CN220887351U - Workbench for glass cutting - Google Patents

Abstract

The utility model relates to the technical field of glass cutting, and discloses a workbench for glass cutting, which comprises a bedplate, wherein the workbench comprises a cutting assembly which is arranged on the bedplate in a guiding way, the cutting assembly comprises two vertical frames a positioned on two sides of the bedplate, two groups of guide blocks a which are arranged in an up-down opening and closing way are arranged on the vertical frames a, two parallel transverse frames are arranged between the two vertical frames a through the guide blocks a, and two glass cutters which are transversely and synchronously driven are arranged on the two transverse frames. According to the required cutting position of glass, the glass is fixed between two glass cutters through the fixing component matched with the opening component, the transverse position of the glass cutters can be transversely adjusted by rotating the transverse adjusting rod, the transverse position of the glass to be cut is adjusted, at the moment, the glass cutters can be driven to rapidly slide on the surface of the glass only by starting the cutting motor, manual limiting is not needed, the cutting force is uniform, the degree of automation is high, and the cutting efficiency is greatly improved.

Description

Workbench for glass cutting

Technical Field

The utility model relates to the technical field of glass cutting, in particular to a workbench for glass cutting.

Background

A process that is important in cutting glass. At present, to glass's cutting, place usually and carry out manual cutting at table surface, cutting efficiency is low to because manual operation, all need measure and need carry out spacingly through ruler before cutting at every turn, the fixed effect of singlehanded is poor, and the dynamics of cutting can't ensure, produces the mistake when cutting easily, causes into glass damage, not only inefficiency still waste resources.

Therefore, it is important to solve the problems of low cutting efficiency and easy error in cutting glass.

Disclosure of utility model

The utility model aims to solve the problems of low efficiency and easiness in error of the conventional glass cutting.

The utility model is realized in this way, a workbench for glass cutting comprises a bedplate, a cutting assembly, a guide block, a transverse adjusting rod and a gear shaft, wherein the cutting assembly is arranged on the bedplate in a guiding way and comprises two vertical frames a positioned on two sides of the bedplate, two groups of guide blocks a which are arranged in an up-down opening and closing way are arranged on the vertical frames a, two parallel transverse frames which are arranged in an up-down opening and closing way are arranged between the two vertical frames a, the end parts of the transverse frames are provided with the guide blocks a which are movably connected with the vertical frames a through the guide blocks a, two transverse synchronous transmission glass cutters are arranged on the two transverse frames, and the transverse adjusting rod which is vertically arranged on the end parts of the transverse frames and the gear shaft which is movably connected with the end parts of the transverse frames and is arranged on one side of the transverse adjusting rod are arranged on the end parts of the transverse frames;

And the clamping rods are movably connected in the vertical frames b, clamping plates are arranged by opening and closing the two clamping rods, and sucking discs are arranged between the ends of the two clamping plates.

Preferably, the automatic opening device further comprises an opening assembly, wherein the opening assembly comprises a support plate arranged on one side of the vertical frame a and two extrusion plates which are in interference with one side of the guide block a, a shifting block is connected to the inside of the support plate in a sliding manner, the end part of the shifting block is connected with one of the extrusion plates through a connecting rod arranged in an arc shape, and the end parts of the two extrusion plates are fixed through a fixing rod.

Preferably, the cross section of the extrusion plate is an equilateral right triangle, and one side of the guide block a is provided with a chute which is in conflict with the equilateral side of the extrusion plate through the chute.

Preferably, a cutting motor is installed at the end part of the bedplate, two transmission rods a movably connected to two sides of the bedplate are connected through driving of the cutting motor, and the two transmission rods a are respectively connected with the end parts of the two vertical frames a through threads.

Preferably, a guide rod a is arranged in the vertical frame a, the guide rod a is sleeved outside the guide rod a, and a spring is sleeved between the guide rod a and the inner wall of the end part of the vertical frame a.

Preferably, the inside swing joint of two the crossbearer has transfer line b, the outside cover of horizontal regulation pole is equipped with two initiative helical gears that correspond the position with the crossbearer, two the axle head outside of transfer line b has all cup jointed driven helical gear, initiative helical gear with driven helical gear respectively with the gear engagement at gear shaft both ends.

