CN212387961U - Assembled building glass cutting device - Google Patents

Abstract

The utility model discloses an assembly type building glass cutting device, which comprises a pedestal, wherein a cutting tool for cutting glass and a cutting table for placing the glass are arranged on the pedestal; the pedestal is also provided with a sliding beam capable of sliding linearly and a power assembly for driving the sliding beam to do linear motion; the sliding beams on the two sides of the pedestal are hinged with supporting beams, the supporting beams are connected through a shaft lever, a rotating gear is arranged on the shaft lever, a row of teeth are horizontally arranged on the pedestal, and the teeth are meshed with the rotating gear; the suction assembly is hinged to the support beam through a connecting rod, a telescopic cylinder is arranged in the support beam, and the output end of the telescopic cylinder is hinged to the connecting rod; effectively avoided getting the problem that the in-process platform seat need remove at glass, simplified glass and got and put the process, improved glass and got and put efficiency.

Description

Assembled building glass cutting device

Technical Field

The utility model relates to a glass processing technology field, concretely relates to assembled building glass cutting device.

Background

Fabricated structural systems refer to buildings produced by fabricating building units or components according to uniform, standard building component specifications, and then transporting them to the job site for assembly into place. The building construction method has the characteristics of light building weight, energy conservation, environmental protection, high construction speed, high industrialization degree and the like, can solve the problems of low building industrialization level, low labor productivity of building construction, low quality of traditional house products and the like, and is suitable for the development of the building industry.

The assembly type structure system relates to assembly type glass, assembly type concrete, assembly type wood and the like, and the assembly type glass is continuously approved by the building industry with the advantage of uniformity and convenience in installation; the assembly type glass is mainly produced in batch, and the unformed glass needs to be cut in batch; the cutting device of prior art generally gets through glass when getting to put glass and puts the device and get and put on the cutting bed to cut through cutting tool, because one side of general pile of fashioned glass of non-at the pedestal, the pedestal is getting to put the glass of device to one side and is absorbing the time, need carry out horizontal migration in order to increase and get the horizontal displacement who puts the device, adopts this kind to get the mode of putting glass, increases and gets the process of putting, causes glass to get and puts inefficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the weak point that exists among the above-mentioned technique, provide an assembly type structure glass cutting device, aim at solving above-mentioned cutting device and need the pedestal to carry out horizontal migration when absorbing glass, glass gets puts the problem of inefficiency.

The utility model provides an assembly type building glass cutting device, which comprises a pedestal, wherein a cutting tool for cutting glass and a cutting table for cutting glass are arranged on the pedestal; the pedestal is also provided with a sliding beam capable of sliding linearly and a power assembly for driving the sliding beam to do linear motion; the sliding beams on the two sides of the pedestal are respectively hinged with a supporting beam, the supporting beams are connected through a shaft lever, a rotating gear is arranged on the shaft lever, a row of teeth are horizontally arranged on the pedestal, and the teeth are meshed with the rotating gear; the suction assembly is hinged to the supporting beam through a connecting rod, a telescopic cylinder is arranged in the supporting beam, and the output end of the telescopic cylinder is hinged to the connecting rod.

Further, power component includes driving motor, driving gear and ratch, driving motor locates on the pedestal, the driving gear connect in driving motor's output, the ratch is located one side of sliding beam, the driving gear with the sliding beam meshes.

Further, the pedestal is provided with a track groove, the bottom surface of the sliding beam is connected with a roller, and the roller is positioned in the track groove, so that the sliding beam is driven by the power assembly to perform linear motion in the track groove.

Furthermore, the sucking component comprises a supporting rod and a sucking disc, the supporting rod is hinged to the supporting beam through the connecting rod, and the sucking disc is arranged on the supporting rod.

Further, the sliding beam and the supporting beam are of a frame structure, so that the supporting beam can be stored into the sliding beam, and the supporting rod can be stored into the supporting beam.

Furthermore, the cross section of the track groove is of a convex structure, so that the roller limits the sliding beam on the pedestal.

