CN217263266U - Glass positioning conveyor - Google Patents

Abstract

The utility model discloses a glass positioning conveyor, including location interval adjustment mechanism, location interval adjustment mechanism includes interval adjusting device and glass positioner, and location interval adjustment mechanism distributes on the location installing zone of perpendicular to transmission direction has at least two. The glass positioning devices correspond to the spacing adjusting devices one by one and are fixedly connected with the spacing adjusting devices, and the spacing adjusting devices drive the glass positioning devices to move in the direction perpendicular to the transmission direction. The utility model discloses set up the glass positioner of the location installing zone of perpendicular to transmission direction on interval adjusting device for interval between the glass positioner is adjustable, thereby makes the glass that holistic glass positioner can compatible more big or small specifications, more varieties, promotes the suitability of glass location transmission, improves the production line utilization ratio of glass production.

Description

Glass positioning conveyor

Technical Field

The utility model relates to a glass production technical field, in particular to glass location conveyer.

Background

As shown in the figure, the existing glass positioning conveyor is provided with a plurality of positioning points on the long edge along the conveying direction, and the positioning points are used for being matched with each other to realize glass positioning and conveying. However, the distance between the positioning points of the existing glass positioning conveyor can not be adjusted, so that the applicability of glass positioning and conveying is poor, and particularly when some large glass is conveyed, the positioning is easy to be inaccurate, so that the utilization rate of a production line of glass production is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a glass location conveyer promotes the suitability of glass location transmission, improves the production line utilization ratio of glass production.

In order to solve the technical problem, the utility model discloses a technical scheme be:

a glass positioning conveyor comprises a positioning distance adjusting mechanism, wherein the positioning distance adjusting mechanism comprises a distance adjusting device and a glass positioning device, and at least two positioning distance adjusting mechanisms are distributed on a positioning installation area vertical to the conveying direction;

the glass positioning devices correspond to the spacing adjusting devices one by one and are fixedly connected with the spacing adjusting devices, and the spacing adjusting devices drive the glass positioning devices to move in the direction perpendicular to the transmission direction.

Furthermore, the positioning installation area comprises a first positioning installation area and a second positioning installation area which are sequentially arranged along the transmission direction;

the displacement stroke of the distance adjusting device corresponding to the glass positioning device positioned in the first positioning installation area is smaller than that of the distance adjusting device corresponding to the glass positioning device positioned in the second positioning installation area.

Further, a plurality of synchronous belt groups distributed along the direction vertical to the conveying direction are included;

different gaps correspondingly accommodating the first positioning mounting area and the second positioning mounting area are formed between the adjacent synchronous belt groups along the transmission direction;

all the synchronous belt groups are used together for driving the glass to move on the glass positioning conveyor.

The distance adjusting device comprises a sliding chute, a sliding block and an adjustable fixing structure;

the glass positioning device comprises a positioning frame, a sliding block, a glass positioning device and an adjustable fixing structure, wherein the sliding block is arranged in the sliding groove in a sliding mode, the sliding direction of the sliding block is perpendicular to the transmission direction, the glass positioning device and the adjustable fixing structure are arranged on the sliding block, and the adjustable fixing structure is used for fixing the sliding block in the sliding groove.

Further, the adjustable fixing structure comprises a rotating handle, a connecting rod and a nut;

the slider is provided with a through hole which penetrates through the slider from top to bottom, the connecting rod penetrates through the through hole, the upward end of the connecting rod is connected with the rotating handle, the chute is provided with a supporting part for supporting the slider, the nut is located the supporting part is far away from one surface of the slider and is sleeved on the downward end of the connecting rod, and the nut and the slider are clamped together to support the supporting part.

Furthermore, the device also comprises a slide rail and a driving device which are arranged on the positioning frame;

the distance adjusting device is slidably arranged on the sliding rail, the movable end of the driving device is fixedly connected with the distance adjusting device and drives the glass positioning device to slide on the sliding rail, and the rail direction of the sliding rail is parallel to the transmission direction.

