CN217413839U - Glass guide rail installation device - Google Patents

Abstract

The utility model discloses a glass guide rail installation device, which comprises a bracket installation mechanism, a glass adsorption mechanism, a guide rail installation mechanism and a glass positioning mechanism; the glass adsorption mechanism is positioned in the glass fixing area, and the glass positioning mechanism is arranged around the outer edge of the glass fixing area; the bracket mounting mechanism and the guide rail mounting mechanism are respectively arranged on two adjacent side parts of the glass fixing area and used for mounting the bracket and the guide rail on the two adjacent side parts of the glass. Be provided with bracket installation mechanism and guide rail installation mechanism, can also carry out the bracket installation to glass when carrying out the guide rail installation to glass, glass only once carries alright accomplish the installation of two parts, improves assembly efficiency and reduces the risk that glass was scratched.

Description

Glass guide rail installation device

Technical Field

The utility model belongs to the technical field of the glass part assembly technique and specifically relates to indicate a glass guide rail installation device.

Background

The existing high-grade sports car needs guide rails and brackets for installing window glass. The existing guide rail and bracket mounting mode is that a bracket is mounted firstly, a guide rail is mounted on a vehicle window glass after the bracket is cured, and the curing time of the bracket is long, so that after the bracket is mounted, glass needs to be moved away from an operation table, and when the guide rail is assembled after the bracket is cured, the glass needs to be moved onto the operation table and the guide rail is assembled on the glass, therefore, the glass needs to be moved for many times. And the risk that glass is scratched can be increased to glass carries out many times, and then leads to the waste product quantity increase. And because guide rail and bracket divide twice installation, consequently need carry out twice location, and twice location has positioning error easily, leads to bracket and guide rail relative error increase, and the qualification rate is low. In addition, the labor intensity is high, the efficiency is low, and the energy consumption is high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the glass guide rail mounting device is provided, and the product percent of pass is improved.

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

a glass guide rail installation device comprises a bracket installation mechanism, a glass adsorption mechanism, a guide rail installation mechanism and a glass positioning mechanism;

the glass adsorption mechanism is positioned in the glass fixing area, and the glass positioning mechanism is arranged around the outer edge of the glass fixing area;

the bracket mounting mechanism and the guide rail mounting mechanism are respectively arranged on two adjacent side parts of the glass fixing area and used for mounting the bracket and the guide rail on the two adjacent side parts of the glass.

Further, the bracket mounting mechanism comprises a bracket main telescopic cylinder, a bracket pressing cylinder and a bracket positioning cylinder;

the bracket pressing telescopic cylinder is in transmission connection with the bracket main telescopic cylinder through a bracket sliding table assembly, the bracket sliding table assembly is arranged above the bracket main telescopic cylinder, and the movable end of the bracket pressing telescopic cylinder and the movable end of the bracket main telescopic cylinder both move towards the same direction;

the bracket pressing cylinder is arranged at the movable end of the bracket pressing telescopic cylinder and is used for pressing the bracket against the top of the bracket sliding table assembly;

the bracket positioning cylinder is located on the lower side of the bracket sliding table assembly, and the movable end of the bracket positioning cylinder penetrates through the top of the bracket sliding table assembly, so that the movable end of the bracket positioning cylinder can be inserted into the positioning hole of the bracket.

Further, the glass adsorption mechanism comprises a plurality of vacuum adsorption components, and the plurality of vacuum adsorption components form the glass fixing area.

Furthermore, the guide rail installation mechanism comprises a guide rail installation telescopic component, a guide rail installation lifting component, a first guide rail positioning component, a second guide rail positioning component, a guide rail supporting component for supporting the guide rail and at least two guide rail pressing components which are sequentially arranged along the length direction of the guide rail;

the guide rail supporting assembly, the guide rail pressing assembly, the first guide rail positioning assembly and the second guide rail positioning assembly are all arranged at the top of the guide rail installation lifting assembly, and the guide rail supporting assembly is arranged on one side, close to the glass fixing area, of the guide rail pressing assembly;

the guide rail installation telescopic assembly is in transmission connection with the guide rail installation lifting assembly and is used for driving the guide rail installation lifting assembly to reciprocate along the horizontal direction;

the first guide rail positioning assembly and the second guide rail positioning assembly are respectively arranged at two ends of the top of the guide rail installation lifting assembly, and the first guide rail positioning assembly and the second guide rail positioning assembly can both abut against the guide rail.

