CN219659138U - Rubber core high-speed terminal inserting device of new energy connector - Google Patents

Abstract

The utility model provides a high-speed terminal inserting device for a rubber core of a new energy connector, which comprises a terminal feeding system, a rubber core feeding system, a pushing system and a cutting system, wherein the terminal feeding system comprises a bracket, a first terminal material roll assembly, a second terminal material roll assembly and a material belt discharging mechanism which are symmetrically arranged on the bracket, the material belt discharging mechanism is positioned at the middle position below the first terminal material roll assembly and the second terminal material roll assembly, the material belt discharging mechanism synchronously conveys material belts of the first terminal material roll assembly and the second terminal material roll assembly to the front of the corresponding pushing system, and the cutting system is positioned at least at one side of the material belt discharging mechanism and is used for cutting the material belt. The utility model realizes automatic rubber core terminal insertion, does not need extra action, greatly improves the production efficiency, shortens the time of rubber core terminal insertion and saves the cost.

Description

Rubber core high-speed terminal inserting device of new energy connector

Technical Field

The utility model belongs to the technical field of automatic machines, and particularly relates to a high-speed terminal inserting device for a rubber core of a new energy connector.

Background

The connector is an important accessory in the electronic industry, and comprises a plurality of terminals, wherein the terminals are connecting parts for realizing the communication of different conductors, are also called wiring terminals, and mainly play a role in transmitting electric signals or conducting electricity. Terminals are various in kinds, including single holes, double holes, sockets, etc., and can be classified into copper silver plating, copper zinc plating, copper, aluminum, etc., according to materials.

In the production of the connector, the terminals need to be inserted into the rubber core, and the conventional terminal insertion is the front insertion, because the terminal connecting material is in the positive direction of the terminals, and the front insertion of the terminals is realized by an adaptive machine. The terminal is inserted from the back of the rubber core to the inner cavity direction of the rubber core, the terminal material belt can only be connected to the outer side part, the terminal is processed in a manual assembly mode at present, the terminal is manually broken off from the material belt and then is implanted into the turnover cartridge clip, and then the terminal is inserted into the rubber core, one product is required to be clamped for four times, and according to the measurement, even a relatively skilled worker needs tens of seconds for processing a connector on average, the manual assembly is long in time consumption, low in yield and high in defective product rate.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present utility model is directed to a high-speed plug-in terminal device for a rubber core of a new energy connector, which can solve the above-mentioned technical problems.

In order to achieve the above purpose, the utility model provides a high-speed inserting terminal device for a new energy connector rubber core, which comprises a terminal feeding system, a rubber core feeding system, a pushing system and a cutting system, wherein the terminal feeding system comprises a bracket, a first terminal material roll assembly, a second terminal material roll assembly and a material belt blanking mechanism, the first terminal material roll assembly and the second terminal material roll assembly are symmetrically arranged on the bracket, the material belt blanking mechanism is positioned at a position below and in the middle of the first terminal material roll assembly and the second terminal material roll assembly, the material belt blanking mechanism enables material belts of the first terminal material roll assembly and the second terminal material roll assembly to be synchronously conveyed to the front of the corresponding pushing system, the rubber core feeding system comprises a rubber core material tray and a rubber core conveying material frame used for conveying rubber cores into the pushing system, the pushing system enables rubber cores to be inserted into the material belts of the corresponding first terminal material roll assembly and the second terminal material roll assembly, and the cutting system is positioned at least on one side of the material belt blanking mechanism for cutting the material belts.

Preferably, the material belt blanking mechanism comprises a material belt blanking base, a linear slide rail is arranged on the rear side surface of the material belt blanking base in the vertical direction, a material belt blanking driver is arranged at the upper end of the material belt blanking base, a material belt blanking connecting plate matched and connected with the linear slide rail is connected with the driving end of the material belt blanking driver, material belt blanking connecting plates are respectively arranged at two ends of the material belt blanking connecting plate, guide strips are arranged on the front side surface of the material belt blanking base, 2 guide grooves are formed in the front side surface of the guide strips, through holes communicated with the guide grooves are formed in the two side surfaces of the guide strips, and material belt blanking supporting plates penetrating through the through holes are arranged on the material belt blanking connecting side plates and used for enabling material belts to move downwards.

Preferably, the material belt blanking connecting side plate is provided with a material belt blanking connecting seat, and the material belt blanking supporting plate is in pin joint with the material belt blanking connecting seat.

Preferably, the material belt blanking mechanism further comprises a first material belt blanking strip and a second material belt blanking strip which are arranged below the first terminal material roll assembly and the second terminal material roll assembly, and the first material belt blanking strip and the second material belt blanking strip are provided with material belt blanking channels communicated with the guide grooves.

