CN219006602U - Clamping assembly for glass processing - Google Patents

Abstract

The present utility model provides a clamping assembly for glass processing, comprising: a base; the fixing device comprises two fixing plates, wherein the two fixing plates are respectively fixed on two sides of the top of the base, the two fixing plates are respectively provided with a movable plate in a drawing mode, one side of each movable plate is fixedly connected with a conical frame, the top of each conical frame is fixedly connected with an annular sealing gasket, and the top of each fixing plate is provided with a T-shaped bolt used for clamping the movable plate. According to the clamping assembly tool for glass processing, the negative pressure assembly is arranged, so that the interiors of the two conical frames can be sucked, the interiors of the two conical frames are in a negative pressure state, and further the glass sheets positioned on the upper side can be firmly adsorbed and clamped, so that the clamped stability of the glass sheets is ensured, the processing of the glass sheets by external processing equipment is not influenced, and the functionality and the practicability of the clamping assembly are improved.

Description

Clamping assembly for glass processing

Technical Field

The utility model relates to the field of glass clamping, in particular to a clamping assembly for glass processing.

Background

Glass is an amorphous inorganic nonmetallic material, which is generally prepared by taking various inorganic minerals as main raw materials and adding a small amount of auxiliary raw materials, wherein the main components of the glass are silicon dioxide and other oxides.

The glass is widely applied to buildings, is used for isolating wind and transmitting light, belongs to a mixture, and when the glass is installed, the glass sheet is required to be drilled, cut and other processing according to the installation environment, and in order to ensure the stability in the processing process, the glass is generally required to be fixed by a corresponding clamping assembly, so that the glass processing effect is ensured.

In the related art, the existing glass clamping assembly mostly adopts the clamping plate to apply force to clamp glass, and can play a corresponding clamping function, but in the clamping process, corresponding clamping components are arranged on the front surface and the back surface of the glass, and the clamping components easily occupy the space of the glass processing position, so that the glass processing device is not beneficial to the processing of the glass by subsequent processing equipment.

Accordingly, there is a need to provide a clamping assembly for glass processing that solves the above-described problems.

Disclosure of Invention

The utility model provides a clamping assembly for glass processing, which solves the problems that the clamping assembly in the prior art easily occupies the space for subsequent processing when clamping glass, and is not beneficial to the subsequent glass processing.

In order to solve the above technical problems, the clamping assembly for glass processing provided by the present utility model comprises:

a base;

the two fixing plates are respectively fixed on two sides of the top of the base, the moving plates are arranged in the two fixing plates in a drawing mode, one sides of the two moving plates are fixedly connected with conical frames, the top of each conical frame is fixedly connected with an annular sealing gasket, and T-shaped bolts used for clamping the moving plates are arranged on the top of each fixing plate;

the negative pressure assembly is arranged at the bottom of the base, and two negative pressure ends of the negative pressure assembly are respectively connected with the two conical frames;

the two clamping assemblies are used for fixing glass, and the two clamping assemblies are arranged at the top of the base.

Preferably, the negative pressure assembly comprises a negative pressure frame fixed at the bottom of the base, two guide pipes are fixedly communicated with the inside of the negative pressure frame, and the other ends of the two guide pipes are respectively communicated with the inside of the two conical frames.

Preferably, the piston plate is sealed and slid in the negative pressure frame, the L-shaped frame is fixedly connected to the front surface of the negative pressure frame, the electric telescopic rod is fixedly connected to the bottom of the negative pressure frame, and the telescopic end of the electric telescopic rod is fixed to the inner wall of the L-shaped frame.

Preferably, a row of clamping holes are formed in the two moving plates, and the two T-shaped bolts are fixed to the tops of the two fixing plates through connecting ropes respectively.

Preferably, the other ends of the two guide pipes are telescopic hoses.

Preferably, the clamping assembly comprises a U-shaped bracket which is connected to the top of the base in a sliding manner, a clamping plate is connected to the inside of the U-shaped bracket in a sliding manner, and an elastic anti-slip pad is fixedly connected to the bottom of the clamping plate.

Preferably, the top threaded connection of U type support has the lead screw, the bottom of lead screw rotate connect in the top of clamping plate.

Compared with the related art, the clamping assembly for glass processing has the following beneficial effects:

the clamping assembly for glass processing provided by the utility model has the advantages that through the arrangement of the two clamping assemblies, the two sides of a glass sheet can be fixedly clamped, the post-processing effect of the glass sheet is ensured, and through the arrangement of the negative pressure assembly, the interiors of the two conical frames can be sucked, so that the interiors of the two conical frames are in a negative pressure state, the glass sheet positioned on the upper part can be firmly adsorbed and clamped, the clamped stability of the glass sheet is ensured, the processing of the glass sheet by external processing equipment is not influenced, and the functionality and the practicability of the clamping assembly are improved.