Further, the first guide rail positioning assembly is obliquely arranged relative to the second guide rail positioning assembly, and an acute angle is formed between the orientation of the movable end of the first guide rail positioning assembly and the orientation of the movable end of the second guide rail positioning assembly.

Further, the guide rail mounting telescopic assembly comprises a guide rail mounting telescopic cylinder and a telescopic sliding assembly;

the stiff end of the guide rail installation telescopic cylinder with the stiff end of flexible sliding component all installs in the downside of workstation, the expansion end of guide rail installation telescopic cylinder passes through the expansion end of flexible sliding component with the transmission of guide rail installation lifting unit is connected.

Further, the guide rail installation lifting assembly comprises a lifting sliding assembly, a guide rail installation lifting cylinder and a connecting plate;

the fixed end of the lifting sliding assembly is vertically connected with the movable end of the guide rail installation telescopic assembly, the fixed end of the guide rail installation lifting cylinder is connected with the fixed end of the lifting sliding assembly, and the movable end of the guide rail installation lifting assembly is in transmission connection with the connecting plate;

the first guide rail positioning assembly, the second guide rail positioning assembly, the guide rail supporting assembly and the guide rail pressing assembly are all arranged on the connecting plate.

Further, the top of the guide rail supporting component is provided with a limit inclined plane;

the limiting inclined plane is inclined along the end far away from the guide rail pressing assembly to the end close to the guide rail pressing assembly in a sinking mode gradually.

Furthermore, the glass positioning mechanism comprises a limiting roller, a plurality of positioning and clamping assemblies and a plurality of fixing assemblies for pressing the glass after the glass is positioned;

the limiting roller and the positioning and clamping assemblies are sequentially arranged around the outer edge of the glass fixing area;

the fixing assemblies are arranged around the outer edge of the glass fixing area, and one side of each of the limiting roller and the positioning and clamping assemblies is correspondingly provided with one fixing assembly.

Further, the fixing assembly comprises a glass pressing cylinder, a pressing piece and a supporting rod;

the bracing piece is vertical to be set up, down the piece install in the expansion end of glass push down the cylinder and with the top of bracing piece sets up relatively, make glass can by the centre gripping in down the piece with between the top of bracing piece.

The beneficial effects of the utility model reside in that: after glass is positioned by the glass positioning mechanism, the glass is adsorbed by the glass adsorption mechanism, positioning and fixing of the glass are completed, the bracket installation mechanism and the guide rail installation mechanism are further arranged on two sides of a glass fixing area, the guide rail and the bracket can be installed simultaneously, the glass is positioned once, the bracket and the guide rail can be installed simultaneously, the risk that the glass is scratched in the carrying process is reduced, the yield is improved, and the production efficiency is improved.

Drawings

Fig. 1 is a top view of a glass guide rail mounting apparatus according to the present invention;

fig. 2 is a schematic structural view of a glass guide rail installation device according to the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a schematic structural view of the middle rail mounting mechanism of the present invention;

fig. 5 is a schematic structural diagram of the middle bracket mounting mechanism of the present invention.

Description of reference numerals:

1. a bracket mounting mechanism; 11. a bracket main telescopic cylinder; 12. the bracket compresses the telescopic cylinder; 13. the bracket presses the cylinder downwards; 14. a bracket positioning cylinder; 15. a carriage slide assembly; 16. a limiting block;

2. a glass adsorption mechanism;

3. a guide rail mounting mechanism; 31. the guide rail is provided with a telescopic component; 311. the guide rail is provided with a telescopic cylinder; 312. a telescopic sliding assembly; 32. the guide rail is provided with a lifting component; 321. a lifting slide assembly; 3211. a slider assembly; 3212. a lifting plate; 3213. an L-shaped support frame; 322. the guide rail is provided with a lifting cylinder; 323. a connecting plate; 33. a first rail positioning assembly; 34. a second rail positioning assembly; 35. a rail support assembly; 351. a support table; 36. a guide rail compression assembly;

4. a glass positioning mechanism; 41. a limiting roller; 42. positioning the clamping assembly; 421. a clamping cylinder; 422. a clamping wheel; 423. clamping the slide rail; 43. a fixing assembly; 431. a glass pressing cylinder; 432. a push-down member; 433. a support bar;

5. a glass fixing region;

6. a work bench.

