 2D;

Described punching operation control circuit comprises automatic switch 3QA, auxiliary reclay 1KA, middle relayDevice 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 3D; Described automaticSwitch 3QA and described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, centreRelay 4KA series connection, described auxiliary reclay 3KA is in parallel with described signal lamp, described auxiliary reclay3KA connects with described diode 3D;

Described bender's sequence control circuit comprises automatic switch 4QA, auxiliary reclay 1KA, middle relayDevice 2KA, auxiliary reclay 3KA, auxiliary reclay 4KA, signal lamp and diode 4D; Described automaticContinue in switch 4QA and described auxiliary reclay 1KA, auxiliary reclay 2KA, auxiliary reclay 3KA, centreElectrical equipment 4KA series connection, described auxiliary reclay 4KA is in parallel with described signal lamp, described auxiliary reclay 4KAConnect with described diode 4D.

2. a kind of four station bus bar processing machine control circuits according to claim 1, its feature existsIn: in described crimping process control circuit, auxiliary reclay 1KA contact is for often opening, auxiliary reclay 2KA,Auxiliary reclay 3KA, auxiliary reclay 4KA contact are normally closed.

3. a kind of four station bus bar processing machine control circuits according to claim 1, its feature existsIn: in described cutting operation control circuit, auxiliary reclay 2KA contact is for often opening, auxiliary reclay 1KA,Auxiliary reclay 3KA, auxiliary reclay 4KA contact are normally closed.

4. a kind of four station bus bar processing machine control circuits according to claim 1, its feature existsIn: in described punching operation control circuit, auxiliary reclay 3KA contact is for often opening, auxiliary reclay 1KA,Auxiliary reclay 2KA, auxiliary reclay 4KA contact are normally closed.

5. a kind of four station bus bar processing machine control circuits according to claim 1, its feature existsIn: in described bender's sequence control circuit, auxiliary reclay 4KA contact is for often opening, auxiliary reclay 1KA,Auxiliary reclay 2KA, auxiliary reclay 3KA contact are normally closed.

6. a kind of four station bus bar processing machine control circuits according to claim 1, its feature existsIn: described control circuit also comprises RCCB 1QF.