CN220128632U - Glass slide block installation tool - Google Patents

Abstract

The utility model discloses a glass slide block mounting tool, which comprises: bottom plate, glass support piece, glass compress tightly subassembly and slider installation component. Wherein one end of the glass support is connected with the bottom plate, and the other end of the glass support is contacted with the lower surface of the glass to be installed; the glass pressing component is pressed on the upper surface of the glass to be installed; the sliding block installation assembly can be connected with the bottom plate in a lifting manner relative to the bottom plate, and a sliding block positioning groove for placing a glass sliding block is formed in the top of the sliding block installation assembly so as to mortgage the glass sliding block on the lower surface of glass to be installed. The glass slide block mounting tool designed by the utility model can effectively replace manual glass slide blocks mounted on two sides of glass, has high reliability and accurate mounting and positioning, can improve the working efficiency and the mounting accuracy of the glass slide blocks, and has good popularization prospect and application value.

Description

Glass slide block installation tool

Technical Field

The utility model relates to a mechanical tool, in particular to a glass slide block mounting tool.

Background

In recent years, with rapid development of science and technology and economic level, glass is increasingly used in daily life, and the practical application scene of glass is becoming wider. Currently, in some specific application scenarios, it is often necessary to further install sliding blocks on both sides of the glass, so that the glass can slide on a specially made sliding rail, thereby meeting the requirements of users.

However, the inventors have studied and found that the conventional slider is mostly made of hard materials, and the conventional mounting method is to manually mount the slider on both sides of the glass. The installation means for manually installing the sliding block on the glass is time-consuming and labor-consuming, and has the problem of low installation accuracy, and the installation deviation is easy to occur, so that the glass is scrapped, and the product qualification rate is affected.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the novel glass slide block installation tool is capable of improving the slide block installation efficiency and the installation accuracy while reducing the production cost.

In order to solve the technical problems, the utility model adopts the following technical scheme: a glass slide mounting fixture, comprising:

a bottom plate;

a glass support member having one end connected to the base plate and the other end contacting a lower surface of glass to be mounted;

the glass pressing assembly is pressed on the upper surface of the glass to be installed;

the sliding block installation assembly can be connected with the bottom plate in a lifting mode relative to the bottom plate, and a sliding block positioning groove for placing a glass sliding block is formed in the top of the sliding block installation assembly so as to enable the glass sliding block to be propped against the lower surface of glass to be installed.

In the prior art, the sliding blocks are generally installed on two sides of glass manually, so that the method for manually installing the sliding blocks is time-consuming, labor-consuming, low in efficiency and incapable of controlling the installation accuracy of the sliding blocks on the glass, and installation deviation easily occurs, so that the glass is scrapped, and the product qualification rate is affected.

Therefore, in the utility model, the inventor designs a glass slide block installation tool, in which the glass slide block installation tool specifically uses a glass supporting piece to support the glass to be installed, and meanwhile, a glass pressing component is pressed on the upper surface of the glass to be installed so as to support and position the glass to be installed.

Correspondingly, after the fixing and positioning of the glass to be installed are completed, the glass slide block arranged in the slide block positioning groove can be driven to move towards the direction close to the glass to be installed through the slide block installation component, so that the glass slide block is pressed to the lower surface of the glass to be installed, and the fixing between the glass to be installed and the glass slide block is completed. The glass slide block mounting tool can effectively replace manual mounting of the glass slide block, can greatly improve working efficiency, and has good popularization prospect and application value.

It should be noted that, in actual setting, the glass to be mounted and the glass slide block may be fixedly connected with each other by using glue. Of course, in certain other embodiments, the glass slide may also be fixedly connected to the glass to be mounted by means of an injection molding over-molding. The process scheme of injection molding and edge covering is well known to those skilled in the art, and is not repeated here.

Further, in the glass slide block installation tool disclosed by the utility model, the slide block installation assembly comprises a first air cylinder, a push rod and an installation block, wherein the slide block positioning groove is formed in the top of the installation block, the first air cylinder is formed in the bottom plate and is connected with the push rod, and one end of the push rod, which is far away from the first air cylinder, is connected with the installation block, so that the push rod drives the installation block to be close to or far away from the glass to be installed under the action of the first air cylinder.