Further, the device also comprises a support frame and a transmission driving device;

all the synchronous belt sets are arranged on the supporting frame, the adjacent synchronous belt sets are in transmission connection, and the transmission driving device is fixedly connected with one of the synchronous belt sets and is used for driving the synchronous belt sets to perform transmission.

Furthermore, the synchronous belt group is formed by laying a plurality of rotatable transmission shafts along the transmission direction, the transmission shafts of the adjacent synchronous belt groups are in transmission connection through a coupler, and the transmission driving device is in transmission connection with the transmission shaft on one of the synchronous belt groups and drives the transmission shafts to rotate.

Further, the transmission driving device comprises a transmission motor, a roller chain, a driving wheel, a supporting bearing, a tensioning chain wheel, a guide wheel and an aluminum wheel;

the driving wheel is sleeved on the movable end of the transmission motor, the guide wheel is arranged on the support frame, and the roller chain is sleeved on the driving wheel and the guide wheel at the same time to form a chain transmission structure;

the two ends of each transmission shaft are respectively and rotatably arranged on the supporting frame through one supporting bearing, a transmission chain wheel is arranged on each transmission shaft in a matching mode, the roller chains are simultaneously meshed and connected with the transmission chain wheels of the transmission shafts on one synchronous belt set, and the tensioning chain wheel is arranged on the glass positioning conveyor and meshed and connected with the roller chains;

and a plurality of aluminum wheels are sleeved on each transmission shaft.

Furthermore, the glass lifting device also comprises a lifting cylinder, a connecting plate and a top rod for lifting the glass;

the connecting plate set up in on the activity of jacking cylinder is served, the locating rack set up in on the connecting plate, it is a plurality of the ejector pin distribute set up in on the locating rack.

The beneficial effects of the utility model reside in that: the utility model provides a glass location conveyer sets up the glass positioner of the location installing zone of perpendicular to direction of transfer on interval adjusting device for interval between the glass positioner is adjustable, thereby makes holistic glass positioner can be compatible more big or small specifications, the glass of more varieties, promotes the suitability of glass location transmission, improves the production line utilization ratio of glass production.

Drawings

Fig. 1 is a top view of a glass positioning conveyor according to an embodiment of the present invention;

fig. 2 is a side view of an internal structure of a glass positioning conveyor according to an embodiment of the present invention;

fig. 3 is a schematic view of an installation of an interval adjusting device of a glass positioning conveyor on a slide rail according to an embodiment of the present invention;

fig. 4 is a schematic view of an installation of an interval adjusting device of a glass positioning conveyor on a slide rail according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 4;

FIG. 6 is a top view of a structure of three timing belt groups on a glass positioning conveyor according to an embodiment of the present invention

Fig. 7 is a schematic structural diagram of a transmission driving device of a glass positioning transmission machine according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a lifting part of a glass positioning conveyor according to an embodiment of the present invention.

Description of reference numerals:

1. a glass positioning device; 2. a spacing adjustment device; 3. a first positioning installation area; 4. a second positioning and mounting area; 5. a positioning frame; 6. a slide rail; 7. a drive device; 8. a support frame; 9. a transmission drive device; 10. a synchronous belt group; 11. a transmission shaft; 12. a coupling; 13. jacking a cylinder; 14. a connecting plate; 15. a top rod; 16. a transmission sprocket;

21. a chute; 22. a slider; 23. an adjustable fixed structure;

231. rotating the handle; 232. a connecting rod; 233. a nut; 234. a through hole; 235. a support portion;

91. a transmission motor; 92. a roller chain; 93. a driving wheel; 94. a support bearing; 95. a tension sprocket; 96. a guide wheel; 97. an aluminum wheel.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 8, a glass positioning conveyor comprises a positioning distance adjusting mechanism, wherein the positioning distance adjusting mechanism comprises a distance adjusting device 2 and a glass positioning device 1, and at least two positioning distance adjusting mechanisms are distributed on a positioning installation area perpendicular to a conveying direction;

the glass positioning devices 1 correspond to the distance adjusting devices 2 one by one and are fixedly connected, and the distance adjusting devices 2 drive the glass positioning devices 1 to move in the direction perpendicular to the transmission direction.

