CN114453854B

CN114453854B - Traction wire assembling mechanism

Info

Publication number: CN114453854B
Application number: CN202210151667.6A
Authority: CN
Inventors: 郭林华
Original assignee: Dongguan Jiujun Precision Machinery Co ltd
Current assignee: Dongguan Jiujun Precision Machinery Co ltd
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2023-05-05
Anticipated expiration: 2042-02-18
Also published as: CN114453854A

Abstract

The invention provides a traction wire assembly mechanism, which comprises: a frame; the fixing module is arranged on the rack; the lower pressing die set is arranged on the frame and used for pressing down a product to be processed; the horizontal pushing module is arranged on the frame and fixedly connected with the frame, and is used for pushing a product to be processed to a required position; the positioning module is arranged on the frame and is erected above the horizontal pushing module through the first connecting frame. According to the invention, the first cambered surface is arranged on the bottom surface of the first pushing block of the flat pushing module, the first cambered surface is firstly abutted against the fixed ring in the flat pushing process, and the radian of the first cambered surface is utilized to gradually press down the fixed ring in the flat pushing and pressing down process, so that the pressing down process is smooth; the invention realizes full-process automatic operation by the cooperative coordination of the positioning module, the lower pressing module and the pushing module, and compared with the prior manual operation, the invention has less time consumption, high efficiency and high operation precision, and is beneficial to the mass production and preparation of products.

Description

Traction wire assembling mechanism

Technical Field

The invention relates to the technical field of assembly mechanisms, in particular to a traction wire assembly mechanism.

Background

The use field of pull wire is wide, in the steam fitting field, and the pull wire mainly acts as the traction part between fuel tank cap and tank door and connects the two, avoids still needing to place it the problem after opening the fuel tank cap, and accessible pull wire makes the fuel tank cap hang or place on the tank door.

The traction wire is generally composed of a traction part and a fixing ring, wherein one end of the traction wire is connected to the oil tank door when in use, and the fixing ring is sleeved and fixed on the oil tank cover. Most of the assembly between the traction wire and the fuel tank cover is carried out in the prior market in a manual assembly mode, but the manual assembly not only consumes a great deal of manpower and material resources, but also has different assembly effects, the quality of products is difficult to ensure, and the fuel tank cover is easy to fall off and the like.

Disclosure of Invention

The invention aims to provide a traction wire assembly mechanism which aims to solve the technical problems in the background technology.

In order to achieve the above object, the present invention provides the following technical solutions:

a traction wire assembly mechanism comprising:

a frame;

the fixing module is arranged on the frame and used for fixing a product to be processed;

the pressing module is arranged on the frame and positioned behind the fixed module, and is used for pressing down a product to be processed;

the flat pushing module is fixedly connected with the rack, the flat pushing module is used for pushing a product to be processed to a required position, the flat pushing module comprises a first X-axis cylinder and a pushing plate, the first X-axis cylinder is fixedly arranged on the rack along the X-axis direction, the output end of the first X-axis cylinder is fixedly connected with a first connecting plate, the side end of the first connecting plate is fixedly connected with the pushing plate, the pushing plate comprises a second connecting plate, a first pushing block and a second pushing block, the second connecting plate is fixedly connected with the first connecting plate, the first pushing block and the second pushing block are identical in structure and are symmetrically arranged on the second connecting plate, a first sliding groove is formed in the upper surface of the first pushing block, the bottom surface of the first pushing block is provided with a first cambered surface, the right side surface of the first pushing block is smoothly transited to the bottom surface of the first pushing block, the outer side surface of the first pushing block is downwardly extended to form a first baffle, the inner side surface of the first baffle is provided with a second cambered surface, and the right side surface of the first pushing block is transited to the inner side surface of the first baffle smoothly;

the positioning module is arranged on the frame and is erected above the flat pushing module through a first connecting frame, the flat pushing module is movably connected with the positioning module, the positioning module comprises a second X-axis cylinder and a positioning assembly, the second X-axis cylinder is fixedly arranged on the first connecting frame along the X-axis direction, the positioning assembly is driven to move along the X-axis direction by the second X-axis cylinder, the positioning assembly comprises a positioning plate, a first positioning strip and a second positioning strip, the positioning plate is fixedly connected with the output end of the second X-axis cylinder, the first positioning strip and the second positioning strip are identical in structure and symmetrically arranged at the bottom of the positioning plate, the first positioning strip is matched with a first sliding groove, the first positioning strip is in sliding connection with the first sliding groove, the bottom surface of the first positioning strip is provided with a third connecting surface, and the right side surface of the first positioning strip is transited to the bottom surface of the first positioning strip through the third connecting surface.