Compared with the prior art, the method has the following beneficial effects:

the utility model provides an assembly type structure glass cutting device is through setting up the slidable slip roof beam to drive the slip roof beam through power component and carry out linear motion, thereby make the rolling gear rotate on the tooth under the drive of axostylus axostyle, thereby rotate drive corbel piece, in order to realize getting to glass getting, effectively avoided getting the problem that in-process platform seat need remove at glass, simplify glass and get the process of putting, improve glass and get and put efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

FIG. 1 is a schematic view of a fabricated building glass cutting apparatus according to the present invention;

FIG. 2 is an axial view of a fabricated building glass cutting apparatus according to the present invention;

FIG. 3 is an enlarged view of a portion A of the assembled cutting device for building glass according to the present invention;

fig. 4 is a schematic diagram of a part B of the assembled glass cutting device for building according to the present invention.

In the figure, 1-stand; 2-cutting the cutter; 3-a cutting table; 4-a sliding beam; 5-a power assembly; 6-supporting the beam; 7-shaft lever; 8-a suction assembly; 9-a telescopic cylinder; 10-a roller; 11-teeth; 12-a track groove; 20-a connecting rod; 30-a bearing; 51-a drive motor; 52-a drive gear; 53-toothed bar; 71-a rotating gear; 81-strut; 82-suction cup.

Detailed Description

In order to make the structure and features and advantages of the present invention easier to understand, preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

example 1:

as shown in fig. 1 to 4, the utility model provides an assembled building glass cutting device, which comprises a pedestal 1, wherein a cutting tool 2 for cutting glass and a cutting table 3 for placing glass are arranged on the pedestal 1, the cutting tool 2 is positioned at the upper end of the cutting table 3, so that the cutting tool 2 can cut the glass on the cutting table 3 while moving on the pedestal 1; the pedestal 1 is also provided with a sliding beam 4 capable of sliding linearly and a power assembly 5 for driving the sliding beam 4 to move linearly, so that the sliding beam 4 slides linearly under the action of the power assembly 5; the sliding beams 4 on the two sides of the pedestal 1 are hinged with supporting beams 6, the supporting beams 6 are connected through a shaft lever 7, and the two ends of the shaft lever 7 are connected to a bearing 30 on one side of the sliding beam 4; the shaft lever 7 is provided with a rotating gear 71, the pedestal 1 is horizontally provided with a row of teeth 11, the teeth 11 are meshed with the rotating gear 71, so that the sliding beam 4 drives the rotating gear 71 to rotate on the fixed teeth 11 to move forwards or backwards in the linear motion process, and the opening or the retraction of the supporting beam 6 is realized; the glass taking and placing device is characterized by further comprising a suction assembly 8, wherein the suction assembly 8 is hinged to the supporting beam 6 through a connecting rod 20, a telescopic cylinder 9 is arranged in the supporting beam 6, and the output end of the telescopic cylinder 9 is hinged to the connecting rod 20 so as to drive the suction assembly 8 to be opened or retracted on the supporting beam 6 through the telescopic motion of the telescopic cylinder 9, so that glass on one side of the pedestal 1 can be taken and placed; adopt above-mentioned technical scheme, through setting up slidable sliding beam 4 to drive sliding beam 4 through power component 5 and carry out rectilinear motion, thereby make the bull gear 71 rotate on tooth 11 under the drive of axostylus axostyle 7, thereby rotate drive corbel 6, in order to realize getting to glass and put, effectively avoided getting the problem that in-process pedestal 1 need remove at glass, simplify glass and get the process of putting, improve glass and get efficiency of putting.

Specifically, the power assembly 5 includes a driving motor 51, a driving gear 52 and a rack 53, the driving motor 51 is disposed on the pedestal 1, and the driving motor 51 is electrically connected to an external power supply; the driving gear 52 is connected to the output end of the driving motor 51, the rack bar 53 is horizontally disposed at one side of the sliding beam 4, and the driving gear 52 is engaged with the sliding beam 4 to rotate the driving gear 52 at the output end of the driving motor 51 to drive the rack bar 53 to move forward, so that the sliding beam 4 connected to the rack bar 53 performs a linear motion.

Specifically, the pedestal 1 is provided with a track groove 12, a roller 10 is connected to the bottom surface of the sliding beam 4, and the roller 10 is located in the track groove 12, so that the sliding beam 4 is driven by the power assembly 5 to move linearly in the track groove 12.

