CN219371647U - Binding post production facility - Google Patents

Abstract

The utility model discloses a binding post production device, which relates to the technical field of binding post production, and comprises: the feeding trolley, the working box body is internally provided with a working table; the middle of the workbench is provided with a rotating mechanism, eight stations are distributed around the rotating mechanism, eight product preassembling and positioning devices are respectively arranged at positions corresponding to the eight stations, and after the corresponding stations finish work, the product preassembling and positioning devices transmit products to the next station; wherein: the station IV is connected with the feeding trolley; and corresponding replacement parts are respectively arranged on the first station, the second station, the third station, the fourth station, the seventh station and the product pre-positioning device. The utility model has the advantages of high production process smoothness, short production period, good product quality, no need of manual operation, high safety, low labor intensity and low production cost.

Description

Binding post production facility

Technical Field

The utility model relates to the technical field of wiring terminal production, in particular to wiring terminal production equipment.

Background

The wire terminal is applied for facilitating the connection of wires, and is a section of metal sheet sealed in insulating plastic, holes are formed in two ends of the metal sheet, wires can be inserted into the metal sheet, screws are used for fastening or loosening, for example, two wires are required to be connected sometimes and disconnected sometimes, the wires can be connected by the terminal at any time and disconnected at any time, and the wires are not required to be welded or wound together, so that the wire terminal is convenient and quick.

The traditional wiring terminal has the advantages that the production procedures are numerous, each procedure can only be completed in one step, the semi-finished product logistics can be operated for many times, one punch press can complete thousands or even tens of thousands of semi-finished products each procedure every day, the operation is fully manual, the labor and time are wasted, the production efficiency is low, and the industrial accident is easy to occur. And the equipment parts are difficult to replace, and the equipment rejection rate is high.

Disclosure of Invention

First, the technical problem to be solved

The present utility model aims to propose a terminal production device with the aim of at least partially solving at least one of the above-mentioned technical problems.

(II) technical scheme

In order to solve the above technical problems, the present utility model provides a terminal production apparatus, including: the feeding trolley is connected with a working box body at one end of the feeding trolley, and a working table is arranged in the working box body;

the middle of the workbench is provided with a rotating mechanism, eight stations are distributed around the rotating mechanism on the workbench, eight product preassembling and positioning devices are respectively arranged at positions corresponding to the eight stations on the rotating mechanism, and after the corresponding stations finish working, the product preassembling and positioning devices transmit products to the next station; wherein:

the first to fourth stations are respectively matched with the corresponding product preassembling and positioning devices to cut and assemble the raw materials into products; the station IV is connected with the feeding trolley;

the station five comprises: a baking member;

station six includes: a cooling member;

station seven includes: the clamping piece, the conveying mechanism and the receiving box are arranged at the conveying end of the conveying mechanism;

and corresponding replacement parts are respectively arranged on the first station, the second station, the third station, the fourth station, the seventh station and the product pre-positioning device.

According to a preferred embodiment of the present utility model, the rotation mechanism includes: the device comprises an eight-position cam divider and a disc arranged above the eight-position cam divider, wherein the disc is equally divided into eight working areas, and each working area is internally provided with a product preassembling and positioning device and a replacement piece corresponding to the product preassembling and positioning device.

According to a preferred embodiment of the utility model, the product pre-loading positioning device comprises: the device comprises a moving mechanism and a positioning rod, wherein the moving mechanism is radially arranged along the disc, and the positioning rod is arranged on the moving mechanism; after the corresponding station finishes working, the moving mechanism moves along the radial direction of the disc to a direction far away from the center of the disc, so that after the semi-finished product on the corresponding station is sleeved on the positioning rod, the moving mechanism returns in the original way, and the eight-position cam divider drives the product preassembling and positioning device to the next station; each working area is further provided with a concave storage chamber, and a replacement piece corresponding to the product pre-positioning device is placed in the storage chamber: and a positioning rod.