From the above description, the beneficial effects of the present invention are: the glass positioning device 1 of the positioning installation area perpendicular to the transmission direction is arranged on the distance adjusting device 2, so that the distance between the glass positioning devices 1 is adjustable, the whole glass positioning device 1 can be compatible with glass with more sizes and specifications and more varieties, the applicability of glass positioning transmission is improved, and the production line utilization rate of glass production is improved.

Furthermore, the positioning installation area comprises a first positioning installation area 3 and a second positioning installation area 4 which are sequentially arranged along the transmission direction;

the displacement stroke of the distance adjusting device 2 corresponding to the glass positioning device 1 positioned in the first positioning installation area 3 is smaller than the displacement stroke of the distance adjusting device 2 corresponding to the glass positioning device 1 positioned in the second positioning installation area 4.

As is apparent from the above description, the first positioning installation section 3 and the second positioning installation section 4 are provided in the conveying direction. And, the distance adjusting device 2 that sets up first location installing zone 3 adopts the fine setting, and the adjustable distance of the distance adjusting device 2 of second location installing zone 4 is bigger to make and also leave enough more installation spaces for other parts on the location conveyer such as transmission wheel simultaneously when allowing accurate location more types of glass, so that glass can transport to predetermined position.

Further, a plurality of synchronous belt groups 10 distributed along the direction vertical to the conveying direction are included;

different gaps correspondingly accommodating the first positioning installation area 3 and the second positioning installation area 4 are formed between the adjacent synchronous belt groups 10 along the conveying direction;

all of the timing belt sets 10 are used together to drive the glass on the glass positioning conveyor.

As can be seen from the above description, different gaps are provided between the timing belt groups 10 to accommodate the first positioning installation region 3 and the second positioning installation region 4, so as to realize different displacement strokes of the distance adjusting devices 2 in the first positioning installation region 3 and the second positioning installation region 4.

Further, the device also comprises a positioning frame 5, and the distance adjusting device 2 comprises a sliding groove 21, a sliding block 22 and an adjustable fixing structure 23;

the sliding groove 21 is arranged on the positioning frame 5, the sliding block 22 is slidably arranged in the sliding groove 21, the sliding direction of the sliding block is perpendicular to the transmission direction, the glass positioning device 1 and the adjustable fixing structure 23 are arranged on the sliding block 22, and the adjustable fixing structure 23 is used for fixing the sliding block 22 in the sliding groove 21.

From the above description, the distance adjusting device 2 specifically uses the sliding chute 21, the sliding block 22 and the adjustable fixing structure 23 to cooperate to realize displacement adjustment, moves in the sliding chute 21, is accurate in direction, not easy to cause variation, and easy to adjust and control, and uses the adjustable fixing structure 23 to flexibly adjust so as to adapt to different types of glass.

Further, the adjustable fixing structure 23 includes a rotating handle 231, a connecting rod 232 and a nut 233;

the slider 22 is provided with a through hole 234 which vertically penetrates through the slider 22, the connecting rod 232 penetrates through the through hole 234, one upward end of the connecting rod 232 is connected with the rotating handle 231, the sliding groove 21 is provided with a supporting part 235 which supports the slider 22, the nut 233 is positioned on one surface of the supporting part 235 far away from the slider 22 and is sleeved on one downward end of the connecting rod 232, and the nut 233 and the slider 22 jointly clamp the supporting part 235.

As can be seen from the above description, the adjustable fixing structure 23 is a manual adjusting structure, the position of the nut 233 is adjusted by rotating the handle 231, and when it needs to be moved, the next nut 233 pushes the slider 22 to move; when the fixing is needed, the nut 233 is moved upwards, and is clamped and fixed on the supporting part 235 of the sliding groove 21 by the matching of the sliding block 22 and the nut 233, so that the operation process is simple, and the adjustment is convenient.