Detailed Description

In order to explain the technical contents, 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 5, a glass guide rail mounting device includes a bracket mounting mechanism, a glass adsorbing mechanism, a guide rail mounting mechanism, and a glass positioning mechanism;

the glass adsorption mechanism is positioned in the glass fixing area, and the glass positioning mechanism is arranged around the outer edge of the glass fixing area;

the bracket mounting mechanism and the guide rail mounting mechanism are respectively arranged on two adjacent side parts of the glass fixing area and are used for mounting the bracket and the guide rail on the two adjacent side parts of the glass.

The utility model discloses a theory of operation lies in:

the glass is positioned and fixed at one time, and the bracket and the guide rail are arranged on the glass at the same time, so that the glass conveying times are reduced.

From the above description, the beneficial effects of the present invention are: after glass is positioned by the glass positioning mechanism, the glass is adsorbed by the glass adsorption mechanism, the positioning and the fixing of the glass are completed, the bracket installation mechanism and the guide rail installation mechanism are further arranged on two sides of the glass fixing area, the guide rail and the bracket can be installed simultaneously, the glass is positioned once, the bracket and the guide rail can be installed simultaneously, the risk that the glass is scratched in the carrying process is reduced, the yield is improved, and the production efficiency is improved.

Further, the bracket mounting mechanism comprises a bracket main telescopic cylinder, a bracket pressing cylinder and a bracket positioning cylinder;

the bracket pressing telescopic cylinder is in transmission connection with the bracket main telescopic cylinder through a bracket sliding table assembly, the bracket sliding table assembly is arranged above the bracket main telescopic cylinder, and the movable end of the bracket pressing telescopic cylinder and the movable end of the bracket main telescopic cylinder both move towards the same direction;

the bracket pressing cylinder is arranged at the movable end of the bracket pressing telescopic cylinder and used for pressing the bracket against the top of the bracket sliding table assembly;

the bracket positioning cylinder is located on the lower side of the bracket sliding table assembly, and the movable end of the bracket positioning cylinder penetrates through the top of the bracket sliding table assembly, so that the movable end of the bracket positioning cylinder can be inserted into the positioning hole of the bracket.

According to the description, the positioning accuracy of the bracket is improved through the bracket positioning air cylinder, the telescopic air cylinder is compressed through the bracket, the bracket pressing air cylinder is driven to move to the specified position, the bracket is fixed through the bracket pressing air cylinder, and the stability of the bracket is improved; and the main telescopic cylinder of bracket sets up for push away the bracket to the assigned position and assemble, improve assembly efficiency.

Further, the glass adsorption mechanism comprises a plurality of vacuum adsorption components, and the plurality of vacuum adsorption components form the glass fixing area.

As can be seen from the above description, the provision of a plurality of vacuum adsorption assemblies improves the stability of the glass.

Furthermore, the guide rail installation mechanism comprises a guide rail installation telescopic component, a guide rail installation lifting component, a first guide rail positioning component, a second guide rail positioning component, a guide rail supporting component for supporting the guide rail and at least two guide rail pressing components which are sequentially arranged along the length direction of the guide rail;

the guide rail supporting assembly, the guide rail pressing assembly, the first guide rail positioning assembly and the second guide rail positioning assembly are all arranged at the top of the guide rail installation lifting assembly, and the guide rail supporting assembly is arranged on one side, close to the glass fixing area, of the guide rail pressing assembly;

the guide rail installation telescopic assembly is in transmission connection with the guide rail installation lifting assembly and is used for driving the guide rail installation lifting assembly to reciprocate along the horizontal direction;

the first guide rail positioning assembly and the second guide rail positioning assembly are respectively arranged at two ends of the top of the guide rail installation lifting assembly, and the first guide rail positioning assembly and the second guide rail positioning assembly can both support against and press the guide rail.

According to the above description, through the telescopic component for the guide rail installation and the lifting component for the guide rail installation, the positions of the first guide rail positioning component, the second guide rail positioning component, the guide rail supporting component and the guide rail pressing component can be controlled, a yielding space is provided for glass assembly, and the guide rail can be installed to the position corresponding to the glass after the glass is assembled in place, so that the assembly efficiency is improved.