Furthermore, in the glass slide block installation tool disclosed by the utility model, the glass pressing assembly further comprises a second air cylinder and a pressing piece, wherein the second air cylinder is arranged on the bottom plate and is connected with the pressing piece, so that the pressing piece is correspondingly pressed on the upper surface of the glass to be installed under the action of the second air cylinder.

Furthermore, in the glass slide block installation tool disclosed by the utility model, the glass pressing assembly further comprises a clamping device, and the clamping device is movably arranged on the bottom plate and used for clamping the glass to be installed.

Further, in the glass slide block mounting tool disclosed by the utility model, the clamping device comprises a mounting frame, a supporting component and a pressing component, wherein the mounting frame is movably arranged on the bottom plate, the supporting component and the pressing component are oppositely arranged and are arranged on the mounting frame, the supporting component is in contact with the lower surface of the glass to be mounted, and the pressing component is tightly pressed on the upper surface of the glass to be mounted.

Furthermore, in the glass slide block installation tool disclosed by the utility model, the bottom plate is provided with the sliding rail, and the installation frame is further provided with the groove matched with the sliding rail so as to enable the installation frame to slide along the length direction of the sliding rail.

Further, in the glass slide block mounting tool disclosed by the utility model, the glass slide block mounting tool further comprises at least two positioning pieces, wherein the positioning pieces are arranged on the bottom plate and abut against the glass to be mounted so as to limit the glass to be mounted.

Furthermore, in the glass slide block installation tool disclosed by the utility model, the positioning piece comprises at least two positioning rods, the positioning rods are arranged on the bottom plate, and two opposite side parts of the glass to be installed can respectively abut against the corresponding positioning rods.

Furthermore, in the glass slide block mounting tool disclosed by the utility model, the glass slide block mounting tool further comprises a positioning wheel coaxially arranged with the positioning rod, wherein the positioning wheel is connected with the positioning rod in a relative rotating manner, and the circumferential side wall of the positioning wheel is abutted against the glass to be mounted.

Furthermore, in the glass slide block installation tool disclosed by the utility model, the positioning piece further comprises at least two positioning seats, wherein the positioning seats are arranged on the bottom plate, and midpoints of two opposite side parts of the glass to be installed can respectively lean against the corresponding positioning seats.

The utility model has the beneficial effects that: through designing a brand-new glass slider installation frock, can utilize glass support piece and glass to compress tightly the fixed location of subassembly and wait to install glass to drive through the slider installation component and locate the glass slider in the slider constant head tank and remove towards being close to the direction of waiting to install glass, with the glass slider accurate support press to wait to install glass's lower surface, thereby accomplish the fixed between glass and the glass slider of waiting to install, its installation location is accurate, can improve glass slider's installation accuracy and product percent of pass greatly. The glass slide block mounting tool designed by the utility model can effectively replace manual glass slide blocks mounted on two sides of glass, has high reliability, can greatly improve the working efficiency, and has good popularization prospect and application value.

Drawings

FIG. 1 is a schematic view of a glass slide mounting tool according to one embodiment of the present utility model;

fig. 2 is a partial enlarged view of a portion a of the glass slide mounting tool shown in fig. 1.

FIG. 3 is a schematic view of a part of a glass slide mounting tool according to an embodiment of the present utility model;

FIG. 4 is an enlarged view of a portion of the glass slide mounting tooling shown in FIG. 3 at B;

FIG. 5 schematically illustrates a schematic view of a glass slide mounting tool of the present utility model in one embodiment for securing glass to be mounted;

FIG. 6 is a schematic view schematically showing a structure in which a pressing member is pressed against the upper surface of glass to be mounted by a second cylinder;

FIG. 7 schematically shows a partial schematic view of the glass slide mounted on the glass to be mounted;

fig. 8 schematically shows a structure of the slider mounting assembly pushing the glass slider to press against the lower surface of the glass to be mounted.

