An assembly apparatus for terminals and hoses

Abstract

The application provides a terminal and rubber tube assembling device, which comprises a rubber tube feeding mechanism, a terminal feeding mechanism and a rubber tube terminal assembling mechanism, the rubber tube feeding mechanism and the terminal feeding mechanism are arranged on one side of the rubber tube terminal assembling mechanism, the rubber tube feeding mechanism is used for feeding rubber tubes into the rubber tube terminal assembling mechanism, the terminal feeding mechanism is used for feeding terminals into the rubber tube terminal assembling mechanism, the rubber tube terminal assembling mechanism is used for assembling rubber tubes on terminals, the rubber tube terminal assembling mechanism comprises a rotating disc device, a rubber tube detecting device, a rubber tube hole expanding device, a rubber tube terminal riveting device and a discharging device, the rubber tube detecting device is used for detecting whether there is a rubber tube in the rotating disc device, the rubber tube hole expanding device is used for expanding the inner hole of the upper end of the rubber tube, the rubber tube terminal riveting device is used for riveting and pressing the rubber tube on the terminal, and the discharging device is used for discharging the terminal. In conclusion, the application does not need manual operation, greatly reduces the labor intensity of workers, and improves the assembling efficiency of terminals and rubber sleeves.

Description

Technical Field

[0001] This application relates to the field of terminal and hose assembly equipment, and particularly to a terminal and hose assembly equipment. Background Technology

[0002] In the existing assembly of terminals and tubing, the operator first fixes one end of the terminal to the clamp, and then puts the tubing over the top of the terminal. After the tubing and terminal are assembled, the other end of the tubing needs to be enlarged to facilitate the wire being guided into the tubing for assembly. In the existing technology, the above operations are performed manually, which not only results in high labor intensity for workers, but also low assembly efficiency. Summary of the Invention

[0003] The purpose of this invention is to provide an assembly device for terminals and hoses that can reduce the labor intensity of workers and improve assembly efficiency.

[0004] To achieve the above objectives, this application provides the following technical solution:

[0005] An assembly device for terminals and hoses includes a hose feeding mechanism, a terminal feeding mechanism, and a hose-terminal assembly mechanism. The hose feeding mechanism and the terminal feeding mechanism are respectively disposed on one side of the hose-terminal assembly mechanism. The hose feeding mechanism is used to feed hoses into the hose-terminal assembly mechanism, and the terminal feeding mechanism is used to feed terminals into the hose-terminal assembly mechanism. The hose-terminal assembly mechanism is used to assemble hoses onto terminals. The hose-terminal assembly mechanism includes a turntable device and a hose detection device, a hose enlarging device, a hose terminal riveting device, and a unloading device arranged around the turntable device according to the processing steps. The hose detection device is used to detect whether there is hose in the turntable device. The hose enlarging device is used to enlarge the inner hole at the upper end of the hose. The hose-terminal riveting device is used to rivet the hose on the turntable device onto the terminal. The unloading device is used to unload the terminal after riveting the hose.

[0006] In one possible implementation, the turntable device includes a turntable surface, a turntable drive assembly, a turntable transmission assembly, and a material support plate. The material support plate is disposed at the bottom of the turntable surface, and the turntable surface is provided with a plurality of material discharge holes for placing rubber tubes. The bottom of the rubber tubes is supported by the material support plate.

[0007] In one possible implementation, a first baffle assembly is provided on one side of the hose terminal riveting device. The first baffle assembly includes a baffle strip and a first mounting base. The first baffle assembly is located on one side of the turntable surface. An annular clearance groove is provided on the outer edge of the turntable surface. The discharge hole communicates with the annular clearance groove. The first baffle assembly includes a baffle strip and a first mounting base. One end of the baffle strip is mounted on the first mounting base. The baffle strip can abut against the annular clearance groove. When the discharge hole moves to the baffle strip, the baffle strip can press the hose into the discharge hole. When the discharge hole moves away from the baffle strip, the hose in the discharge hole loses the pressing force of the baffle strip, and the hose will fall out of the discharge hole.