Further, the device also comprises a slide rail 6 and a driving device 7 which are arranged on the positioning frame 5;

the distance adjusting device 2 is slidably arranged on the slide rail 6, the movable end of the driving device 7 is fixedly connected with the distance adjusting device 2 and drives the glass positioning device 1 to slide on the slide rail 6, and the track direction of the slide rail 6 is parallel to the transmission direction.

From the above description, the whole device of the distance adjusting device 2 can slide on the slide rail 6 by the power given by the driving device 7, so that the glass positioning device 1 can also move in the transmission direction, and the flexibility and convenience of using the glass positioning device 1 are increased, so as to adapt to more sizes and types of glass.

Further, the device also comprises a support frame 8 and a transmission driving device 9;

all the synchronous belt groups 10 are arranged on the supporting frame 8, the adjacent synchronous belt groups 10 are in transmission connection, and the transmission driving device 9 is fixedly connected with one of the synchronous belt groups 10 and is used for driving the synchronous belt group 10 to perform transmission.

As can be seen from the above description, the three synchronous belt groups 10 are synchronously controlled by one transport driving device 9, and are convenient to use.

Furthermore, the synchronous belt group 10 is formed by laying a plurality of rotatable transmission shafts 11 along the transmission direction, the transmission shafts 11 of the adjacent synchronous belt groups 10 are in transmission connection through a coupler 12, and the transmission driving device 9 is in transmission connection with the transmission shaft 11 of one of the synchronous belt groups 10 and drives the transmission shaft 11 to rotate.

As can be seen from the above description, the timing belt assembly 10 is composed of a plurality of rotatable transmission shafts 11 forming a transmission link, which jointly advance the glass. The transmission shafts 11 of the adjacent synchronous belt groups 10 are in transmission connection through the shaft coupling 12, so that synchronous transmission is realized by the transmission driving device 9.

Further, the transmission driving device 9 includes a transmission motor 91, a roller chain 92, a driving wheel 93, a support bearing 94, a tension sprocket 95, a guide wheel 96 and an aluminum wheel 97;

the driving wheel 93 is sleeved on the movable end of the transmission motor 91, the guide wheel 96 is arranged on the support frame 8, and the roller chain 92 is sleeved on the driving wheel 93 and the guide wheel 96 at the same time to form a chain transmission structure;

both ends of each transmission shaft 11 are rotatably arranged on the supporting frame 8 through one supporting bearing 94 respectively, a transmission chain wheel 16 is arranged on each transmission shaft 11, the roller chains 92 are simultaneously meshed with the transmission chain wheels 16 of a plurality of transmission shafts 11 on one synchronous belt group 10, and the tensioning chain wheel 95 is arranged on the glass positioning conveyor and meshed with the roller chains 92;

each of the transmission shafts 11 is sleeved with a plurality of aluminum wheels 97.

As can be seen from the above description, the transmission driving device 9 uses the transmission motor 91 as a power device, and performs transmission by means of the chain transmission structure composed of the roller chain 92, the driving wheel 93 and the guide wheel 96, so as to drive the transmission chain wheel 16 disposed on the transmission shaft 11 to rotate, thereby implementing glass transmission, and the tension chain wheel 95 is added to ensure stable transmission effect. Each transmission shaft 11 is sleeved with a plurality of aluminum wheels 97, so as to obtain better transmission effect.

Further, the glass lifting device also comprises a lifting cylinder 13, a connecting plate 14 and a top rod 15 for lifting the glass;

the connecting plate 14 set up in on the activity end of jacking cylinder 13, locating rack 5 set up in on the connecting plate 14, it is a plurality of ejector pin 15 distribute set up in on the locating rack 5.

From the above description, the positioning frame 5 is designed to be liftable, and the ejector rod 15, the glass positioning device 1 and the like are lifted when the glass is conveyed to the preset position, so that the glass can be accurately positioned.

