CN211073161U - Glass clamping and conveying device of vertical edge grinding machine - Google Patents

Abstract

The utility model relates to a glass clamping and conveying device of a vertical edge grinding machine, which comprises a rotary conveying mechanism and a plurality of pressing plate components, wherein the pressing plate components are provided with clamping surfaces for contacting with glass, the pressing plate components are vertically suspended and installed on the rotary conveying mechanism with the clamping surfaces facing outwards, and the rotary conveying mechanism drives the pressing plate components to do rotary motion; the two glass pressing plate devices are opposite in rotation direction, glass is clamped between the two glass pressing plate devices in a vertically placed state, and the glass is conveyed forwards under the driving of the rotary conveying mechanism. The glass clamping and conveying device is reasonable and simple in structural design, high in efficiency and low in cost, realizes glass conveying while clamping glass, and is perfect in function.

Description

Glass clamping and conveying device of vertical edge grinding machine

Technical Field

The utility model relates to a glass edging processing equipment, specifically say, relate to a glass of vertical edging machine presss from both sides tight conveyer.

Background

The glass edge grinding is an important process in the production process, can eliminate the defects of micro-cracks, stress concentration and the like at the edge of the glass after the original piece of glass is cut, improves the yield of the tempering process, and avoids the damage to operators and equipment. The existing glass edge grinding equipment is generally horizontal, glass is in a horizontal state during processing, the horizontal glass edge grinding equipment has the defects of large occupied area and inconvenient glass loading and unloading, and particularly, the existing glass edge grinding equipment cannot be well connected with a production line when large-size glass is processed. The vertical edge grinding machine has the advantages of small occupied area, simplicity in adjustment, capability of automatically identifying the length and the width of glass and the like, and is suitable for batch processing of various glass with various specifications and sizes, so that the vertical edge grinding machine gradually becomes mainstream equipment for glass edge grinding. But there is the poor shortcoming of glass clamping positioning effect among the vertical edging machine of current, and glass transport mechanism adopts chain drive usually in addition, and this kind of structure exists the conveying inaccurate, can lengthen in the chain use, needs often to change scheduling problem.

Therefore, there is a need for an improved and optimized glass clamping conveyor in existing vertical edge grinding machines.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide a structural design is reasonable, operate steadily, glass presss from both sides the glass of the vertical edging machine of tight and conveying integration and presss from both sides tight conveyer.

The utility model provides a technical scheme that above-mentioned problem adopted is: the utility model provides a glass clamping and conveying device of vertical edging machine which characterized in that: the glass pressing plate device comprises a rotary conveying mechanism and a plurality of pressing plate assemblies, wherein the pressing plate assemblies are provided with clamping surfaces for contacting with glass, the pressing plate assemblies are vertically and suspendedly arranged on the rotary conveying mechanism with the clamping surfaces facing outwards, and the rotary conveying mechanism drives the pressing plate assemblies to do rotary motion; the two glass pressing plate devices are opposite in rotation direction, the glass is clamped between the two glass pressing plate devices in a vertically placed state, and the glass is conveyed forwards under the driving of the rotary conveying mechanism.

Preferably, the pressure plate assembly comprises a pressure plate main body, a pressure plate shaft, a bearing for supporting the pressure plate, a bearing for fixing the pressure plate, a bearing for tensioning the pressure plate, a bearing mounting shaft for fixing the pressure plate and a bearing mounting shaft for tensioning the pressure plate; one side surface of the pressing plate main body is a clamping surface, and the pressing plate shaft, the bearing mounting shaft for the fixed pressing plate and the bearing mounting shaft for the tensioning pressing plate are all mounted on the side surface deviating from the clamping surface, wherein the bearing mounting shaft for the fixed pressing plate is horizontally arranged and is vertically mounted at the upper position of the side surface with the pressing plate main body, the bearing mounting shaft for the tensioning pressing plate is obliquely arranged below the bearing mounting shaft for the fixed pressing plate and is inclined towards the bearing mounting shaft for the fixed pressing plate, and the pressing plate shaft is vertically arranged and is positioned on one side of the bearing mounting shaft for the fixed pressing plate and the bearing mounting shaft for the tensioning pressing plate; one bearing for the fixed pressing plate is arranged and is installed at the end of a bearing installation shaft for the fixed pressing plate; one bearing for the tensioning pressure plate is arranged and is arranged at the end part of a bearing mounting shaft for the tensioning pressure plate; the two bearings for the supporting pressing plate are respectively arranged at two ends of the pressing plate shaft.