Specifically, the suction assembly 8 comprises a supporting rod 81 and a suction cup 82, the supporting rod 81 is hinged on the supporting beam 6 through a connecting rod 20, and the connecting rods 20 are hinged at two ends of the supporting rod 81 and are positioned at two sides of the supporting rod 81; the suckers 82 are arranged on the support rods 81, and the suckers 82 are multiple so as to increase the adsorption force and supporting points of the glass; the sucking disc 82 is connected with an air pipe to suck the glass; meanwhile, the suction cup 82 pushes the connecting rod 20 to rotate through the telescopic cylinder 9 and simultaneously drives the supporting rod 81 to lift, so that the telescopic cylinder 9 can contract after the suction cup 82 sucks the glass to take the glass down from the glass frame without colliding.

Example 2:

as shown in fig. 3, in combination with the technical solution of embodiment 1, in this embodiment, the sliding beam 4 and the supporting beam 6 are frame structures, so that the supporting beam 6 can be accommodated in the sliding beam 4, and the supporting rod 81 can be accommodated in the supporting beam 6, thereby folding and accommodating the supporting beam 6 and the supporting rod 81.

Example 3:

as shown in fig. 4, in combination with the technical solution of embodiment 2, in this embodiment, the cross section of the track groove 12 is in a "convex" structure, so that the roller 10 limits the sliding beam 4 on the pedestal 1, thereby preventing the sliding beam 4 from shaking or insufficient support during the linear motion process, and improving the stability of the device.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications to the technical solution of the present invention without departing from the scope of the technical solution of the present invention, or to modify equivalent embodiments with equivalent variations. Therefore, any modification, equivalent change and modification of the above embodiments according to the present invention are all within the protection scope of the present invention.

Claims (6)

1. An assembly type building glass cutting device comprises a pedestal (1), wherein a cutting tool (2) for cutting glass and a cutting table (3) for cutting the glass are arranged on the pedestal (1); the device is characterized in that the pedestal (1) is also provided with a sliding beam (4) capable of sliding linearly and a power assembly (5) for driving the sliding beam (4) to move linearly; the sliding beams (4) on the two sides of the pedestal (1) are hinged with supporting beams (6), the supporting beams (6) are connected through a shaft rod (7), a rotating gear (71) is arranged on the shaft rod (7), a row of teeth (11) are horizontally arranged on the pedestal (1), and the teeth (11) are meshed with the rotating gear (71); still including absorbing subassembly (8), it articulates through connecting rod (20) to absorb subassembly (8) on strutbeam (6), be equipped with telescopic cylinder (9) in strutbeam (6), telescopic cylinder's (9) output with connecting rod (20) are articulated.

2. The assembly type architectural glass cutting device according to claim 1, wherein the power assembly (5) comprises a driving motor (51), a driving gear (52) and a rack bar (53), the driving motor (51) is disposed on the pedestal (1), the driving gear (52) is connected to an output end of the driving motor (51), the rack bar (53) is disposed on one side of the sliding beam (4), and the driving gear (52) is engaged with the sliding beam (4).

3. The fitted building glass cutting apparatus according to claim 2, wherein the pedestal (1) is provided with a track groove (12), a roller (10) is connected to the bottom surface of the sliding beam (4), and the roller (10) is located in the track groove (12) so that the sliding beam (4) is driven by the power assembly (5) to perform linear motion in the track groove (12).

4. The fitted building glass cutting apparatus according to claim 1, wherein the suction assembly (8) comprises a support rod (81) and a suction cup (82), the support rod (81) is hinged to the support beam (6) through the connecting rod (20), and the suction cup (82) is provided on the support rod (81).

5. The cutting apparatus for cutting fabricated building glass according to claim 4, wherein the sliding beam (4) and the corbel (6) are of a frame construction such that the corbel (6) is receivable into the sliding beam (4) and the strut (81) is receivable into the corbel (6).

6. The fabricated building glass cutting apparatus according to claim 3, wherein the rail groove (12) has a cross-section of a "convex" structure such that the roller (10) restrains the sliding beam (4) on the stand (1).

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