CN213847466U - Linear element feeding device - Google Patents

Abstract

The application relates to the technical field of linear electronic component feeding equipment, and provides a linear component feeding device which comprises a conveying device, a feeding device and a feeding device, wherein the conveying device is used for continuously conveying braids; the cutting device is arranged above the discharge end of the conveying device and used for cutting off two ends of the linear element in the braid; a dividing device provided below the cutting device and configured to receive the linear element that is cut off and separated from the braid; and the blanking device is used for transferring the linear element on the material distributing device to the position above a product to be spliced with the linear element, and at least comprises a blowing device and a hose, wherein the blowing device is used for blowing the linear element into the hose from the material distributing device. The linear element feeding device has the advantages of high automation degree, no need of manual participation, low cost and high production efficiency.

Description

Linear element feeding device

Technical Field

The application belongs to the technical field of linear type electronic component feeding equipment, and more specifically relates to a linear element feeding device.

Background

At present, various linear elements such as protection resistors, capacitors, diodes, etc. are stored in a braid manner, that is, two ends of the linear elements are fixed at intervals by two braids. Thus, each linear element requires that the individual linear element be removed from the braid prior to use and then the linear element be spliced to a mounting product such as a circuit board. At present, the cutting of a straight line element from a braid is realized by manually operating cutting equipment, the cut single straight line element is generally arranged manually, and the straight line element is inserted into a product through clamping equipment such as a mechanical arm.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the present application is to provide a linear element feeding device, so as to solve the technical problem in the prior art that production efficiency is low due to manual feeding of a linear element.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: provided is a linear element feeding device, comprising:

the conveying device is used for continuously conveying the braid;

the cutting device is arranged above the discharge end of the conveying device and used for cutting off two ends of the linear element in the braid;

a dividing device provided below the cutting device and configured to receive the linear element that is cut off and separated from the braid;

and the blanking device is used for transferring the linear element on the material distributing device to the position above a product to be spliced with the linear element, and at least comprises a blowing device and a hose, wherein the blowing device is used for blowing the linear element into the hose from the material distributing device.

In one embodiment, the conveying device comprises a mounting platform, two mounting seats arranged on the mounting platform at intervals, a positioning toothed plate arranged between the two mounting seats and a driving assembly arranged on the mounting platform and used for driving the braid to convey, wherein one end of the positioning toothed plate is provided with a row of positioning toothed grooves, and each positioning toothed groove is used for correspondingly placing one straight line element.

In one embodiment, the driving assembly includes a horizontal guide rail fixed on the mounting platform, a sliding block slidably disposed on the horizontal guide rail, a lifting cylinder fixed on the sliding block, a mounting block disposed on the lifting cylinder, a driving toothed plate disposed on the mounting block, and a horizontal cylinder driving the sliding block to slide, the positioning toothed plate is mounted on the mounting seat, and a length direction of the horizontal guide rail is the same as a conveying direction of the linear element.

In one embodiment, the mounting platform is provided with a guide frame for placing the braid, the mounting seat is provided with a pressing part, the pressing part is positioned above the braid, and the braid is conveyed between the positioning toothed plate and the pressing part.

In one embodiment, an adjusting long groove is formed in the mounting seat, a knob screw in threaded connection with the mounting platform is arranged at the adjusting long groove, and the length direction of the adjusting long groove is parallel to the width direction of the braid.

In one embodiment, the cutting device comprises: fix mounting panel on the mount pad is located cut the cylinder on the mounting panel and be located cut the cutting blade on the cylinder.

In one embodiment, the mounting plate is provided with a guide seat, and the cutting blade is slidably arranged on the guide seat.

In one embodiment, the material distributing device comprises a material distributing block, and a material distributing groove used for containing the straight line element is arranged on the material distributing block.