Preferably, the first material area unloading strip with second material area unloading strip symmetry sets up, first material area unloading strip includes guide panel and both sides board, guide panel is including last section of extending, mild section and the section of extending down that connects gradually, two correspond on the curb plate the section of extending down is provided with the baffle.

Preferably, the cutting system comprises a cutting guide block fixedly arranged on the material belt blanking base, a cutting groove is formed in the cutting guide block, a cutting knife capable of sliding in the cutting groove is arranged in the cutting groove, the cutting system further comprises a cutting driver, and the driving end of the cutting driver is connected with the cutting knife through a connecting rod mechanism.

Preferably, the link mechanism comprises a first link rod which is in pin joint with the driving end of the cutting driver, a second link rod which is in pin joint with the first link rod, and a third link rod which is in pin joint with the second link rod, wherein the second link rod is connected with the cutting knife, and the other end of the third link rod is fixed with the material belt blanking base.

Preferably, the terminal feeding system, at least a part of the rubber core feeding system, the pushing system and the cutting system are arranged on a frame, and a discharge hole is formed in the frame.

Preferably, the first terminal material roll assembly and the second terminal material roll assembly are both provided with a material pressing unit.

Preferably, the pressing unit comprises a pressing lower fixing block and a pressing upper fixing block, a pressing supporting rod is arranged between the pressing lower fixing block and the pressing upper fixing block, a pressing block is arranged on the pressing supporting rod, a spring is arranged between the pressing block and the pressing lower fixing block, a pressing rod is arranged on the pressing block, a rotating wheel is arranged on the pressing rod, and the rotating wheel acts on a material belt.

Compared with the prior art, through the implementation of the utility model, the following obvious technical effects are achieved:

according to the utility model, the first terminal material roll assembly and the second terminal material roll assembly are simultaneously fed downwards, so that the material belts of the first terminal material roll and the second terminal material roll are operated in front of the pushing system, the pushing system pushes the rubber core conveyed by the rubber core conveying frame forwards to the terminal of the material belts of the first terminal material roll and the terminal of the material belts of the second terminal material roll to be inserted into the rubber core, automatic rubber core terminal insertion is realized, no additional action is required, the production efficiency is greatly improved, the time for rubber core terminal insertion is shortened, and the cost is saved.

The conception and technical effects of the present utility model will be further described with reference to the accompanying drawings to fully understand the objects, features and effects of the present utility model.

Drawings

FIG. 1 is a schematic diagram of a high-speed plug-in terminal device for a rubber core of a new energy connector according to an embodiment of the present utility model;

FIG. 2 is a schematic view of another angle structure of a high-speed plug-in terminal device of a new energy connector according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a rubber core feeding system of a rubber core high-speed terminal inserting device of a new energy connector according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a first tape blanking strip of a high-speed plug-in terminal device for a new energy connector according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a tape discharging mechanism and a cutting system of a high-speed inserting terminal device for a rubber core of a new energy connector according to an embodiment of the present utility model;

fig. 6 is a schematic rear view of fig. 5.

Detailed Description

Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples. The utility model may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present utility model. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict.

It should be noted that the illustrations provided in the following embodiments merely illustrate the basic concept of the present utility model by way of illustration, and only the components related to the present utility model are shown in the illustrations, not according to the number, shape and size of the components in actual implementation, and the form, number and proportion of each component in actual implementation may be arbitrarily changed, and the layout of the components may be more complex.

Referring to fig. 1-6, a high-speed terminal inserting device for a rubber core of a new energy connector comprises a terminal feeding system 1, a rubber core feeding system 2, a pushing system 3 and a cutting system 4, wherein the terminal feeding system simultaneously conveys 2 terminal material belts downwards through the pushing system, the rubber core feeding system conveys the rubber core into the pushing system, the pushing system forwards pushes the rubber core into the rubber core, the cutting system cuts off the terminal material belts inserted into the rubber core, the action of full-automatic rubber core terminal inserting is realized, the production efficiency is greatly improved, and the production quality is guaranteed.

When the utility model is embodied, the terminal feeding system, the rubber core feeding system, the pushing system and the cutting system can form one module, the utility model can use one module for production, can also use 2 identical modules for working, and can be oppositely arranged on a workbench when the 2 identical modules are used for working.

Preferably, the terminal feeding system 1 includes a bracket 11, a first terminal material roll assembly 12 and a second terminal material roll assembly 13 symmetrically disposed on the bracket 11, and a material belt blanking mechanism 14, wherein the material belt blanking mechanism 14 is located at a position below and middle of the first terminal material roll assembly 12 and the second terminal material roll assembly 13, and the material belt blanking mechanism 14 enables the material belts of the first terminal material roll assembly 12 and the second terminal material roll assembly 13 to be synchronously conveyed to the front of the corresponding pushing system 3.