Description of the reference numerals:

1. a bottom plate; 101. a slide rail;

2. a glass support;

3. a glass compaction assembly; 301. a pressing member; 302. a second cylinder;

4. a slider mounting assembly; 401. a first cylinder; 402. a mounting block; 403. a slide block positioning groove; 404. a push rod;

5. a glass slide;

6. glass to be installed;

7. a clamping device; 701. a mounting frame; 702. a clamping plate; 703. a third cylinder; 704. a fourth cylinder; 705. a support plate, 706, a second compression bar;

8. a bracket;

9. a pulley; 901. a locking mechanism;

10. a positioning rod;

11. a positioning wheel;

12. a positioning seat;

13. a fifth cylinder;

14. a glass pressing rod;

15. waist-shaped holes.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 8, the present utility model provides a glass slide mounting tool, which includes: a base plate 1, a glass support 2, a glass pressing assembly 3 and a slider mounting assembly 4. Wherein one end of the glass support 2 is connected with the bottom plate 1, and the other end of the glass support is contacted with the lower surface of the glass 6 to be installed; the glass pressing assembly 3 is pressed on the upper surface of the glass 6 to be installed; the slider installation component 4 can be connected with the bottom plate 1 in a lifting manner relative to the bottom plate 1, and a slider positioning groove 403 for placing a glass slider 5 is formed in the top of the slider installation component 4 so as to press the glass slider 5 against the lower surface of the glass 6 to be installed.

As shown in fig. 1, in the glass slide block installation tool designed by the utility model, the glass supporting piece 2 can be selected as a supporting rod, and in particular, a plurality of supporting rods are fixedly arranged on the bottom plate 1, one ends of the supporting rods are connected with the bottom plate 1, and the other ends of the supporting rods are contacted with the lower surface of the glass 6 to be installed, so as to be used for supporting and positioning the glass 6 to be installed. In addition, in this embodiment, a glass pressing assembly 3 is further provided, and the glass pressing assembly 3 is pressed on the upper surface of the glass 6 to be installed, so as to cooperate with the glass support 2 to realize fixed positioning of the glass 6 to be installed.

Accordingly, after the fixing and positioning of the glass 6 to be mounted are completed, the glass slide 5 disposed in the slide positioning groove 403 can be driven to move toward the direction approaching to the glass 6 to be mounted by the slide mounting assembly 4, so that the glass slide 5 is pressed against the lower surface of the glass 6 to be mounted, and the glass slide 5 is fixed on the glass 6 to be mounted.

It should be noted that, in the actual setting, before the glass slide 5 is mounted on both sides of the glass 6 to be mounted, an operator may apply an appropriate amount of glue on the glass slide 5, so that the glass 6 to be mounted and the glass slide 5 are fixedly connected to each other by the glue. Of course, in some other embodiments, the glass slide 5 may also be fixedly connected to the glass 6 to be mounted by means of an injection-molding process. The process scheme of injection molding and edge covering is well known to those skilled in the art, and is not repeated here.

In addition, as can be seen from further reference to fig. 1 and 2, in order to facilitate the use of the glass slide mounting fixture by an operator, the inventor further designs a bracket 8 and a pulley 9 so that the base plate 1 can be fixedly disposed on the bracket 8. The pulley 9 is fixedly disposed at the bottom of the bracket 8, and the pulley 9 may be specifically selected as a universal wheel. After this glass slider installation frock removes suitable position, in order to swiftly control this glass slider installation frock stop the slip conveniently, can further set up locking mechanism 901 on above-mentioned pulley 9, after glass slider installation frock removes in place, operating personnel steps on locking mechanism 901 and can prevent pulley 9 and continue to rotate, prevents the removal of support 8.

Further, the slider installation assembly 4 includes a first cylinder 401, a push rod 404 and an installation block 402, the slider positioning groove 403 is formed in the top of the installation block 402, the first cylinder 401 is formed in the bottom plate 1, the first cylinder 401 is connected with the push rod 404, and one end, far away from the first cylinder 401, of the push rod 404 is connected with the installation block 402, so that the push rod 404 drives the installation block 402 to approach or separate from the glass 6 to be installed under the action of the first cylinder 401.

In the present utility model, the slider mounting assembly 4 may specifically include a first cylinder 401, a push rod 404, and a mounting block 402 according to actual use requirements. Wherein, the mounting block 402 is provided with a slide positioning groove 403 for placing the glass slide 5. Therefore, under the action of the air cylinder, the push rod 404 can push the mounting block 402 to approach the glass 6 to be mounted, and press the glass slide 5 provided in the slide positioning groove 403 against the lower surface of the glass 6 to be mounted.

Further, the glass pressing assembly 3 includes a second air cylinder 302 and a pressing member 301, where the second air cylinder 302 is disposed on the base plate 1 and connected to the pressing member 301, so that the pressing member 301 is correspondingly pressed on the upper surface of the glass 6 to be installed under the action of the second air cylinder 302.