In one embodiment, the blanking device further comprises: slide and locate carriage on the mounting platform, the drive the gliding sliding cylinder of carriage and locating push away the material cylinder on the mount pad, the distributor block is located on the carriage, still be equipped with the outlet duct of connecting with gas blowing device on the carriage, be equipped with on the mount pad with hose connection's inlet pipe, the sliding cylinder drive the carriage slides so that the distributor groove with the inlet pipe aligns and so that the outlet duct with the inlet pipe aligns, it is used for with to push away the material cylinder divide in the silo the linear element push into extremely in the inlet pipe.

In one embodiment, the blanking device further comprises a mounting column, a fixing plate arranged on the mounting column, a lifting rail arranged on the fixing plate, a lifting plate arranged on the lifting rail, a discharging pipe arranged on the lifting plate, and a blanking cylinder arranged on the fixing plate and used for driving the lifting plate to lift, wherein the discharging pipe is connected with the hose.

The application provides a straight line element loading attachment's beneficial effect lies in: the automatic conveying of the braids is achieved through the conveying device, the straight line elements in the braids are automatically cut into single straight line elements through the cutting device so as to achieve automatic feeding of the straight line elements, the straight line elements are positioned through the material distribution device, the position of the straight line elements is transferred through the air blowing device and the hoses, the hoses have flexibility, the requirement on installation space is low, the straight line elements can be accurately transferred to the needed positions, and therefore the straight line element feeding device has the advantages of being high in automation degree, free of manual participation, low in cost and high in production efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a braid provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a linear element feeding device according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a conveying device in a linear element feeding device according to an embodiment of the present application;

FIG. 4 is an enlarged view taken at A in FIG. 3;

fig. 5 is a schematic positional relationship diagram of a conveying device, a cutting device and a blanking device in a linear element feeding device according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a driving assembly of a conveying device in a linear element feeding device according to an embodiment of the present application;

fig. 7 is a schematic view illustrating a positional relationship between a cutting device and a material pushing cylinder in the linear element feeding device according to the embodiment of the present application;

fig. 8 is a schematic partial structural view of a blanking device in a linear element feeding device according to an embodiment of the present application.

Wherein, in the figures, the respective reference numerals:

1. a conveying device; 11. mounting a platform; 12. a mounting seat; 121. adjusting the long groove; 13. a positioning toothed plate; 131. positioning the tooth socket; 14. a drive assembly; 141. a horizontal guide rail; 142. a slider; 143. a lifting cylinder; 144. mounting blocks; 145. a driving toothed plate; 1451. a drive gullet; 146. a horizontal cylinder; 15. a guide frame; 16. a pressing member; 161. a third support; 162. an antistatic belt; 17. a material accommodating box; 18. a travel switch; 19. a graduated scale; 2. a cutting device; 21. mounting a plate; 22. a cutting cylinder; 23. cutting a blade; 24. a guide seat; 25. a sensor; 3. a material distributing device; 31. a material distributing block; 32. a material distributing groove; 4. a blanking device; 41. an air outlet pipe; 42. a hose; 421. a feed pipe; 422. a second bracket; 43. a carriage; 431. a sliding guide rail; 44. a slide cylinder; 45. a material pushing cylinder; 451. a first bracket; 451. a material pushing plate; 46. mounting the upright post; 461. a fixing plate; 462. a lifting guide rail; 463. a lifting plate; 464. a discharge pipe; 465. a blanking cylinder; 5. braiding; 51. a straight line element.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 and 2, a linear element feeding device according to an embodiment of the present invention will now be described. The linear element feeding device comprises a conveying device 1, a cutting device 2, a material distributing device 3 and a discharging device 4.

