CN111470272B - Rail system and positioning piece - Google Patents

Abstract

The application discloses track system and setting element relates to point gum machine technical field. The track system is used for conveying the material of point gum machine point gluing in-process, and the track system includes two tracks, and the track includes track component and track blank pressing component. The rail component is positioned on one side of the material, an installation position is arranged on one side close to the material, and the rail component is provided with a positioning insertion hole; the track blank pressing component is arranged on the track component and is positioned on the same side of the material as the track component, the extending direction of the track blank pressing component is consistent with the extending direction of the track component, the track blank pressing component is provided with a positioning hole, the positioning hole is arranged opposite to the positioning insertion hole, and the positioning insertion hole and the positioning hole can be arranged for auxiliary positioning when the track component and the track blank pressing component are arranged. This application is through carrying out prior assistance-localization real-time to track component and track blank holder component to can accurate installation when track component and track blank holder component installation, with the problem of solving track component and the not in place of track blank holder component installation.

Description

Rail system and positioning piece

Technical Field

The application relates to the technical field of dispenser, in particular to a track system and a positioning piece.

Background

In the dispensing process of the existing dispenser, the rail for conveying materials is unreasonable in design due to clamping edges, for example, oil slot holes are adopted as rail clamping edge fixing holes, threaded holes are adopted as rail edges, and the rail clamping edges are directly fixed on the rail edges by screws to complete assembly. But the problems of unsmooth clamping and plate passing, horn mouth of the track and unparallel track often occur, which causes great trouble to production.

Disclosure of Invention

The technical problem that this application will be solved provides a track system and setting element.

In order to solve the technical problems, the technical scheme is as follows: the utility model provides a rail system for carry the material of point gum machine point glue in-process, rail system includes first and second track, first and second track sets up relatively for carry the material, each first and second track includes:

the rail component is positioned on one side of the material, an installation position is arranged on one side close to the material, and the rail component is provided with a positioning insertion hole; and

the track blank pressing component is arranged on the track component, is positioned on the same side of the material as the track component and is used for abutting against the material, the extending direction of the track blank pressing component is consistent with the extending direction of the track component, the track blank pressing component is provided with a positioning hole, the positioning hole is opposite to the positioning insertion hole, and the positioning insertion hole and the positioning hole can be configured to assist in positioning when the track component and the track blank pressing component are arranged.

In order to solve the technical problems, the technical scheme is as follows: a spacer for installation of the track system described above, the spacer comprising:

the mounting frame can be configured at a positioning hole erected on the rail edge pressing component, and the positioning hole is a strip-shaped through hole; and

the pin is movably fixed with the mounting frame, and the pin can be configured to slide towards one side of the positioning hole and extend into the positioning hole.

In order to solve the technical problems, the technical scheme is as follows: the utility model provides a rail system for carry the material of point gum machine point glue in-process, rail system includes first and second track, first and second track sets up relatively for carry the material, each first and second track includes:

the rail component is positioned on one side of the material, an installation position is arranged on one side close to the material, and the rail component is provided with a fixing hole; and

the track blank pressing component is provided with a mounting hole, the fixing hole is opposite to the mounting hole, the fixing hole and the mounting hole are used for fixedly mounting the track blank pressing component and the track component, and the fixing hole and the mounting hole can be configured to assist in positioning when the track component and the track blank pressing component are mounted.

In order to solve the technical problems, the technical scheme is as follows: a spacer for installation of the track system described above, the spacer comprising:

the mounting rack can be configured at a mounting hole erected on the rail edge pressing member, and the mounting hole is a strip-shaped through hole; and

and the pin is movably fixed with the mounting frame, and can be configured to slide towards one side of the mounting hole and extend into the mounting hole.

Adopt this application technical scheme, the beneficial effect who has does: this application is through carrying out prior assistance-localization real-time to track member and track blank holder component, assistance-localization real-time when for example adopting locating hole and location jack to carry out track member and track blank holder component installation to can accurate installation when track member and track blank holder component installation, with the problem of solving track member and track blank holder component installation not in place.

Drawings

FIG. 1 is a schematic diagram of a material handling system according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a track system according to an embodiment of the present application;

FIG. 3 is a schematic diagram illustrating an arrangement of a first track and a second track according to an embodiment of the present application;

FIG. 4 is a schematic diagram illustrating a portion of a first track and a second track according to an embodiment of the present application;

FIG. 5 is a schematic view of a track member according to an embodiment of the present application;

FIG. 6 is a schematic view of a track hold-down member according to an embodiment of the present disclosure;

FIG. 7 is a schematic view of another embodiment of a track hold-down member of the present application;

FIG. 8 is a top view of a positioning member according to an embodiment of the present disclosure;

FIG. 9 discloses a side view of a positioning member according to an embodiment of the present application;

FIG. 10 is a schematic view of a positioning member according to an embodiment of the present disclosure;

