CN219057739U - Automatic material moving mechanism of automatic connector electrical measurement device - Google Patents

Abstract

The utility model relates to an automatic material moving mechanism of an automatic connector electrical measurement device, which comprises a workbench, a material moving track, a feeding component and a material moving component, wherein the material moving component comprises a material moving cylinder arranged on the workbench, a material moving frame which is arranged in the material moving track in a sliding way and is in linkage fit with the material moving cylinder, a plurality of poking plates which are respectively arranged on the material moving frame in a rotating way and are used for poking a connector, and torsion springs arranged between the poking plates and the material moving frame. The utility model has the advantages of simple structure, stable and reliable performance and high electrical detection efficiency.

Description

Automatic material moving mechanism of automatic connector electrical measurement device

Technical Field

The utility model relates to the technical field of connectors, in particular to an automatic material moving mechanism of an automatic connector electrical measurement device.

Background

Currently, connectors, also referred to as contacts and sockets, are commonly referred to as electrical connectors. I.e. a device connecting two active devices, which carries a current or signal. The male and female terminals are capable of transmitting a message or current through contact, also referred to as a connector. When the pins of the electrical connector of the external device are in poor contact or incorrect contact with the pins of the electrical connector of the main device, the system electrifies the electrical connector of the main device, so that adverse effects can be caused to the internal circuit of the main device system or the external device. Therefore, manufacturers all detect the connector through the electric detection device, the structural design of an automatic material moving mechanism of the automatic electric detection device of the existing connector is complex, the electric detection efficiency is low, and the production requirement cannot be met.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides an automatic material moving mechanism of an automatic connector electrical measurement device, which has the advantages of simple structure, stable and reliable performance and high electrical detection efficiency.

In order to achieve the above purpose, the automatic material moving mechanism of the connector automatic electrical measurement device comprises a workbench, a material moving track arranged on the workbench, a feeding component arranged on the workbench and capable of pushing the connector into a guide rail groove of the material moving track, and a material moving component arranged on the workbench and capable of moving the connector in the guide rail groove, wherein the material moving component comprises a material moving cylinder arranged on the workbench, a material moving frame which is arranged in the material moving track in a sliding manner and is in linkage fit with the material moving cylinder, a plurality of poking plates which are respectively arranged on the material moving frame in a rotating manner and are used for poking the connector, and a torsion spring arranged between the poking plates and the material moving frame, wherein when the material moving frame moves forwards, the poking plates move along with the material moving frame and can drive the connector to move in a linkage manner, and form linkage fit between the connector and the poking plates, and when the material moving frame moves backwards, the poking plates are in free fit with the connector.

The beneficial effects of the structure are as follows: the material moving assembly drives the material moving frame to act through the material moving cylinder, the material moving frame can drive the plurality of poking plates, and the plurality of poking plates can respectively move the plurality of connectors forwards to the electric detection station, so that the automatic material moving of the automatic material moving mechanism is realized. And move the material rest and stir a plurality of connectors through a plurality of boards of stirring and remove, move material efficiency higher, be favorable to improving the electric detection efficiency of connector. Therefore, the automatic material moving mechanism of the connector electrical measurement device has the advantages of simple structure, stable and reliable performance and high electrical detection efficiency.

Particularly, one end of each stirring plate is provided with a stirring part extending in the guide rail groove, one side of each stirring part is provided with a stirring plane matched with the connector, the stirring plane acts along with the stirring plate and can be abutted against the connector, the connector is in linkage fit with the stirring plate, the other side of each stirring part is provided with a guiding cambered surface matched with the connector, and when the guiding cambered surface is abutted against the connector, the connector is in free fit with the stirring plate. When the poking plate moves forward, the poking plane moves forward along with the poking plate and can reliably poke the connector to move forward, and when the guide cambered surface moves backward along with the poking plate and can collide with the connector, the poking plate compresses the torsion spring, and the poking plate is retracted into the material moving frame, so that the poking plate can be prevented from driving the connector to move backward, and the working reliability of the automatic material moving mechanism is improved.