The conveying device 1 is used for continuously conveying the braid 5, a plurality of linear elements 51 arranged at intervals are arranged on the braid 5, and the linear elements 51 can be linear electronic elements such as protective resistors, capacitors or diodes. When the linear elements 51 need to be used, both ends of the linear elements 51 need to be cut so that the linear elements 51 become independent units. The cutting device 2 is provided above the discharge end of the conveyor 1, and the cutting device 2 cuts both ends of the linear elements 51 in the braid 5 to separate the linear elements 51 from the braid 5. The divider 3 is provided below the cutter 2 and receives the linear element 51 cut and separated from the braid 5. The feeding device 4 is used for transferring the linear elements 51 on the feed divider 3 to above the products to be inserted into the linear elements 51, wherein the feeding device 4 at least comprises an air blowing device and a hose 42, the air blowing device is used for blowing the linear elements 51 from the feed divider 3 into the hose 42, and the hose 42 is used for guiding the linear elements 51 above the products.

According to the straight line element feeding device provided by the embodiment of the application, the automatic conveying of the braids 5 is realized through the conveying device 1, the cutting device 2 automatically cuts the straight line elements 51 in the braids 5 into the single straight line elements 51 to realize the automatic feeding of the straight line elements 51, the distributing device 3 positions the straight line elements 51 and adopts the air blowing device and the hoses 42 to realize the position transfer of the straight line elements 51, and the hoses 42 have flexibility, so that the requirement on the installation space is low, and the straight line elements 51 can be accurately transferred to the required positions, so that the straight line element feeding device has the advantages of high automation degree, no need of manual participation, low cost and high production efficiency.

As shown in fig. 3-5, in the present embodiment, the conveying device 1 includes a mounting platform 11, two mounting seats 12 spaced apart from each other on the mounting platform 11, a positioning toothed plate 13 disposed between the two mounting seats 12, and a driving assembly 14 disposed on the mounting platform 11 and used for driving the conveying of the braid 5, wherein one end of the positioning toothed plate 13 is provided with a row of positioning toothed grooves 131, and each positioning toothed groove 131 is correspondingly provided with one linear element 51. After the straight line element 51 on the braid 5 is placed in the positioning tooth groove 131, the braid 5 cannot move along the conveying direction of the braid 5, so that the stability of the braid 5 staying on the mounting base 12 is ensured, the two ends of the straight line element 51 are conveniently cut, and the cutting precision is ensured.

As shown in fig. 3-5, the driving assembly 14 is disposed on the mounting platform 11 and located between the two mounting seats 12, and the driving assembly 14 can achieve lifting and horizontal moving functions, wherein the lifting function is used for driving the braid to be separated from the positioning toothed plate 13, so as to ensure that the braid can move freely, and the horizontal moving function is used for achieving horizontal movement of the braid, so as to achieve transportation of the braid 5. Wherein the driving assembly 14 is connected to at least two straight elements 51 at a time to drive the movement of the braid 5, the arrangement is such as to ensure that the supporting force applied to the braid by the driving assembly 14 is distributed to the plurality of straight elements 51, thereby ensuring the conveying efficiency and quality.

As shown in fig. 3-6, in the present embodiment, the driving assembly 14 includes a horizontal guide rail 141 fixed on the mounting platform 11, a sliding block 142 slidably disposed on the horizontal guide rail 141, a lifting cylinder 143 fixed on the sliding block 142, a mounting block 144 disposed on the lifting cylinder 143, a driving toothed plate 145 disposed on the mounting block 144, and a horizontal cylinder 146 for driving the sliding block 142 to slide. One end of the driving toothed plate 145, which is far away from the mounting block 144, is provided with a row of driving toothed grooves 1451 for placing each linear element 51, the number of the driving toothed grooves 1451 is more than two, the positioning toothed plate 13 is fixed on the mounting base 12, the length direction of the horizontal guide rail 141 is the same as the conveying direction of the linear elements 51, the driving toothed grooves 1451 on the driving toothed plate 145 are used for being simultaneously connected with a plurality of linear elements 51 of the braid 5, and the conveying quality of the braid 5 is ensured by utilizing the principle that one chopstick is easy to break and a plurality of chopsticks are not easy to break. The lifting cylinder 143 is configured to drive the mounting block 144 to lift, so that the driving toothed plate 145 separates the braid 5 from the positioning toothed plate 13 in a lifting process, and after the braid 5 is separated from the positioning toothed plate 13, the horizontal cylinder 146 drives the sliding block 142 to slide, so that the driving toothed plate 145 drags the braid 5 to move, and thus transportation of the braid 5 is achieved. In other embodiments, the lift cylinder 143 and the horizontal cylinder 146 may be replaced with hydraulic cylinders or lead screw assemblies.