FIG. 11 is a side view of the structure shown in FIG. 10;

FIG. 12 is a schematic diagram of a pin according to an embodiment of the present application;

FIG. 13 illustrates a schematic structural view of a track hold-down member according to another embodiment of the present application;

FIG. 14 is a schematic view of the installation of a track member and a track binder member according to another embodiment of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus or method steps consistent with certain aspects of the present application, as detailed in the following claims.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1, a schematic structural diagram of a material conveying system according to an embodiment of the present application is disclosed. The system can be matched with a dispenser to realize the dispensing operation of the dispenser on the material 200. The system may include a rail system 000 and a jig press jaw 100. The rail system 000 is used to transport the material 200. The jig pressing claw 100 is used for pressing the material 200 on the rail system 000 when the dispenser dispenses the material 200, so that the dispensing operation of the dispenser can be smoothly completed.

The glue dispenser is a common injection molding device, and is widely applied. The dispenser is a dispensing device which controls the movement of a working shaft by a stepping motor to realize the whole dispensing process with different shapes of points, lines and surfaces, and is mainly used in the industries of electronics, automobiles, toys, leatherware, LEDs (Light-Emitting diodes) or medical equipment and the like. The dispenser is mainly used in the electronic industry such as mobile phones, computer housings, optical Disc players, printers, ink holders, PC (personal computer) boards, LCD (Liquid Crystal Display), LEDs, DVDs (Digital Video Disc), Digital cameras, switches, connectors, relays, heat sinks, semiconductors, etc., or in the field of SMT (Surface Mount Technology) equipment for fast dispensing/gluing, clocks, toys, medical devices, etc. materials 200 requiring Liquid dispensing. The glue dispenser is mainly suitable for glue which can be shadowless glue, two-liquid mixed hardened glue, epoxy resin glue (black glue), white glue, EMI conductive glue, silica gel, epoxy resin, instant glue, silver glue, red glue, solder paste, heat dissipation paste, solder paste prevention paste, transparent paint, screw fixing agent and the like.

Referring to fig. 1, the track system 000 may include two symmetrically disposed tracks, such as a first track 001 and a second track 002. The first rail 001 and the second rail 002 are used for carrying and conveying the material 200. The jig pressing claw 100 may include two, for example, a first jig pressing claw 101 and a second jig pressing claw 102. The first jig pressing claw 101 and the second jig pressing claw 102 are symmetrically arranged and used for fixing the material 200 during the dispensing operation of the dispenser. The first jig pressing claw 101 may be installed on the first rail 001. The second jig pressing claw 102 may be mounted on the second rail 002.

It should be noted that the terms "first", "second" and "third" in the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

For the above and the following names, "the first jig pressing claw", "the second jig pressing claw", and "the jig pressing claw" may be interchanged, for example, "the first jig pressing claw" may also be referred to as "the second jig pressing claw", and may also be referred to as "the jig pressing claw".

Referring to fig. 2, fig. 2 is a schematic structural diagram of a track system 000 according to an embodiment of the present disclosure. The track system 000 may include a track member 10, a transport assembly 20, and a track binder member 30. The conveyor assembly 20 is mounted on the track member 10 for carrying the material 200 for conveying the material 200. The conveyor assembly 20 is mounted on the side of the track member 10 adjacent the material 200. The track binder member 30 is mounted on the track member 10 with the track member 10 and the transport assembly 20 being on the same side of the track binder member 30. The track edge pressing member 30 extends towards one side of the material 200 and is used for abutting against the material 200 so as to correct the position of the material 200, and therefore the material 200 is conveyed by the conveying assembly 20 in sequence. The jig pressing claw 100 may be installed on the rail pressing member 30. The jig pressing claw 100 and the rail member 10 are located on both sides of the rail pressing member 30. The jig pressing claw 100 may extend toward one side of the material 200 so as to abut against the material 200 and fix the material 200. The jig pressing claw 100 can move towards one side of the track member 10 under the control of the control system, abut against the material 200 and press the material 200 on the conveying assembly 20, so that the material 200 is fixed, and the dispensing machine can smoothly perform dispensing operation.

In one embodiment, referring to fig. 1 and 2, a mounting position 11 is disposed on a side of the track member 10 close to the material 200 to give way to the conveying assembly 20, so as to facilitate mounting of the conveying assembly 20. The mounting position 11 is recessed inward from the surface of the rail member 10 facing the material 200. The mounting location 11 may be groove-shaped or step-shaped.

In one embodiment, the conveyor assembly 20 may include a conveyor belt and a belt roller. The belt roller supports the conveying belt and drives the conveying belt to move, and the function of conveying the materials 200 is achieved. The conveying direction of the conveyor belt coincides with the extending direction of the mounting locations 11 and the extending direction of the track members 10. Conveyor belt and belt roller combination conveyor assembly 20 is within the purview of one skilled in the art and will not be redundantly described here.