[0008] In one possible implementation, the baffle bar includes a horizontal baffle portion and a vertical limiting portion, the vertical limiting portion extending vertically upward from one end of the horizontal baffle portion.

[0009] In one possible implementation, the hose enlarging device includes an enlarging column, an enlarging drive device, and a second baffle assembly. The enlarging column is mounted on the enlarging drive device, which can drive the enlarging column to move up and down. The second baffle assembly is used to block the hose from moving upward after enlarging.

[0010] In one possible implementation, the hose terminal riveting device includes a riveting post, a riveting drive assembly, and a terminal clamping assembly. The riveting post is mounted on the terminal riveting drive assembly, and the terminal clamping assembly is used to transfer the terminal in the terminal feeding mechanism to below the riveting post. The terminal riveting drive assembly can drive the riveting post to descend and rivet the hose onto the terminal held by the terminal clamping assembly.

[0011] In one possible implementation, the terminal clamping assembly includes a movable clamping block, a fixed clamping block, a clamping block driving device, and a clamping block transmission device. The movable clamping block is mounted on the clamping block transmission device, and the clamping block driving device drives the movable clamping block to move closer to or away from the fixed clamping block via the clamping block transmission device.

[0012] In one possible implementation, the feeding device includes a feeding air blowing assembly and a feeding hopper. The feeding air blowing assembly is located on one side of the turntable device and is used to blow air into the feeding hopper after the assembled hose is assembled.

[0013] In one possible implementation, the hose feeding mechanism includes a hose feeding vibratory plate, a feeding hose, and a hose unloading assembly. The hose feeding vibratory plate is connected to the hose unloading assembly via the feeding hose. The hose feeding vibratory plate is used to push the hose downward along the feeding hose into the hose unloading assembly. The hose unloading assembly guides the hose into the turntable device.

[0014] In one possible implementation, the terminal feeding mechanism includes a terminal feeding vibratory feeder and a terminal transfer device, wherein the terminal feeding vibratory feeder is connected to the terminal transfer device, and the terminal feeding vibratory feeder feeds the terminals into the turntable device through the terminal transfer device.

[0015] The beneficial effects of this application are as follows:

[0016] During operation, the hose feeding mechanism first transports the hose to the turntable device of the hose terminal assembly mechanism. The turntable device then transports the hose to the hose detection device, which checks if a hose is present in the turntable. Next, the turntable device transports the hose to the hose reaming device, which enlarges the inner hole at the upper end of the hose. Following this, the turntable device transports the hose to the hose terminal riveting device. The terminal feeding mechanism first transports the terminal below the hose, and the hose terminal riveting device rivets the hose onto the terminal. Finally, the unloading device unloads the riveted terminal. In summary, this application eliminates the need for manual operation, significantly reducing the labor intensity of workers and improving the assembly efficiency of terminals and hoses. Attached Figure Description

[0017] Figure 1 Flowchart showing the assembly process of the hose with terminals after drilling holes at the top;

[0018] Figure 2 This is a perspective view of an assembly device for terminals and tubing in one embodiment of this application;

[0019] Figure 3 This is a perspective view of a hose terminal assembly mechanism according to an embodiment of this application;

[0020] Figure 4 This is a perspective view of the turntable device in one embodiment of this application;

[0021] Figure 5 This is a top view of the turntable device in one embodiment of this application;

[0022] Figure 6 for Figure 5 Sectional view at AA;

[0023] Figure 7 This is a perspective view of a hose enlarging device in one embodiment of this application;

[0024] Figure 8 This is a perspective view of a hose terminal riveting device in one embodiment of this application;

[0025] Figure 9 This is a perspective view of a terminal clamping assembly in one embodiment of this application;

[0026] Figure 10 This is a perspective view of a hose feeding mechanism in one embodiment of this application;

[0027] Figure 11 This is a perspective view of a terminal feeding mechanism in one embodiment of this application.