As shown in fig. 3 to 5, in the present embodiment, each of the driving toothed plate 145 and the positioning toothed plate 13 is at least provided with two, and at least two positioning toothed plates 13 and two driving toothed plates 145 are respectively used for connecting with two ends of the linear element 51. In this embodiment, the length of the driving toothed plate 145 is greater than the length of the positioning toothed plate 13, so that the driving toothed plate 145 can be separated from the positioning toothed plate 13 conveniently when being lifted, and the lifting distance is short. Each mounting seat 12 is fixed with a positioning toothed plate 13, and the mounting block 144 is provided with two driving toothed plates 145 at intervals. When the distance between the two mounting seats 12 is large enough, the number of the positioning toothed plates 13 and the driving toothed plates 145 can be increased appropriately, so that the contact areas between the driving toothed plates 145 and the positioning toothed plates 13 and the linear elements 51 can be increased, and the supporting force on the single linear element 51 is further reduced.

As shown in fig. 3-5, in the present embodiment, the mounting platform 11 is provided with a guiding frame 15 for placing the braid 5, and the guiding frame 15 is located at the same end of the two mounting seats 12. The guiding frame 15 is used for horizontally placing or obliquely placing the braid 5, and one end of the guiding frame 15 far away from the mounting seat 12 is a higher end, so that the driving assembly 14 can conveniently drag the braid 5 to move. The guide frame 15 includes a placing plate and a baffle plate for preventing the braid 5 from shaking left and right in its width direction.

As shown in fig. 3-5, in this embodiment, a material accommodating box 17 for accommodating the braid 5 is disposed below the guiding frame 15, and an end of the guiding frame 15 away from the mounting base 12 is configured in an arc shape, which is used to facilitate pulling the braid 5. The magazine 17 can also be arranged at the same height as the guide frame 15. In other embodiments, the braid 5 is a disk-shaped braid 5, and a holder for rotatably mounting the disk-shaped braid 5 may be provided on the guide frame 15.

As shown in fig. 3-5, in the present embodiment, the mounting seats 12 are provided with the pressing parts 16, the pressing parts 16 are located above the middle of the braid 5, each mounting seat 12 is provided with a limit baffle, two limit baffles are located above two ends of the braid 5, the distance between the limit baffles and the braid 5 is greater than the lifting height of the driving toothed plate 145, and the braid 5 is conveyed between the positioning toothed plates 13 and the pressing parts 16. In this embodiment, two braids of braid 5 are respectively conveyed on mount pads 12 in a contact manner, the limit baffle is used for blocking the braids of braid 5, straight line element 51 is conveyed in the air between two mount pads 12, and pressing piece 16 and limit baffle are used for preventing braid 5 from separating from positioning toothed plate 13 and preventing from shaking along the action of width direction of braid 5, thereby ensuring that the position of both ends of straight line element 51 is accurate when being cut.

As shown in fig. 3 to 5, in the present embodiment, the pressing member 16 includes a third bracket 161 fixed to the mounting base 12 and an antistatic belt 162 fixed to the third bracket 161. The anti-static belt 162 has certain flexibility, one end of the anti-static belt 162 is fixed on the third support 161, the other end of the anti-static belt 162 is a free end, the length direction of the anti-static belt 162 is the same as the conveying direction of the braid 5, so that the free end can be pressed on the straight line element 51, meanwhile, the anti-static belt 162 and the straight line element 51 are in contact and have certain friction force, the friction force can limit the braid 5 to swing along the width direction of the braid 5, but basically has no influence on the conveying of the braid 5, and the conveying precision of the braid 5 is guaranteed.