Referring to fig. 1 and 2, the track members 10, the conveying assemblies 20, and the track binder members 30 may constitute a first track 001 and may also constitute a second track 002, i.e., the track system 000 may include two track members 10, two conveying assemblies 20, and two track binder members 30, one track member 10, one conveying assembly 20, and one track binder member 30 constituting the first track 001, and the other track member 10, the other conveying assembly 20, and the other track binder member 30 constituting the second track 002.

For the above and below described names, "first track", "second track" and "track" may be interchanged, for example, "first track" may also be referred to as "second track" and may also be referred to as "track".

Referring to fig. 3, a schematic diagram of an arrangement structure of a first track 001 and a second track 002 is disclosed in an embodiment of the present application. The first rail 001 is disposed opposite to the second rail 002. The extending direction of the first rail 001 coincides with the extending direction of the second rail 002. The first rail 001 and the second rail 002 may be each composed of a plurality of rail units. For example, the first track 001 may include a first track unit 003, a second track unit 004, and a third track unit 005. The second rail 002 may include a fourth rail unit 006, a fifth rail unit 007, and a sixth rail unit 008. The first rail unit 003 is disposed opposite to the fourth rail unit 006. The second track unit 004 and the fifth track unit 007 are oppositely disposed. The third and sixth rail units 005 and 008 are oppositely disposed.

For the above and below-described names, "first track unit", "second track unit", "third track unit", "fourth track unit", "fifth track unit", "sixth track unit", and "track unit" may be interchanged, for example, "first track unit" may also be referred to as "second track unit", and may also be referred to as "track unit".

Referring to fig. 4, a schematic diagram of a portion of the first track 001 and the second track 002 according to an embodiment of the present application is disclosed. The first rail unit 003 is disposed opposite to the fourth rail unit 006. Referring to fig. 5 and 6 together, fig. 5 discloses a schematic structural diagram of a track member 10 according to an embodiment of the present disclosure, and fig. 6 discloses a schematic structural diagram of a track hold-down member 30 according to an embodiment of the present disclosure. A track unit, such as first track unit 003, may include track member 10, transport assembly 20 (not shown), and track hold down member 30. The rail member 10 is provided with a plurality of fixing holes 12 (e.g., first fixing holes 14, second fixing holes 15, and third fixing holes 16) on a surface facing the rail binder member 30 for mounting the rail binder member 30. The surface of the track member 10 facing the track blank holder 30 is provided with a plurality of positioning insertion holes 13 (for example, a first positioning insertion hole 17 and a second positioning insertion hole 18) for assisting in positioning the track blank holder 30, so as to avoid the problem that the conveying width of the track blank holder 30 is increased or decreased or uneven in the track system 000 to cause unsmooth conveying of the material 200, such as material jamming and unsmooth material passing, and the like. The number of fixing holes 12 can be adjusted according to the actual situation within the scope understood by those skilled in the art. Also, the number of the positioning insertion holes 13 is at least two, i.e., the positioning insertion holes 13 may include a first positioning insertion hole 17 and a third positioning insertion hole 18. In one embodiment, the fixing holes 12, such as the first fixing hole 14, the second fixing hole 15, and the third fixing hole 16, may be internally threaded. In an embodiment, the positioning insertion holes 13, such as the first positioning insertion hole 17 and the third positioning insertion hole 18, may be internally threaded.

For the above and below-described names, "first fixing hole", "second fixing hole", "third fixing hole", and "fixing hole" may be interchanged, for example, "first fixing hole" may also be referred to as "second fixing hole", and may also be referred to as "fixing hole".

For the above and below names, "first positioning jack", "second positioning jack" and "positioning jack" may be interchanged, for example, "first positioning jack" may also be referred to as "second positioning jack" and may also be referred to as "positioning jack".

Referring to fig. 4, 5 and 6, the rail binder member 30 is provided with a plurality of mounting holes 31 (e.g., a first mounting hole 33, a second mounting hole 34 and a third mounting hole 35) to cooperate with the fixing holes 12 of the rail member 10 to fix the rail member 10 to the rail binder member 30. In an embodiment, the bolt 40 may pass through the first mounting hole 33 and extend into the first fixing hole 14 to be screwed with the rail member 10, the bolt 40 may pass through the second mounting hole 34 and extend into the second fixing hole 15 to be screwed with the rail member 10, and the bolt 40 may pass through the third mounting hole 35 and extend into the third fixing hole 16 to be screwed with the rail member 10, so as to achieve the mounting and fixing of the rail member 10 and the rail blank holder member 30.

It is understood that the orthographic projection of the mounting hole 31 on the surface of the rail member 10 covers the fixing hole 12, so that the mounting hole 31 is fitted and fixed with the fixing hole 12. For the above and below names, "first mounting hole", "second mounting hole", "third mounting hole", and "mounting hole" may be interchanged, for example, "first mounting hole" may also be referred to as "second mounting hole" and may also be referred to as "mounting hole".