According to a preferred embodiment of the present utility model, the connection terminal is a tin ring thermoplastic connection terminal, comprising: the first ring and the second ring, the tin ring arranged between the first ring and the second ring, and the heat-shrinkable sleeve sleeved outside the first ring, the tin ring and the second ring;

the first station and the third station have the same structure and both comprise: endless loop transport mechanism, first vertical cutting member, station one and the replacement piece that station three corresponds: the roller and the first finger grip cylinder;

according to a preferred embodiment of the present utility model, the endless loop transport mechanism and the first vertical cutting member are radially adjacent along the disc and are both provided on the first base, the endless loop transport mechanism comprising: two rollers oppositely arranged along the tangential direction of the disc, and a first finger-clamping cylinder arranged on the side of the roller close to the disc; the first vertical cutter includes: the first vertical support and locate the first slip cutting unit on the first vertical support, first slip cutting unit is located the top of first finger clamp cylinder, first base still is equipped with the first memory cell of indent, gyro wheel and first finger clamp cylinder have been placed in the first memory cell.

According to a preferred embodiment of the present utility model, the second station includes: tin ring pushing mechanism, and the replacement piece that station two corresponds: a guide slot and a connecting disc;

the tin ring pushing mechanism comprises a second vertical support arranged on a second base and a lifting cylinder capable of moving along the second vertical support, the tin ring pushing mechanism is arranged at the side end of the lifting cylinder, and the tin ring pushing mechanism comprises: the guide groove is arranged on the direct vibration device, a second finger clamping cylinder is arranged at the first side end of the direct vibration device, and the second side end of the direct vibration device is fixed at the side end of the lifting cylinder through the connecting disc; wherein: the first side end is perpendicular to and adjacent to the second side end, the second base is further provided with a second storage chamber which is concave downwards, and a guide groove and a connecting disc are arranged in the second storage chamber.

According to a preferred embodiment of the utility model, the station four comprises: heat shrinkage bush holder, second vertical cutting member, the replacement piece that station four corresponds: a front finger clamping cylinder;

the heat shrinkage bush holder is including locating the displacement cylinder on the third base, be equipped with the third finger on the displacement cylinder and press from both sides the cylinder, be equipped with front end finger along disc radial distance displacement cylinder assigned position department on the third base and press from both sides the cylinder, the vertical cutting member of second includes: the third vertical support and locate the second slip cutting unit on the third support, the third base still is equipped with the third memory cell of indent, the front end finger clamp cylinder has been placed in the third memory cell.

According to a preferred embodiment of the utility model, the conveying mechanism is arranged on a fifth base, the clamping piece is arranged above one end, close to the product preassembly positioning device, of the conveying mechanism, a fifth concave storage chamber is further arranged on the fifth base, and a replacing piece corresponding to the station seven is arranged in the fifth storage chamber: and a clamping piece.

According to a preferred embodiment of the utility model, the working box body is provided with an opening, the conveying mechanism passes through the opening, and the material receiving box is arranged outside the working box body at the conveying end of the conveying mechanism.

According to a preferred embodiment of the utility model, the cartridge comprises: the rotary disc is arranged on the upper surface of the box body, the cylinder is arranged on the side face of the box body and pushes the rotary disc to rotate, and a plurality of receiving barrels are arranged on the rotary disc.

(III) beneficial effects

According to the wiring terminal production equipment provided by the utility model, the feeding trolley is connected with the working box body, the working table is arranged in the working box body, eight stations are distributed around the working table by arranging the rotating mechanism in the middle of the working table, eight product preassembling and positioning devices are respectively arranged at positions corresponding to the eight stations on the rotating mechanism, and after the corresponding stations finish working, the rotating mechanism drives the corresponding product preassembling and positioning devices to convey products to the next station for continuous assembly, so that automatic assembly of the wiring terminal is completed. Wherein: the first to fourth stations are respectively matched with the corresponding product preassembling and positioning devices to cut and assemble the raw materials into products; and the product is baked and shaped through the baking piece at the station five, the product is cooled through the cooling piece at the station six, and the product is conveyed to the receiving box through the clamping piece and the conveying mechanism at the station seven. Thereby realizing the automation of the whole processing procedures of feeding, assembling, baking, air cooling and conveying of the wiring terminal. Compared with the prior art, the utility model has at least the following beneficial effects:

1. the automatic feeding, assembling, baking, air cooling and conveying of the whole processing process of the wiring terminal are realized, the production period of the wiring terminal is shortened, the production efficiency of the wiring terminal is improved, and the production cost is reduced.