As shown in fig. 3-5, in the present embodiment, the mounting platform 11 is provided with a travel switch 18 for limiting the sliding travel of the slide block 142, that is, after the horizontal cylinder 146 drives the slide block 142 to slide on the horizontal guide rail 141 for a certain distance, the slide block 142 abuts against the travel switch 18, and the travel switch 18 feeds back a received impact signal to the horizontal cylinder 146, so as to stop the operation of the horizontal cylinder 146 or drive the slide block 142 to move in the opposite direction. In this embodiment, the driving assembly 14 is used to drive the two straight elements 51 at the foremost end of the braid 5 one station at a time, which represents the distance moved by the straight elements 51 during cutting, and the travel switch 18 can ensure the accuracy of the moving distance, and thus the conveying accuracy of the braid 5, and thus the cutting accuracy.

As shown in fig. 3 to 5, in the present embodiment, the mounting base 12 is slidably disposed on the mounting platform 11, an adjusting long groove 121 is disposed on the mounting base 12, a knob screw (not shown) screwed to the mounting platform 11 is disposed at the adjusting long groove 121, and a length direction of the adjusting long groove 121 is parallel to a width direction of the braid 5. In this embodiment, one mounting seat 12 is slidably disposed on mounting platform 11, so that the distance between two mounting seats 12 is adjustable, thereby being suitable for braids 5 with different widths. The knob screw and the long adjustment groove 121 have guiding and positioning functions, so that the mounting base 12 is ensured to move linearly when moving.

As shown in fig. 3 to 5, in the present embodiment, the mounting platform 11 is provided with a scale 19 having the same length direction as the length direction of the adjustment long groove 121. The scale 19 is used to determine the distance between the two mounts 12, thereby improving the efficiency of the position adjustment of the mounts 12.

As shown in fig. 2, 4, 5 and 6, in the present embodiment, the cutting device 2 includes a mounting plate 21 fixed on the mounting platform 11, a cutting cylinder 22 provided on the mounting plate 21, and a cutting blade 23 provided on the cutting cylinder 22, the cutting device 2 is located above the material separating device 3, and the cutting blade 23 is used to cut both ends of the linear element 51 from the braid 5 so that the single linear element 51 is placed on the material separating device 3. In the present embodiment, two cutting devices 2 are provided, and the two cutting devices 2 are used to cut one end of the linear element 51. As shown in fig. 7, a sensing bracket (not shown) is further disposed on the mounting plate 21, a sensor 25 is disposed on the sensing bracket, the sensor 25 is an optical fiber sensor 25 or an infrared sensor 25, and the sensor 25 is used for sensing whether a linear element 51 is located right below the cutting blade 23, so as to precisely cut the linear element 51. In the present embodiment, the cutting blade 23 is provided with two cutting notches, so that two linear elements 51 can be cut at a time, and the feeding efficiency of the linear elements 51 is improved.

In the present embodiment, the mounting plate 21 is provided with a guide seat 24, and the cutting blade 23 is slidably provided on the guide seat 24. The guide seat 24 serves to restrict the sliding direction of the cutting blade 23, thereby ensuring the cutting stability of the cutting blade 23.

As shown in fig. 4, the material distributing device 3 includes a material distributing block 31, and a material distributing groove 32 for accommodating the linear element 51 is disposed on the material distributing block 31. The distributing groove 32 is arranged to facilitate the placement of the straight line element 51, and the width of the distributing block 31 is smaller than the length of the straight line element 51, i.e. the length of the distributing groove 32 is smaller than the length of the straight line element 51. When the linear element 51 is placed, two ends of the linear element 51 extend out of a part of the branch trough 32, or one end of the linear element 51 close to the pushing device extends out of the branch trough 32, so that the pushing device can push part of the linear element 51 into the feeding end of the hose 42 conveniently.

