CN215667718U - Cutting platform with auxiliary frame - Google Patents

Abstract

The utility model discloses a cutting platform with an auxiliary frame, which comprises a cutting table and the auxiliary frame arranged on one side of the cutting table, wherein the auxiliary frame is hinged on the cutting table, four support legs are arranged below the cutting table, the lower parts of the support legs are connected through a cross bar, two lifting cylinders are arranged on the cross bar below the auxiliary frame, the base end of each lifting cylinder is hinged with the cross bar, and the push rod end of each lifting cylinder is hinged with a sliding block; the frame body of the auxiliary frame is rectangular, a supporting plate is arranged on the frame far away from one side of the cutting table, the supporting plate is perpendicular to the frame body, a plurality of driving rollers are arranged in the frame body in parallel, and the driving rollers are parallel to the supporting plate; this device has solved material loading in-process safety problem through combining auxiliary frame and cutting platform, realizes cutting tool in the operation and the position control of vertical, horizontal and three dimensions of vertical direction.

Description

Cutting platform with auxiliary frame

Technical Field

The utility model belongs to the technical field of welding goggles, and particularly relates to a cutting platform with an auxiliary frame.

Background

In the glass production flow, the problems of cutting and slicing of glass and edge breaking and removing work need to be solved after the glass is cut, namely, the glass is separated according to the cutting shape, the glass is not broken after being cut, and the glass needs to be separated and removed by manpower or equipment. In the existing glass production process, glass cutting and slicing are generally carried out in a manual operation mode. However, manual cutting has problems of high risk, high working strength and low efficiency, and there is a case where the glass is easily scratched by a human in a glass processing process due to the characteristics of the glass itself and the sharp characteristics of the edge.

Glass cutting equipment of a manual cutting mode is produced, the glass cutting equipment is one of important tools in a glass processing process, a glass cutting machine is special glass cutting equipment designed for plate glass, the glass cutting machine can realize linear cutting of the plate glass according to actual working requirements of users, the glass cutting machine is generally used for cutting a large piece of glass, and then a processing procedure after cutting is carried out to process the glass. However, the existing glass cutting machine still has the defects that 1, the manual cutting work intensity is high, the risk is high, more than one person is needed to cut large pieces of glass, and the labor cost is high. 2. The manual cutting easily causes certain errors, so that the size after slicing does not reach the required specification, and the finished product is discarded.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the prior art and provides a cutting platform with an auxiliary frame.

In order to achieve the purpose, the utility model adopts the following technical scheme: a cutting platform with an auxiliary frame comprises a cutting table and the auxiliary frame arranged on one side of the cutting table, wherein the auxiliary frame is hinged on the cutting table, four support legs are arranged below the cutting table, the lower parts of the support legs are connected through a cross bar, two lifting cylinders are arranged on the cross bar below the auxiliary frame, the base ends of the lifting cylinders are hinged with the cross bar, and the push rod ends of the lifting cylinders are hinged with sliding blocks; the frame body of the auxiliary frame is rectangular, a supporting plate is arranged on the frame far away from one side of the cutting table, the supporting plate is perpendicular to the frame body, a plurality of driving rollers are arranged in the frame body in parallel, the driving rollers are parallel to the supporting plate, sliding grooves are formed in the lower end faces of the two side frames of the frame body of the auxiliary frame, and sliding blocks are arranged in the sliding grooves in a sliding mode; a set of guide rails are arranged at the edges of two sides of the cutting table in parallel, a glass placing area is formed between the guide rails, four conical holes used for adsorbing glass are formed in the glass placing area, and the bottoms of the conical holes are communicated with a vacuum pipeline.

According to the scheme, the auxiliary frame is provided with two positions, when the auxiliary frame is at the first position, the supporting plate is located at the lowest point, and when the auxiliary frame is at the second position, the auxiliary frame is flush with the table top of the cutting table.

Further improve this scheme, erect the cutting frame between two guide rails, the cutting frame passes through slider assembly to be installed on the guide rail, and one side of guide rail is provided with slider actuating mechanism, sets up the stand on slider assembly.