Preferably, one end of the bearing mounting shaft for the tension pressing plate is fixed on a mounting seat, the mounting seat is positioned below the bearing mounting shaft for the fixed pressing plate, the upper part of the mounting seat is connected with the pressing plate main body through a pin shaft, and the lower part of the mounting seat is connected with the pressing plate main body through a bolt.

Preferably, a tensioning block is arranged between the lower part of the mounting seat and the pressing plate main body, and the tensioning block is made of elastic materials.

Preferably, the pressure plate assembly further comprises a sleeve, the sleeve is mounted on the side surface deviating from the clamping surface of the pressure plate main body, and the sleeve and the pressure plate shaft are respectively positioned on two sides of the bearing mounting shaft for the fixed pressure plate and the bearing mounting shaft for the tensioning pressure plate; when a plurality of pressure plate assemblies are vertically and suspendedly arranged on the rotary conveying mechanism, every two adjacent pressure plate assemblies are connected with each other by sleeving the sleeve in one pressure plate assembly on the pressure plate shaft in the other pressure plate assembly.

Preferably, the platen assembly further comprises a water deflector mounted horizontally at the bottom of the side facing away from the clamping surface of the platen body. The splash plate serves to prevent water from splashing on the bearing.

Preferably, the clamping surface of the pressing plate main body is an elastic rubber surface, and the rubber surface has two structures: one structure is a smooth surface, and the other structure is provided with a plurality of bosses; in the two glass pressing plate devices, one glass pressing plate device adopts a pressing plate assembly with a flat smooth surface as a clamping surface, and the other glass pressing plate device adopts a pressing plate assembly with a plurality of bosses on the clamping surface.

Preferably, the rotary conveying mechanism comprises a pressing beam and a chain wheel; the pressing beam is horizontally arranged and is of a long plate-shaped structure, two ends of the pressing beam are respectively provided with a chain wheel, the pressing plate component is installed on the periphery of the pressing beam in a suspension mode, and the chain wheels drive the pressing plate component to rotate.

Preferably, a circle of groove is formed in the bottom surface of the pressing beam, wherein the side wall surface, which is positioned on the outer side, of the side wall surface of the groove is an inclined surface, the bearing for the fixed pressing plate, the bearing for the tensioning pressing plate and the bearing for the supporting pressing plate mounted at the upper end of the pressing plate shaft form a triangular suspension mounting structure, when the pressing plate assembly is mounted at the periphery of the pressing beam in a suspension manner, the bearing for the tensioning pressing plate abuts against the side wall surface, which is the inclined surface, on the groove, the bearing for the supporting pressing plate abuts against the circumferential side surface of the pressing beam, and the bearing for the fixed pressing plate is hung on the top surface of the pressing; the diameter of the groove opening of the chain wheel is equal to the outer diameter of the bearing for the supporting pressure plate, and the chain wheel is meshed with the bearing for the supporting pressure plate so as to drive the pressure plate assembly to rotate.

Preferably, an auxiliary pressure beam is further arranged below the pressure beam, and a support pressure plate arranged at the lower end of the pressure plate shaft is abutted to the circumferential side face of the auxiliary pressure beam through a bearing; wear-resisting strips are arranged on the surfaces of the pressing beam and the auxiliary pressing beam, which are in contact with the bearing, so that the bearing is prevented from wearing the pressing beam in the operation process.

Compared with the prior art, the utility model, have following advantage and effect:

1. the glass clamping and conveying device is reasonable and simple in structural design, high in efficiency and low in cost, realizes glass conveying while clamping glass, and is complete in function;

2. the glass clamping and conveying device adopts the multiple pressing plate assemblies which are sequentially connected together and hung on the rotary conveying mechanism, on one hand, the glass is clamped by the pressing plate assemblies, on the other hand, the connected pressing plate assemblies play a role of a chain to drive the glass to be conveyed forwards, and compared with the traditional chain transmission, the glass clamping and conveying device has the advantages of being accurate in conveying, free of lengthening in the using process, low in failure rate, long in service life, basically free of maintenance and the like;