Particularly, move and be provided with the locating shaft on the work or material rest, stir the board other end and rotate and set up on the locating shaft, the torsional spring suit on the locating shaft, and torsional spring one end is contradicted in stirring the constant head tank of board, the torsional spring other end is contradicted in moving the work or material rest. The toggle plate rotates to be arranged on the positioning shaft of the material moving frame, so that the toggle plate is convenient to assemble with the material moving frame, the assembly is more convenient, and the reliable action of the toggle plate on the material moving frame can be ensured.

Particularly, a clamping block is arranged on a piston rod of the material moving cylinder, a clamping groove matched with the clamping block is arranged on the material moving frame, and the clamping block is clamped in the clamping groove and is matched with the clamping frame in a clamping way. The clamping block is assembled with the material moving frame in a clamping fit mode, so that the clamping block is convenient to assemble with the material moving frame, the assembly is more convenient, the material moving cylinder can be guaranteed to reliably drive the material moving frame, and the working reliability of the automatic material moving mechanism is improved.

The feeding assembly comprises a feeding cylinder arranged on the workbench and a feeding block which is in linkage with the feeding cylinder, wherein the feeding block is provided with a clamping groove matched with the connector, and the feeding block moves along with the feeding cylinder and can move the connector onto the guide rail groove. The feeding cylinder can move the connector to the guide rail groove through the feeding block, so that automatic feeding of the connector can be realized.

Drawings

Fig. 1 is a perspective view of an embodiment of the present utility model.

Fig. 2 is a top view of an embodiment of the present utility model.

Fig. 3 is a perspective view of a material handling assembly according to an embodiment of the present utility model.

Fig. 4 is an assembly diagram of a material moving rack and a toggle plate according to an embodiment of the present utility model.

Fig. 5 is a perspective view of a feeding assembly according to an embodiment of the present utility model.

Detailed Description

As shown in fig. 1 to 5, an automatic material moving mechanism of an automatic electrical connector measuring device according to an embodiment of the present utility model includes a workbench 10, a material moving rail 11 disposed on the workbench 10, a feeding component 20 disposed on the workbench 10 and capable of pushing the connector 12 into a guide rail groove 111 of the material moving rail 11, and a material moving component 30 disposed on the workbench 10 and capable of moving the connector 12 in the guide rail groove 11, wherein the material moving component 30 includes a material moving cylinder 31 disposed on the workbench 10, a material moving frame 32 slidingly disposed in the material moving rail 11 and in linkage with the material moving cylinder 31, a plurality of poking plates 33 respectively rotatably disposed on the material moving frame 32 and used for poking the connector 12, and torsion springs 34 disposed between the poking plates 33 and the material moving frame 32, wherein when the material moving frame 32 moves forward, the poking plates 33 move along with the material moving frame 32 and can drive the connector 12 to move, and form a linkage of the connector 12 and the poking plates 33, and when the material moving frame 32 moves backward, the poking plates 33 move freely with the connector 12. One end of each stirring plate 33 is provided with a stirring part 331 extending in the guide rail groove 111, one side of each stirring part 331 is provided with a stirring plane 332 matched with the connector 12, the stirring plane 332 acts along with the stirring plate 33 and can be abutted against the connector 12, the linkage matching of the connector 12 and the stirring plate 33 is formed, the other side of each stirring part 331 is provided with a guiding cambered surface 333 matched with the connector 12, and when the guiding cambered surface 333 is abutted against the connector 12, the connector 12 is in free matching with the stirring plate 33. When the poking plate moves forward, the poking plane moves forward along with the poking plate and can reliably poke the connector to move forward, and when the guide cambered surface moves backward along with the poking plate and can collide with the connector, the poking plate compresses the torsion spring, and the poking plate is retracted into the material moving frame, so that the poking plate can be prevented from driving the connector to move backward, and the working reliability of the automatic material moving mechanism is improved. The material moving frame 32 on be provided with the locating shaft 35, stir the board 33 the other end rotate and set up on the locating shaft 35, torsional spring 34 suit on the locating shaft 35, and torsional spring 34 one end conflict is in stir the constant head tank 334 of board 33, the torsional spring 34 the other end conflict is in moving the material frame 32. The toggle plate rotates to be arranged on the positioning shaft of the material moving frame, so that the toggle plate is convenient to assemble with the material moving frame, the assembly is more convenient, and the reliable action of the toggle plate on the material moving frame can be ensured. The piston rod 311 of the material moving cylinder 31 is provided with a clamping block 36, the material moving frame 32 is provided with a clamping groove 321 matched with the clamping block 36, and the clamping block 36 is clamped in the clamping groove 321 and is matched with the clamping frame 32 in a clamping way. The clamping block is assembled with the material moving frame in a clamping fit mode, so that the clamping block is convenient to assemble with the material moving frame, the assembly is more convenient, the material moving cylinder can be guaranteed to reliably drive the material moving frame, and the working reliability of the automatic material moving mechanism is improved.