Furthermore, the second guide rail positioning assembly is perpendicular to the guide rail supporting assembly, the first guide rail positioning assembly is arranged obliquely relative to the second guide rail positioning assembly, and an acute angle is formed between the orientation of the movable end of the first guide rail positioning assembly and the orientation of the movable end of the second guide rail positioning assembly.

As can be seen from the above description, the first guide rail positioning assembly is obliquely arranged relative to the second guide rail positioning assembly, so that the first guide rail positioning assembly and the second guide rail positioning assembly can position the guide rail from different directions.

Further, the guide rail mounting telescopic assembly comprises a guide rail mounting telescopic cylinder and a telescopic sliding assembly;

the stiff end of the guide rail installation telescopic cylinder with the stiff end of flexible sliding component all installs in the downside of workstation, the expansion end of guide rail installation telescopic cylinder passes through the expansion end of flexible sliding component with the transmission of guide rail installation lifting unit is connected.

Can know from the above-mentioned description, guide rail installation telescopic cylinder and flexible slip subassembly for drive guide rail installation lifting unit and remove at the horizontal direction, for glass provides the space of stepping down before glass fixes a position, avoid producing the motion and interfere, can fix and accomplish the back at glass location simultaneously, send the guide rail to the assigned position on the glass and install.

Further, the guide rail installation lifting assembly comprises a lifting sliding assembly, a guide rail installation lifting cylinder and a connecting plate;

the fixed end of the lifting sliding assembly is vertically connected with the movable end of the guide rail installation telescopic assembly, the fixed end of the guide rail installation lifting cylinder is connected with the fixed end of the lifting sliding assembly, and the movable end of the guide rail installation lifting assembly is in transmission connection with the connecting plate;

the first guide rail positioning assembly, the second guide rail positioning assembly, the guide rail supporting assembly and the guide rail pressing assembly are all arranged on the connecting plate.

According to the above description, the lifting sliding assembly and the guide rail installation lifting cylinder are arranged to drive the first guide rail positioning assembly, the second guide rail positioning assembly, the guide rail supporting assembly and the guide rail pressing assembly to lift, and therefore assembly efficiency is improved.

Further, the top of the guide rail supporting assembly is provided with a limit inclined plane;

the limiting inclined plane is inclined along the direction from one end far away from the guide rail pressing assembly to the end close to the guide rail pressing assembly in a sinking mode.

According to the above description, the top of the guide rail supporting assembly is provided with the limiting inclined plane, when the guide rail is placed on the limiting inclined plane, the guide rail supporting assembly can be positioned by means of gravity of the guide rail supporting assembly, so that the first guide rail positioning assembly and the second guide rail positioning assembly can be accurately positioned without matching of the limiting part, the positioning precision is improved, the occupied space is reduced, and the occurrence of motion interference is avoided.

Furthermore, the glass positioning mechanism comprises a limiting roller, a plurality of positioning and clamping assemblies and a plurality of fixing assemblies for pressing the glass after the glass is positioned;

the limiting roller and the positioning and clamping assemblies are sequentially arranged around the outer edge of the glass fixing area;

the fixing assemblies are arranged around the outer edge of the glass fixing area, and the limiting roller and one side of each of the positioning and clamping assemblies are correspondingly provided with one fixing assembly.

As can be seen from the description, the plurality of clamping assemblies are arranged, the glass can be positioned at multiple angles, and the glass can be further fixed through the fixing assemblies, so that the stability of the glass is improved.

Further, the fixing assembly comprises a glass pressing cylinder, a pressing piece and a supporting rod;

the supporting rod is vertically arranged, and the pressing piece is arranged at the movable end of the glass pressing cylinder and opposite to the top of the supporting rod, so that glass can be clamped between the pressing piece and the top of the supporting rod.

As can be seen from the above description, the pressing air cylinder, the pressing piece and the supporting rod are arranged for clamping the glass in the vertical direction, and the stability of the glass is improved.

Example one

Referring to fig. 1-5, a glass guide rail mounting device comprises a bracket mounting mechanism 1, a glass adsorption mechanism 2, a guide rail mounting mechanism 3 and a glass positioning mechanism 4; the glass adsorption mechanism 2 is positioned in the glass fixing area 5, and the glass positioning mechanism 4 is arranged around the outer edge of the glass fixing area 5; the bracket mounting mechanism 1 and the guide rail mounting mechanism 3 are respectively arranged on two adjacent side parts of the glass fixing area 5 and are used for mounting a bracket and a guide rail on the two adjacent side parts of the glass.