In an embodiment, the mounting holes 31, such as the first mounting hole 33, the second mounting hole 34, and the third mounting hole 35, may be bar-shaped through holes, and the extending direction of the mounting holes 31 is perpendicular to the extending direction of the rail binder member 30. So that the distance between the track blank holder 30 and the material 200 is adjusted by sliding the track blank holder 30 in the extending direction of the mounting hole 31, so that the extending direction of the track blank holder 30 coincides with the extending direction of the track member 10 in accordance with the state of adjusting the track blank holder 30.

The rail blank holder 30 is provided with a plurality of positioning holes 32 (e.g., a first positioning hole 36 and a second positioning hole 37) to cooperate with the positioning insertion holes 13 of the rail member 10, so as to realize the positioning and fixing of the rail member 10 and the rail blank holder 30, and avoid the problem that the transportation of the material 200 is not smooth, such as material jamming and material passing, caused by the increase or decrease or unevenness of the transmission width in the rail system 000 due to the improper installation of the rail blank holder 30.

For the above and below names, "first positioning hole", "second positioning hole", and "positioning hole" may be interchanged, for example, "first positioning hole" may also be referred to as "second positioning hole" and may also be referred to as "positioning hole".

In one embodiment, the positioning member 50, such as a pin, can pass through the first positioning hole 36 and extend into the first positioning insertion hole 17 to be screwed with the track member 10, and the positioning member 50, such as a pin, can pass through the second positioning hole 37 and extend into the second positioning insertion hole 18 to be screwed with the track member 10, so as to achieve the positioning and fixing of the track member 10 and the track edge pressing member 30.

Referring to FIG. 7, a schematic diagram of a rail binder member 30 according to another embodiment of the present application is shown. The positioning holes 32 (e.g., the first positioning hole 36 and the second positioning hole 37) may be strip-shaped through holes, and the extending direction of the positioning holes 32 is perpendicular to the extending direction of the rail binder member 30. So as to slide in the extending direction of the positioning hole 32 through the track blank holder 30, so as to adjust the distance between the track blank holder 30 and the material 200, and then fix the position, so as to realize the accurate fixation of the track member 10 and the track blank holder 30.

It is understood that the orthographic projection of the positioning hole 32 on the surface of the rail member 10 covers the positioning insertion hole 13, so that the positioning hole 32 is positioned in cooperation with the positioning insertion hole 13.

Referring to fig. 8 and 9, fig. 8 discloses a top view of a positioning member 50 according to an embodiment of the present application, and fig. 9 discloses a side view of the positioning member 50 according to an embodiment of the present application. The positioning member 50 can be used to accurately position the track member 10 and the track blank holder member 30, so as to facilitate accurate fixed installation of the track member 10 and the track blank holder member 30. The retainer 50 may be used to secure a rail binder member 30, as shown in figure 7, to a rail member 10.

Referring to fig. 8 and 9, the positioning member 50 may include a first jaw 51, a second jaw 52, a first guide 53, a second guide 54, a first tightening member 55, a slide 56, a second tightening member 57, and a pin 58. The first jaw 51, the second jaw 52, the first guide 53, the second guide 54, the first tightening member 55, the slide 56, and the second tightening member 57 may constitute a mounting bracket for mounting the pin 58.

Specifically, the first clamping jaw 51 and the second clamping jaw 52 are used for extending into the positioning hole 32 to realize fixed connection with the rail blank holding member 30. The first guide 53 and the second guide 54 are arranged in parallel. The first guide 53 may be slidably coupled to at least one of the first jaw 51 and the second jaw 52 to facilitate adjustment of the distance between the first jaw 51 and the second jaw 52. The second guide 54 is slidably coupled to at least one of the first jaw 51 and the second jaw 52 to facilitate adjustment of the distance between the first jaw 51 and the second jaw 52. Of course, the fixed connection between the second guide 54 and the first and second jaws 51, 52 can be achieved with the first tightening member 55 when the first and second jaws 51, 52 are fixedly connected to the rail binder member 30. The slide 56 is slidable on the first guide 53 to adjust the distance of the slide 56 from the first and second jaws 51, 52, respectively. Of course, when the slide 56 is fixedly connected to the first guide 53, the second screw 57 can be used to fixedly connect the slide 56 to the first guide 53. The pin 58 is slidably connected with the sliding base 56 and slides in the extending direction of the pin 58, so that the pin 58 can be inserted into the positioning hole 32 and the positioning insertion hole 13 to be fixedly connected with the track member 10, and the track member 10 and the track edge pressing member 30 can be positioned.