The lifting frame is installed on the four stand columns, the lifting motor is fixedly arranged on the sliding block assembly on one side, the lifting nut is fixedly arranged on a frame of the lifting frame above the sliding block assembly, the lifting screw rod is arranged in the position of the lifting nut in a penetrating mode, the second belt wheel is arranged at the upper end of the lifting screw rod, the two belt wheels are connected through the second synchronous belt, the lower end of the lifting screw rod on one side is rotatably connected with the sliding block assembly, and the lower end of the lifting screw rod on the other side is connected with the lifting motor.

Further improve this scheme, the crane has set up the lateral shifting frame, the lateral shifting frame is provided with the frame plate including sliding the square sliding sleeve that sets up on the crane between two square sliding sleeves, and the frame below of crane is provided with horizontal actuating mechanism, and the middle section is provided with the roof pressure pole on the frame plate, the base of roof pressure pole is fixed on the frame plate, and the vertical setting downwards of its push rod end just installs cutting tool.

Advantageous effects

1. This device combines auxiliary frame and cutting platform through the innovation, has solved the difficult problem of glass material loading, combines together cutting tool and cutting frame, realizes the cutting knife at the position control and the operation problem of vertical, horizontal and three dimension of vertical direction. The specific analysis is as follows: the auxiliary frame has two positions, and when the auxiliary frame was in the primary importance, the outward flange layer board of auxiliary frame was located the minimum, and the push rod of lifting the cylinder contracts to the shortest, conveniently carries out the material loading this moment, and when the auxiliary frame was in the second place, the mesa parallel and level of auxiliary frame and cutting bed, the push rod of lifting the cylinder extended to the longest. At the moment, the whole glass is pushed into the table top of the cutting table for cutting operation.

2. The utility model is characterized in that a cutting frame is arranged on a guide rail and is divided into a slide block driving mechanism, a lifting frame and a transverse moving frame, wherein the slide block driving mechanism is used for driving the cutting frame to move along the length direction of the guide rail, the cutting frame is driven by a first driving motor to move, the horizontal lead screw and a longitudinal moving plate are used for driving the cutting frame to move along the guide rail, in order to realize the lifting of a cutting tool, the lifting frame is arranged on an upright post through a sliding sleeve, the lifting motor on a slide block assembly is driven to rotate to drive a lifting screw rod to rotate, the lifting frame is lifted or lowered by driving a lifting nut, the transverse moving frame arranged on the frame of the lifting frame is driven by a second driving motor to rotate the horizontal screw rod, the transverse moving frame is driven by the horizontal screw rod to carry out position adjustment and cutting operation along the transverse direction of the guide rail, and not only can reduce errors of manual cutting, and moreover, the labor cost is greatly reduced, and the working efficiency is improved.

Drawings

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

FIG. 1 is an overall block diagram of the cutting platform of the present invention;

FIG. 2 is a view showing a structure of an auxiliary frame part according to the present invention;

FIG. 3 is a first perspective view of the cutting mechanism of the present invention;

FIG. 4 is a second perspective view of the cutting mechanism of the present invention;

the labels in the figure are: the labels in the figure are: 1. a guide rail, 2, a slide block driving mechanism, 2-1, an end plate, 2-2, a longitudinal moving plate, 2-3, a slide block assembly, 231, a slide block, 232, a support connecting plate, 2-4, a slide rod, 2-5, a horizontal lead screw, 2-6, an upright post, 2-7, a belt wheel I, 2-8, a synchronous belt I, 2-9, a first driving motor, 3, a transverse moving frame, 3-1, a mounting plate, 3-2, a horizontal screw, 3-3, a transverse moving plate, 3-4, a second driving motor, 3-5, a synchronous belt III, 3-6, a belt wheel III, 4, a lifting frame, 4-1, a lifting motor, 4-2, a lifting screw, 4-3, a belt wheel II, 4-4, a synchronous belt II, 4-5 and a lifting nut, 5. a top pressure rod 6, a cutting tool; 10. the cutting table comprises 10-1 parts of cutting table, 10-2 parts of tapered holes, 10-2 parts of positioning baffles, 11 parts of auxiliary frames, 11-1 parts of supporting plates, 11-2 parts of driving rollers, 11-3 parts of sliding grooves, 12 parts of supporting legs, 13 parts of cross bars, 14 parts of lifting cylinders.