Referring to fig. 1, 2 and 5, the bracket mounting mechanism 1 includes a bracket main telescopic cylinder 11, a bracket pressing telescopic cylinder 12, a bracket pressing cylinder 13 and a bracket positioning cylinder 14; the bracket pressing telescopic cylinder 12 is in transmission connection with the bracket main telescopic cylinder 11 through a bracket sliding table assembly 15, the bracket sliding table assembly 15 is arranged above the bracket main telescopic cylinder 11, and the movable end of the bracket pressing telescopic cylinder 12 and the movable end of the bracket main telescopic cylinder 11 both move towards the same direction; the bracket pressing cylinder 13 is arranged at the movable end of the bracket pressing telescopic cylinder 12, and the bracket pressing cylinder 13 is used for pressing the bracket against the top of the bracket sliding table assembly 15; the bracket positioning cylinder 14 is located on the lower side of the bracket sliding table assembly 15, and the movable end of the bracket positioning cylinder 14 penetrates through the top of the bracket sliding table assembly 15, so that the movable end of the bracket positioning cylinder 14 can be inserted into the positioning hole of the bracket. Specifically, the movable end of the bracket pressing cylinder 13 is provided with a limiting block 16.

Referring to fig. 1, the glass suction mechanism 2 includes a plurality of vacuum suction units constituting a glass fixing area 5.

Referring to fig. 1, 2 and 4, the guide rail mounting mechanism 3 includes a guide rail mounting telescopic assembly 31, a guide rail mounting lifting assembly 32, a first guide rail positioning assembly 33, a second guide rail positioning assembly 34, a guide rail supporting assembly 35 for supporting the guide rail, and at least two guide rail pressing assemblies 36 sequentially arranged along the length direction of the guide rail; the guide rail supporting assembly 35, the guide rail pressing assembly 36, the first guide rail positioning assembly 33 and the second guide rail positioning assembly 34 are all arranged at the top of the guide rail installation lifting assembly 32, and the guide rail supporting assembly 35 is arranged on one side, close to the glass fixing area 5, of the guide rail pressing assembly 36; the guide rail installation telescopic assembly 31 is in transmission connection with the guide rail installation lifting assembly 32, and the guide rail installation telescopic assembly 31 is used for driving the guide rail installation lifting assembly 32 to reciprocate along the horizontal direction; first guide rail locating component 33 and second guide rail locating component 34 set up respectively in the both ends at guide rail installation lifting unit 32's top, and just first guide rail locating component 33 and second guide rail locating component 34 homoenergetic support and press the guide rail.

Referring to fig. 1, 2 and 4, the second rail positioning assembly 34 and the rail support assembly 35 are perpendicular to each other, the first rail positioning assembly 33 is disposed obliquely with respect to the second rail positioning assembly 34, and an acute angle is formed between the orientation of the movable end of the first rail positioning assembly 33 and the orientation of the movable end of the second rail positioning assembly 34.

Referring to fig. 4, the rail installation telescopic assembly 31 includes a rail installation telescopic cylinder 311 and a telescopic slide assembly 312; the stiff end of the telescopic cylinder 311 of guide rail installation and the stiff end of the telescopic sliding component 312 are both arranged on the lower side of the workbench 6, and the movable end of the telescopic cylinder 311 of guide rail installation is in transmission connection with the guide rail installation lifting component 32 through the movable end of the telescopic sliding component 312. Specifically, the fixed end of the telescopic sliding member 312 is connected to the underside of the top plate of the table 6.

Referring to fig. 4, the rail installation lifting assembly 32 includes a lifting slide assembly 321, a rail installation lifting cylinder 322, and a connection plate 323; the fixed end of the lifting sliding component 321 is vertically connected with the movable end of the guide rail installation telescopic component 31, the fixed end of the guide rail installation lifting cylinder 322 is connected with the fixed end of the lifting sliding component 321, and the movable end of the guide rail installation lifting component 32 is in transmission connection with the connecting plate 323; first guide rail positioning assembly 33, second guide rail positioning assembly 34, guide rail support assembly 35, and guide rail compression assembly 36 are mounted on coupling plate 323. Specifically, the lifting and sliding assembly 321 includes a sliding block assembly 3211, a lifting plate 3212 and an inverted L-shaped support frame 3213, the horizontal portion of the L-shaped support frame 3213 is connected with the movable end of the telescopic sliding assembly 312, the vertical portion of the L-shaped support frame 3213 is symmetrically arranged with the lifting plate 3212, the lifting plate 3212 is connected with the vertical portion of the L-shaped support plate in a relatively slidable manner through the sliding block assembly 3211, the fixed end of the guide rail installation lifting cylinder 322 is installed on one side of the L-shaped support frame 3213 facing the lifting plate 3212, and the movable end of the guide rail installation lifting cylinder 322 passes through the lifting plate 3212.