[0028] Explanation of reference numerals in the attached figures:

[0029] 1. Hose feeding mechanism; 2. Terminal feeding mechanism; 3. Hose terminal assembly mechanism;

[0030] 31. Turntable device; 32. Hose inspection device; 33. Hose reaming device; 34. Hose terminal riveting device; 35. Feeding device; 36. First stop assembly;

[0031] 311. Turntable surface; 312. Turntable transmission assembly; 313. Material support tray surface;

[0032] 313a, clearance section; 311a, discharge hole; 311b, annular clearance groove;

[0033] 361. Material stop bar; 362. First mounting base;

[0034] 361a. Horizontal stop section; 361b. Vertical limiting section;

[0035] 331. Hole-expanding column; 332. Hole-expanding drive device; 333. Second stop assembly;

[0036] 333a, baffle sleeve; 333b, baffle seat;

[0037] 341. Riveting post; 342. Riveting drive assembly; 343. Terminal clamping assembly;

[0038] 343a. Movable clamping block; 343b. Fixed clamping block; 344c. Clamping block transmission device;

[0039] 344c1 Rotary shaft; 344c2 End face cam; 344c3 Driven roller;

[0040] 11. Vibratory feeder for hose feeding; 12. Feeding hose; 13. Hose unloading assembly;

[0041] 131. Second mounting base; 132. Adjusting plate; 133. Hoses fixing block;

[0042] 21. Terminal feeding vibratory feeder; 22. Terminal transfer device; 23. Third stop assembly

[0043] 211. Straight feeding channel;

[0044] 231. Material stop hook; 232. Rotating column; 233. Return spring;

[0045] 221. Terminal clamping module; 222. Terminal transfer transmission assembly;

[0046] 221a. Clamping block; 221b. Drive cylinder; 221c. Third mounting base;

[0047] W: Clamping surface; E: Clamping opening; R: Rounded guide angle;

[0048] 222a, guide post; 222c, slider; 222d, first driven wheel; 222e, second driven wheel; 222f, guide rod; 222d, disc cam;

[0049] T, guide groove; Detailed Implementation

[0050] The terminology used in the implementation section of this application is only for explaining specific embodiments of this application and is not intended to limit this application. The implementation of the embodiments of this application will be described in detail below with reference to the accompanying drawings.

[0051] like Figure 1 As shown, when assembling terminal S and tubing D, the upper end of the tubing is first enlarged, and then the tubing is riveted to the upper end of the terminal.

[0052] like Figure 2 As shown, a terminal and hose assembly device includes a hose feeding mechanism 1, a terminal feeding mechanism 2, and a hose terminal assembly mechanism 3. The hose feeding mechanism 1 and the terminal feeding mechanism 2 are respectively disposed on one side of the hose terminal assembly mechanism 3. The hose feeding mechanism 1 is used to feed the hose into the hose terminal assembly mechanism 3, and the terminal feeding mechanism 2 is used to feed the terminal into the hose terminal assembly mechanism 3. The hose terminal assembly mechanism 3 is used to assemble the hose onto the terminal.

[0053] like Figure 3 As shown, the hose terminal assembly mechanism 3 includes a turntable device 31 and a hose detection device 32, a hose enlarging device 33, a hose terminal riveting device 34, and a feeding device 35 arranged around the turntable device 31 according to the processing steps. The hose detection device 32 is used to detect whether there is a hose in the turntable device 31. The hose enlarging device 33 is used to enlarge the inner hole at the upper end of the hose. The hose terminal riveting device 34 is used to rivet the hose on the turntable device 31 to the terminal. The feeding device 35 is used to feed the terminal after riveting the hose.