2. Corresponding replacement parts are further arranged on the first station, the second station, the third station, the fourth station, the seventh station and the product pre-positioning device respectively, so that the replacement of parts easy to wear is facilitated, and the service life of equipment is prolonged.

3. The method has the advantages of high production process fluency, short production period, good product quality, no need of manual operation, high safety, low labor intensity and low production cost.

Drawings

Fig. 1a is a schematic perspective view of a terminal block production apparatus of the present utility model;

FIG. 1b is a top view of FIG. 1 a;

FIG. 2 is a schematic view showing the appearance of the terminal manufacturing apparatus of the present utility model;

FIG. 3 is a schematic view of the rotary mechanism of the present utility model;

FIG. 4 is a schematic diagram of the structure of the product preassembly positioning device of the present utility model;

FIG. 5 is a schematic view of a terminal structure according to the present utility model;

FIG. 6 is a schematic diagram of the construction of either station one or station three of the present utility model;

FIG. 7 is a schematic view of the construction of station two of the present utility model;

FIG. 8 is a schematic view of the construction of station four of the present utility model;

FIG. 9 is a schematic view of the construction of station five of the present utility model;

FIG. 10 is a schematic view of the construction of station six of the present utility model;

FIG. 11 is a schematic view of the construction of station seven of the present utility model;

fig. 12 is a schematic structural view of the receiving box of the present utility model.

Detailed Description

In describing particular embodiments, specific details of construction, performance, effects, or other features are set forth in order to provide a thorough understanding of the embodiments by those skilled in the art. It is not excluded, however, that one skilled in the art may implement the present utility model in a particular situation in a solution that does not include the structures, properties, effects, or other characteristics described above.

The block diagrams in the figures generally represent functional entities and do not necessarily correspond to physically separate entities. That is, the functional entities may be implemented in software, or in one or more hardware modules or integrated circuits, or in different network and/or processing unit means and/or microcontroller means.

The same reference numerals in the drawings denote the same or similar elements, components or portions, and thus repeated descriptions of the same or similar elements, components or portions may be omitted hereinafter. It will be further understood that, although the terms first, second, third, etc. may be used herein to describe various devices, elements, components or portions, these devices, elements, components or portions should not be limited by these terms. That is, these phrases are merely intended to distinguish one from the other. For example, a first device may also be referred to as a second device without departing from the spirit of the utility model. Furthermore, the term "and/or," "and/or" is meant to include all combinations of any one or more of the items listed.

The present utility model will be further described in detail below with reference to specific embodiments and with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present utility model more apparent.

The present utility model provides a terminal manufacturing apparatus for automatically manufacturing a ring-shaped terminal, as shown in fig. 1a,1b and 2, comprising: a feeding trolley 12, a working box body 11 connected with one end of the feeding trolley 12, and a working table 1 arranged in the working box body 11; wherein:

a feeding trolley 12 for feeding raw materials to the table 1. Illustratively, the feed carriage 12 is provided with an air-generating device. Wherein: the feed carriage 12 may include: the cuboid support that comprises eight bracing pieces, can set up four can brake the pulley under the support to promote the pay-off dolly 12 slip when moving, when not needing to move, fixed pay-off dolly 12 through the braking structure. The gas making apparatus may include: mute oil-free air compressor, freezing type dryer box three-stage filter.