Further, the pressing die assembly comprises a first Y-axis air cylinder, a connecting seat, a third X-axis motor and a pressing component, wherein the first Y-axis air cylinder is arranged below the frame, the first Y-axis air cylinder drives the connecting seat to move along the Y-axis direction, the third X-axis motor is fixedly arranged at the top end of the connecting seat, and the third X-axis motor drives the pressing component to move along the X-axis direction.

Further, the subassembly of pushing down includes third connecting plate, first pressure group and second pressure group, third connecting plate and the output fixed connection of third X axle motor, first pressure group and second pressure group structure are the same and the symmetry is installed on the third connecting plate, first pressure group includes first Z axle cylinder and first clamp plate, first Z axle cylinder drive first clamp plate moves along Z axle direction, first clamp plate is the arc.

Further, the frame below is equipped with first fixed plate, first Y axle cylinder is installed on first fixed plate, be equipped with a plurality of slide rails on the first fixed plate, the slide rail is located the side of first Y axle cylinder, the bottom of connecting seat is equipped with a plurality of slide bases with slide rail assorted, the connecting seat passes through slide and first fixed plate sliding connection.

Further, the fixed module comprises a fixed seat and a positioning cylinder, wherein the positioning cylinder is arranged on the fixed seat and is of an upper opening structure.

Further, the fixed module is erect outward and is had the response subassembly, the response subassembly includes response mount, first inductor and second inductor, response mount and frame fixed connection, first inductor and second inductor all with response mount fixed connection, first inductor is located the location section of thick bamboo, the second inductor is located first inductor below and passes inside the location section of thick bamboo.

Compared with the prior art, the fixing ring is abutted before the pressing operation by the positioning module, so that the situations of inaccurate pressing and the like caused by the warping of the fixing ring in the operation process of the flat pushing module and the pressing module are prevented; the bottom surface of the first pushing block of the flat pushing module is provided with a first cambered surface, the first cambered surface is firstly abutted against the fixed ring in the flat pushing process, the radian of the first cambered surface is utilized to gradually press down the fixed ring in the flat pushing and pressing down process, and the pressing down process is smooth and does not form a tilted edge; the invention realizes full-process automatic operation by the cooperative coordination of the positioning module, the lower pressing module and the pushing module, and compared with the prior manual operation, the invention has less time consumption, high efficiency and high operation precision, greatly improves the product yield and is beneficial to the mass production and preparation of products.

Drawings

Fig. 1: a perspective view of the present invention;

fig. 2: the structure of the positioning module is schematically shown in the invention;

fig. 3: the local structure of the positioning module is shown in the schematic diagram;

fig. 4: the structure of the pressing module is schematically shown in the invention;

fig. 5: the structure schematic diagram of the horizontal pushing module is provided;

fig. 6: front view of push plate in the horizontal pushing module;

fig. 7: bottom view of push plate in the horizontal pushing module;

fig. 8: the structure of the fixing module is schematically shown in the invention.

Reference numerals:

1. a frame; 11. a first fixing plate; 12. a slide rail;

2. a fixed module; 21. a fixing seat; 22. a positioning cylinder;

3. a pressing module; 31. a first Y-axis cylinder; 32. a connecting seat; 33. a third X-axis motor; 34. pressing down the assembly; 321. a slide; 341. a third connecting plate; 342. a first press set; 343. a second press set; 342-1, a first Z-axis cylinder; 342-2, a first platen;

4. a horizontal pushing module; 41. a first X-axis cylinder; 42. a push plate; 43. a first connection plate; 421. a second connecting plate; 422. a first push block; 423. a second push block; 422-1, a first chute; 422-2, a first cambered surface; 422-3, a first baffle; 422-4, a second cambered surface;

5. a positioning module; 51. a second X-axis cylinder; 52. a positioning assembly; 53. a first connection frame; 521. a positioning plate; 522. a first positioning bar; 523. a second positioning strip; 522-1, a third connection face;

6. an induction assembly; 61. sensing a fixing frame; 62. a first inductor; 63. a second inductor;

7. a traction wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1, a traction wire assembly mechanism includes: a frame 1; the fixing module 2 is arranged on the frame 1 and is used for fixing a product to be processed; the pressing module 3 is arranged on the frame 1, the pressing module 3 is positioned behind the fixing module 2, and the pressing module 3 is used for pressing down a product to be processed; the flat pushing module 4 is arranged on the frame 1, the flat pushing module 4 is fixedly connected with the frame 1, and the flat pushing module 4 is used for pushing a product to be processed to a required position; the positioning module 5 is arranged on the frame 1, the positioning module 5 is erected above the flat pushing module 4 through the first connecting frame 53, and the flat pushing module 4 is movably connected with the positioning module 5.