The utility model discloses a glass location conveyer can be applicable to the scene of glass location transmission, explains through specific embodiment below:

referring to fig. 1, fig. 3, fig. 4, fig. 5 and fig. 8, a first embodiment of the present invention is:

a glass positioning conveyor is shown in figures 1, 3 and 8 and comprises a positioning distance adjusting mechanism, a positioning frame 5, a jacking cylinder 13, a connecting plate 14 and a jacking rod 15 for jacking glass. The positioning distance adjusting mechanism comprises a distance adjusting device 2 and a glass positioning device 1, and at least two positioning distance adjusting mechanisms are distributed on a positioning installation area perpendicular to the transmission direction. The glass positioning devices 1 correspond to the spacing adjusting devices 2 one by one and are fixedly connected, and the spacing adjusting devices 2 drive the glass positioning devices 1 to move in the direction perpendicular to the conveying direction.

In the present embodiment, as shown in fig. 1, the positioning installation area includes a first positioning installation area 3 and a second positioning installation area 4 which are sequentially arranged in the conveying direction. The displacement stroke of the distance adjusting device 2 corresponding to the glass positioning device 1 positioned in the first positioning installation area 3 is smaller than the displacement stroke of the distance adjusting device 2 corresponding to the glass positioning device 1 positioned in the second positioning installation area 4.

In the present embodiment, as shown in fig. 4 and 5, the spacing adjustment device 2 includes a slide groove 21, a slider 22, and an adjustable fixing structure 23. The adjustable fixing structure 23 includes a rotating handle 231, a connecting rod 232, and a nut 233. The sliding groove 21 is arranged on the positioning frame 5, the sliding block 22 is slidably arranged in the sliding groove 21, the sliding direction is perpendicular to the transmission direction, a through hole 234 which penetrates through the sliding block 22 from top to bottom is formed in the sliding block 22, the connecting rod 232 penetrates through the through hole 234, the upward end of the connecting rod 232 is connected with the rotating handle 231, the sliding groove 21 is provided with a supporting portion 235 which supports the sliding block 22, the nut 233 is located on one surface, away from the sliding block 22, of the supporting portion 235 and sleeved on the downward end of the connecting rod 232, and the nut 233 and the sliding block 22 clamp the supporting portion 235 together.

In this embodiment, as shown in fig. 4, the positioning frame 5 is provided with a slide rail 6 and a driving device 7. The distance adjusting device 2 is slidably arranged on the sliding rail 6, the movable end of the driving device 7 is fixedly connected with the distance adjusting device 2 and drives the glass positioning device 1 to slide on the sliding rail 6, and the track direction of the sliding rail 6 is parallel to the transmission direction. The driving device 7 is a servo motor, and other devices with linear motion functions can be adopted for regulation and control in other equivalent embodiments.

In addition, in the present embodiment, as shown in fig. 8, a connecting plate 14 is provided on the movable end of the jacking cylinder 13, a positioning frame 5 is provided on the connecting plate 14, and a plurality of push rods 15 are distributed on the positioning frame 5.

In this embodiment, a positioning process of the glass positioning conveyor is as follows:

firstly, the operator rotates the rotating handle 231 to loosen the nut 233, and then pushes the slide block 22 to move, so that the glass positioning device 1 moves to a specified position along with the slide block 22;

secondly, after the glass is conveyed to a preset position, an operator controls the jacking cylinder 13 to ascend, and lifts the ejector rod 15 and the glass positioning device 1 on the positioning frame 5 to a position above a conveying surface;

then, adjusting the positions of the six glass positioning devices 1 shown in fig. 1, and starting the driving device 7 to enable the whole distance adjusting device 2 to move on the slide rail 6 until reaching the designated position; this is done so that the three glass positioning devices 1 all rest against the edge of the glass as three reference points;

then, in a similar manner, the positions of the other three glass positioning devices 1 shown in fig. 1 are adjusted to cooperate with the aforementioned three reference points to hold and position the glass.

And finally, after the glass is positioned, the glass is taken away by a mechanical sucker hand in the process, and all the glass positioning devices 1 are controlled to return to the initial positions to wait for the next piece of glass.