As shown in fig. 1a to 1b, a rotary mechanism is arranged in the middle of the workbench 1, eight stations are distributed around the workbench 1, eight product preassembly positioning devices 21 are respectively arranged at positions corresponding to the eight stations on the rotary mechanism, and after the corresponding stations complete work, the product preassembly positioning devices 21 transmit products to the next station; wherein:

the first station 31 to the fourth station 34 are respectively matched with the corresponding product preassembly positioning devices 21 to cut and assemble the raw materials into products;

station five 35 includes: a baking member;

station six 36 includes: a cooling member;

station seven 37 includes: the clamping piece and the conveying mechanism are arranged at the receiving box at the conveying end of the conveying mechanism.

Station eight is a void (not shown).

The working box 11 is provided with an opening, the conveying mechanism penetrates through the opening, and the material receiving box is arranged outside the working box 11 at the conveying end of the conveying mechanism. Wherein: the conveying mechanism has two ends in the conveying direction, one end is positioned on the station seven 37, and the conveying end of the conveying mechanism refers to one end of the conveying mechanism away from the station seven 37.

In this embodiment, the first, second, third, fourth, and seventh product positioning devices 21 are respectively provided with corresponding replacement parts, so that after the equipment is used for a period of time, the replacement of parts easy to wear is facilitated, and the service life of the equipment is prolonged.

In one embodiment, as shown in fig. 3, the rotation mechanism includes: the device comprises an eight-position cam divider (not shown) and a disc 22 arranged above the eight-position cam divider, wherein the disc 22 is uniformly divided into eight working areas, and a product preassembling and positioning device 21 is arranged in each working area. Thus, after one station finishes the work, the product is placed on the product preassembling and positioning device 21, and the cam divider drives the disc 22 and the product preassembling and positioning device 21 to rotate 45 degrees, so that the product reaches the corresponding position of the next station. Wherein: the rotation direction is the same as the arrangement direction of the first to eighth stations 31.

As shown in fig. 4, the product preassembly positioning device 21 includes: a moving mechanism 211 radially arranged along the disc 22 and a positioning rod 212 arranged on the moving mechanism 211; after the corresponding station finishes working, the moving mechanism 211 moves along the radial direction of the disc 22 to a direction far away from the center of the disc 22, so that after the semi-finished product on the corresponding station is sleeved on the positioning rod 212, the moving mechanism 211 returns in the original way, and the eight-position cam divider drives the product preassembling and positioning device 21 to the next station. Wherein: the moving mechanism 211 may include: the bottom of the support is provided with a groove, and a sliding piece embedded in the groove, and the positioning rod 212 is arranged at the free end of the sliding piece. Further, in order to ensure stable sliding, one end of the bracket can be fixed on the vertical plate, the sliding rod is fixed on the vertical plate below the bracket, and the sliding piece is embedded in the groove and sleeved on the sliding rod.

Further, each working area is further provided with a concave storage chamber, and a replacement piece corresponding to the product pre-positioning device 21 is placed in the storage chamber: positioning rod 212. When the positioning rod 212 is worn out, the replacement positioning rod 212 is taken out from the storage chamber to be replaced.