In the above technical solution, in order to further enhance the fixing and positioning effect of the glass 6 to be installed, the glass pressing assembly 3 designed in the present utility model further includes a pressing member 301, where the pressing member 301 can act on the glass 6 to be installed and firmly press and fix the upper surface of the glass 6 to be installed.

Correspondingly, in order to realize the compaction effect of the compaction member 301, a second air cylinder 302 is further arranged in the glass compaction assembly 3 designed by the utility model, the second air cylinder 302 is controlled to be arranged on the bottom plate 1, and the second air cylinder 302 is controlled to be connected with the compaction member 301, so that the compaction member 301 can be pressed on the upper surface of the glass 6 to be installed under the action of the second air cylinder 302.

It should be noted that, in some other preferred embodiments, the second air cylinder 302 may not be provided, and the effect that the pressing member 301 presses against the upper surface of the glass 6 to be mounted may be achieved by providing an elastic member capable of elastically deforming in the pressing member 301 and utilizing the elastic force generated by the elastic member due to its elastic deformation.

Further, the glass pressing assembly 3 further comprises a clamping device 7, and the clamping device 7 is movably arranged on the bottom plate 1 and used for clamping the glass 6 to be installed.

In the above technical solution, in order to further enhance the fixing and positioning effect of the glass 6 to be installed, the glass pressing assembly 3 of the present utility model further designs a clamping device 7, where the clamping device 7 is movably disposed on the bottom plate 1, and can adjust the position of the clamping device on the bottom plate 1 according to specific requirements, so as to clamp and fix the glass 6 to be installed.

Further, the clamping device 7 comprises a mounting frame 701, a supporting component and a pressing component, the mounting frame 701 is movably arranged on the bottom plate 1, the supporting component and the pressing component are oppositely arranged and are arranged on the mounting frame 701, the supporting component is in contact with the lower surface of the glass 6 to be mounted, and the pressing component is pressed on the upper surface of the glass 6 to be mounted.

As can be seen with reference to fig. 3 and 4, in this embodiment, the clamping device 7 may specifically comprise a mounting bracket 701, a support assembly and a hold down assembly. Wherein, the supporting component includes: a third cylinder 703, a first compression bar and a support plate 705; the pressing down assembly includes: a fourth cylinder 704, a second strut 706, and a mounting bracket 701.

In the embodiment shown in fig. 4, the mounting frame 701 is movably disposed on the base plate 1, the third air cylinder 703 is disposed opposite to the fourth air cylinder 704 and is disposed on the mounting frame 701, the third air cylinder 703 is connected with a first pressure rod, the first pressure rod is connected with the support plate 705, and the first pressure rod is used for driving the support plate 705 to contact with the lower surface of the glass 6 to be mounted under the action of the third air cylinder 703.

Accordingly, in the pressing down assembly, the fourth cylinder 704 is connected to the second pressing bar 706, and an end of the second pressing bar 706 away from the fourth cylinder 704 is in contact with the clamping plate 702, and the second pressing bar 706 can approach toward the supporting plate 705 under the action of the fourth cylinder 704 to press the clamping plate 702 against the upper surface of the glass 6 to be mounted.

Thus, by the above-described mutual engagement of the pressing member and the supporting member, the glass 6 to be mounted can be clamped and fixed by effectively using the clamping plate 702 and the supporting plate 705.

Further, the base plate 1 is provided with a sliding rail 101, and the mounting frame 701 is further provided with a groove matched with the sliding rail 101, so that the mounting frame 701 slides along the length direction of the sliding rail 101.

As shown in fig. 4, in the above technical solution, a sliding rail 101 is provided on a base plate 1, and a mounting frame 701 is provided with a groove matched with the sliding rail 101, and the groove on the mounting plate is correspondingly provided on the sliding rail 101 of the base plate 1, so that the two are matched with each other. Through this kind of setting, the mounting bracket 701 on the bottom plate 1 can slide along the length direction of slide rail 101, and the removal of mounting bracket 701 also can drive the removal of supporting component and pushing down the subassembly to change clamping device 7 on the bottom plate 1's position, with the fixed demand of clamp of the glass 6 of waiting to install of satisfying different appearance and size.

Further, the glass mounting device also comprises at least two positioning pieces, wherein the positioning pieces are arranged on the bottom plate 1 and abut against the glass 6 to be mounted so as to limit the glass 6 to be mounted.