Referring to fig. 1, 2, 6 and 7, a second embodiment of the present invention is:

on the basis of the first embodiment, as shown in fig. 2 and 6, the glass positioning conveyor further comprises a support frame 8, a conveying driving device 9 and at least three synchronous belt groups 10. The transmission driving device 9 includes a transmission motor 91, a roller chain 92, a driving wheel 93, a support bearing 94, a tension sprocket 95, a guide wheel 96 and an aluminum wheel 97.

In the present embodiment, as shown in fig. 1 and 6, the adjacent timing belt groups 10 have different gaps therebetween in the conveying direction to accommodate the first positioning installation section 3 and the second positioning installation section 4, thereby providing a space for movement of the spacing adjustment device 2.

In this embodiment, as shown in fig. 6, all the synchronous belt groups 10 are distributed on the supporting frame 8 along the direction perpendicular to the transmission direction and are formed by laying a plurality of rotatable transmission shafts 11 along the transmission direction, the transmission shafts 11 of the adjacent synchronous belt groups 10 are in transmission connection through the coupling 12, the transmission driving device 9 is in transmission connection with the transmission shaft 11 on the synchronous belt group 10 located in the middle in the transmission direction and drives the transmission shaft 11 to rotate, and when synchronous transmission is achieved, the overall transmission structure is symmetrical and tends to be stable. At least three synchronous belt groups 10 are synchronously transmitted, and the slippage is not easy to occur.

In the embodiment, as shown in fig. 7, the driving wheel 93 is sleeved on the movable end of the transmission motor 91, the guide wheel 96 is arranged on the support frame 8, and the roller chain 92 is sleeved on the driving wheel 93 and the guide wheel 96 at the same time to form a chain transmission structure. Both ends of each transmission shaft 11 are rotatably arranged on the supporting frame 8 through a supporting bearing 94, a transmission chain wheel 16 is arranged on each transmission shaft 11, the roller chains 92 are simultaneously meshed with the transmission chain wheels 16 of a plurality of transmission shafts 11 on one synchronous belt set 10, and a tensioning chain wheel 95 is arranged on the glass positioning conveyor and meshed with the roller chains 92. Moreover, in order to improve the transmission effect, each transmission shaft 11 is sleeved with a plurality of aluminum wheels 97. The position of the aluminum wheel 97 can be adjusted freely to correspond to different glasses.

In the embodiment, when glass needs to be conveyed, the conveying motor 91 acts to drive the roller chain 92 on the driving wheel 93 and the guide wheel 96 to drive the conveying chain wheel 16 to rotate, and further drive the conveying shaft 11 to rotate, so as to realize rolling conveying; after the glass reaches the designated position, the glass is detected by the sheet sensor and the conveyance is stopped.

To sum up, the utility model provides a pair of glass location conveyer, the glass positioner setting with the location installing zone of perpendicular to transmission direction is on interval adjusting device, make the interval between the glass positioner adjustable, specifically realize manual regulation through turning handle isotructure, slide rail and servo motor are at the ascending automatically regulated of equidirectional not in the cooperation, thereby make holistic glass positioner can compatible more big or small specifications, the glass of more varieties, promote the suitability of glass location transmission, adopt a plurality of synchronous belts to group to carry out the multistage transmission, carry out synchronous drive by motor and chain drive structure, the difficult emergence is skidded, improve the production line utilization ratio of glass production.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. The glass positioning conveyor is characterized by comprising a positioning distance adjusting mechanism, wherein the positioning distance adjusting mechanism comprises a distance adjusting device and a glass positioning device, and at least two positioning distance adjusting mechanisms are distributed on a positioning installation area vertical to the conveying direction;

the glass positioning devices correspond to the spacing adjusting devices one by one and are fixedly connected with the spacing adjusting devices, and the spacing adjusting devices drive the glass positioning devices to move in the direction perpendicular to the transmission direction.