Fig. 5 is a schematic structural view of a connection terminal produced by the present utility model, wherein the connection terminal is a tin ring thermoplastic connection terminal, and includes: a first ring 01 and a second ring 02, a tin ring 03 arranged between the first ring 01 and the second ring 02, and a heat-shrinkable sleeve 04 sleeved outside the first ring 01, the tin ring 03 and the second ring 02; in the terminal production apparatus, the first station 31 and the third station 33 are used for cutting and assembling the first ring 01 and the second ring 02 respectively in cooperation with the corresponding product preassembling and positioning device 21, so as to fig. 6, the first station 31 and the third station 33 have the same structure, and each includes: a loop transport mechanism and a first vertical cutter; wherein: the loop pipe conveying mechanism and the first vertical cutting member are radially adjacent along the disc 22 and are both arranged on the first base 301, and the loop pipe conveying mechanism comprises: two rollers 302 oppositely arranged along the tangential direction of the disc 22, and a first finger-clamping cylinder 304 arranged on the side of the roller 302 close to the disc 22, wherein: the first finger grip cylinder 304 may be disposed on a stand. The first vertical cutter includes: the finger grip comprises a first vertical support 303 and a first sliding cutting unit 305 arranged on the first support 303, wherein the first sliding cutting unit 305 is positioned above the finger grip cylinder 304, and the first sliding cutting unit 305 comprises a cylinder and a blade arranged at the bottom of the cylinder. When the device works, the ring pipe is clamped between the two rollers 302 and conveyed towards the direction of the disc 22 to reach the position of the first finger clamping cylinder 304, the first finger clamping cylinder 304 clamps the head of the blue pipe, the cylinder pushes the blade to move the cutting ring pipe downwards to obtain a first ring 01 or a second ring 02, the first finger clamping cylinder 304 rotates 180 degrees, the first ring 01 or the second ring 02 is inserted into the positioning rod 212 of the product preassembling and positioning device 21, and the product preassembling and positioning rod 212 rotates to the next station. Further, the first station 31 further includes: a replacement corresponding to station one 31; station three 33 further comprises: station three 33 for replacement. In this embodiment, the replacement for the first station 1 and the third station 33 is: a roller 302 and a first finger grip cylinder 304; specifically, the first base 301 is further provided with a first concave storage chamber, and a roller 302 for replacement and a first finger grip cylinder 304 for replacement are placed in the first storage chamber.

The second station 32 is configured to cut and assemble the tin ring 03 in cooperation with the corresponding product preassembly positioning device 21, so, as shown in fig. 7, the second station 32 includes: a tin ring pushing mechanism and a tin ring pushing mechanism; the tin ring pushing mechanism comprises a second vertical bracket 322 arranged on a second base 321, and a lifting cylinder 323 capable of moving along the second vertical bracket 322, the tin ring pushing mechanism is arranged at the side end of the lifting cylinder 323, and the tin ring pushing mechanism comprises: the guide groove 324 is arranged on the vibrator 325, a second finger-clamping cylinder 326 is arranged at the first side end of the vibrator 325, and the second side end of the vibrator 325 is fixed at the side end of the lifting cylinder 323 through a connecting disc 327; wherein: the first side end is perpendicular to and adjacent to the second side end. In operation, the vibrator 325 shakes the solder ring 03 down along the guide groove 324, the second finger clamping cylinder 326 clamps the solder ring 03, the lifting cylinder 323 descends to align the solder ring 03 with the positioning rod 212 of the product preassembly positioning device 21, the positioning rod 212 is inserted into the solder ring 03, and the first ring 01 and the solder ring 03 rotate to the next station along with the positioning rod 212. Further, station two 32 further includes: replacement part corresponding to station one 32: guide slot 324 and connection disk 327. Specifically, the second base 321 is further provided with a second storage chamber that is concave, and a guide groove 324 and a connecting disc 327 for replacement are disposed in the second storage chamber.

The fourth station 34 is for cutting and assembling the heat-shrinkable sleeve 04 in cooperation with the corresponding product preassembly positioning device 21, and thus, as shown in fig. 8, the fourth station 34 includes: a heat shrink tube holder and a second vertical cutter; the heat shrinkage bush holder is including locating the displacement cylinder 342 on the third base 341, be equipped with the third finger-grip cylinder 343 on the displacement cylinder 342, be equipped with front end finger-grip cylinder 344 along disc 22 radial distance displacement cylinder 342 assigned distance department on the third base 241, the vertical cutting member of second is located front end finger-grip cylinder 343 with between the displacement cylinder 342, the vertical cutting member of second includes: a third vertical bracket 345, and a second sliding cutting unit 346 provided on the third vertical bracket 345, and optionally, the second sliding cutting unit 346 includes a cylinder and a blade provided at the bottom of the cylinder. In operation, the third finger-clamping cylinder 343 clamps the heat-shrinkable sleeve raw material, the displacement cylinder 342 forwards conveys the heat-shrinkable sleeve raw material to the front finger-clamping cylinder 344, the front finger-clamping cylinder 344 also clamps the heat-shrinkable sleeve raw material, the cylinder pushes the blade to move downwards to cut the heat-shrinkable sleeve raw material to obtain the heat-shrinkable sleeve 04, the positioning rod 212 of the product preassembly positioning device 21 is inserted into the heat-shrinkable sleeve 04, and the first ring 01, the tin ring 02, the second ring 03 and the heat-shrinkable sleeve 04 are assembled to form a wiring terminal blank body, and the wiring terminal blank body is rotated to the next station along with the positioning rod 212. Further, station four 34 also includes: replacement for station four 34: front finger grip cylinder 344. Specifically, the third base 241 is further provided with a third storage chamber that is concave, and a front end finger-clip cylinder 344 is disposed in the third storage chamber.