As can be seen from fig. 3, in the present utility model, the glass 6 to be mounted is placed on the plurality of glass supports 2 along the horizontal direction, and in order to facilitate the operator to set the glass 6 to be mounted at the mounting station in the horizontal direction, the inventors further designed a positioning member to position the position of the glass 6 to be mounted. The positioning piece is specifically disposed on the bottom plate 1, and abuts against the glass 6 to be installed, so as to limit the position.

Further, the positioning member includes at least two positioning rods 10, the positioning rods 10 are disposed on the bottom plate 1, and two opposite edges of the glass 6 to be installed can respectively abut against the corresponding positioning rods 10.

In the above technical solution, the positioning member may specifically include positioning rods 10, as shown in fig. 3, in this embodiment, four positioning rods 10 may specifically be provided, where the four positioning rods 10 are fixedly provided on the base plate 1, and two opposite edges of the glass 6 to be installed can respectively abut against the two corresponding positioning rods 10, so as to limit two orientations of the glass 6 to be installed in the horizontal direction by the four positioning rods 10.

It should be noted that, in a specific design, the fixing positions of the positioning rods 10 and the bottom plate 1 can be preferably controlled to be adjustable, so that an operator can conveniently adjust the fixing positions of the positioning rods 10 in real time, thereby adapting to the detection requirements of different glasses. For example, in the embodiment shown in fig. 1, the end of the positioning rod 10 fixedly connected to the bottom plate 1 is further provided with a waist-shaped hole 15, and the bottom plate 1 is provided with a positioning hole, and the positioning rod 10 and the bottom plate 1 can be fixedly connected by sequentially passing through the waist-shaped hole 15 and the positioning hole by using a bolt. Based on this arrangement, the operator can finely adjust the fixed position of the positioning lever 10 on the base plate 1.

Further, the glass mounting device further comprises a positioning wheel 11 coaxially arranged with the positioning rod 10, the positioning wheel 11 is connected with the positioning rod 10 in a relative rotation manner, and the circumferential side wall of the positioning wheel 11 is abutted against the glass 6 to be mounted.

In the utility model, in order to facilitate the position adjustment of the glass 6 to be installed, a positioning wheel 11 is coaxially arranged at one end of the positioning rod 10 near the glass 6 to be installed, and a bearing can be further arranged between the positioning wheel 11 and the positioning rod 10 to realize the relative rotation connection between the positioning wheel 11 and the positioning rod 10.

Thus, when the operator controls the side positioning rod 10 of the glass 6 to be mounted to approach, the edge of the glass 6 to be mounted contacts with the circumferential side wall of the positioning wheel 11; through the arrangement, when an operator controls the edge of the glass 6 to be installed to be tightly attached to the circumferential side wall of the positioning wheel 11 for displacement, the movement of the glass 6 to be installed also drives the positioning wheel 11 to rotate compared with the axis of the positioning rod 10.

It should be noted that, since the outer contour of the positioning wheel 11 will contact with the glass 6 to be mounted, in order to prevent the positioning wheel 11 from scratching the glass 6 to be mounted, the positioning wheel 11 may be specifically selected from wheels made of POM materials, for example: nylon wheels made from hard nylon materials.

Further, the positioning piece further comprises at least two positioning seats 12, the positioning seats 12 are arranged on the bottom plate 1, and midpoints of two opposite sides of the glass 6 to be installed can respectively abut against the corresponding positioning seats 12.

In the above technical solution, the positioning member may further include positioning seats 12, as shown in fig. 1 and 3, in this embodiment, two positioning seats 12 may be specifically provided, where the two positioning seats 12 are fixedly provided on the base plate 1, and midpoints of two opposite sides of the glass 6 to be installed can respectively abut against the corresponding positioning seats 12, so that two orientations of the glass 6 to be installed in the horizontal direction are limited by the two positioning seats 12.

It should be noted that, in the embodiment shown in fig. 1, by the two positioning seats 12 and the four positioning rods 10, four orientations of the glass 6 to be mounted in the horizontal direction can be limited, so that the mounting station of the glass 6 to be mounted in the horizontal direction can be quickly and simply positioned, and the use and the mounting by an operator are facilitated.

