CN213172043U - Glass-cutting protective structure and device thereof - Google Patents

Abstract

The utility model discloses a glass-cutting protective structure and device thereof places glass on the mount pad, glass's bottom surface with the butt sucking disc contact, and the compression hydraulic stretching section of thick bamboo with expanding spring makes the hydraulic stretching section of thick bamboo with expanding spring supports glass, the cutter is in be close to glass under the drive of connecting rod, and make cutter and glass contact, the cutter takes place to shake in cutting process, and then makes the sleeve passes through the gyro wheel with the axostylus axostyle slides, and receives at the slip in-process the gyro wheel with the resistance of butt spring, thereby it is right the shake of cutter carries out the shock attenuation, makes the cutter can cut glass more steadily, so can avoid cutter and glass shake cause glass breakage.

Description

Glass-cutting protective structure and device thereof

Technical Field

The utility model relates to a glass-cutting technical field especially relates to a glass-cutting protective structure and device thereof.

Background

At present, the glass products are the most available in daily life, the most of the glass products produced by pouring and shaping are cut to be made into the required glass products, the glass products are known to have the characteristics of frangibility and sharp edges, however, the traditional glass cutting device lacks necessary protection measures, and unexpected risks are caused to workers in the glass cutting process.

The protection protective equipment is worn by an operator to wrap the whole body of the operator by the existing cutting protection device, so that the skin of the operator is prevented from splashing after the glass is cracked in the processing process, and the protection is not additionally arranged on cutting machinery in the whole process, so that the glass is easy to break in the cutting process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a glass-cutting protective structure and device thereof aims at solving and does not install the protection additional to cutting machine among the prior art to make glass at the easy cracked technical problem of cutting process.

In order to achieve the purpose, the utility model adopts a glass cutting protection structure, which comprises a base, a mounting seat, a connecting rod, a cutter and a supporting component; the mounting seat is fixedly connected with the base and is positioned on one side of the base, the connecting rod is connected with the base in a sliding mode and is positioned on one side, close to the mounting seat, of the base, and the cutter is fixedly connected with the connecting rod and is positioned at one end, far away from the base, of the connecting rod; the support assembly comprises a hydraulic telescopic cylinder, a butt sucking disc, a telescopic spring and a damping member, the hydraulic telescopic cylinder is fixedly connected with the base and is positioned on one side, close to the mounting seat, of the base, the butt sucking disc is fixedly connected with the hydraulic telescopic cylinder and is positioned on one side, far away from the base, of the hydraulic telescopic cylinder, one side of the telescopic spring is abutted against the base, the other side of the telescopic spring is abutted against the hydraulic telescopic cylinder, and the telescopic spring is sleeved on the periphery of the hydraulic telescopic cylinder; the damping member comprises a shaft rod, a sleeve, a roller and a butt spring, the shaft rod is fixedly connected with the connecting rod and is located at one end, close to the butt sucker, of the connecting rod, the sleeve is slidably connected with the shaft rod and is fixedly connected with the cutter, and is located at one end, far away from the connecting rod, of the shaft rod, the sleeve is provided with a sliding groove, the shaft rod part extends into the sliding groove, the roller is rotatably connected with the sleeve and is abutted to the shaft rod and located at one side, close to the shaft rod, of the sleeve, one side of the butt spring is abutted to the shaft rod, the other side of the butt spring is abutted to the sleeve and is located in the sliding groove.

The damping component further comprises a connecting support column and a connecting sliding rod, wherein the connecting support column is fixedly connected with the base, is in sliding connection with the connecting rod and is positioned on one side, close to the mounting seat, of the base; the connecting slide bar is fixedly connected with the connecting support column, is connected with the connecting rod in a sliding manner, and is positioned inside the connecting support column.

The supporting assembly further comprises a first fixing clamp and a second fixing clamp, the first fixing clamp is fixedly connected with the mounting seat and is positioned on one side, close to the abutting suction disc, of the mounting seat; the second fixing clamp is fixedly connected with the mounting seat and is positioned on one side, far away from the first fixing clamp, of the mounting seat.

The mounting seat is provided with a first threaded bulge, and the first threaded bulge is positioned on one side, close to the first fixing clamp, of the mounting seat; the supporting assembly further comprises a first abutting elastic sheet, the first abutting elastic sheet is fixedly connected with the first fixing clamp, abutted against the first thread bulge and located on one side, close to the first thread bulge, of the first fixing clamp.

The mounting seat is provided with a second threaded bulge, and the second threaded bulge is positioned on one side, close to the second fixing clamp, of the mounting seat; the support assembly further comprises a second abutting elastic sheet, the second abutting elastic sheet is fixedly connected with the second fixing clamp, abutted against the second thread protrusion, and located on one side, close to the second thread protrusion, of the second fixing clamp.