[0054] During operation, the hose feeding mechanism 1 first transports the hose to the turntable device 31 of the hose terminal assembly mechanism 3. Then, the turntable device 31 transports the hose to the hose detection device 32, which checks if a hose is present in the turntable device 31. Next, the turntable device 31 transports the hose to the hose enlarging device 33, which enlarges the inner hole at the upper end of the hose to facilitate wire installation. Then, the turntable device 31 transports the hose to the hose terminal riveting device 34. First, the terminal feeding mechanism 2 transports the terminal to the bottom of the hose, and the hose terminal riveting device 34 rivets the lower part of the hose onto the terminal. Finally, the unloading device 35 unloads the riveted terminal. In summary, this application eliminates the need for manual operation, significantly reducing the labor intensity of workers and improving the assembly efficiency of terminals and hoses.

[0055] like Figure 4 As shown, in this embodiment, the turntable device 31 includes a turntable surface 311, a turntable drive assembly, a turntable transmission assembly 312, and a material support surface 313. The material support surface 313 is disposed at the bottom of the turntable surface 311. The upper surface of the turntable surface 311 is provided with a plurality of discharge holes 311a arranged in a circular array. The discharge holes 311a are used to place the rubber tube. After the rubber tube is placed into the discharge hole 311a, the bottom of the rubber tube is supported by the material support surface 313. When feeding, the rubber tube is located in the discharge hole 311a of the turntable surface 311, and the bottom of the rubber tube is supported by the material support surface 313. When the turntable surface 311 rotates, it drives the rubber tube in the discharge hole 311a to rotate. The material support surface 313 is set to support the rubber tube, so there is no need to set up a special clamp to hold the rubber tube, which greatly simplifies the structure of the entire turntable device 31 and saves the manufacturing cost of the turntable device 31.

[0056] The turntable drive component can be a motor.

[0057] like Figure 4 As shown, in this embodiment, the material tray surface 313 is located at the hose terminal riveting device 34 as a clearance part 313a, which facilitates the hose to be riveted downwards onto the terminal.

[0058] like Figures 4 to 6As shown in this embodiment, a first baffle assembly 36 is provided on one side of the hose terminal riveting device 34. The first baffle assembly 36 includes a baffle strip 361 and a first mounting base 362. The first baffle assembly 36 is disposed on one side of the turntable surface 311. An annular clearance groove 311b is provided on the outer edge of the turntable surface 311. The discharge hole 311a communicates with the annular clearance groove 311b. The first baffle assembly 36 includes a baffle strip 361 and a first mounting base 362. The baffle strip 361 is elastic. One end of the baffle strip 361 is mounted on the first mounting base 362. The baffle strip 361 can abut against... Within the annular clearance groove 311b, when the discharge hole 311a moves to the baffle bar 361, the baffle bar 361 can press the hose into the discharge hole 311a. When the discharge hole 311a moves away from the baffle bar 361, the hose in the discharge hole 311a loses the clamping force of the baffle bar 361, and the hose will fall out of the discharge hole 311a. Since the material support plate 313 is in a clearance position at the hose terminal riveting device 34, the hose will not fall into the discharge hole 311a of the turntable plate 311, and it can also ensure that the hose can move when riveting downwards, thus playing an auxiliary role in riveting the hose.

[0059] like Figure 4 As shown in this embodiment, the baffle bar 361 includes a horizontal baffle portion 361a and a vertical limiting portion 361b. The vertical limiting portion 361b extends vertically upward from one end of the horizontal baffle portion 361a. The side of the horizontal baffle portion 361a can contact the rubber tube in the discharge hole 311a, thereby pressing the rubber tube. The vertical limiting portion 361b cooperates with the outer edge of the turntable surface 311 to prevent the horizontal baffle portion 361a from exerting excessive pressure on the rubber tube.

[0060] like Figure 4 As shown, the second baffle assembly 333 includes a baffle sleeve 333a and a baffle seat 333b. The baffle sleeve 333a is installed on the baffle seat 333b. When the hole-forming post 331 passes through the baffle sleeve 333a to form a hole in the tube, and the hole-forming post 331 returns to its original position, the baffle sleeve 333a can block the tube from moving upward and prevent the tube from being carried away from the discharge hole 311a by the hole-forming post 331.