Example 1

Referring to fig. 1 to 8, a first embodiment of the present utility model is as follows: a glass slide mounting fixture, comprising: a base plate 1, a glass support 2, a glass pressing assembly 3, a slider mounting assembly 4, a bracket 8 and four pulleys 9. In this embodiment, the bottom plate 1 is horizontally disposed on a bracket 8, the bracket 8 is a rectangular frame, and the bottom of the bracket 8 is rectangular, and the four pulleys 9 are fixedly disposed at the bottom of the bracket 8 and are disposed at four corners of the rectangle respectively.

In this embodiment, all four pulleys 9 are selected as universal wheels, and locking mechanisms 901 are provided on the universal wheels. When in actual use, an operator can slide the bracket 8 by utilizing the pulley 9 only by applying external force to the bracket 8; after the glass slide block mounting tool is moved to a proper position, an operator can prevent the pulley 9 from continuing to rotate by stepping on the locking mechanism 901, and further movement of the bracket 8 is prevented.

As shown in fig. 1 and 3, in the present embodiment, the glass supporting member 2 is specifically selected as supporting rods, and the base plate 1 is specifically provided with 11 supporting rods, one ends of which are connected to the base plate 1, and the other ends of which are in contact with the lower surface of the glass 6 to be mounted, and are provided on the base plate 1 in the vertical direction for supporting the glass 6 to be mounted provided thereon. Meanwhile, in this embodiment, the glass pressing assembly 3 specifically includes four second cylinders 302 and four pressing members 301, and the four second cylinders 302 are disposed on the base plate 1, and are disposed on both front and rear sides of the base plate 1. The four second cylinders 302 are respectively and correspondingly connected with a pressing piece 301, so that the pressing piece 301 is correspondingly pressed on the upper surface of the glass 6 to be installed under the action of the second cylinders 302.

Accordingly, in this embodiment, the slider mounting assembly 4 is connected to the base plate 1 so as to be capable of being lifted with respect to the base plate 1, the slider mounting assembly 4 includes a first cylinder 401, a push rod 404, and a mounting block 402, and the top of the slider mounting assembly 4 is further provided with a slider positioning groove 403 for placing the glass slider 5, the slider positioning groove 403 being specifically provided at the top of the mounting block 402. In this embodiment, a through groove is formed in the bottom plate 1, the first cylinder 401 passes through the through groove and is disposed on the bottom plate 1, the first cylinder 401 is connected with the push rod 404, and an end of the push rod 404 away from the first cylinder 401 is fixedly connected with the mounting block 402, so that the push rod 404 can drive the mounting block 402 to be close to the glass 6 to be mounted under the action of the first cylinder 401, and the glass slide 5 in the slide positioning groove 403 is pressed against the lower surface of the glass 6 to be mounted.

It should be noted that, in this embodiment, in order to further enhance the fixing and positioning effect of the glass 6 to be mounted, a clamping device 7 is further designed in the glass pressing assembly 3, and the clamping device 7 is movably disposed on the bottom plate 1, and can adjust the position of the clamping device on the bottom plate 1 according to specific requirements so as to clamp and fix the glass 6 to be mounted. As shown in fig. 3, 4 and 5, in this embodiment, the clamping device 7 may specifically include a mounting bracket 701, a support assembly, and a pressing assembly, where the support assembly further includes: a third cylinder 703, a first compression bar and a support plate 705; the pushing component further comprises: a fourth cylinder 704, a second strut 706, and a mounting bracket 701.

Correspondingly, in the present embodiment, the bottom plate 1 of the glass slide mounting tool is provided with the sliding rail 101, and the mounting frame 701 is provided with the groove matched with the sliding rail 101, so that the groove on the mounting plate is correspondingly arranged on the sliding rail 101 of the bottom plate 1, and the two grooves are matched with each other. Through this kind of setting, the mounting bracket 701 on the bottom plate 1 can slide along the length direction of slide rail 101, and the removal of mounting bracket 701 also can drive the removal of supporting component and pushing down the subassembly to change clamping device 7 on the bottom plate 1's position, with the fixed demand of clamp of the glass 6 of waiting to install of satisfying different appearance and size. As can be seen from fig. 4 and 5, in this embodiment, the mounting bracket 701 may be pushed by a cylinder, so that the mounting bracket 701 slides in the length direction of the slide rail 101 and moves to a proper position.