The fifth station 35 is configured to cooperate with the corresponding product preassembling and positioning device 21 to bake and shape the product, so the fifth station 35 includes: a baking member; alternatively, the baking member may employ a heat gun. As shown in fig. 9, the heat gun includes: the hot air cavity 351 and the hot air supply device 352 connected with the hot air cavity 351 through a conduit, and the hot air cavity 351 is arranged on the fourth vertical bracket 353. When the product preassembling and positioning device works, the positioning rod 212 of the product preassembling and positioning device 21 inserts a blank into the hot air cavity 351 for baking and shaping, the dormancy and the working mode of the hot air cavity 351 are controlled through the program sensing signals, and after baking is finished, the positioning rod 212 rotates the baked wiring terminal to the next station.

The sixth station 36 is configured to cooperate with the corresponding product preassembly positioning device 21 to cool the product, so that the sixth station 36 includes: a cooling member; alternatively, the cooling member may use an air cooling tank, as shown in fig. 10, where the air cooling tank includes: a fifth vertical support 361 and an air cooling cavity 362 mounted on the fifth vertical support 361. During operation, the positioning rod 212 of the product preassembling and positioning device 21 inserts the wiring terminal into the air cooling cavity 362 for cooling, and after the cooling is finished, the positioning rod 212 rotates the cooled wiring terminal to the next station.

The station seven 37 is used for conveying the finished product to the receiving box in cooperation with the corresponding product preassembly positioning device 21. Thus, as in fig. 11, station seven 37 includes: clamping piece 371, transport mechanism 372, cartridge receiving cartridge 377, wherein: the conveying mechanism 372 is arranged on the fifth base 373, the clamping piece 371 is arranged above one end, close to the product preassembly positioning device 21, of the conveying mechanism 372, a concave fifth storage chamber is further arranged on the fifth base 373, and a replacing piece corresponding to the station seven is arranged in the fifth storage chamber: the clamping piece 373, the clamping piece 371 can adopt a finger clamping cylinder. Further, the station seven 37 can also detect defective products and finished products through a detection mechanism arranged on the conveying mechanism, and the defective products and the finished products are respectively placed into a defective product box and a receiving box. Therefore, the conveying mechanism 372 may be further provided with a detecting mechanism and a defective box. The detection mechanism includes: the detecting unit 374, the photographing judging unit 375 and the blowing mechanism 376 are sequentially arranged on the conveying mechanism 372 along the conveying direction, and the defective box is arranged at the position corresponding to the blowing mechanism 376 on the first side of the conveying mechanism 372. Wherein: the conveying mechanism 373 may be a belt roller, the detecting unit 374 may be an optical fiber detecting module, and the photographing judging unit 375 may be a visual camera. The blowing mechanism 376 includes: an opto-electronic switch provided on a first side of the transfer mechanism 372 and a nozzle provided on a second side of the transfer mechanism 372, the first side being opposite the second side and perpendicular to the transfer direction. During operation, the finger clamps the cylinder and clamps binding post, binding post drops on transport mechanism 372 through the guide slot and removes along with transport mechanism 372, and optical fiber detection module detects behind the binding post pass with signal transmission for the vision camera, and the vision camera is photographed and is judged whether binding post is qualified, when judging inequality, sends the signal to photoelectric switch, and when photoelectric switch detected inequality binding post, the point type nozzle work blows in the defective product box with inequality binding post, and passing binding post continues to remove to receiving box 377 along with transport mechanism 372.