3. in the two glass clamping and conveying devices, one glass pressing plate device adopts a pressing plate assembly with a flat smooth surface as a clamping surface, and the other glass pressing plate device adopts a pressing plate assembly with a plurality of bosses as the clamping surface, so that the glass can be clamped without being damaged, and the design of the bosses is also beneficial to the drainage of glass edge grinding;

4. the bearing for the fixed pressing plate, the bearing for the tensioning pressing plate and the bearing for the supporting pressing plate arranged at the upper end of the pressing plate shaft form a triangular suspension mounting structure, so that the pressing plate assembly is stably suspended and mounted at the periphery of the pressing beam;

5. the tensioning piece is formed by elastic material processing, and when utilizing the bolt with mount pad and tensioning piece locking in the clamp plate main part, the tensioning piece can provide an outside power, makes for the bearing for the tensioning clamp plate rotate around the round pin axle, guarantees that the bearing for the tensioning clamp plate contacts with the pressure roof beam all the time together to can play the effect of closely laminating the pressure roof beam with the clamp plate subassembly when equipment operation.

Drawings

In order to illustrate the embodiments of the present invention or the solutions in the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic top plan view of an embodiment of the present invention.

Fig. 2 is a schematic perspective view of the pressing plate assembly with the front pressing plate main body installed in the embodiment of the present invention.

Fig. 3 is a schematic perspective view of the pressing plate assembly with the rear pressing plate main body installed therein according to the embodiment of the present invention.

Fig. 4 is another schematic perspective view of the platen assembly with the front platen body installed therein according to the embodiment of the present invention.

Fig. 5 is a front view of the structure of fig. 4.

Fig. 6 is a rear view of the structure of fig. 4.

Fig. 7 is a left side view of the structure of fig. 4.

Fig. 8 is a schematic diagram of the right-side view structure of fig. 4.

Fig. 9 is another schematic perspective view of the platen assembly with the rear platen body installed therein according to the embodiment of the present invention.

Fig. 10 is a front view schematically illustrating the structure of fig. 9.

FIG. 11 is a schematic cross-sectional view of E-E of FIG. 10.

Fig. 12 is a rear view of the structure of fig. 9.

Fig. 13 is a left side view of the structure of fig. 9.

Fig. 14 is a schematic diagram of the right-side view of fig. 9.

Fig. 15 is a schematic structural view of two platen assemblies coupled together according to an embodiment of the present invention.

Fig. 16 is a schematic structural view illustrating the installation of the platen assembly on the pressing beam according to the embodiment of the present invention.

Fig. 17 is a schematic view of the glass clamped between two glass platen devices according to an embodiment of the present invention.

Description of reference numerals:

a glass press plate device A; a platen assembly B; a rotary conveying mechanism C; glass D;

a platen body 1; a front platen body 1 a; a rear platen body 1 b;

a pin shaft 2; a platen shaft 3; a bearing 4 for supporting the platen; a bearing 5 for tensioning the pressing plate; a bearing mounting shaft 6 for fixing the pressure plate; a bearing 7 for fixing the pressing plate; a mounting seat 8; a tensioning block 9; a water guard plate 10; a bearing mounting shaft 11 for a tensioning pressure plate; a press beam 12; a groove 12-1; a sprocket 13; a sleeve 14; and a sub-compression beam 15.

Detailed Description

The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

Examples are given.

See fig. 1-17.

The embodiment discloses a glass clamping and conveying device of a vertical edge grinding machine, which comprises two glass pressing plate devices A, and of course, in other embodiments, the glass pressing plate devices A can be set to be four, six and the like according to the specific situation of a glass production and processing line.

In this embodiment, glass pressing plate device a includes rotary conveying mechanism C and a plurality of clamp plate subassembly B, has the clamp surface that is used for contacting with glass D on the clamp plate subassembly B, and a plurality of clamp plate subassembly B installs on rotary conveying mechanism C with clamp surface outwards, vertically hanging, and rotary conveying mechanism C drive clamp plate subassembly B is rotary motion. Referring to fig. 1, the two glass pressing plate devices a have opposite rotation directions, and the glass D is clamped between the two glass pressing plate devices a in a vertically placed state and conveyed forward by the rotary conveying mechanism C.

In this embodiment, the pressing plate assembly B includes a pressing plate main body 1, a pressing plate shaft 3, a bearing 4 for supporting the pressing plate, a bearing 7 for fixing the pressing plate, a bearing 5 for tensioning the pressing plate, a bearing mounting shaft 6 for fixing the pressing plate, a bearing mounting shaft 11 for tensioning the pressing plate, a sleeve 14, and a water baffle 10.