Drawings

FIG. 1 is a schematic view of a first embodiment of a clamping assembly for glass processing according to the present utility model;

FIG. 2 is a schematic view of the base shown in FIG. 1;

FIG. 3 is a bottom view of the base shown in FIG. 2;

FIG. 4 is a cross-sectional side view of the negative pressure frame shown in FIG. 1;

FIG. 5 is a schematic view of the structure of the fixing plate shown in FIG. 2;

fig. 6 is a schematic structural view of a second embodiment of a clamping assembly for glass processing according to the present utility model.

Reference numerals in the drawings: 1. a base; 2. a fixing plate; 3. a moving plate; 4. a conical frame; 5. an annular gasket; 6. a T-shaped bolt; 7. a negative pressure assembly; 71. a negative pressure frame; 72. a conduit; 73. a piston plate; 74. an L-shaped frame; 75. an electric telescopic rod; 8. a clamping assembly; 81. a U-shaped bracket; 82. a clamping plate; 83. and a screw rod.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

First embodiment

Referring to fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5 in combination, fig. 1 is a schematic structural diagram of a clamping assembly for glass processing according to a first embodiment of the present utility model; FIG. 2 is a schematic view of the base shown in FIG. 1; FIG. 3 is a bottom view of the base shown in FIG. 2; FIG. 4 is a cross-sectional side view of the negative pressure frame shown in FIG. 1; fig. 5 is a schematic structural view of the fixing plate shown in fig. 2. The clamping assembly for glass processing comprises:

a base 1;

the two fixing plates 2 are respectively fixed on two sides of the top of the base 1, the moving plates 3 are arranged in the two fixing plates 2 in a drawing manner, one sides of the two moving plates 3 are fixedly connected with conical frames 4, the top of the two conical frames 4 is fixedly connected with annular sealing gaskets 5, and T-shaped bolts 6 used for clamping the moving plates 3 are arranged on the top of the two fixing plates 2;

the negative pressure assembly 7 is arranged at the bottom of the base 1, and two negative pressure ends of the negative pressure assembly 7 are respectively connected with the two conical frames 4;

two clamping assemblies 8 for fixing glass, wherein both clamping assemblies 8 are arranged on the top of the base 1;

through the arrangement of the two clamping assemblies 8, the two sides of the glass sheet can be fixedly clamped, so that the post-processing effect of the glass sheet is ensured;

through the setting of negative pressure component 7, can breathe in the inside of two toper frames 4 for the inside of two toper frames 4 presents negative pressure state, and then can firmly adsorb the centre gripping with being located the glass piece that prevents, not only guaranteed the stability that the glass piece was held, can not influence the processing of external processing equipment to the glass piece moreover, improved clamping assembly's functionality and practicality.

The negative pressure assembly 7 comprises a negative pressure frame 71 fixed at the bottom of the base 1, two guide pipes 72 are fixedly communicated in the negative pressure frame 71, and the other ends of the two guide pipes 72 are respectively communicated with the interiors of the two conical frames 4;

through the inside of negative pressure frame 71 is the negative pressure state, can inhale two toper frame 4 insidely through two pipe 72, and then can adsorb the centre gripping to the glass piece that is located two toper frame 4 tops, has not only guaranteed the stability that the glass piece was held, can not influence the processing of external processing equipment to the glass piece moreover.

The piston plate 73 is hermetically and slidably arranged in the negative pressure frame 71, the L-shaped frame 74 is fixedly connected to the front surface of the negative pressure frame 71, the electric telescopic rod 75 is fixedly connected to the bottom of the negative pressure frame 71, and the telescopic end of the electric telescopic rod 75 is fixed to the inner wall of the L-shaped frame 74;

the electric telescopic rod 75 is connected with an external power supply and a control switch and is used for driving the L-shaped frame 74 to move forwards and backwards, so that the piston plate 73 can be driven to move forwards and backwards, and the negative pressure inside the negative pressure frame 71 can be caused to be in negative pressure through the backward movement of the piston plate 73.

A row of clamping holes are formed in the two moving plates 3, and two T-shaped bolts 6 are respectively fixed to the tops of the two fixed plates 2 through connecting ropes;

through the seting up of a row of chucking hole, be convenient for T type bolt 6 insert in the chucking hole of different positions to moving plate 3 after the concertina movement is chucking.

The other ends of the two guide pipes 72 are telescopic hoses;

by the arrangement of the telescopic hose, the connection of the guide pipe 72 and the conical frame 4 is facilitated, and the left-right movement of the conical frame 4 is not affected.