[0061] like Figure 7 As shown in this embodiment, the hose enlarging device 33 includes an enlarging column 331, an enlarging drive device 332, and a second baffle assembly 333. The enlarging column 331 is mounted on the enlarging drive device 332, which can drive the enlarging column 331 to move up and down. The second baffle assembly 333 is used to block the hose from moving upward after enlarging.

[0062] like Figure 8As shown in this embodiment, the hose terminal riveting device 34 includes a riveting post 341, a riveting drive assembly 342, and a terminal clamping assembly 343. The riveting post 341 is mounted on the terminal riveting drive assembly 342. The terminal clamping assembly 343 is used to transfer the terminal in the terminal feeding mechanism 2 to the area below the riveting post 341. The terminal riveting drive assembly 342 can drive the riveting post 341 to descend and rivet the hose onto the terminal clamped by the terminal clamping assembly 343.

[0063] like Figure 9 As shown, in this embodiment, the terminal clamping assembly 343 includes a movable clamping block 343a, a fixed clamping block 343b, a clamping block driving device, and a clamping block transmission device 344c. The movable clamping block 343a is mounted on the clamping block transmission device 344c, and the clamping block driving device drives the movable clamping block 343a to move closer to or away from the fixed clamping block 343b through the clamping block transmission device 344c.

[0064] like Figure 9 As shown, the clamping block drive device is a motor, and the clamping block transmission device 344c includes a rotating shaft, an end face cam 344c1 rotating shaft; 344c2 and a driven roller 344c3. The motor drives the end face cam 344c1 rotating shaft and 344c2 to rotate through the rotating shaft. The driven roller 344c3 is installed at the lower end of the movable clamping block 343a. The machining surface Q of the end face cam 344c1 and 344c2 drives the driven roller 344c3 to move the movable clamping block 343a closer to or away from the fixed clamping block 343b.

[0065] In this embodiment, the feeding device 35 includes a feeding air blowing assembly and a feeding hopper. The feeding air blowing assembly is located on one side of the turntable device 31 and is used to blow the assembled hose terminals into the feeding hopper by air blowing. The feeding air blowing assembly includes an air pipe and an air pump.

[0066] like Figure 10 As shown in this embodiment, the hose feeding mechanism 1 includes a hose feeding vibratory plate 11, a feeding hose 12, and a hose unloading assembly 13. The hose feeding vibratory plate 11 is connected to the hose unloading assembly 13 through the feeding hose 12. The hose feeding vibratory plate 11 is used to push the hose down along the feeding hose 12 into the hose unloading assembly 13. The hose unloading assembly guides the hose into the turntable device 31. The feeding hose 12 is made of transparent hose material and has a feeding inner hole. The feeding hose 12 is made transparent to facilitate observation of the hose's conveying status and timely detection of jamming. The feeding hose 12 is made flexible to facilitate bending. The bending angle can be adjusted arbitrarily, thereby making the hose feed downwards more smoothly in the feeding hose 12 with less friction.

[0067] In this embodiment, the feeding vibratory plate is higher than the hose terminal assembly mechanism 3, so that when the hose is fed into the feeding hose 12, the hose can be pushed out by its own weight.

[0068] The hose feeding assembly 13 includes a second mounting base 131, an adjusting plate 132, and a hose fixing block 133. The hose fixing block 133 is mounted on the second mounting base 131 via the adjusting plate 132. The hose fixing block 133 is used to fix the feeding hose 12. The adjusting plate 132 is provided to facilitate the adjustment of the position of the feeding hose 12.

[0069] like Figure 11 As shown in this embodiment, the terminal feeding mechanism 2 includes a terminal feeding vibratory plate 21 and a terminal transfer device 22. The terminal feeding vibratory plate 21 is connected to the terminal transfer device 22, and the terminal feeding vibratory plate 21 feeds the terminals into the turntable device 31 through the terminal transfer device 22.