Referring to fig. 4, the top of the rail support assembly 35 has a limit slope; the limiting slope is inclined to sink gradually from the end far away from the guide rail pressing assembly 36 to the end close to the guide rail pressing assembly 36. Specifically, the guide rail supporting assembly 35 includes two supporting platforms 351 symmetrically disposed, and a limiting inclined plane is correspondingly disposed at the top of each supporting platform 351.

Referring to fig. 1 to 5, the glass positioning mechanism 4 includes a stopper roller 41, a plurality of positioning and clamping assemblies 42, and a plurality of fixing assemblies 43 for pressing the glass when the glass positioning is completed; the limiting roller 41 and the plurality of positioning and clamping assemblies 42 are sequentially arranged around the outer edge of the glass fixing area 5; a plurality of fixing members 43 are disposed around the outer edge of the glass fixing region 5, and one fixing member 43 is disposed at each of one sides of the position restricting roller 41 and the plurality of positioning and clamping members 42. Specifically, the positioning and clamping assembly 42 includes a clamping cylinder 421, a clamping wheel 422 and a clamping slide rail 423, the clamping slide rail 423 is installed at the top of the workbench 6, the clamping wheel 422 is installed at the movable end of the clamping cylinder 421, and the base of the clamping wheel 422 is connected with the clamping slide rail 423 in a relatively sliding manner.

Referring to fig. 3, the fixing assembly 43 includes a glass down-pressure cylinder 431, a down-pressure member 432, and a support rod 433; the support rods 433 are vertically arranged, and the down-pressing member 432 is arranged at the movable end of the glass down-pressing cylinder 431 and is arranged opposite to the tops of the support rods 433, so that glass can be clamped between the down-pressing member 432 and the tops of the support rods 433.

The utility model discloses a theory of operation does:

the glass is placed on the glass adsorption mechanism 2, the clamping cylinder 421 extends out to be matched with the limiting roller 41, the glass is positioned and clamped, the glass pressing cylinder 431 presses downwards, and after the glass is fixed, the glass adsorption mechanism 2 is started to adsorb the glass;

after the bracket is placed in a fixing area of a bracket sliding table assembly 15, a bracket positioning cylinder 14 extends out, the bracket is positioned, a bracket pressing telescopic cylinder 12 extends out, a bracket pressing cylinder 13 presses down to press the bracket, the bracket positioning cylinder 14 retracts, a bracket main telescopic cylinder 11 extends out to push the bracket to glass for installation, and a clamping cylinder 421 retracts;

the guide rail is placed on the guide rail supporting assembly 35, the first guide rail positioning assembly 33 and the second guide rail positioning assembly 34 position the guide rail from two ends of the guide rail respectively, the guide rail pressing assembly 36 fixes the guide rail, the guide rail installation telescopic cylinder 311 retracts, the guide rail installation lifting cylinder 322 extends out, the guide rail is installed at a designated position of the lower side of the glass, and guide rail installation is completed.

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. A glass guide rail installation device is characterized by comprising a bracket installation mechanism, a glass adsorption mechanism, a guide rail installation mechanism and a glass positioning mechanism;

the glass adsorption mechanism is positioned in the glass fixing area, and the glass positioning mechanism is arranged around the outer edge of the glass fixing area;

the bracket mounting mechanism and the guide rail mounting mechanism are respectively arranged on two adjacent side parts of the glass fixing area and used for mounting the bracket and the guide rail on the two adjacent side parts of the glass.