The damping component further comprises a first rubber pad, the first rubber pad is fixedly connected with the first fixing clamp and is positioned on one side, close to the abutting sucker, of the first fixing clamp.

The damping component further comprises a second rubber pad, and the second rubber pad is fixedly connected with the second fixing clamp and is positioned on one side, close to the abutting sucker, of the second fixing clamp.

The utility model also provides a glass cutting protective device, which comprises a glass cutting protective structure, a slide rail and a guide component, wherein the slide rail is fixedly connected with the base and is positioned at one side of the base, which is close to the connecting support column; the guide assembly is fixedly connected with the slide rail and is connected with the connecting support column in a sliding mode.

The guide assembly comprises a guide sliding rod and an arc-shaped sliding block, and the guide sliding rod is fixedly connected with the sliding rail and is positioned inside the sliding rail; the arc-shaped sliding block is fixedly connected with the connecting support columns, is connected with the guide sliding rod in a sliding mode, and is connected with the sliding rail in a sliding mode, and the arc-shaped sliding block is located between the guide sliding rod and the connecting support columns.

The guide assembly further comprises a guide wheel, the guide wheel is rotatably connected with the arc-shaped sliding block, is abutted to the sliding rail and is located between the arc-shaped sliding block and the sliding rail.

The utility model discloses a glass-cutting protective structure and device thereof places glass on the mount pad, glass's bottom surface with the butt sucking disc contact, and the compression hydraulic stretching section of thick bamboo with expanding spring makes hydraulic stretching section of thick bamboo with expanding spring supports glass, the cutter is in be close to glass under the drive of connecting rod, and make cutter and glass contact, the cutter takes place to shake in cutting process, and then makes the sleeve passes through the gyro wheel with the axostylus axostyle slides, and receives at the slip in-process the gyro wheel with the resistance of butt spring, thereby it is right the shake of cutter carries out the shock attenuation, makes the cutter can cut glass more steadily, so can avoid cutter and glass shake cause glass breakage.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, 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 a schematic view of the overall structure of the glass cutting protector of the present invention.

Fig. 2 is a schematic structural view of the shock absorbing member of the present invention.

Fig. 3 is a schematic structural diagram of the support assembly of the present invention.

Fig. 4 is an installation diagram of the first fixing clamp and the second fixing clamp of the present invention.

Fig. 5 is a schematic structural diagram of the guide assembly of the present invention.

In the figure: 1-base, 2-mounting seat, 3-connecting rod, 4-cutter, 5-supporting component, 21-first thread bulge, 22-second thread bulge, 51-hydraulic telescopic cylinder, 52-abutting suction cup, 53-telescopic spring, 54-shock absorption component, 55-first fixed clamp, 56-second fixed clamp, 57-first abutting elastic sheet, 58-second abutting elastic sheet, 100-glass cutting protection structure, 200-sliding rail, 300-guide component, 400-glass cutting protection device, 301-guide sliding rod, 302-arc sliding block, 303-guide wheel, 541-shaft lever, 542-sleeve, 543-roller, 544-abutting spring, 545-connecting support column, 546-connecting sliding rod, 547-first rubber pad, 548-second rubber pad, 5421-chute.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 3, the present invention provides a glass cutting protection structure 100, which includes a base 1, a mounting base 2, a connecting rod 3, a cutter 4 and a supporting component 5; the mounting base 2 is fixedly connected with the base 1 and is positioned on one side of the base 1, the connecting rod 3 is slidably connected with the base 1 and is positioned on one side of the base 1 close to the mounting base 2, and the cutter 4 is fixedly connected with the connecting rod 3 and is positioned on one end of the connecting rod 3 far away from the base 1; the supporting assembly 5 comprises a hydraulic telescopic cylinder 51, an abutting suction cup 52, a telescopic spring 53 and a damping member 54, the hydraulic telescopic cylinder 51 is fixedly connected with the base 1 and is positioned on one side of the base 1 close to the mounting seat 2, the abutting suction cup 52 is fixedly connected with the hydraulic telescopic cylinder 51 and is positioned on one side of the hydraulic telescopic cylinder 51 far away from the base 1, one side of the telescopic spring 53 is abutted with the base 1, the other side of the telescopic spring is abutted with the hydraulic telescopic cylinder 51, and the telescopic spring is sleeved on the periphery of the hydraulic telescopic cylinder 51; the damping member 54 includes a shaft 541, a sleeve 542, a roller 543 and an abutting spring 544, the shaft 541 is fixedly connected to the connecting rod 3 and located at an end of the connecting rod 3 close to the abutting suction cup 52, the sleeve 542 is slidably connected to the shaft 541 and fixedly connected to the cutter 4 and located at an end of the shaft 541 away from the connecting rod 3, the sleeve 542 has a sliding slot 5421, a portion of the shaft 541 extends into the sliding slot 5421, the roller 543 is rotatably connected to the sleeve 542 and abuts against the shaft 541 and located at one side of the sleeve 542 close to the shaft 541, and one side of the abutting spring 544 abuts against the shaft 541 and the other side abuts against the sleeve 542 and located inside the sliding slot 5421.