Preferably, the cross section of the transverse adjusting rod is cross-shaped, and a cross-shaped groove corresponding to the transverse adjusting rod is formed in the inner wall of the driving bevel gear.

Preferably, the external thread of the transmission rod b is connected with a guide block b, the glass cutter is fixed on the guide block b, and guide wheels are further arranged on two sides of the guide block b, which are positioned on the glass cutter.

Preferably, the fixing assembly further comprises a transmission rod c movably connected to the end part of the bedplate, the surfaces of the two ends of the transmission rod c are respectively provided with a forward thread and a reverse thread, and the inner walls of the end parts of the stand b at the two ends of the transmission rod c are respectively provided with thread grooves meshed with the forward thread and the reverse thread.

Preferably, the surfaces of the two ends of the clamping rod are respectively provided with a forward thread and a reverse thread, and the inner walls of the clamping plate end parts at the two ends of the clamping rod are respectively provided with thread grooves meshed with the forward thread and the reverse thread.

The utility model discloses a workbench for glass cutting, which has the beneficial effects that: according to the required cutting position of glass, the glass is fixed between two glass cutters through the fixing component matched with the opening component, the transverse position of the glass cutters can be transversely adjusted by rotating the transverse adjusting rod, the transverse position of the glass to be cut is adjusted, at the moment, the glass cutters can be driven to rapidly slide on the surface of the glass only by starting the cutting motor, manual limiting is not needed, the cutting force is uniform, the degree of automation is high, and the cutting efficiency is greatly improved.

Drawings

FIG. 1 is a schematic view of a glass cutting table according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a cutting assembly and a spreader assembly of a glass cutting table according to an embodiment of the present utility model;

Fig. 3 is a schematic view of a partial internal view structure of fig. 2 of a glass cutting table according to an embodiment of the present utility model.

Illustration of:

1. a platen; 2. a cutting assembly; 3. a fixing assembly; 4. a spreader assembly;

21. A cutting motor; 22. a transmission rod a; 23. a vertical frame a; 24. a guide rod a; 25. a spring; 26. a guide block a; 27. a cross frame; 28. a transverse adjusting rod; 29. a gear shaft;

271. A transmission rod b; 272. a guide block b; 2721. a glass cutter; 273. driven helical gears; 281. a driving helical gear;

31. a transmission rod c; 32. a vertical frame b; 33. a clamping rod; 34. a clamping plate; 35. a suction cup;

41. A support plate; 42. a shifting block; 43. a connecting rod; 44. an extrusion plate; 45. and a fixing rod.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present utility model and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

The implementation of the present utility model will be described in detail below with reference to specific embodiments.

Referring to fig. 1-3, a preferred embodiment of the present utility model is provided.

The workbench for glass cutting comprises a bedplate 1, a cutting assembly 2 which is arranged on the bedplate 1 in a guiding way, wherein the cutting assembly 2 comprises two vertical frames a23 which are positioned on two sides of the bedplate 1, two groups of guide blocks a26 which are arranged in an up-down opening and closing way are arranged on the vertical frames a23, two parallel transverse frames 27 which are arranged in an up-down opening and closing way are arranged between the two vertical frames a23, the end parts of the transverse frames 27 are provided with the guide blocks a26 which are movably connected with the vertical frames a23 through the guide blocks a26, two transverse synchronous transmission glass cutters 2721 are arranged on the two transverse frames 27, transverse adjusting rods 28 which are arranged vertically to the transverse frames 27 are arranged at the end parts of the transverse frames 27, and gear shafts 29 which are movably connected with the end parts of the transverse frames 27 and are arranged on one side of the transverse adjusting rods 28;

The fixing assembly 3 comprises four vertical frames b32 and is distributed at the end part of the bedplate 1, the two vertical frames b32 positioned at the end part of the bedplate 1 are synchronously opened and closed, clamping rods 33 are movably connected in the vertical frames b32, clamping plates 34 are opened and closed through the two clamping rods 33, sucking discs 35 are arranged between the end parts of the two clamping plates 34, forward threads and reverse threads are respectively arranged on the surfaces of the two ends of the clamping rods 33, thread grooves meshed with the forward threads and the reverse threads are respectively formed in the inner walls of the end parts of the clamping plates 34 at the two ends, and the clamping plates 34 which are connected with the forward threads and the reverse threads outside can be driven to drive the sucking discs 35 to realize reverse synchronous transmission through rotating the clamping rods 33, so that the centering clamping and fixing of glass are realized.