Referring to fig. 8, the fixing module 2 includes a fixing base 21 and a positioning cylinder 22, the fixing base 21 is mounted on the frame 1, the positioning cylinder 22 is mounted on the fixing base 21, and the positioning cylinder 22 is of an upper opening structure. The fixed die set 2 erects outward and has had response subassembly 6, and response subassembly 6 includes response mount 61, first inductor 62 and second inductor 63, and response mount 61 and frame 1 fixed connection, first inductor 62 and second inductor 63 all with response mount 61 fixed connection, first inductor 62 is located on the positioning tube 22, and second inductor 63 is located first inductor 62 below and passes positioning tube 22 inside. When the oil tank cover is used, the oil tank cover is placed on the positioning cylinder 22, the fixing ring of the traction wire 7 to be installed is placed on the oil tank cover, the first inductor 62 is located on the positioning cylinder 22 and used for sensing whether the traction wire 7 is placed in place, the second inductor 63 is located below the first inductor 62 and penetrates through the inside of the positioning cylinder 22, the second inductor 63 is used for sensing the downward pressing condition of the traction wire 7 on the oil tank cover, and the operation is convenient to regulate and control in real time according to actual conditions through the cooperative fit of the first inductor 62 and the second inductor 63 and the specific condition of the traction wire 7.

Referring to fig. 5-7, the flat pushing module 4 includes a first X-axis cylinder 41 and a pushing plate 42, the first X-axis cylinder 41 is fixedly mounted on the frame 1 along the X-axis direction, an output end of the first X-axis cylinder 41 is fixedly connected with a first connecting plate 43, a side end of the first connecting plate 43 is fixedly connected with the pushing plate 42, the pushing plate 42 is driven by the first X-axis cylinder 41 to push toward one end of the fixed module 2, and the pushing plate 42 pushes the front end and the rear end of the fixed ring of the traction wire 7, so that the fixed ring is sleeved outside the fuel tank cap.

The push plate 42 comprises a second connecting plate 421, a first push block 422 and a second push block 423, the second connecting plate 421 is fixedly connected with the first connecting plate 43, the first push block 422 and the second push block 423 are identical in structure and symmetrically arranged on the second connecting plate 421, a first sliding groove 422-1 is formed in the upper surface of the first push block 422, a first cambered surface 422-2 is formed in the bottom surface of the first push block 422, the right side surface of the first push block 422 is smoothly transited to the bottom surface of the first push block 422 through the first cambered surface 422-2, a fixed ring is smoothly and flatly pressed out of the oil tank cover through the first cambered surface 422-2 in the flat pushing process, and the flat pressing process is smooth and does not block.

The outer side surface of the first pushing block 422 extends downwards to form a first baffle 422-3, edge tilting of the fixed ring in the flattening process is avoided through the arrangement of the first baffle 422-3, the position of the fixed ring is positioned through the first baffle 422-3, a second cambered surface 422-4 is arranged on the inner side surface of the first baffle 422-3, the right side surface of the first baffle 422-3 is smoothly transited to the inner side surface of the first baffle 422-3 through the second cambered surface 422-4, the fixed ring is smoothly transited to the inner side surface of the first baffle 422-3 through the second cambered surface 422-4 in the flattening process, at this time, the fixed ring is abutted against the first baffle 422-3, and the first baffle 422-3 plays a role in positioning the fixed ring.

Referring to fig. 2-3, the positioning module 5 includes a second X-axis cylinder 51 and a positioning assembly 52, the second X-axis cylinder 51 is fixedly mounted on the first connecting frame 53 along the X-axis direction, the second X-axis cylinder 51 drives the positioning assembly 52 to move along the X-axis direction, the positioning assembly 52 includes a positioning plate 521, a first positioning bar 522 and a second positioning bar 523, the positioning plate 521 is fixedly connected with the output end of the second X-axis cylinder 51, the first positioning bar 522 and the second positioning bar 523 are driven by the second X-axis cylinder 51 to abut against the upper surface of the fixed ring, the first positioning bar 522 and the second positioning bar 523 have the same structure and are symmetrically mounted at the bottom of the positioning plate 521, and are respectively located in front of and behind the fixed ring in abutting relation with the fixed ring, the first positioning bar 522 is matched with the first sliding chute 422-1, the first positioning bar 522 is slidably connected with the first sliding chute 422-1, therefore the first positioning bar 522 moves along the X-axis direction and is slidably connected with the flat pushing module 4, the bottom surface of the first positioning bar 522 is provided with a third connecting surface 522-1, the third connecting surface 522-1 is formed by abutting against the upper surface of the first positioning bar 523, the first connecting surface 522 is formed by the third connecting surface 522-1, and the third connecting surface 522 is formed by the first connecting surface 522 to the first positioning surface 522 is formed by the right connecting surface.