For the designations above and below, "first jaw", "second jaw" and "jaw" may be interchanged, for example, "first jaw" may also be referred to as "second jaw" and may also be referred to as "jaw".

For the above and below described designations, "first guide", "second guide" and "guide" may be interchanged, for example, "first guide" may also be referred to as "second guide" and may also be referred to as "guide".

For the designations above and below, "first tightening member", "second tightening member", and "tightening member" may be interchanged, for example, "first tightening member" may also be referred to as "second tightening member" and may also be referred to as "tightening member".

Referring to fig. 10 and 11 together, fig. 10 discloses a schematic view of a partial structure of a positioning member 50 according to an embodiment of the present application, and fig. 11 is a side view of the structure shown in fig. 10. The first jaw 51 may include a jaw body 511 and an extension 512. The extension body 512 is provided on the jaw body 511. The extension 512 extends from the jaw body 511 to one side. The surface of the extension body 512 on the side away from the second jaw 52 is curved so that the extension body 512 can extend into the positioning hole 32 to contact the rail binder member 30. The surfaces of the jaw bodies 511 on the side facing the second jaws 52 are fixed to the ends of the first and second guides 53 and 54.

Referring to fig. 8, 9, 10 and 11, the second jaw 52 is disposed opposite to the first jaw 51. The second jaw 52 may include a jaw body 524 and an extension 525. Extensions 525 are disposed on the jaw body 524. The extension 525 is extended from the jaw body 524 to one side. The surface of the extension 525 on the side away from the first jaw 51 is curved so that the extension 525 can extend into the positioning hole 32 to contact the rail binder member 30. The extension body 512 and the extension body 525 are oppositely disposed so as to achieve a fixed connection with the rail binder member 30 through the extension body 512 and the extension body 525. The surface of the jaw body 524 facing the first jaw 51 is provided with a first guide hole 521, so that the first guide member 53 extends into the first guide hole 521 to slide the second jaw 52 and the first guide member 53. A second guide hole 522 is provided in a surface of the jaw body 524 on a side facing the first jaw 51, so that the second guide 54 extends into the second guide hole 522 to slide the second jaw 52 and the second guide 54. The second guide hole 522 is located at a side near the extension body 525.

In one embodiment, the jaw body 524 is provided with a first threaded hole 523, and the first threaded hole 523 is communicated with the second guide hole 522 so that the first tightening member 55 extends from the first threaded hole 523 to tighten the second guide member 54. In one embodiment, the axial direction of the first threaded hole 523 is perpendicular to the axial direction of the second guide hole 522.

Referring to fig. 8, 9, 10 and 11, the first guide 53 may be a slide bar for facilitating the sliding of the second jaw 52 and the slide 56 on the first guide 53. In one embodiment, the first guide 53 is graduated in the direction of extension so that precision sliding of the slide 56 is achieved by looking at the graduated scale.

Referring to fig. 8, 9, 10 and 11, the second guiding element 54 may be a sliding rod 541 for facilitating the sliding of the second clamping jaw 52 and the sliding base 56 on the first guiding element 53. In one embodiment, the second guide 54 may include a slide bar 541 and an elastic member 542. The second jaw 52, the slide 56 can slide on the first guide 53, respectively. The elastic member 542 may be a spring such as a compression spring. The elastic member 542 can be sleeved on the sliding rod 541, and one end of the elastic member 542 abuts against the first clamping jaw 51, and the other end of the elastic member abuts against the second clamping jaw 52, so as to control the distance between the first clamping jaw 51 and the second clamping jaw 52, and facilitate the auxiliary fixed connection between the first clamping jaw 51 and the second clamping jaw 52 and the rail edge pressing member 30.

In one embodiment, one of the first guide member 53 and the second guide member 54 may be omitted.

Referring to fig. 8, 9, 10 and 11, the first tightening member 55 may be a bolt that can be inserted into the first threaded hole 523 to be screwed with the second jaw 52. The first tightening member 55 completes the fixing of the second jaw 52 to the second guide member 54 by pressing the second guide member 54. In an embodiment, the first tightening member 55 and the first threaded bore 523 may be omitted.

Referring to fig. 8, 9, 10 and 11, the sliding base 56 is provided with a third guiding hole 561, so that the first guiding element 53 passes through the third guiding hole 561 and is slidably connected with the sliding base 56.

For the above and below-described names, "first guide hole", "second guide hole", "third guide hole", and "guide hole" may be interchanged, for example, "first guide hole" may also be referred to as "second guide hole", and may also be referred to as "guide hole".

In an embodiment, the sliding base 56 is provided with a second threaded hole 563, and the second threaded hole 563 is communicated with a second third guiding hole 561, so that the second screwing member 57 extends from the second threaded hole 563 to fasten the first guiding member 53, thereby achieving the fixing effect of the sliding base 56. In an embodiment, the axial direction of the second screw hole 563 is perpendicular to the axial direction of the third guide hole 561.