The fixing assembly 3 further comprises a transmission rod c31 movably connected to the end part of the bedplate 1, the two transmission rods c31 are connected through a transmission belt, forward threads and reverse threads are respectively arranged on the surfaces of the two ends of the transmission rod c31, thread grooves meshed with the forward threads and the reverse threads are respectively formed in the inner walls of the end parts of the vertical frames b32 at the two ends of the transmission rod c, and the transmission rod c31 is rotated to synchronously drive the vertical frames b32 connected with the forward threads and the reverse threads at the two ends of the transmission rod c to realize reverse synchronous transmission so as to carry out adjustment operation of the fixing positions according to the cutting positions of glass.

It is noted that the inside of the two transverse frames 27 is movably connected with a transmission rod b271, the outside of the transverse adjusting rod 28 is sleeved with two driving bevel gears 281 corresponding to the transverse frames 27, the outside of the shaft ends of the two transmission rods b271 is sleeved with driven bevel gears 273, the driving bevel gears 281 and the driven bevel gears 273 are respectively meshed with the gears at the two ends of the gear shafts 29, so that in the process of rotating the transverse adjusting rod 28, the driving bevel gears 281 sleeved on the outside of the driving bevel gears 281 can drive the two gear shafts 29 to synchronously rotate, the gear shafts 29 can drive the transmission rods b271 in the driven bevel gears 273 to synchronously rotate, wherein the outside of the transmission rod b271 is in threaded connection with guide blocks b272, the glass cutter 2721 is fixed on the guide blocks b272, the guide wheels are further arranged on the two sides of the glass cutter 2721, the rotation of the transmission rod b271 can drive the two guide blocks b272 to synchronously drive the two guide blocks b272, and the glass cutter 2721 arranged on the driving rods b can synchronously drive the upper and lower parts of glass to transversely drive the glass.

The cross section of the transverse adjusting rod 28 is cross-shaped, the inner wall of the driving bevel gear 281 is provided with a cross-shaped groove corresponding to the transverse adjusting rod 28, so that the driving bevel gear 281 can be driven to slide up and down outside the transverse adjusting rod 28 in the process of adjusting the distance between the two transverse frames 27, and the driving bevel gear 281 can drive the transmission rod b271 in the transverse frames 27 to transmit when the transverse adjusting rod 28 rotates, so that the two transverse frames 27 are not interfered with each other.

The end part of the bedplate 1 is provided with a cutting motor 21, two transmission rods a22 which are movably connected to two sides of the bedplate 1 are in driving connection with the cutting motor 21, the two transmission rods a22 are connected with each other through a transmission belt, the two transmission rods a22 are respectively in threaded connection with the end parts of the two stand a23, the cutting motor 21 drives the transmission rods a22 to rotate, and then the stand a23 which is in threaded connection with the cutting motor can be driven to drive the glass cutter 2721 to realize cutting operation on the glass surface.

Meanwhile, a guide rod a24 is arranged in the vertical frame a23, the guide rod a26 is sleeved outside the guide rod a24, a spring 25 is sleeved between the guide rod a26 and the inner wall of the end part of the vertical frame a23, the opening assembly 4 comprises a support plate 41 arranged on one side of the vertical frame a23 and two extrusion plates 44 which are in contact with one side of the guide rod a26, a shifting block 42 is slidably connected in the support plate 41, the end part of the shifting block 42 is connected with one of the extrusion plates 44 through a connecting rod 43 arranged in an arc shape, the end parts of the two extrusion plates 44 are fixed through a fixing rod 45, the section of the extrusion plate 44 is in an equilateral right triangle shape, one side of the guide rod a26 is provided with a chute which is in contact with the equilateral side of the extrusion plate 44, the shifting block 42 is pushed to transversely slide through the connecting rod 43, the two guide rods a26 are outwards opened by the driving the extrusion plates 44, the spring 25 is compressed by the shifting block 26, after the glass is put into the guide block, the shifting block 42 is released, and the upper part and the lower part of the guide block 26 can be conveniently reset to be used as a glass cutter 27.