The rubber core feeding system 2 comprises a rubber core tray 21 and a rubber core feeding frame 22 for feeding rubber cores into the pushing system 3, the pushing system 3 enables the rubber cores to be inserted into the corresponding material belts of the first terminal material roll assembly 12 and the second terminal material roll assembly 13, and the cutting system 4 is located at least at one side of the material belt blanking mechanism and used for cutting the material belts.

In the implementation of the utility model, the terminal feeding system, at least a part of the rubber core feeding system, the pushing system and the cutting system are arranged on the frame 5, and the frame 5 is provided with a discharge hole.

More specifically, a feed box is arranged below the discharge hole.

And more specifically, a discharging cylinder is connected at the discharging hole.

Preferably, the material belt blanking mechanism 14 includes a material belt blanking base 141, a linear slide rail 142 is disposed in a vertical direction on a rear side surface of the material belt blanking base 141, a material belt blanking driver 143 is disposed at an upper end of the material belt blanking base 141, a material belt blanking connecting plate 144 cooperatively connected with the linear slide rail 142 is connected to a driving end of the material belt blanking driver 143, material belt blanking connecting plates 145 are disposed at two ends of the material belt blanking connecting plate 144 respectively, a guide strip 146 is disposed on a front side surface of the material belt blanking base 141, 2 guide grooves 147 are disposed on a front side surface of the guide strip 146, through holes 148 communicating with the guide grooves 147 are disposed on two side surfaces of the guide strip 146, material belt blanking supporting plates 149 penetrating through the through holes 148 are disposed on the material belt blanking connecting plates 149, and the material belt blanking supporting plates 149 are used for enabling the material belt to move downwards.

Preferably, the material belt discharging connecting side plate 145 is provided with a material belt discharging connecting seat 1410, and the material belt discharging supporting plate 149 is pinned to the material belt discharging connecting seat 1410.

Preferably, the material tape blanking mechanism 1 further includes a first material tape blanking strip 15 and a second material tape blanking strip 16 disposed below the first terminal material roll assembly 12 and the second terminal material roll assembly 13, and the first material tape blanking strip 15 and the second material tape blanking strip 16 are provided with a material tape blanking channel 17 that is in communication with the guide groove 147.

Preferably, the first material belt blanking strip 15 and the second material belt blanking strip 16 are symmetrically arranged, the first material belt blanking strip 15 includes a guide panel 151 and two side plates 152, the guide panel 151 includes an upper extension section, a gentle section and a lower extension section which are sequentially connected, and two side plates 152 are provided with baffles 153 corresponding to the lower extension sections.

More specifically, the discharging passage 17 is formed among the both side plates 152, the guide panel 151, and the baffle 153.

Preferably, the cutting system 4 includes a cutting guide block 41 fixedly arranged on the material belt blanking base 141, a cutting groove is provided on the cutting guide block 41, a cutting knife 42 capable of sliding in the cutting groove is provided in the cutting groove, the cutting system 4 further includes a cutting driver 43, and a driving end of the cutting driver 43 is connected with the cutting knife 42 through a link mechanism.

Preferably, the linkage mechanism includes a first link 44 pin-connected with the driving end of the cutting driver 43, a second link 45 pin-connected with the first link 44, and a third link 46 pin-connected with the second link 45, where the second link 45 is connected with the cutting knife 42, and the other end of the third link 46 is fixed with the material belt blanking base 141.

When the utility model is implemented, a single-side cutting system or a double-side cutting system can be arranged according to the distance between the material belts.

Preferably, the first terminal roll assembly 12 and the second terminal roll assembly 13 are both provided with a pressing unit 6.

Preferably, the pressing unit 6 includes a pressing lower fixing block 61 and a pressing upper fixing block 62, a pressing supporting rod 63 is disposed between the pressing lower fixing block 61 and the pressing upper fixing block 62, a pressing block 64 is disposed on the pressing supporting rod 63, a spring 65 is disposed between the pressing block 64 and the pressing lower fixing block 61, a pressing rod 66 is disposed on the pressing block 64, a rotating wheel 67 is disposed on the pressing rod 66, and the rotating wheel 67 acts on the material belt.