For the above and the following names, "the first threaded hole", "the second threaded hole", "the third threaded hole" and "the threaded hole" may be interchanged, for example, "the first threaded hole" may also be referred to as "the second threaded hole" and may also be referred to as "the threaded hole".

In one embodiment, a through hole 564 is provided at a central position of the slide 56 for slidably connecting with the pin 58. So that the pin 58 passes through the through hole 564 and extends into the positioning hole 32 and the positioning insertion hole 13, thereby achieving the positioning effect of the rail member 10 and the rail edge pressing member 30. The pin 58 slides in its axial direction relative to the slide. In one embodiment, the through-hole 564 may be internally threaded to threadably engage the pin 58.

Please refer to fig. 8, 9 and 12. Fig. 12 shows a schematic structural diagram of the pin 58 according to an embodiment of the present application. The pin 58 may be generally a stepped shaft structure, which may include a first stepped shaft 581 and a second stepped shaft 582. The radius of the first step axis 581 is smaller than the radius of the second step axis 582. The first step shaft 581 is inserted through the through hole 564 and slidably coupled to the through hole 564. The second stepped shaft 582 is configured to extend into the positioning hole 32 and the positioning insertion hole 13, so as to achieve the positioning effect of the rail member 10 and the rail blank pressing member 30.

In one embodiment, the difference between the radius of the first step axis 581 and the radius of the second step axis 582 is greater than or equal to the maximum thickness of the first jaw 51 in the direction from the first jaw 51 to the second jaw 52 and greater than or equal to the maximum thickness of the second jaw 52 in the direction from the first jaw 51 to the second jaw 52.

For the above and below described names, "first step axis", "second step axis" and "step axis" may be interchanged, for example, "first step axis" may also be referred to as "second step axis" and may also be referred to as "step axis".

In one embodiment, the first step shaft 581 may be externally threaded to threadably couple with the slide 56.

In an embodiment, the second stepped shaft 582 may be externally threaded to threadably connect with the positioning receptacle 13.

When in use, the matching relationship between the positioning member 50 and the track member 10 and the track blank-holding member 30 is specifically as follows: referring to fig. 8, 9, 10, 11 and 12, the pin 58 is raised (the through hole 564 is threaded and may be rotated to raise) so that the pin 58 moves away from the second stepped shaft 582, i.e., the pin 58 is reset. The first tightening member 55 is opened so that the second jaw 52 can slide freely on the first and second guides 53, 54. The first clamping jaw 51 and the second clamping jaw 52 are arranged at the mouth part of the positioning hole 32, so that the extending body 512 and the extending body 525 extend into the positioning hole 32, the extending body 512 and the extending body 525 are arranged at the two ends of the extending direction of the positioning hole 32 and cling to the inner surface of the positioning hole 32 of the rail edge pressing member 30 at the elastic piece 542. Then, the first tightening member 55 is tightened so that the second clamping jaw 52 is tightened with the second guide member 54, and the first clamping jaw 51, the second clamping jaw 52 and the rail blank 30 are fixed.

The second screw 57 is opened so that the slider 56 can slide freely on the first guide 53. The position of the slide 56 is adjusted according to the scale on the first guide 53. The pin 58 is then lowered so that the pin 58 passes through the positioning hole 32 so that the end of the second stepped shaft 582 is exposed outside the positioning hole 32.

The rail blank pressing member 30 with the positioning member 50 mounted thereon is placed on the rail member 10 such that the pin 58 is inserted into the positioning insertion hole 13, i.e., the end of the second stepped shaft 582 exposed outside the positioning hole 32 extends into the positioning insertion hole 13. Thereby achieving the positioning of the rail member 10 and the rail binder member 30.

The bolts 40 are inserted into the mounting holes 31 and the fixing holes 12 in sequence and screwed with the rail member 10. At this point, the installation and fixation of the rail member 10 and the rail binder member 30 are completed.

Referring to FIG. 13, a schematic diagram of a rail binder member 30 according to another embodiment of the present application is disclosed. Wherein, the length of the positioning hole 32, such as the first positioning hole 36 and the second positioning hole 37, in the extending direction thereof is greater than the length of the mounting hole 31 in the extending direction thereof, so as to give way to the extending body 512 of the first clamping jaw 51 and to give way to the extending body 525 of the second clamping jaw 52, so that the distance between the track blank holder member 30 and the material 200 can be adjusted to be greater than or equal to the length of the mounting hole 31 in the extending direction thereof.

Referring to fig. 14, a schematic illustration of the installation of the track member 10 and the track binder member 30 according to another embodiment of the present application is disclosed. The rail hold-down member 30 may omit the positioning holes 32, such as the first and second positioning holes 36, 37. The rail member 10 may omit the positioning insertion holes 13 such as the first and second positioning insertion holes 17 and 18.