In this embodiment, at least two distributing grooves 32 are provided, so that the transfer efficiency of the linear member 51 can be improved. Wherein at least one of the material distribution grooves 32 is an inclined groove. The distance between the tops of the two sub-tanks 32 is smaller than the distance between the bottoms of the two sub-tanks 32, so that the two linear elements 51 have a larger distance after being respectively placed in the corresponding sub-tanks 32, and other components such as the feeding pipe 421 and the air outlet pipe 41 are arranged as follows. In this embodiment, the bottoms of the two sub-tanks 32 are arranged in a high-low manner, which further increases the distance between the two straight line elements 51.

As shown in fig. 2, 4 and 6, in this embodiment, the blanking device 4 further includes a sliding frame 43 slidably disposed on the mounting platform 11, a sliding cylinder 44 for driving the sliding frame 43 to slide, and a material pushing cylinder 45 disposed on the mounting base 12, the distributing block 31 is disposed on the sliding frame 43, the sliding frame 43 is further provided with an air outlet pipe 41 connected to the air blowing device, the mounting base 12 is provided with a material inlet pipe 421 connected to the flexible pipe 42, the sliding cylinder 44 drives the sliding frame 43 to slide so as to align the distributing groove 32 with the material inlet pipe 421 and to align the air outlet pipe 41 with the material inlet pipe 421, the material pushing cylinder 45 is used for pushing the linear element 51 in the distributing groove 32 into the material inlet pipe 421, the material inlet pipe 421 is fixed on the mounting base 12 through a second bracket 422, the air outlet pipe 41 and the material pushing cylinder 45 are located on the same side of the distributing block 31, the material inlet pipe 421 is located on the other side of the distributing block 31, the material inlet end of the material inlet pipe 421 is arranged in a horn shape, this has a guiding effect. The carriage 43 is slidably disposed on the mounting platform 1 by a slide rail 431.

Based on the same horizontal plane, the material distribution groove 32 and the air outlet pipe 41 can be aligned with the feeding end of the feeding pipe 421 under the driving of the sliding cylinder 44. In this embodiment, the linear element 51 is first placed in the trough 32 of the separating block and the feeding ends of the trough 32 and the feeding pipe 421 are aligned, the pushing cylinder 45 pushes the linear element 51 in the trough 32 partially into the feeding pipe 421, the sliding cylinder 44 moves the sliding rack 43 to align the air outlet pipe 41 with the feeding end of the feeding pipe 421, the blowing device operates and blows a high-speed air flow through the air outlet pipe 41, the high-speed air flow enters the hose 42 along the feeding pipe 421 and, at the same time, blows the linear element 51 in the feeding pipe 421 into the hose 42 and moves in the hose 42, so that the linear element 51 is discharged from the discharging end of the hose 42.

In this embodiment, the blowing device further includes an air pump and a connecting pipe (not shown), the connecting pipe is connected to the air pump and the air outlet pipe 41, the air pump is used for providing high-speed air flow to blow out from the blowing pipe through the connecting pipe, and the connecting pipe is preferably a flexible pipe, so that the installation requirement of the blowing device can be reduced. In the embodiment, the pushing cylinder 45 is installed on the first bracket 451, the first bracket 451 is installed on the installation base 12, the pushing cylinder 45 is provided with the pushing plate 451, the first bracket 451 functions to make the pushing cylinder 45 and the distributing chute 32 be at substantially the same level, the pushing plate 451 is used for pushing the straight line elements 51, wherein the pushing plate 451 can push a plurality of straight line elements 51 at the same time.

As shown in fig. 2, 7 and 8, in this embodiment, the blanking device 4 further includes a mounting pillar 46, a fixing plate 461 disposed on the mounting pillar 46, a lifting rail 462 disposed on the fixing plate 461, a lifting plate 463 disposed on the lifting rail 462, a discharging pipe 464 disposed on the lifting plate 463, and a blanking cylinder 465 disposed on the fixing plate 461 and used for driving the lifting plate 463 to lift, and the discharging pipe 464 is connected to the hose 42. Wherein, the effect of installation stand 46 is used for setting up the discharge end of discharging pipe 464 in the product top, and unloading cylinder 465 is used for ordering about lifter plate 463 and carries out elevating movement to make discharging pipe 464 carry out elevating movement, so that the distance between the discharge end of discharging pipe 464 and the product can be adjusted, guarantees that straight line element 51 can peg graft on the product accurately.