Detailed Description

In order to make the technical scheme and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.

As shown in the figure: the embodiment of the utility model provides a cutting platform with an auxiliary frame, which is characterized by comprising a cutting table 10 and an auxiliary frame 11 arranged on one side of the cutting table 10, wherein the auxiliary frame 11 is hinged on the cutting table 10, four support legs 12 are arranged below the cutting table 10, the lower parts of the support legs 12 are connected through a cross bar 13, two lifting cylinders 14 are arranged on the cross bar 13 below the auxiliary frame 11, the base end of each lifting cylinder 14 is hinged with the cross bar 13, and the push rod end of each lifting cylinder 14 is hinged with a sliding block; the frame body of the auxiliary frame 11 is rectangular, a supporting plate 11-1 is arranged on the frame far away from one side of the cutting table 10, the supporting plate 11-1 is perpendicular to the frame body, a plurality of transmission rollers 11-2 are arranged in the frame body in parallel, the transmission rollers 11-2 are parallel to the supporting plate 11-1, sliding grooves 11-3 are formed in the lower side surfaces of the two side frames, and sliding blocks are arranged in the sliding grooves 11-3 in a sliding mode; a group of guide rails 1 are arranged at the edges of two sides of the cutting table 10 in parallel, a glass placing area is formed between the guide rails 1, four tapered holes 10-1 used for adsorbing glass are formed in the glass placing area, and the bottoms of the tapered holes 10-1 are communicated with a vacuum pipeline. The auxiliary frame 11 has two positions, when the auxiliary frame 11 is at the first position, the outer edge baffle 11-1 of the auxiliary frame 11 is at the lowest point, the push rod of the lifting cylinder 14 is contracted to the shortest, when the auxiliary frame 11 is at the second position, the auxiliary frame 11 is flush with the table top of the cutting table 10, and the push rod of the lifting cylinder 14 is extended to the longest.

The outer side of a guide rail 1 is provided with a slide block driving mechanism 2, the slide block driving mechanism 2 comprises end plates 2-1 arranged at two ends of the outer side of the guide rail 1, the end plates 2-1 are vertically and fixedly connected with the guide rail 1, the two end plates 2-1 are connected through two slide bars 2-4, the two slide bars 2-4 are arranged up and down, a longitudinal moving plate 2-2 is arranged between the two end plates 2-1, a through hole for the slide bar 2-4 to pass through is formed in the longitudinal moving plate 2-2, a horizontal lead screw 2-5 is arranged between the two slide bars 2-4, two ends of the horizontal lead screw 2-5 are rotatably connected with the end plates 2-1, and a first adjusting nut is fixedly arranged on the moving plate 2-2; the longitudinal moving plate 2-2 is vertically and fixedly connected with the sliding block assembly 2-3, a first adjusting nut is arranged on a horizontal lead screw 2-5 in a penetrating mode, one end of the horizontal lead screw 2-5 penetrates through an end plate 2-1 on one side, a first belt wheel 2-7 is arranged at the end part of the horizontal lead screw 2-5, the two belt wheels 2-7 are in driving connection through a synchronous belt I2-8, a first driving motor 2-9 is arranged at the end part of one horizontal lead screw 2-5, and the first driving motor 2-9 is used for driving the sliding block assembly 2-3 to move on the guide rail 1; and the upright posts 2-6 are arranged on the sliding block components 2-3. Four upright posts 2-6 are provided with a lifting frame 4, the edge of the lifting frame 4 is provided with a cylindrical sliding sleeve, and the cylindrical sliding sleeve is arranged on the upright posts 2-6 in a sliding manner. A lifting motor 4-1 is arranged on the sliding block component 2-3 at one side, a lifting nut 4-5 is arranged on the frame of the lifting frame 4 positioned above the sliding block component 2-3, a lifting screw 4-2 is arranged at the position of the lifting nut 4-5, a belt wheel II 4-3 is arranged at the upper end of the lifting screw 4-2, the two belt wheel II 4-3 are connected through a synchronous belt II 4-4, the lower end of the lifting screw 4-2 at one side is rotatably connected with the sliding block component 2-3, the lower end of the lifting screw 4-2 at the other side is connected with the lifting motor 4-1, and the lifting motor 4-1 is fixedly arranged on the sliding block component 2-3. The sliding block assembly 2-3 comprises two sliding blocks 231, the two sliding blocks 231 are connected through a supporting connecting plate 232, the sliding blocks 231 are vertically connected with the moving plate 2-2, and the lifting motor 4-1 is installed on the supporting connecting plate 232 on one side and used for driving the lifting frame 4 to perform height adjustment on the upright post 2-6.