In this embodiment, a side surface of the pressing plate main body 1 is a clamping surface, the clamping surface is an elastic rubber surface, and the rubber surface has two structures: one structure is a smooth surface, and the other structure is provided with a plurality of bosses. In two glass presser device A, a glass presser device A adopts the clamp surface to be the clamp plate subassembly B of flattening the plain noodles, another glass presser device A adopts the clamp surface to have the clamp plate subassembly B of a plurality of boss, the clamp surface is called preceding clamp plate main part 1a for the clamp plate main part of flattening the plain noodles, the clamp surface has the clamp plate main part of a plurality of boss and calls back clamp plate main part 1B, this kind of structural design can guarantee that glass can not lead to the fact the damage to glass when pressing from both sides tightly, the design of boss still is favorable to the drainage of glass edging.

In this embodiment, the platen shaft 3, the bearing mounting shaft 6 for the stationary platen, the sleeve 14, the bearing mounting shaft 11 for the tension platen, and the water guard 10 are all mounted on the side surface away from the clamping surface, wherein the bearing mounting shaft 6 for the stationary platen is horizontally arranged and is mounted at the upper position of the side surface perpendicular to the platen body 1; the bearing mounting shaft 11 for the tensioning pressing plate is obliquely arranged below the bearing mounting shaft 6 for the fixing pressing plate and is inclined towards the bearing mounting shaft 6 for the fixing pressing plate; the platen shaft 3 is vertically arranged and located on one side of the bearing mounting shaft 6 for the fixed platen and the bearing mounting shaft 11 for the tension platen, and the sleeve 14 is located on the other side of the bearing mounting shaft 6 for the fixed platen and the bearing mounting shaft 11 for the tension platen. One bearing 7 for the fixed platen is provided and attached to the end of the bearing attachment shaft 6 for the fixed platen. One bearing 5 for the tension pressure plate is provided and is mounted on the end of the bearing mounting shaft 11 for the tension pressure plate. Two bearings 4 for supporting the pressing plate are arranged and are respectively arranged at two ends of the pressing plate shaft 3. The water guard plate 10 is horizontally installed at the bottom of the side surface facing away from the clamping surface of the platen body 1, and plays a role of preventing water from being splashed onto the bearing.

In this embodiment, when a plurality of platen assemblies B are vertically suspended on the rotary conveying mechanism C, every two adjacent platen assemblies B are connected to each other by fitting the sleeve 14 of one platen assembly B on the platen shaft 3 of the other platen assembly B. A plurality of clamp plate assembly B link gradually the design together, utilize clamp plate assembly B to press from both sides tight glass D on the one hand, the clamp plate assembly B that on the other hand links together plays the effect of chain and drives glass D and convey forward, compares in traditional chain drive, and this structure has that the conveying is accurate, can not lengthen in the use, take place that the fault rate is low, long service life, basically need not advantages such as maintenance.

In this embodiment, the rotary conveying mechanism C includes a pressing beam 12 and a sprocket 13; the pressing beam 12 is horizontally arranged and is of a long plate-shaped structure, two ends of the pressing beam are respectively provided with a chain wheel 13, the pressing plate component B is installed on the periphery of the pressing beam 12 in a suspension mode, and the chain wheels 13 drive the pressing plate component B to rotate. The bottom surface of the pressure beam 12 is provided with a circle of grooves 12-1, wherein the side wall surface positioned at the outer side in the side wall surface of the groove 12-1 is an inclined surface, and a bearing 7 for a fixed pressure plate, a bearing 5 for a tensioning pressure plate and a bearing 4 for a supporting pressure plate arranged at the upper end of the pressure plate shaft 3 form a triangular suspension mounting structure. When the pressing plate component B is installed at the periphery of the pressing beam 12 in a suspension mode, the tensioning pressing plate abuts against the side wall surface which is an inclined surface on the groove 12-1 through the bearing 5, the supporting pressing plate abuts against the circumferential side surface of the pressing beam 12 through the bearing 4, and the fixed pressing plate is hung on the top surface of the pressing beam 12 through the bearing 7; the diameter of the groove opening of the chain wheel 13 is equal to the outer diameter of the bearing 4 for supporting the pressure plate, and the chain wheel 13 is meshed with the bearing 4 for supporting the pressure plate, so that the pressure plate component B is driven to rotate.