When the track member 10 and the track blank holder 30 are installed, the fitting relationship between the positioning member 50 and the track member 10 and the track blank holder 30 is specifically as follows: referring to FIGS. 8, 9, 10, 11, 12 and 14,

the two positioning members 50 are respectively matched and positioned with the two mounting holes 31, such as the first mounting hole 33 and the third mounting hole 35, and then the bolts 40 are sequentially inserted into the second mounting hole 34 and the second fixing hole 15 to be screwed with the track member 10. Then, one of the positioning members 50 is removed, for example, the positioning member 50 engaged with the first mounting hole 33 is removed, and the bolt 40 is inserted into the first mounting hole 33 and the first fixing hole 14 in sequence to be screwed with the track member 10. And the last positioning piece 50 is detached, and bolts 40 sequentially extend into the third mounting hole 35 and the third fixing hole 16 to be in threaded connection with the track member 10, so that the fixed mounting of the track member 10 and the track edge pressing member 30 is realized.

When the positioning member 50 is engaged with the mounting holes 31, such as the first mounting hole 33 and the third mounting hole 35, the following operations are performed:

lifting the pin 58 (which can be rotationally lifted when the through hole 564 is threaded) causes the pin 58 to move away from the second stepped shaft 582, i.e., the pin 58 is reset. The first tightening member 55 is opened so that the second jaw 52 can slide freely on the first and second guides 53, 54. The first clamping jaw 51 and the second clamping jaw 52 are assumed to be arranged at the mouth part of the mounting hole 31, so that the extending body 512 and the extending body 525 extend into the mounting hole 31, the extending body 512 and the extending body 525 are arranged at two ends of the extending direction of the mounting hole 31, and are arranged at the elastic piece 542 and tightly attached to the inner surface of the rail clamping member 30 in the mounting hole 31. Then, the first tightening member 55 is tightened so that the second clamping jaw 52 is tightened with the second guide member 54, and the first clamping jaw 51, the second clamping jaw 52 and the rail blank 30 are fixed.

The second screw 57 is opened so that the slider 56 can slide freely on the first guide 53. The position of the slide 56 is adjusted according to the scale on the first guide 53. The pin 58 is then lowered so that the pin 58 passes through the mounting hole 31 so that the end of the second step shaft 582 is exposed out of the mounting hole 31.

The rail edge pressing member 30 with the positioning member 50 mounted thereon is placed on the rail member 10 such that the pin 58 is inserted into the fixing hole 12, i.e., the end of the second stepped shaft 582 exposed outside the mounting hole 31 protrudes into the fixing hole 12. In turn, the positioning of the track member 10 and the track binder member 30 is achieved.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes performed by the present application and the contents of the appended drawings, which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (17)

1. The utility model provides a track system for carry the material of point gum machine point glue in-process, its characterized in that, includes first and second track, first and second track sets up relatively for carry the material, each first and second track includes:

the rail component is positioned on one side of the material, an installation position is arranged on one side close to the material, and the rail component is provided with a positioning insertion hole and a fixing hole; and

the track blank pressing component is arranged on the track component, is positioned on the same side of the material as the track component and is used for abutting against the edge of the material so as to correct the position of the material on the transmission width of the track system, the extending direction of the track blank pressing component is consistent with the extending direction of the track component, the track blank pressing component is provided with a positioning hole and an installation hole, the fixing hole and the installation hole are used for installing and fixing the track blank pressing component and the track component, the positioning insertion hole and the positioning hole can be configured for auxiliary positioning when the track component and the track blank pressing component are installed, the installation hole is a strip-shaped through hole, and the orthographic projection of the installation hole on the track component is configured to cover the fixing hole when the positioning hole and the positioning insertion hole are oppositely arranged for auxiliary positioning.

2. The track system of claim 1 further comprising a conveyor assembly mounted at the mounting location for carrying and conveying the material, the conveyor assembly being located on the same side of the track binder member as the track member.

3. The track system of claim 2, further comprising a jig pressing claw mounted on the track pressing member between the jig pressing claw and the track member, the jig pressing claw extending toward the material side, the jig pressing claw configured to press the material toward the conveying assembly side when driven.

4. The track system of claim 1, wherein the mounting holes extend in a direction perpendicular to the direction of extension of the track hold-down member.

5. The rail system of claim 1, wherein the positioning receptacle comprises:

a first positioning jack; and

the second positioning jack is parallel to the axis of the first positioning jack;

the locating hole includes:

the first positioning hole is opposite to the first positioning jack; and

and the second positioning hole is symmetrically arranged with the first positioning hole and is opposite to the second positioning jack.

6. The track system of claim 5, wherein the first and second locating holes are through-holes in the shape of bars, the first locating hole extending in a direction perpendicular to the direction of extension of the track binder member, and the second locating hole extending in a direction perpendicular to the direction of extension of the track binder member.