In the clamping device 7 designed by the utility model, the third air cylinder 703 and the fourth air cylinder 704 are arranged opposite to each other and are arranged on the mounting frame 701; the third air cylinder 703 is connected with a first pressure rod, the first pressure rod is connected with the supporting plate 705, and the first pressure rod is used for driving the supporting plate 705 to contact with the lower surface of the glass 6 to be installed under the action of the third air cylinder 703; the fourth cylinder 704 is connected with a second pressing rod 706, and one end of the second pressing rod 706 away from the fourth cylinder 704 is in contact with the clamping plate 702, so that the second pressing rod 706 can approach towards the direction of the supporting plate 705 under the action of the fourth cylinder 704, and the clamping plate 702 is pressed on the upper surface of the glass 6 to be installed. Thus, by the above-described mutual engagement of the pressing member and the supporting member, the glass 6 to be mounted can be clamped and fixed by effectively using the clamping plate 702 and the supporting plate 705.

As can be seen by further referring to fig. 1 and 3, in the present utility model, in order to facilitate the operator to set the glass 6 to be mounted at the mounting station in the horizontal direction, the inventor further devised a positioning member to position the glass 6 to be mounted. In this embodiment, the positioning member includes four positioning rods 10 and two positioning seats 12.

In this embodiment, the four positioning rods 10 are fixedly disposed on the base plate 1, and two opposite edges of the glass 6 to be mounted can respectively abut against the two corresponding positioning rods 10, so that the four positioning rods 10 limit two orientations of the glass 6 to be mounted in the horizontal direction.

During actual operation, an operator can realize positioning by only controlling the two opposite edges of the glass 6 to be installed to be closely attached to the four positioning rods 10. In this embodiment, the end of the positioning rod 10 fixedly connected with the bottom plate 1 is further provided with a waist-shaped hole 15, and the bottom plate 1 is provided with a positioning hole, and the positioning rod 10 and the bottom plate 1 can be fixedly connected by sequentially penetrating through the waist-shaped hole 15 and the positioning hole by using a bolt. Based on this arrangement, the operator can adjust the fixing position of the positioning rod 10 on the base plate 1, i.e. the operator can unscrew the bolts properly, and at this time, since the hole pattern of the waist-shaped hole 15 of the positioning rod 10 is strip-shaped, it can move compared with the positioning hole to adjust the fixing position of the positioning rod 10 properly, so as to adapt to the slider installation requirements of different glasses. After the adjustment is completed, the fixing and positioning of the positioning rod 10 and the bottom plate 1 can be realized again only by screwing the bolt.

Furthermore, in the present embodiment, a positioning wheel 11 is provided at one end of the positioning rod 10 near the glass 6 to be mounted, and a bearing is provided between the positioning wheel 11 and the positioning rod 10 to achieve rotatable connection between the positioning wheel 11 and the positioning rod 10. The circumferential side wall of the positioning wheel 11 is contacted with the glass 6 to be installed, so that the positioning wheel 11 is prevented from scratching the glass 6 to be installed, and the positioning wheel 11 is a nylon wheel made of hard nylon material. Thus, when the operator controls the side positioning rod 10 of the glass 6 to be mounted to approach, the edge of the glass 6 to be mounted contacts with the circumferential side wall of the positioning wheel 11; through the arrangement, when an operator controls the edge of the glass 6 to be installed to be closely attached to the outer contour of the positioning wheel 11 for displacement, the movement of the glass 6 to be installed also drives the positioning wheel 11 to rotate compared with the axis of the positioning rod 10.

Accordingly, in the present embodiment, in order to further enhance the positioning effect of the glass 6 to be installed, two positioning seats 12 are fixedly disposed on the bottom plate 1, and midpoints of two opposite side portions of the glass 6 to be installed are controlled to respectively abut against the corresponding positioning seats 12, so that two orientations of the glass 6 to be installed in the horizontal direction are limited by the two positioning seats 12. It should be noted that, in the present embodiment, by the above-described two positioning seats 12 and four positioning rods 10, four orientations of the glass 6 to be mounted in the horizontal direction can be restricted to quickly and easily position the mounting station of the glass 6 to be mounted in the horizontal direction, which is convenient for the operator to use and install.

In addition, as can be seen further with reference to fig. 3, in the present embodiment, four fifth cylinders 13 and glass pressing rods 14 are further disposed on the base plate 1, and the four fifth cylinders 13 are disposed on the base plate 1 and respectively and correspondingly connected with one glass pressing rod 14. The glass pressing rod 14 can correspondingly press the upper surface of the glass 6 to be installed under the action of the fifth air cylinder 13, so that the glass 6 to be installed is pressed.