2. The glass guide mounting apparatus of claim 1, wherein the bracket mounting mechanism comprises a bracket main telescopic cylinder, a bracket pressing down cylinder and a bracket positioning cylinder;

the bracket pressing telescopic cylinder is in transmission connection with the bracket main telescopic cylinder through a bracket sliding table assembly, the bracket sliding table assembly is arranged above the bracket main telescopic cylinder, and the movable end of the bracket pressing telescopic cylinder and the movable end of the bracket main telescopic cylinder both move towards the same direction;

the bracket pressing cylinder is arranged at the movable end of the bracket pressing telescopic cylinder and used for pressing the bracket against the top of the bracket sliding table assembly;

the bracket positioning cylinder is located on the lower side of the bracket sliding table assembly, and the movable end of the bracket positioning cylinder penetrates through the top of the bracket sliding table assembly, so that the movable end of the bracket positioning cylinder can be inserted into the positioning hole of the bracket.

3. The glass guide mounting apparatus of claim 1, wherein the glass suction mechanism includes a plurality of vacuum suction assemblies, the plurality of vacuum suction assemblies forming the glass securing region.

4. The glass guide mounting device of claim 1, wherein the guide mounting mechanism comprises a guide mounting telescopic assembly, a guide mounting lifting assembly, a first guide positioning assembly, a second guide positioning assembly, a guide supporting assembly for supporting the guide, and at least two guide pressing assemblies sequentially arranged along the length direction of the guide;

the guide rail supporting assembly, the guide rail pressing assembly, the first guide rail positioning assembly and the second guide rail positioning assembly are all arranged at the top of the guide rail installation lifting assembly, and the guide rail supporting assembly is arranged on one side, close to the glass fixing area, of the guide rail pressing assembly;

the guide rail installation telescopic assembly is in transmission connection with the guide rail installation lifting assembly and is used for driving the guide rail installation lifting assembly to reciprocate along the horizontal direction;

the first guide rail positioning assembly and the second guide rail positioning assembly are respectively arranged at two ends of the top of the guide rail installation lifting assembly, and the first guide rail positioning assembly and the second guide rail positioning assembly can both abut against the guide rail.

5. The glass rail mounting apparatus of claim 4, wherein the second rail positioning assembly is perpendicular to the rail support assembly, the first rail positioning assembly is angled relative to the second rail positioning assembly, and an acute angle is formed between the orientation of the free end of the first rail positioning assembly and the orientation of the free end of the second rail positioning assembly.

6. The glass rail mounting apparatus of claim 4, wherein the rail mounting telescoping assembly comprises a rail mounting telescoping cylinder and a telescoping slide assembly;

the stiff end of the guide rail installation telescopic cylinder with the stiff end of flexible sliding component all installs in the downside of workstation, the expansion end of guide rail installation telescopic cylinder passes through the expansion end of flexible sliding component with the transmission of guide rail installation lifting unit is connected.

7. The glass guide mounting apparatus of claim 4, wherein the guide mounting lift assembly comprises a lift slide assembly, a guide mounting lift cylinder, and a connecting plate;

the fixed end of the lifting sliding assembly is vertically connected with the movable end of the guide rail installation telescopic assembly, the fixed end of the guide rail installation lifting cylinder is connected with the fixed end of the lifting sliding assembly, and the movable end of the guide rail installation lifting assembly is in transmission connection with the connecting plate;

the first guide rail positioning assembly, the second guide rail positioning assembly, the guide rail supporting assembly and the guide rail pressing assembly are all arranged on the connecting plate.

8. A glass run mounting apparatus as in claim 4 wherein the top of the run support assembly has a limit ramp;

the limiting inclined plane is inclined along the end far away from the guide rail pressing assembly to the end close to the guide rail pressing assembly in a sinking mode gradually.

9. The glass guide mounting device of claim 1, wherein the glass positioning mechanism comprises a limiting roller, a plurality of positioning and clamping assemblies and a plurality of fixing assemblies for pressing the glass after the glass is positioned;

the limiting roller and the positioning and clamping assemblies are sequentially arranged around the outer edge of the glass fixing area;

the fixing assemblies are arranged around the outer edge of the glass fixing area, and one side of each of the limiting roller and the positioning and clamping assemblies is correspondingly provided with one fixing assembly.

10. The glass track mounting arrangement of claim 9, wherein the mounting assembly includes a glass hold-down cylinder, a hold-down member, and a support rod;

the bracing piece is vertical to be set up, down the piece install in the expansion end of glass push down the cylinder and with the top of bracing piece sets up relatively, make glass can by the centre gripping in down the piece with between the top of bracing piece.

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