In the scheme, a positioning assembly is arranged outside a tapered hole 10-1 of a cutting table 10 and comprises positioning baffles 10-2 arranged on three sides of the outer edge of the cutting area. The positioning baffle 10-2 is arranged so that after glass enters the cutting area from the non-baffle side, three side edges of the glass cannot exceed the position of the positioning baffle 10-2, the rectangular whole glass to be cut enters from one side of the inlet of the positioning assembly, and after positioning, the glass is adsorbed on the cutting table 10 through the tapered hole 10-1 to be firmly fixed.

In the scheme, the sliding block driving mechanism 2 is used for driving the cutting frame to move along the longitudinal direction of the guide rail 1, the sliding block driving mechanism 2 is driven by the first driving motor 2-9 to move, and the sliding block assembly 2-3 is driven by the horizontal lead screw 2-5 and the longitudinal moving plate 2-2 to move along the guide rail 1, so that the whole cutting frame is driven to move. In order to realize the lifting of the cutting tool 6, the lifting frame 4 is arranged on the upright post 2-6 through a cylindrical sliding sleeve, and the lifting motor 4-1 positioned on the sliding block component 2-3 drives the lifting screw rod 4-2 to rotate through rotation, so that the lifting frame 4 is lifted or lowered through driving the lifting nut 4-5. The crane 4 is a rectangular structure, the crane 4 comprises a transverse frame and a longitudinal frame, and the length of the transverse frame is greater than that of the longitudinal frame.

In the scheme, the two sides of the lifting frame 4 are synchronously lifted, the belt pulley 4-3 is arranged at the upper end of the lifting screw rod 4-2, the driving belt pulley is connected with the driven belt pulley through the two synchronous belts 4-4, and the two lifting screw rods 4-2 synchronously rotate, so that the two sides of the lifting frame 4 are synchronously lifted, and the level of the lifting frame 4 in the lifting adjusting process is ensured. A transverse moving frame 3 is erected on the lifting frame 4, the transverse moving frame 3 comprises a square sliding sleeve which is arranged on the lifting frame 4 in a sliding way, a frame plate is arranged between the two square sliding sleeves, a transverse driving mechanism is arranged below the frame of the lifting frame 4, the transverse driving mechanism comprises mounting plates 3-1 which are arranged below the two ends of the frame of the lifting frame 4, the horizontal screw rods 3-2 are rotatably arranged between the two mounting plates 3-1, belt pulleys 3-6 are arranged at the same side ends of the two horizontal screw rods 3-2, the two belt pulleys 3-6 are connected through synchronous belts 3-5, a transverse moving plate 3-3 is arranged below the square sliding sleeve, transverse nuts are arranged on the transverse moving plate 3-3 and are rotatably connected with the horizontal screw rods 3-2, and one horizontal screw rod 3-2 is connected with a second driving motor 3-4. The transverse moving frame 3 arranged on the frame of the lifting frame 4 drives the horizontal screw rod 3-2 to rotate through the second driving motor 3-4, and the transverse moving frame 3 is driven by the horizontal screw rod 3-2 to perform cutting operation along the vertical direction of the guide rail 1. The frame plate is provided with a top pressure rod 5, the base of the top pressure rod 5 is fixed on the frame plate, and the push rod end of the top pressure rod is vertically arranged downwards and provided with a cutting tool 6. And a pressure sensor is arranged at the joint of the cutting tool 6 and the push rod of the top pressure rod 5 and used for detecting the acting force of the top pressure rod 5 on the cutting tool 6 and feeding back to the controller, and the controller is used for controlling the magnitude of the acting force of the top pressure rod 5 on the glass.