The above description is only illustrative of the preferred embodiments of the present utility model and of the principles of the technology employed. It will be appreciated by persons skilled in the art that the scope of the disclosure referred to in the present utility model is not limited to the specific combinations of technical features described above, but also covers other technical features formed by any combination of the technical features described above or their equivalents without departing from the spirit of the disclosure. Such as the above-mentioned features and the technical features disclosed in the present utility model (but not limited to) having similar functions are replaced with each other.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (10)

1. The utility model provides a new energy connector rubber core high-speed inserting terminal device which characterized in that, includes terminal feeding system, rubber core feeding system, pushing away material system and cuts the system, terminal feeding system include the support, set up in the symmetry first terminal material roll up subassembly and second terminal material roll up subassembly and material area unloading mechanism on the support, material area unloading mechanism is located first terminal material roll up subassembly with the position in the middle of the second terminal material roll up subassembly below, material area unloading mechanism makes first terminal material roll up subassembly the material area of second terminal material roll up the subassembly is synchronous to be carried to correspond pushing away the place ahead of material system, rubber core feeding system includes rubber core charging tray and is used for carrying the rubber core to the rubber core in pushing away the material system carries the work or material area of pushing away material system makes the rubber core cartridge to corresponding first terminal material roll up subassembly, second terminal material roll up the material area of subassembly, cut the system is located at least one side of material area unloading mechanism is used for cutting off the material area.

2. The high-speed inserting terminal device of the new energy connector rubber core according to claim 1, wherein the material belt blanking mechanism comprises a material belt blanking base, a linear sliding rail is arranged in the vertical direction on the rear side surface of the material belt blanking base, a material belt blanking driver is arranged at the upper end of the material belt blanking base, a material belt blanking connecting plate in matched connection with the linear sliding rail is connected with the driving end of the material belt blanking driver, material belt blanking connecting side plates are respectively arranged at two ends of the material belt blanking connecting plate, guide strips are arranged on the front side surface of the material belt blanking base, 2 guide grooves are formed on the front side surface of the guide strips, through holes communicated with the guide grooves are formed on the two side surfaces of the guide strips, material belt blanking supporting plates penetrating through the through holes are arranged on the material belt blanking connecting side plates, and the material belt blanking supporting plates are used for enabling material belts to move downwards.

3. The high-speed plug-in terminal device for the rubber core of the new energy connector according to claim 2, wherein the material belt blanking connecting base is arranged on the material belt blanking connecting side plate, and the material belt blanking supporting plate is in pin joint with the material belt blanking connecting base.

4. The high-speed plug terminal device of claim 2, wherein the tape blanking mechanism further comprises a first tape blanking strip and a second tape blanking strip disposed below the first terminal roll assembly and the second terminal roll assembly, and the first tape blanking strip and the second tape blanking strip are provided with a tape blanking channel in communication with the guide slot.

5. The high-speed terminal inserting device for the rubber cores of the new energy connectors according to claim 4, wherein the first material belt blanking strip and the second material belt blanking strip are symmetrically arranged, the first material belt blanking strip comprises a guide panel and two side plates, the guide panel comprises an upper extension section, a gentle section and a lower extension section which are sequentially connected, and a baffle is arranged on each side plate corresponding to each lower extension section.

6. The high-speed terminal inserting device for the rubber cores of the new energy connectors according to claim 2, wherein the cutting system comprises a cutting guide block fixedly arranged on the blanking base of the material belt, a cutting groove is formed in the cutting guide block, a cutting knife capable of sliding in the cutting groove is arranged in the cutting groove, and the cutting system further comprises a cutting driver, and a driving end of the cutting driver is connected with the cutting knife through a connecting rod mechanism.

7. The high-speed plug-in terminal device for the rubber core of the new energy connector according to claim 6, wherein the connecting rod mechanism comprises a first connecting rod which is in pin joint with the driving end of the cutting driver, a second connecting rod which is in pin joint with the first connecting rod, and a third connecting rod which is in pin joint with the second connecting rod, wherein the second connecting rod is connected with the cutting knife, and the other end of the third connecting rod is fixed with the blanking base of the material belt.

8. The high-speed terminal inserting device for the rubber cores of the new energy connectors according to claim 1, wherein the terminal feeding system, at least a part of the rubber core feeding system, the pushing system and the cutting system are arranged on a frame, and a discharge hole is arranged on the frame.

9. The high-speed plug-in terminal device for the new energy connector rubber core of claim 1, wherein the first terminal material roll assembly and the second terminal material roll assembly are both provided with material pressing units.

10. The high-speed terminal inserting device for the rubber cores of the new energy connectors according to claim 9, wherein the material pressing unit comprises a material pressing lower fixing block and a material pressing upper fixing block, a material pressing supporting rod is arranged between the material pressing lower fixing block and the material pressing upper fixing block, a material pressing block is arranged on the material pressing supporting rod, a spring is arranged between the material pressing block and the material pressing lower fixing block, a material pressing rod is arranged on the material pressing block, a rotating wheel is arranged on the material pressing rod, and the rotating wheel acts on a material belt.