Wherein: the receiving box 377 is disposed at an end of the conveying mechanism 372 away from the product preassembly positioning device 21, as shown in fig. 12, the receiving box 377 includes: the box body 3751, locate the rotary disk 3752 of box body 3751 upper surface and locate the box body 3751 medial surface promotes the cylinder 3753 of rotary disk 3751 rotation, be equipped with a plurality of receiving bucket 3754 on the rotary disk 3751. When the product is conveyed to the receiving boxes 377 along the conveying mechanism 372, the product falls into the receiving barrels 3754, each receiving barrel 3754 can accommodate a preset number (such as 20) of connecting terminals, at this time, a counter can be arranged on the conveying mechanism 372 at a preset distance from the receiving boxes 377, after the value of the counter reaches the preset number, the control cylinder 3753 pushes the rotating disc 3751 to rotate, so that the next receiving barrel 3754 is located at a corresponding position of the conveying mechanism 372, and the next receiving barrel 3754 continues to receive the connecting terminals.

According to the wiring terminal production equipment provided by the utility model, the rotary mechanism is arranged in the middle of the workbench 1, eight stations are distributed around the workbench 1, eight product preassembly positioning devices 21 are respectively arranged at positions corresponding to the eight stations on the rotary mechanism, and after the corresponding stations finish work, the rotary mechanism drives the corresponding product preassembly positioning devices 21 to convey products to the next station for continuous assembly; wherein: the first station 31 to the fourth station 34 are respectively matched with the corresponding product preassembly positioning devices 21 to cut and assemble the raw materials into products; station five 35 toasts the design through toasting the piece to the product, and station six 36 cools off the product through the cooling element, and station seven 37 conveys the finished product to receiving box 377 through clamping part 371, transport mechanism 372. Therefore, automation of the whole processing procedures of feeding, assembling, baking, cooling and conveying of the binding post is realized, the production period of the binding post is shortened, the production efficiency of the binding post is improved, and the production cost is reduced. The method has the advantages of high production process fluency, short production period, good product quality, no need of manual operation, high safety, low labor intensity and low production cost.

The above-described specific embodiments further describe the objects, technical solutions and advantageous effects of the present utility model in detail, and it should be understood that the present utility model is not inherently related to any particular computer, virtual device or electronic apparatus, and various general-purpose devices may also implement the present utility model. The foregoing description of the embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (10)

1. A terminal manufacturing apparatus, comprising: the feeding trolley is connected with a working box body at one end of the feeding trolley, and a working table is arranged in the working box body;

the middle of the workbench is provided with a rotating mechanism, eight stations are distributed around the rotating mechanism on the workbench, eight product preassembling and positioning devices are respectively arranged at positions corresponding to the eight stations on the rotating mechanism, and after the corresponding stations finish working, the product preassembling and positioning devices transmit products to the next station; wherein:

the first to fourth stations are respectively matched with the corresponding product preassembling and positioning devices to cut and assemble the raw materials into products; the station IV is connected with the feeding trolley;

the station five comprises: a baking member;

station six includes: a cooling member;

station seven includes: the clamping piece, the conveying mechanism and the receiving box are arranged at the conveying end of the conveying mechanism;

and corresponding replacement parts are respectively arranged on the first station, the second station, the third station, the fourth station, the seventh station and the product pre-positioning device.

2. The terminal production apparatus according to claim 1, wherein the rotating mechanism includes: the device comprises an eight-position cam divider and a disc arranged above the eight-position cam divider, wherein the disc is equally divided into eight working areas, and each working area is internally provided with a product preassembling and positioning device and a replacement piece corresponding to the product preassembling and positioning device.