In this embodiment, an auxiliary pressure beam 15 is further disposed below the pressure beam 12, and the support pressure plate mounted at the lower end of the pressure plate shaft 3 is abutted against the circumferential side surface of the auxiliary pressure beam 15 by the bearing 4; wear-resistant strips 50 are arranged on the surfaces of the pressure beam 12 and the auxiliary pressure beam 15, which are in contact with the bearing, so that the bearing is prevented from wearing the pressure beam 12 in the running process.

In this embodiment, one end of the bearing mounting shaft 11 for the tension pressing plate is fixed on a mounting seat 8, the mounting seat 8 is located below the bearing mounting shaft 6 for the tension pressing plate, the upper portion of the mounting seat is connected with the pressing plate main body 1 through a pin shaft 2, and a tension block 9 is placed between the lower portion of the mounting seat and the pressing plate main body 1 and is connected with the pressing plate main body 1 through a bolt. The tensioning block 9 is formed by processing an elastic material, when the mounting seat 8 and the tensioning block 9 are locked on the pressure plate main body 1 by bolts, the tensioning block 9 can provide an outward force, so that the bearing 5 for the tensioning pressure plate rotates around the pin shaft 2, the bearing 5 for the tensioning pressure plate is ensured to be always in contact with the pressure beam 12, and therefore the effect of tightly attaching the pressure plate assembly to the pressure beam 12 can be achieved when the equipment operates.

In addition, it should be noted that the specific embodiments described in the present specification may be different in the components, the shapes of the components, the names of the components, and the like, and the above description is only an example of the structure of the present invention. All the equivalent changes or simple changes made according to the structure, characteristics and principle of the patent idea of the utility model are included in the protection scope of the patent of the utility model. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a glass clamping and conveying device of vertical edging machine which characterized in that: the glass pressing plate device comprises at least two glass pressing plate devices (A), each glass pressing plate device (A) comprises a rotary conveying mechanism (C) and a plurality of pressing plate assemblies (B), clamping surfaces for contacting with glass (D) are arranged on the pressing plate assemblies (B), the pressing plate assemblies (B) are vertically and suspendedly arranged on the rotary conveying mechanism (C) with the clamping surfaces facing outwards, and the rotary conveying mechanism (C) drives the pressing plate assemblies (B) to do rotary motion; the two glass pressing plate devices (A) are opposite in rotation direction, and the glass (D) is clamped between the two glass pressing plate devices (A) in a vertically placed state and is driven by the rotary conveying mechanism (C) to be conveyed forwards.

2. Glass-clamping conveyor of vertical edging machine according to claim 1, characterized in that: the pressing plate assembly (B) comprises a pressing plate main body (1), a pressing plate shaft (3), a bearing (4) for supporting the pressing plate, a bearing (7) for fixing the pressing plate, a bearing (5) for tensioning the pressing plate, a bearing mounting shaft (6) for fixing the pressing plate and a bearing mounting shaft (11) for tensioning the pressing plate; one side surface of the pressing plate main body (1) is a clamping surface, the pressing plate shaft (3), the bearing mounting shaft (6) for the fixed pressing plate and the bearing mounting shaft (11) for the tensioning pressing plate are all mounted on the side surface deviating from the clamping surface, the bearing mounting shaft (6) for the fixed pressing plate is horizontally arranged and is vertically mounted at the upper position of the side surface with the pressing plate main body (1), the bearing mounting shaft (11) for the tensioning pressing plate is obliquely arranged below the bearing mounting shaft (6) for the fixed pressing plate and is inclined towards the bearing mounting shaft (6) for the fixed pressing plate, and the pressing plate shaft (3) is vertically arranged and is positioned on one side of the bearing mounting shaft (6) for the fixed pressing plate and the bearing mounting shaft (11) for the tensioning pressing plate; one bearing (7) for the fixed pressing plate is arranged and is installed at the end part of the bearing installation shaft (6) for the fixed pressing plate; one bearing (5) for the tensioning pressure plate is arranged and is arranged at the end part of a bearing mounting shaft (11) for the tensioning pressure plate; the two bearings (4) for the supporting pressing plate are respectively arranged at two ends of the pressing plate shaft (3).