The straight line element loading attachment that this application embodiment provided has degree of automation height, with low costs, need not artifical participation, require low, the installation degree of freedom height and the high advantage of production efficiency to the installation space.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. A linear element loading device is characterized by comprising:

the conveying device is used for continuously conveying the braid;

the cutting device is arranged above the discharge end of the conveying device and used for cutting off two ends of the linear element in the braid;

a dividing device provided below the cutting device and configured to receive the linear element that is cut off and separated from the braid;

and the blanking device is used for transferring the linear element on the material distributing device to the position above a product to be spliced with the linear element, and at least comprises a blowing device and a hose, wherein the blowing device is used for blowing the linear element into the hose from the material distributing device.

2. The linear element feeding device according to claim 1, wherein the conveying device comprises a mounting platform, two mounting seats arranged on the mounting platform at intervals, a positioning toothed plate arranged between the two mounting seats, and a driving assembly arranged on the mounting platform and used for driving the braid to convey, one end of the positioning toothed plate is provided with a row of positioning toothed grooves, and each positioning toothed groove is used for correspondingly placing one linear element.

3. The linear element feeding device according to claim 2, wherein the driving assembly comprises a horizontal guide rail fixed on the mounting platform, a sliding block slidably disposed on the horizontal guide rail, a lifting cylinder fixed on the sliding block, a mounting block disposed on the lifting cylinder, a driving toothed plate disposed on the mounting block, and a horizontal cylinder driving the sliding block to slide, the positioning toothed plate is mounted on the mounting seat, and the length direction of the horizontal guide rail is the same as the conveying direction of the linear element.

4. The linear element feeding device according to claim 2, characterized in that said mounting platform is provided with a guide for placing the braids, said mounting seat is provided with a pressing element, said pressing element is located above the braids, and the braids are transported between said positioning toothed plate and said pressing element.

5. The linear element feeding device according to claim 4, wherein an adjusting elongated slot is provided on the mounting base, a knob screw connected with the mounting platform in a threaded manner is provided at the adjusting elongated slot, and the length direction of the adjusting elongated slot is parallel to the width direction of the braid.

6. The linear element loading device according to claim 2, wherein said cutting means comprises a mounting plate fixed to said mounting base, a cutting cylinder provided on said mounting plate, and a cutting blade provided on said cutting cylinder.

7. The linear element feeding device according to claim 6, wherein a guide seat is provided on the mounting plate, and the cutting blade is slidably provided on the guide seat.

8. The linear element loading device according to claim 2, wherein the material distributing device comprises a material distributing block, and a material distributing groove for accommodating the linear element is formed on the material distributing block.

9. The linear element feeding device as claimed in claim 8, wherein the blanking device further comprises: slide and locate carriage on the mounting platform, the drive the gliding sliding cylinder of carriage and locating push away the material cylinder on the mount pad, the distributor block is located on the carriage, still be equipped with the outlet duct of connecting with gas blowing device on the carriage, be equipped with on the mount pad with hose connection's inlet pipe, the sliding cylinder drive the carriage slides so that the distributor groove with the inlet pipe aligns and so that the outlet duct with the inlet pipe aligns, it is used for with to push away the material cylinder divide in the silo the linear element push into extremely in the inlet pipe.

10. The linear element feeding device according to claim 9, wherein the feeding device further comprises a mounting pillar, a fixing plate disposed on the mounting pillar, a lifting rail disposed on the fixing plate, a lifting plate disposed on the lifting rail, a discharging pipe disposed on the lifting plate, and a feeding cylinder disposed on the fixing plate and driving the lifting plate to move up and down, the discharging pipe being connected to the hose.

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