The working principle of the clamping component for glass processing provided by the utility model is as follows:

the glass sheets to be clamped are placed at the tops of the two conical frames 4, the glass sheets are supported by the two conical frames 4, and the two moving plates 3 move left and right according to the size of the glass sheets, so that the distance between the two conical frames 4 can be adjusted, and the clamping work of the glass sheets with different sizes is satisfied;

the L-shaped frame 74 can be driven to move back and forth by starting the electric telescopic rod 75, the piston plate 73 can be driven to move back and forth, the negative pressure can be displayed in the negative pressure frame 71 by the backward movement of the piston plate 73, the negative pressure can be generated in the negative pressure frame 71, the two conical frames 4 can be sucked through the two guide pipes 72, and then the glass sheets positioned at the tops of the two conical frames 4 can be sucked and clamped.

Second embodiment

Referring to fig. 6 in combination, another clamping assembly for glass processing is provided in accordance with a second embodiment of the present application. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the second embodiment of the present application provides a clamping assembly for glass processing, which is different in that the clamping assembly 8 includes a U-shaped bracket 81 slidably connected to the top of the base 1, a clamping plate 82 is slidably connected to the inside of the U-shaped bracket 81, and an elastic anti-slip pad is fixedly connected to the bottom of the clamping plate 82;

through the downward motion of two clamping plates 82, can press from both sides tightly the glass piece at two toper frame 4 tops, guarantee its stability of processing, through the setting of elasticity slipmat moreover, further improve its centre gripping's stability, set up through the gliding mode of U type support 81 adoption, be convenient for two clamping components 8 side-to-side motion, not only be convenient for the clamping work in different positions, can avoid clamping components 8 to the shelter from glass processing region moreover.

The top of the U-shaped bracket 81 is in threaded connection with a screw rod 83, and the bottom end of the screw rod 83 is rotatably connected to the top of the clamping plate 82;

the clamping plates 82 can be driven to move up and down by rotating the screw rod 83 by hands, and the glass sheets at the tops of the two conical frames 4 can be clamped by the downward movement of the two clamping plates 82, so that the stability of subsequent processing is ensured.

The foregoing is only illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, and all equivalent structures or equivalent flow modifications which may be made by the teachings of the present utility model and the accompanying drawings or which may be directly or indirectly employed in other related art are within the scope of the utility model.

Claims (7)

1. Clamping assembly for glass processing, characterized by comprising:

a base (1);

the device comprises two fixing plates (2), wherein the two fixing plates (2) are respectively fixed on two sides of the top of a base (1), a movable plate (3) is arranged in the fixing plates (2) in a drawing mode, a conical frame (4) is fixedly connected to one side of each movable plate (3), an annular sealing gasket (5) is fixedly connected to the top of each conical frame (4), and T-shaped bolts (6) used for clamping the movable plate (3) are arranged at the top of each fixing plate (2);

the negative pressure assembly (7), the negative pressure assembly (7) is arranged at the bottom of the base (1), and two negative pressure ends of the negative pressure assembly (7) are respectively connected with the two conical frames (4);

two clamping components (8) used for fixing glass, wherein the two clamping components (8) are arranged at the top of the base (1).

2. The clamping assembly for glass processing according to claim 1, wherein the negative pressure assembly (7) comprises a negative pressure frame (71) fixed at the bottom of the base (1), two guide pipes (72) are fixedly communicated with the inside of the negative pressure frame (71), and the other ends of the two guide pipes (72) are respectively communicated with the inside of the two conical frames (4).

3. The clamping assembly for glass processing according to claim 2, wherein a piston plate (73) is hermetically slid inside the negative pressure frame (71), an L-shaped frame (74) is fixedly connected to the front surface of the negative pressure frame (71), an electric telescopic rod (75) is fixedly connected to the bottom of the negative pressure frame (71), and the telescopic end of the electric telescopic rod (75) is fixed to the inner wall of the L-shaped frame (74).

4. Clamping assembly for glass processing according to claim 1, characterized in that a row of clamping holes is provided in the interior of both moving plates (3), and both T-shaped bolts (6) are fixed to the tops of both fixing plates (2) by connecting ropes, respectively.

5. A clamping assembly for glass processing according to claim 2, characterized in that the other ends of the two ducts (72) are telescopic hoses.

6. The clamping assembly for glass processing according to claim 1, wherein the clamping assembly (8) comprises a U-shaped bracket (81) which is connected to the top of the base (1) in a sliding manner, a clamping plate (82) is connected to the inside of the U-shaped bracket (81) in a sliding manner, and an elastic anti-slip pad is fixedly connected to the bottom of the clamping plate (82).

7. The clamping assembly for glass processing according to claim 6, wherein a screw rod (83) is screwed to the top of the U-shaped bracket (81), and the bottom end of the screw rod (83) is rotatably connected to the top of the clamping plate (82).

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