[0070] like Figure 11 As shown, the terminal feeding vibratory feeder 21 includes a linear feeding channel 211. The discharge end of the linear feeding channel 211 is provided with a third baffle assembly 23. The third baffle assembly 23 is provided so that after the previous terminal is removed by the terminal transfer device 22, the third baffle assembly 23 can prevent the terminal of the linear feeding channel 211 from falling directly out of the discharge port of the linear feeding channel 211.

[0071] like Figure 11 As shown, the third material blocking assembly 23 includes a material blocking hook 231, a rotating column 232, and a return spring 233. The material blocking hook 231 is mounted on the linear feed channel 211 via the rotating column 232. The terminal can push one end of the material blocking hook 231 to rotate clockwise around the rotating column 232, causing the other end of the material blocking hook 231 to stretch the return spring 233. When the terminal disengages from the material blocking hook 231, the return spring 233 contracts, thereby driving the material blocking hook 231 to rotate counterclockwise to reset.

[0072] like Figure 11 As shown, the terminal transfer device 22 includes two sets of terminal clamping modules 221, a terminal transfer transmission assembly 222, and a terminal transfer drive assembly. The two sets of terminal clamping modules 221 clamp the terminals on the outlet of the linear feed channel 211. The terminal transfer drive assembly drives the two sets of terminal clamping modules 221 to transport the terminals to the bottom of the rubber tube of the turntable device 31 through the terminal transfer transmission assembly 222.

[0073] like Figure 11As shown, the two sets of terminal clamping modules 221 are symmetrically arranged. The terminal clamping assembly 343 includes a clamping block 221a, a drive cylinder 221b, a buffer spring, and a third mounting base 221c. The clamping block 221a is mounted on the drive cylinder 221b, and the drive cylinder 221b is mounted on the third mounting base 221c. The drive cylinder 221b can drive the clamping block to move relative to the clamping terminal. One end of the buffer spring is connected to the clamping block, and the other end is connected to the drive cylinder 221b. The buffer spring can drive the clamping block to return to its original position.

[0074] like Figure 11 As shown, the clamping surface W of the clamping block 221a is provided with a clamping opening E. One side of the clamping block is provided with an arc guide angle R, which is to facilitate the guidance of the terminal when clamping it.

[0075] like Figure 11 As shown, the terminal transfer transmission assembly 222 includes a guide post 222a, a slider 222c, a first driven wheel 222d, a second driven wheel 222e, a guide rod 222f, and a disc cam 222d. The disc cam 222d is mounted on a rotating shaft, and the second driven wheel 222e is mounted on the lower part of the guide rod 222f. The lower end of the guide rod 222f is hinged to the worktable, and a guide groove T is formed on the upper part of the guide rod 222f. The first driven wheel 222d is located in the guide groove T, and the end face of the first driven wheel 222d is mounted on the side of the slider 222c. The slider 222c is mounted on the guide post 222a. When the rotating shaft drives the disc cam 222d to rotate, the disc cam 222a... d can drive the second driven wheel 222e to drive the guide rod 222f to swing back and forth. The upper guide groove T of the guide rod 222f will drive the first driven wheel 222d to drive the slider 222c to move back and forth along the guide post 222a. In this embodiment, the rotating shaft is the rotating shaft in the clamping block driving device, and the terminal transfer driving component is also the motor in the clamping block driving device. Thus, the two components can achieve synchronous movement in the same driving device. That is, the terminal clamping component 343 clamps the terminal and the terminal transfer device 22 transfers the terminal synchronously. There is no need to set up two sets of driving devices to drive the terminal transfer device 22 and the terminal clamping component 343 to connect.

[0076] In the description of the embodiments of this application, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, an indirect connection through an intermediate medium, or the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in the embodiments of this application according to the specific circumstances.