7. A spacer for installation of a rail system according to any of claims 1-6, comprising:

the mounting rack can be configured to be erected at the positioning hole of the rail edge pressing component; and

the pin is movably fixed with the mounting frame, and the pin can be configured to slide towards one side of the positioning hole and extend into the positioning hole.

8. The spacer as claimed in claim 7, wherein the mounting bracket comprises:

a first jaw;

a second clamping jaw arranged opposite to the first clamping jaw, wherein the first clamping jaw and the second clamping jaw can be configured to be erected at the positioning hole of the rail blank holder component;

the guide piece is fixedly connected with the first clamping jaw, the second clamping jaw is movably fixed with the guide piece, and the second clamping jaw can be configured to slide along the extending direction of the guide piece; and

a slide movably fixed to the guide, the slide being configured to slide in an extending direction of the guide, the pin being mounted on the slide, the pin being configured to slide in an axial direction of the pin relative to the slide and configured to slide into the positioning hole.

9. The spacer as recited in claim 8, wherein the guide comprises:

the first guide piece is movably fixed with the sliding seat, one end of the first guide piece is fixed with the first clamping jaw, and the first guide piece is in sliding connection with the second clamping jaw; and

and the second guide piece is movably fixed with the second clamping jaw, one end of the second guide piece is fixed with the first clamping jaw, and the second clamping jaw can be configured to slide along the extension direction of the second guide piece.

10. The positioning member according to claim 9, wherein the second guide member is provided with an elastic member, one end of the elastic member abuts against the first clamping jaw, the other end of the elastic member abuts against the second clamping jaw, and the elastic member is configured to drive the second clamping jaw to move towards a side away from the first clamping jaw.

11. The positioning member according to claim 9, wherein the second jaw is provided with a first guide hole, and the first guide member is configured to extend into the first guide hole and slidably engage the second jaw.

12. The positioning member according to claim 9, wherein said second jaw defines a second guide aperture, said second guide member is configured to extend into said second guide aperture and slidably engage said second jaw, said second jaw defines a first threaded aperture, said first threaded aperture communicates with said second guide aperture, said second jaw defines a first tightening member, said first tightening member is disposed within said first threaded aperture and threadably engages said second jaw, said first tightening member is configured to be threaded into said second guide aperture and abut said second guide member.

13. The positioning member according to claim 9, wherein said carriage is provided with a third guide hole, said first guide member is configured to extend into said third guide hole and slidably engage said carriage, said carriage is provided with a second threaded hole, said second threaded hole communicates with said third guide hole, said carriage is mounted with a second tightening member, said second tightening member is disposed within said second threaded hole and threadably engages said carriage, said second tightening member is configured to be screwed into said third guide hole and abut said first guide member.

14. The positioning element according to claim 8 or 13, wherein the sliding seat is provided with a through hole, the through hole is arranged opposite to the positioning hole, and the pin is arranged in the through hole and is connected with the sliding seat in a sliding manner.

15. The utility model provides a track system for carry the material of point gum machine point glue in-process, its characterized in that, includes first and second track, first and second track sets up relatively for carry the material, each first and second track includes:

the rail component is positioned on one side of the material, an installation position is arranged on one side close to the material, and the rail component is provided with a plurality of fixing holes; and

a track binder member provided with a plurality of mounting holes for abutting against an edge of the material to correct a position of the material over a transport width of the track system, the plurality of mounting holes being strip-shaped through holes, a part of the plurality of fixing holes and a part of the plurality of mounting holes being used for mounting and fixing the track binder member and the track member, another part of the plurality of fixing holes and another part of the plurality of mounting holes being configurable for auxiliary positioning when the track member is mounted with the track binder member, an orthographic projection of the another part of the plurality of mounting holes on the track member being configured to cover the another part of the plurality of fixing holes when the part of the plurality of mounting holes and the one part of the plurality of fixing holes are oppositely positioned for auxiliary positioning.

16. A spacer for installation of the track system of claim 15, comprising:

a mounting bracket configurable to be mounted at the mounting aperture of a rail hold-down member; and

and the pin is movably fixed with the mounting frame, and can be configured to slide towards one side of the mounting hole and extend into the mounting hole.

17. The spacer as claimed in claim 16, wherein the mounting bracket comprises:

a first jaw;

a second clamping jaw arranged opposite to the first clamping jaw, wherein the first clamping jaw and the second clamping jaw can be configured to be erected at the mounting hole of the rail blank holder;

the guide piece is fixedly connected with the first clamping jaw, the second clamping jaw is movably fixed with the guide piece, and the second clamping jaw can be configured to slide along the extending direction of the guide piece; and

a slide movably fixed to the guide, the slide being configured to slide in an extending direction of the guide, the pin being mounted on the slide, the pin being configured to slide in an axial direction of the pin relative to the slide and configured to slide into the mounting hole.

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