3. The terminal manufacturing apparatus of claim 2, wherein the product pre-loading positioning device comprises: the device comprises a moving mechanism and a positioning rod, wherein the moving mechanism is radially arranged along the disc, and the positioning rod is arranged on the moving mechanism; after the corresponding station finishes working, the moving mechanism moves along the radial direction of the disc to a direction far away from the center of the disc, so that after the semi-finished product on the corresponding station is sleeved on the positioning rod, the moving mechanism returns in the original way, and the eight-position cam divider drives the product preassembling and positioning device to the next station; each working area is further provided with a concave storage chamber, and a replacement piece corresponding to the product pre-positioning device is placed in the storage chamber: and a positioning rod.

4. A terminal block manufacturing apparatus as set forth in claim 3, wherein said terminal block is a tin ring thermoplastic terminal block comprising: the first ring and the second ring, the tin ring arranged between the first ring and the second ring, and the heat-shrinkable sleeve sleeved outside the first ring, the tin ring and the second ring;

the first station and the third station have the same structure and both comprise: endless loop transport mechanism, first vertical cutting member, station one and the replacement piece that station three corresponds: the roller and the first finger grip cylinder.

5. The terminal production facility of claim 4, wherein the grommet delivery mechanism and the first vertical cutting member are radially adjacent along the disc and are each disposed on the first base, the grommet delivery mechanism comprising: two rollers oppositely arranged along the tangential direction of the disc, and a first finger-clamping cylinder arranged on the side of the roller close to the disc; the first vertical cutter includes: the first vertical support and locate the first slip cutting unit on the first vertical support, first slip cutting unit is located the top of first finger clamp cylinder, first base still is equipped with the first memory cell of indent, gyro wheel and first finger clamp cylinder have been placed in the first memory cell.

6. The terminal manufacturing apparatus of claim 4, wherein the second station comprises: tin ring pushing mechanism, and the replacement piece that station two corresponds: a guide slot and a connecting disc;

the tin ring pushing mechanism comprises a second vertical support arranged on a second base and a lifting cylinder capable of moving along the second vertical support, the tin ring pushing mechanism is arranged at the side end of the lifting cylinder, and the tin ring pushing mechanism comprises: the guide groove is arranged on the direct vibration device, a second finger clamping cylinder is arranged at the first side end of the direct vibration device, and the second side end of the direct vibration device is fixed at the side end of the lifting cylinder through the connecting disc; wherein: the first side end is perpendicular to and adjacent to the second side end, the second base is further provided with a second storage chamber which is concave downwards, and a guide groove and a connecting disc are arranged in the second storage chamber.

7. The terminal manufacturing apparatus of claim 4, wherein said station four comprises: heat shrinkage bush holder, second vertical cutting member, the replacement piece that station four corresponds: a front finger clamping cylinder;

the heat shrinkage bush holder is including locating the displacement cylinder on the third base, be equipped with the third finger on the displacement cylinder and press from both sides the cylinder, be equipped with front end finger along disc radial distance displacement cylinder assigned position department on the third base and press from both sides the cylinder, the vertical cutting member of second includes: the third vertical support and locate the second slip cutting unit on the vertical support of third, the third base still is equipped with the third memory cell of indent, the front end finger clamp cylinder has been placed in the third memory cell.

8. The terminal production facility of claim 4, wherein the transport mechanism is disposed on a fifth base, the clamping member is disposed above one end of the transport mechanism near the product preassembly positioning device, a fifth concave storage chamber is further disposed on the fifth base, and a replacement member corresponding to the seventh station is disposed in the fifth storage chamber: and a clamping piece.

9. The terminal manufacturing apparatus of claim 8, wherein the working housing is provided with an opening through which the transfer mechanism passes, and the magazine is provided at a transfer end of the transfer mechanism outside the working housing.

10. The terminal production apparatus according to claim 9, wherein: the material receiving box comprises:

the rotary disc is arranged on the upper surface of the box body, the cylinder is arranged on the side face of the box body and pushes the rotary disc to rotate, and a plurality of receiving barrels are arranged on the rotary disc.