Claims

1. An assembly device for terminals and hoses, characterized in that: The system includes a hose feeding mechanism, a terminal feeding mechanism, and a hose terminal assembly mechanism. The hose feeding mechanism and the terminal feeding mechanism are respectively located on one side of the hose terminal assembly mechanism. The hose feeding mechanism feeds hoses into the hose terminal assembly mechanism, and the terminal feeding mechanism feeds terminals into the hose terminal assembly mechanism. The hose terminal assembly mechanism assembles the hoses onto the terminals. The hose terminal assembly mechanism includes a turntable device and, arranged around the turntable device according to the processing steps, a hose detection device, a hose reaming device, a hose terminal riveting device, and a unloading device. The hose detection device detects whether there is a hose in the turntable device. The hose reaming device enlarges the inner hole at the upper end of the hose. The hose terminal riveting device rivets the hose on the turntable device onto the terminal. The unloading device unloads the riveted terminals. The turntable device includes a turntable surface and a turntable. The device comprises a drive assembly, a turntable transmission assembly, and a material support plate. The material support plate is located at the bottom of the turntable surface and has multiple discharge holes for placing rubber tubes. The bottom of the rubber tubes is supported by the material support plate. A first baffle assembly is located on one side of the rubber tube terminal riveting device. The first baffle assembly includes a baffle strip and a first mounting base. The outer edge of the turntable surface has an annular clearance groove, and the discharge holes communicate with the annular clearance groove. The first baffle assembly includes a baffle strip and a first mounting base. One end of the baffle strip is mounted on the first mounting base, and the baffle strip can abut against the annular clearance groove. When the discharge hole moves to the baffle strip, the baffle strip can press the rubber tube into the discharge hole. When the discharge hole moves away from the baffle strip, the rubber tube in the discharge hole loses the pressing force of the baffle strip, and the rubber tube falls out of the discharge hole.

2. The assembly equipment for terminals and hoses according to claim 1, characterized in that: The baffle bar includes a horizontal baffle portion and a vertical limiting portion, wherein the vertical limiting portion extends vertically upward from one end of the horizontal baffle portion.

3. The terminal and hose assembly equipment according to claim 1, characterized in that: The hose enlarging device includes an enlarging column, an enlarging drive device, and a second baffle assembly. The enlarging column is mounted on the enlarging drive device, which can drive the enlarging column to move up and down. The second baffle assembly is used to block the hose from moving upward after enlarging.

4. The terminal and hose assembly equipment according to claim 1, characterized in that: The hose terminal riveting device includes a riveting post, a riveting drive assembly, and a terminal clamping assembly. The riveting post is mounted on the terminal riveting drive assembly. The terminal clamping assembly is used to transfer the terminal in the terminal feeding mechanism to the area below the riveting post. The terminal riveting drive assembly can drive the riveting post to descend and rivet the hose onto the terminal held by the terminal clamping assembly.

5. The terminal and hose assembly equipment according to claim 4, characterized in that: The terminal clamping assembly includes a movable clamping block, a fixed clamping block, a clamping block driving device, and a clamping block transmission device. The movable clamping block is mounted on the clamping block transmission device, and the clamping block driving device drives the movable clamping block to move closer to or away from the fixed clamping block through the clamping block transmission device.

6. The terminal and hose assembly equipment according to claim 1, characterized in that: The feeding device includes a feeding air blowing assembly and a feeding hopper. The feeding air blowing assembly is located on one side of the turntable device and is used to blow air into the feeding hopper after the assembled hose is assembled.

7. The terminal and hose assembly equipment according to claim 1, characterized in that: The hose feeding mechanism includes a hose feeding vibratory plate, a feeding hose, and a hose unloading assembly. The hose feeding vibratory plate is connected to the hose unloading assembly via the feeding hose. The hose feeding vibratory plate is used to push the hose down along the feeding hose to the hose unloading assembly. The hose unloading assembly guides the hose into the turntable device.

8. The terminal and hose assembly equipment according to claim 1, characterized in that: The terminal feeding mechanism includes a terminal feeding vibratory plate and a terminal transfer device. The terminal feeding vibratory plate is connected to the terminal transfer device, and the terminal feeding vibratory plate feeds the terminals into the turntable device through the terminal transfer device.

Images