As shown in fig. 1, 2 and 5, the feeding assembly 20 includes a feeding cylinder 21 disposed on the workbench 10, and a feeding block 22 disposed in linkage with the feeding cylinder 21, wherein a clamping groove 221 matched with the connector 12 is disposed on the feeding block 22, and the feeding block 22 moves along with the feeding cylinder 21 and can move the connector 12 onto the guide rail groove 111. The feeding cylinder can move the connector to the guide rail groove through the feeding block, and in operation, the feeding cylinder drives the feeding block to act, and the feeding block can move the connector on the feeding track of the vibration disc 13 to the guide rail groove, so that automatic feeding of the connector can be realized.

The material moving assembly drives the material moving frame to act through the material moving cylinder, the material moving frame can drive the plurality of poking plates, and the plurality of poking plates can respectively move the plurality of connectors forwards to the electric detection station, so that the automatic material moving of the automatic material moving mechanism is realized. And move the material rest and stir a plurality of connectors through a plurality of boards of stirring and remove, move material efficiency higher, be favorable to improving the electric detection efficiency of connector. Therefore, the automatic material moving mechanism of the connector electrical measurement device has the advantages of simple structure, stable and reliable performance and high electrical detection efficiency.

Claims (5)

1. An automatic material mechanism that moves of automatic electricity survey device of connector which characterized in that: including the workstation, set up on the workstation move the material track, set up on the workstation and can push the connector into the pay-off subassembly that moves in the orbital guide rail groove of material, set up on the workstation and can move the connector in the guide rail groove move the material subassembly, move the material subassembly including setting up on the workstation move the material cylinder, slide the setting move the work or material rest that moves the material track and with moving material cylinder linkage complex, a plurality of rotation respectively set up on moving the work or material rest and be used for stirring the stirring board of connector, set up a plurality of stirring boards and move the torsional spring between the work or material rest, move the work or material rest when moving forward, a plurality of stirring boards move and can drive the connector action along with moving the work or material rest, and constitute the linkage cooperation of connector and a plurality of stirring boards, move the work or material rest when back, a plurality of stirring boards and connector free cooperation.

2. The automatic material moving mechanism of the automatic electrical connector measuring device according to claim 1, wherein: one end of the plurality of poking plates is provided with poking parts extending in the guide rail grooves, one side of each poking part is provided with poking planes matched with the connectors, the poking planes move along with the poking plates and can be abutted against the connectors, the connector is matched with the poking plate in a linkage way, a guide cambered surface matched with the connector is arranged on the other side of the poking part, and when the guide cambered surface is abutted on the connector, the connector is matched with the poking plate freely.

3. The automatic material moving mechanism of the automatic electrical connector measuring device according to claim 1 or 2, wherein: the material moving frame is provided with a positioning shaft, the other end of the poking plate is rotationally arranged on the positioning shaft, the torsion spring is sleeved on the positioning shaft, one end of the torsion spring is abutted in the positioning groove of the poking plate, and the other end of the torsion spring is abutted in the material moving frame.

4. The automatic material moving mechanism of the automatic electrical connector measuring device according to claim 1 or 2, wherein: the piston rod of the material moving cylinder is provided with a clamping block, the material moving frame is provided with a clamping groove matched with the clamping block, and the clamping block is clamped in the clamping groove and is matched with the clamping block in a clamping way.

5. The automatic material moving mechanism of the automatic electrical connector measuring device according to claim 1 or 2, wherein: the feeding assembly comprises a feeding cylinder arranged on the workbench and a feeding block arranged in linkage with the feeding cylinder, wherein the feeding block is provided with a clamping groove matched with the connector, and the feeding block moves along with the feeding cylinder and can move the connector onto the guide rail groove.

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