According to the required cutting position of glass, the fixing component 3 is matched with the opening component 4 to fix the glass between the two glass cutters 2721, the transverse position of the glass cutters 2721 can be transversely adjusted by rotating the transverse adjusting rod 28, the transverse position of the required glass to be cut is adjusted, the glass cutters 2721 can be driven to rapidly slide on the surface of the glass only by starting the cutting motor 21, manual limiting is not needed, the cutting force is uniform, the degree of automation is high, and the cutting efficiency is greatly improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The workbench for glass cutting comprises a bedplate and is characterized by comprising a cutting assembly which is arranged on the bedplate in a guiding way, wherein the cutting assembly comprises two vertical frames a which are arranged on two sides of the bedplate, two groups of guide blocks a which are arranged in an up-down opening and closing way are arranged on the vertical frames a, two parallel transverse frames which are arranged in an up-down opening and closing way are arranged between the two vertical frames a, the end parts of the transverse frames are provided with the guide blocks a which are movably connected with the vertical frames a through the guide blocks a, two transverse synchronous transmission glass cutters are arranged on the two transverse frames, and transverse adjusting rods which are arranged perpendicularly to the transverse frames are arranged at the end parts of the transverse frames and gear shafts which are movably connected with the end parts of the transverse frames and are arranged at one side of the transverse adjusting rods;

And the clamping rods are movably connected in the vertical frames b, clamping plates are arranged by opening and closing the two clamping rods, and sucking discs are arranged between the ends of the two clamping plates.

2. The glass cutting workbench according to claim 1, further comprising a spreading assembly, wherein the spreading assembly comprises a support plate arranged on one side of the vertical frame a and two extrusion plates which are in collision with one side of the guide block a, a shifting block is slidably connected inside the support plate, the end part of the shifting block is connected with one of the extrusion plates through a connecting rod in an arc shape, and the end parts of the two extrusion plates are fixed through a fixing rod.

3. The glass cutting table as claimed in claim 2, wherein the cross section of the pressing plate is an equilateral right triangle, and one side of the guide block a is provided with a chute which is abutted against the equilateral side of the pressing plate through the chute.

4. The glass cutting workbench according to claim 1, wherein a cutting motor is arranged at the end part of the bedplate, and two transmission rods a movably connected to two sides of the bedplate are connected through the cutting motor in a driving way, and the two transmission rods a are respectively connected with the end parts of the two stand frames a in a threaded manner.

5. The glass cutting table as claimed in claim 1, wherein the guide bar a is provided in the inside of the stand a, the guide bar a is sleeved outside the guide bar a, and a spring is sleeved between the guide bar a and the inner wall of the end of the stand a.

6. The workbench for glass cutting according to claim 1, wherein the inside of the two transverse frames is movably connected with a transmission rod b, two driving bevel gears corresponding to the transverse frames are sleeved outside the transverse adjusting rods, driven bevel gears are sleeved outside shaft ends of the two transmission rods b, and the driving bevel gears and the driven bevel gears are respectively meshed with gears at two ends of the gear shafts.

7. The glass cutting table as in claim 6, wherein the cross section of the transverse adjusting rod is cross-shaped, and the inner wall of the driving bevel gear is provided with a cross-shaped groove corresponding to the transverse adjusting rod.

8. The glass cutting table as in claim 6, wherein the transmission rod b is externally threaded with a guide block b, the glass cutter is fixed on the guide block b, and guide wheels are further provided on both sides of the guide block b.

9. The glass cutting table as claimed in claim 1, wherein the fixing assembly further comprises a driving rod c movably connected to the end of the platen, the driving rod c has a forward thread and a reverse thread on both end surfaces thereof, and the inner wall of the end of the stand b at both ends thereof is provided with a thread groove engaged with the forward thread and the reverse thread, respectively.

10. The glass cutting table as claimed in claim 1, wherein the clamping bar is provided with a forward thread and a reverse thread on both end surfaces thereof, respectively, and the inner walls of the clamping plate end portions at both ends thereof are provided with thread grooves engaged with the forward thread and the reverse thread, respectively.