2. The glass positioning conveyor according to claim 1, wherein the positioning mounting area comprises a first positioning mounting area and a second positioning mounting area which are sequentially arranged along the conveying direction;

the displacement stroke of the distance adjusting device corresponding to the glass positioning device positioned in the first positioning installation area is smaller than that of the distance adjusting device corresponding to the glass positioning device positioned in the second positioning installation area.

3. A glass positioning conveyor as in claim 2 including a plurality of sets of timing belts distributed in a direction perpendicular to the direction of conveyance;

different gaps correspondingly accommodating the first positioning mounting area and the second positioning mounting area are formed between the adjacent synchronous belt groups along the transmission direction;

all the synchronous belt groups are used together for driving the glass to move on the glass positioning conveyor.

4. The glass positioning conveyor according to claim 1, further comprising a positioning frame, wherein the spacing adjusting device comprises a chute, a slide block and an adjustable fixing structure;

the glass positioning device comprises a positioning frame, a sliding block, a sliding groove, a sliding block and an adjustable fixing structure, wherein the sliding groove is formed in the positioning frame, the sliding block is arranged in the sliding groove in a sliding mode, the sliding direction is perpendicular to the transmission direction, the glass positioning device and the adjustable fixing structure are arranged on the sliding block, and the adjustable fixing structure is used for fixing the sliding block in the sliding groove.

5. The glass positioning conveyor of claim 4, wherein the adjustable securing structure includes a rotating handle, a connecting rod, and a nut;

the slider is provided with a through hole which penetrates through the slider from top to bottom, the connecting rod penetrates through the through hole, the upward end of the connecting rod is connected with the rotating handle, the sliding groove is provided with a supporting portion which supports the slider, the nut is located on the supporting portion, the side, away from the slider, of the supporting portion is sleeved on the downward end of the connecting rod, and the nut and the slider are clamped together on the supporting portion.

6. The glass positioning conveyor of claim 4, further comprising a slide and a drive disposed on the positioning frame;

the distance adjusting device is slidably arranged on the slide rail, the movable end of the driving device is fixedly connected with the distance adjusting device and drives the glass positioning device to slide on the slide rail, and the rail direction of the slide rail is parallel to the transmission direction.

7. The glass positioning conveyor of claim 3, further comprising a support frame and a conveyor drive;

all the synchronous belt sets are arranged on the supporting frame, the adjacent synchronous belt sets are in transmission connection, and the transmission driving device is fixedly connected with one of the synchronous belt sets and is used for driving the synchronous belt sets to perform transmission.

8. The glass positioning conveyor according to claim 7, wherein the synchronous belt groups are formed by laying a plurality of rotatable conveying shafts along a conveying direction, the conveying shafts of adjacent synchronous belt groups are in transmission connection through a coupler, and the conveying driving device is in transmission connection with the conveying shaft on one of the synchronous belt groups and drives the conveying shafts to rotate.

9. The glass positioning conveyor of claim 8, wherein the conveyor drive includes a conveyor motor, a roller chain, a drive wheel, a support bearing, an aluminum wheel, a tension sprocket, and a guide wheel;

the driving wheel is sleeved on the movable end of the transmission motor, the guide wheel is arranged on the support frame, and the roller chain is sleeved on the driving wheel and the guide wheel at the same time to form a chain transmission structure;

the two ends of each transmission shaft are respectively and rotatably arranged on the supporting frame through one supporting bearing, a transmission chain wheel is arranged on each transmission shaft in a matching mode, the roller chains are simultaneously meshed and connected with the transmission chain wheels of the transmission shafts on one synchronous belt set, and the tensioning chain wheel is arranged on the glass positioning conveyor and meshed and connected with the roller chains;

each transmission shaft is sleeved with a plurality of aluminum wheels.

10. The glass positioning conveyor according to claim 4, further comprising a jacking cylinder, a connecting plate and a jacking rod for jacking the glass;

the connecting plate set up in on the activity end of jacking cylinder, the locating rack set up in on the connecting plate, it is a plurality of the ejector pin distributes and set up in on the locating rack.

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