In the practical application process, an operator only needs to control two opposite sides of the glass 6 to be installed to be tightly attached to the positioning wheels 11 on the four positioning rods 10, and simultaneously controls the midpoints of the other two opposite sides of the glass 6 to be installed to be respectively abutted to the positioning seats 12, so that the glass 6 to be installed can be positioned in the horizontal direction, and then the clamping device 7 is used for clamping the glass 6 to be installed. At this time, the lower surface of the glass 6 to be installed is contacted with the supporting rod, and an operator can drive the four pressing blocks and the four glass pressing rods 14 to be pressed on the upper surface of the glass 6 to be installed by controlling the four second air cylinders 302 and the four fifth air cylinders 13, so that the glass 6 to be installed is pressed and fixed.

Correspondingly, after the fixing and positioning of the glass 6 to be installed are completed, the first cylinder 401 in the slider installation assembly 4 is controlled to be opened, so that the push rod 404 can drive the installation block 402 to be close to the glass 6 to be installed under the action of the first cylinder 401, and the glass slider 5 is pressed against the lower surface of the glass 6 to be installed.

Therefore, the glass slide block mounting tool designed by the utility model can effectively replace manual glass slide blocks 5 mounted on two sides of glass, has high reliability and accurate mounting and positioning, can greatly improve the working efficiency and the mounting accuracy of the glass slide blocks 5, and has good popularization prospect and application value.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (10)

1. Glass slider installation frock, its characterized in that includes:

a bottom plate;

a glass support member having one end connected to the base plate and the other end contacting a lower surface of glass to be mounted;

the glass pressing assembly is pressed on the upper surface of the glass to be installed;

the sliding block installation assembly can be connected with the bottom plate in a lifting mode relative to the bottom plate, and a sliding block positioning groove for placing a glass sliding block is formed in the top of the sliding block installation assembly so as to enable the glass sliding block to be propped against the lower surface of glass to be installed.

2. The glass slide mounting tool according to claim 1, wherein the slide mounting assembly comprises a first cylinder, a push rod and a mounting block, the slide positioning groove is formed in the top of the mounting block, the first cylinder is arranged on the bottom plate and is connected with the push rod, and one end, far away from the first cylinder, of the push rod is connected with the mounting block, so that the push rod drives the mounting block to be close to or far away from glass to be mounted under the action of the first cylinder.

3. The glass slide block installation tool according to claim 1, wherein the glass pressing assembly further comprises a second air cylinder and a pressing piece, wherein the second air cylinder is arranged on the bottom plate and is connected with the pressing piece, so that the pressing piece is correspondingly pressed on the upper surface of the glass to be installed under the action of the second air cylinder.

4. The glass slide mounting fixture of claim 1, wherein the glass pressing assembly further comprises a clamping device movably disposed on the base plate for clamping the glass to be mounted.

5. The glass slide mounting fixture of claim 4, wherein the clamping device comprises a mounting frame, a supporting component and a pressing component, the mounting frame is movably arranged on the bottom plate, the supporting component and the pressing component are oppositely arranged and are arranged on the mounting frame, the supporting component is in contact with the lower surface of the glass to be mounted, and the pressing component is pressed on the upper surface of the glass to be mounted.

6. The glass slide block installation tool according to claim 5, wherein the bottom plate is provided with a sliding rail, and the installation frame is further provided with a groove matched with the sliding rail so that the installation frame slides along the length direction of the sliding rail.

7. The glass slide block mounting tool according to claim 1, further comprising at least two positioning pieces, wherein the positioning pieces are arranged on the bottom plate and abut against the glass to be mounted so as to limit the glass to be mounted.

8. The glass slide mounting fixture according to claim 7, wherein the positioning member comprises at least two positioning rods, the positioning rods are arranged on the bottom plate, and two opposite side portions of the glass to be mounted can respectively abut against the corresponding positioning rods.

9. The glass slide mounting fixture of claim 8, further comprising a positioning wheel coaxially arranged with the positioning rod, wherein the positioning wheel is rotatably connected with the positioning rod, and a circumferential side wall of the positioning wheel is abutted against the glass to be mounted.

10. The glass slide mounting fixture according to claim 7, wherein the positioning member further comprises at least two positioning seats, the positioning seats are arranged on the bottom plate, and midpoints of two opposite side portions of the glass to be mounted can respectively abut against the corresponding positioning seats.