The working principle of the scheme is as follows: the push rod of the lifting cylinder 14 contracts to the shortest, the outer edge supporting plate 11-1 of the auxiliary frame 11 is located at the lowest point, feeding is convenient to conduct at the moment, the push rod of the lifting cylinder 14 extends to the longest, the auxiliary frame 11 is flush with the table top of the cutting table 10, and the whole glass is pushed into the table top of the cutting table 10 to be cut. The whole cutting frame moves along the length direction of the guide rail 1, the transverse moving frame 3 moves along the vertical direction of the guide rail 1, and the lifting frame 4 moves in the vertical direction to adjust the height, so that the position of the cutting tool 6 in the vertical direction can be adjusted, and the force applying size of the top pressure rod 5 to the cutting tool 6 can be adjusted. And the whole glass to be cut enters the cutting area, and after positioning, the glass is adsorbed on the cutting table 10 through the tapered holes 10-1 to be firmly fixed.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (5)

1. The cutting platform with the auxiliary frame is characterized by comprising a cutting table (10) and the auxiliary frame (11) arranged on one side of the cutting table (10), wherein the auxiliary frame (11) is hinged on the cutting table (10), four supporting legs (12) are arranged below the cutting table (10), the lower parts of the supporting legs (12) are connected through a cross bar (13), two lifting cylinders (14) are arranged on the cross bar (13) below the auxiliary frame (11), the base end of each lifting cylinder (14) is hinged with the cross bar (13), and the push rod end of each lifting cylinder (14) is hinged with a sliding block; the frame body of the auxiliary frame (11) is rectangular, a supporting plate (11-1) is arranged on a frame far away from one side of the cutting table (10), the supporting plate (11-1) is perpendicular to the frame body, a plurality of driving rollers (11-2) are arranged in the frame body in parallel, the driving rollers (11-2) are parallel to the supporting plate (11-1), sliding grooves (11-3) are formed in the lower end faces of the two side frames of the frame body of the auxiliary frame (11), and sliding blocks are arranged in the sliding grooves (11-3) in a sliding mode; a group of guide rails (1) are arranged at the edges of two sides of the cutting table (10) in parallel, a glass placing area is formed between the guide rails (1), four conical holes (10-1) used for adsorbing glass are formed in the glass placing area, and the bottoms of the conical holes (10-1) are communicated with a vacuum pipeline.

2. The cutting platform with the auxiliary frame as set forth in claim 1, wherein: the auxiliary frame (11) has two positions, when the auxiliary frame (11) is in the first position, the supporting plate (11-1) is at the lowest point, and when the auxiliary frame (11) is in the second position, the auxiliary frame (11) is flush with the table top of the cutting table (10).

3. The cutting platform with the auxiliary frame as set forth in claim 1, wherein: a cutting frame is erected between the two guide rails (1), the cutting frame is installed on the guide rails (1) through sliding block assemblies (2-3), a sliding block driving mechanism (2) is arranged on one side of each guide rail (1), and upright columns (2-6) are arranged on the sliding block assemblies (2-3).

4. A cutting platform with auxiliary frame as claimed in claim 3, characterized in that: four upright posts (2-6) are provided with lifting frames (4), a lifting motor (4-1) is fixedly arranged on the sliding block component (2-3) on one side, a lifting nut (4-5) is fixedly arranged on the frame of the lifting frame (4) above the sliding block component (2-3), a lifting screw rod (4-2) penetrates through the lifting nut (4-5), the upper end of the lifting screw rod (4-2) is provided with a belt wheel II (4-3), the two belt wheel II (4-3) are connected through a synchronous belt II (4-4), the lower end of the lifting screw rod (4-2) on one side is rotatably connected with the sliding block component (2-3), and the lower end of the lifting screw rod (4-2) on the other side is connected with the lifting motor (4-1).

5. The cutting platform with the auxiliary frame as set forth in claim 4, wherein: set up lateral shifting frame (3) on crane (4), lateral shifting frame (3) are provided with the frame plate including sliding the square sliding sleeve that sets up on crane (4) between two square sliding sleeves, and the frame below of crane (4) is provided with horizontal actuating mechanism, is provided with roof pressure pole (5) in the frame plate middle section, the base of roof pressure pole (5) is fixed on the frame plate, and its push rod end is vertical to setting up downwards and install cutting tool (6).

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