3. Glass clamping conveyor of a vertical edging machine according to claim 2, characterized in that: one end of a bearing mounting shaft (11) for the tensioning pressing plate is fixed on a mounting seat (8), the mounting seat (8) is located below a bearing mounting shaft (6) for the fixing pressing plate, the upper portion of the mounting seat is connected with a pressing plate main body (1) through a pin shaft (2), and the lower portion of the mounting seat is connected with the pressing plate main body (1) through a bolt.

4. A glass clamping conveyor for a vertical edging machine according to claim 3, characterized in that: and a tensioning block (9) is arranged between the lower part of the mounting seat (8) and the pressing plate main body (1).

5. Glass clamping conveyor of a vertical edging machine according to claim 2, characterized in that: the pressing plate assembly (B) further comprises a sleeve (14), the sleeve (14) is installed on the side face, away from the clamping face of the pressing plate main body (1), and the sleeve and the pressing plate shaft (3) are respectively located on two sides of the bearing installation shaft (6) for the fixed pressing plate and the bearing installation shaft (11) for the tensioning pressing plate; when a plurality of pressure plate assemblies (B) are vertically and suspendedly arranged on the rotary conveying mechanism (C), every two adjacent pressure plate assemblies (B) are mutually connected by sleeving the sleeve (14) in one pressure plate assembly (B) on the pressure plate shaft (3) in the other pressure plate assembly (B).

6. Glass clamping conveyor of a vertical edging machine according to claim 2, characterized in that: the pressing plate component (B) further comprises a water baffle (10), and the water baffle (10) is horizontally arranged at the bottom of the side face, which is far away from the clamping face of the pressing plate main body (1).

7. Glass clamping conveyor of a vertical edging machine according to claim 2, characterized in that: the clamp surface of clamp plate main part (1) is for having elastic face of gluing, and this face of gluing has two kinds of structures: one structure is a smooth surface, and the other structure is provided with a plurality of bosses; in the two glass pressing plate devices (A), one glass pressing plate device (A) adopts a pressing plate assembly (B) with a flat smooth surface as a clamping surface, and the other glass pressing plate device (A) adopts a pressing plate assembly (B) with a plurality of bosses as the clamping surface.

8. Glass clamping conveyor of a vertical edging machine according to claim 2, characterized in that: the rotary conveying mechanism (C) comprises a pressing beam (12) and a chain wheel (13); the pressing beam (12) is horizontally arranged and is of a long plate-shaped structure, two ends of the pressing beam are respectively provided with a chain wheel (13), the pressing plate component (B) is installed on the periphery of the pressing beam (12) in a suspension mode, and the chain wheels (13) drive the pressing plate component (B) to rotate.

9. Glass-clamping conveyor of vertical edging machine according to claim 8, characterized in that: the bottom surface of the pressing beam (12) is provided with a circle of grooves (12-1), wherein one side wall surface positioned on the outer side in the side wall surfaces of the grooves (12-1) is an inclined surface, a bearing (7) for a fixed pressing plate, a bearing (5) for a tensioning pressing plate and a bearing (4) for a supporting pressing plate arranged at the upper end of a pressing plate shaft (3) form a triangular suspension mounting structure, when a pressing plate assembly (B) is arranged at the periphery of the pressing beam (12) in a suspension mode, the bearing (5) for the tensioning pressing plate is abutted against the side wall surface which is the inclined surface on the grooves (12-1), the bearing (4) for the supporting pressing plate is abutted against the circumferential side surface of the pressing beam (12), and the bearing (7) for the fixed pressing plate is suspended on the top surface of the pressing beam (12); the diameter of the groove opening of the chain wheel (13) is equal to the outer diameter of the bearing (4) for supporting the pressing plate, and the chain wheel (13) is meshed with the bearing (4) for supporting the pressing plate so as to drive the pressing plate component (B) to rotate.

10. Glass-clamping conveyor of vertical edging machine according to claim 9, characterized in that: an auxiliary pressure beam (15) is further arranged below the pressure beam (12), and a support pressure plate arranged at the lower end of the pressure plate shaft (3) is abutted against the circumferential side face of the auxiliary pressure beam (15) through a bearing (4); wear-resistant strips (50) are arranged on the surfaces of the pressure beam (12) and the auxiliary pressure beam (15) which are in contact with the bearings.

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