Referring to fig. 4, the pressing die set 3 includes a first Y-axis cylinder 31, a connecting seat 32, a third X-axis motor 33, and a pressing component 34, wherein the first Y-axis cylinder 31 is installed below the frame 1, the first Y-axis cylinder 31 drives the connecting seat 32 to move along the Y-axis direction, the third X-axis motor 33 is fixedly installed at the top end of the connecting seat 32, and the third X-axis motor 33 drives the pressing component 34 to move along the X-axis direction.

The pressing assembly 34 includes a third connecting plate 341, a first pressing group 342 and a second pressing group 343, the third connecting plate 341 is fixedly connected with the output end of the third X-axis motor 33, the first pressing group 342 and the second pressing group 343 are identical in structure and symmetrically installed on the third connecting plate 341, wherein the first pressing group 342 is located on the left side, the second pressing group 343 is located on the right side, the first pressing group 342 includes a first Z-axis cylinder 342-1 and a first pressing plate 342-2, the first Z-axis cylinder 342-1 drives the first pressing plate 342-2 to move along the Z-axis direction, the first pressing plate 342-2 is an arc plate, and pressing operations can be respectively performed on the first pressing group 342 and the second pressing group 343 according to actual conditions by arranging independent Z-axis cylinders in the first pressing group 342 and the second pressing group 343.

The frame 1 below is equipped with first fixed plate 11, and first Y axle cylinder 31 installs on first fixed plate 11, is equipped with two slide rails 12 on the first fixed plate 11, and slide rail 12 is located the side of first Y axle cylinder 31, and the bottom of connecting seat 32 is equipped with two slide bases 321 with slide rail 12 assorted, and connecting seat 32 passes through slide base 321 and first fixed plate 11 sliding connection, improves smoothness nature and smooth nature when sliding.

The operation flow is as follows: the oil tank cover is placed on the positioning cylinder, the fixing ring of the traction wire is placed on the oil tank cover, the positioning module is driven to abut against the upper surface of the fixing ring, the front end and the rear end of the fixing ring are supported through the positioning module to avoid warping, the first pressing group of the driving pressing module presses the left end of the fixing ring downwards into the oil tank cover, the driving flat pushing module presses the front end and the rear end of the fixing ring downwards into the oil tank cover, and finally the second pressing group of the driving pressing module presses the right end of the fixing ring downwards into the oil tank cover, so that the fixing ring can be sleeved on the oil tank cover through the operation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. A traction wire assembly mechanism, comprising:

a frame;

2. A traction wire assembly mechanism according to claim 1, wherein: the pressing die assembly comprises a first Y-axis air cylinder, a connecting seat, a third X-axis motor and a pressing component, wherein the first Y-axis air cylinder is arranged below the frame, the first Y-axis air cylinder drives the connecting seat to move along the Y-axis direction, the third X-axis motor is fixedly arranged at the top end of the connecting seat, and the third X-axis motor drives the pressing component to move along the X-axis direction.

3. A traction wire assembly mechanism according to claim 2, wherein: the pressing assembly comprises a third connecting plate, a first pressing group and a second pressing group, the third connecting plate is fixedly connected with the output end of a third X-axis motor, the first pressing group and the second pressing group are identical in structure and symmetrically arranged on the third connecting plate, the first pressing group comprises a first Z-axis cylinder and a first pressing plate, the first Z-axis cylinder drives the first pressing plate to move along the Z-axis direction, and the first pressing plate is an arc plate.

4. A traction wire assembly mechanism according to claim 2, wherein: the frame below is equipped with first fixed plate, first Y axle cylinder is installed on first fixed plate, be equipped with a plurality of slide rails on the first fixed plate, the slide rail is located the side of first Y axle cylinder, the bottom of connecting seat is equipped with a plurality of slide bases with slide rail assorted, the connecting seat passes through slide and first fixed plate sliding connection.

5. A traction wire assembly mechanism according to claim 1, wherein: the fixed module comprises a fixed seat and a positioning cylinder, wherein the positioning cylinder is arranged on the fixed seat and is of an upper opening structure.

6. The traction wire assembly mechanism of claim 5, wherein: the fixed module erects the response subassembly outward, the response subassembly includes response mount, first inductor and second inductor, response mount and frame fixed connection, first inductor and second inductor all with response mount fixed connection, first inductor is located the locating cylinder, the second inductor is located first inductor below and passes the locating cylinder inside.