In this embodiment, the base 1 is a processing table, a power supply and a driving device of the cutter 4 are installed inside the base 1, a processing groove is formed inside the base 1, the mounting base 2 is installed in the processing groove of the base 1 in a threaded manner to support glass to be processed, the cutter 4 is installed on the upper surface of the base 1 in a sliding manner through the connecting rod 3 and is located at a position close to the processing groove of the base 1, and a driving motor is arranged inside the cutter 4 and drives the cutter head to rotate so as to cut the glass; the hydraulic telescopic cylinder 51 is a multi-section telescopic cylinder, each section of telescopic cylinder is supported through hydraulic pressure, the bottom of the hydraulic telescopic cylinder 51 is fixed with the bottom of a processing groove of the base 1 through threads, the top of the hydraulic telescopic cylinder 51 is fixed with the abutting sucker 52 through threads, the top of the abutting sucker 52 is made of silica gel, the bottom of the abutting sucker is fixed with the top of the hydraulic telescopic cylinder 51 through threads, the abutting sucker 52 supports glass, when the glass to be processed is placed on the mounting seat 2, the abutting sucker 52 buffers and supports the glass, the telescopic spring 53 is sleeved on the periphery of the hydraulic telescopic cylinder 51 and supports the foremost end of the hydraulic telescopic cylinder 51, and the telescopic spring 53 buffers the contraction of the hydraulic telescopic cylinder 51 and supports the abutting sucker 52; the connecting rod 3 is a cylinder and is fixed on the connecting rod 3 by screw thread, the connecting rod 3 slides on the base 1 and rotates on the base 1 along a circle of a processing groove, the bottom of the shaft 541 is provided with a limiting body, the sleeve 542 is sleeved on the periphery of the shaft 541 and slides along the shaft 541, the shell of the cutter 4 is fixed on one side of the sleeve 542 far away from the shaft 541 by screw thread and faces the direction of glass, the sleeve 542 is internally provided with a sliding groove 5421, the limiting body of the shaft 541 is installed in the sliding groove 5421 of the sleeve 542, as the opening size of the sliding groove 5421 is smaller than the diameter of the limiting body of the shaft 541, the shaft 541 and the sleeve 542 slide but cannot be separated from the sleeve 542, the abutting spring 544 abuts between the sleeve 542 and the limiting body of the shaft 541, a plurality of rollers 543 are supported between the sleeve 542 and the shaft 541 to absorb shock to the sleeve 542, and are respectively connected to one side of the sleeve 542 close to the shaft 541 through a rotating shaft, so that the surface of the roller 543 is in rotational contact with the shaft 541, and sliding of the sleeve 542 and the shaft 541 is smoother; thus, glass is placed on the mounting base 2, the bottom surface of the glass is in contact with the abutting suction cup 52, the hydraulic telescopic cylinder 51 and the telescopic spring 53 are compressed, the hydraulic telescopic cylinder 51 and the telescopic spring 53 support the glass, the cutter 4 is driven by the connecting rod 3 to be close to the glass, the cutter 4 is in contact with the glass, the cutter 4 shakes in the cutting process, the sleeve 542 slides with the shaft rod 541 through the roller 543, and is resisted by the roller 543 and the abutting spring 544 in the sliding process, so that the shaking of the cutter 4 is damped, the cutter 4 can cut the glass more stably, and the glass can be prevented from being broken due to the shaking of the cutter 4 and the glass.

Further, referring to fig. 1, the damping member 54 further includes a connecting support column 545 and a connecting slide bar 546, wherein the connecting support column 545 is fixedly connected to the base 1, slidably connected to the connecting rod 3, and located on a side of the base 1 close to the mounting base 2; the connecting slide bar 546 is fixedly connected to the connecting support column 545, slidably connected to the connecting rod 3, and located inside the connecting support column 545.

In this embodiment, the bottom of the connecting support column 545 is slidably connected to the base 1 through a guide rail, so that the connecting support column 545 rotates around the center of the processing groove of the base 1, a groove body is provided inside the connecting support column 545 and is arranged in the vertical direction, the connecting slide bar 546 is threadedly installed in the groove body of the connecting support column 545, and the tail end of the connecting rod 3 is slidably connected to the connecting slide bar 546 and is slidably limited inside the connecting support column 545, so that the connecting rod 3 can only linearly move in the vertical direction.

Further, referring to fig. 3 and 4, the supporting assembly 5 further includes a first fixing clamp 55 and a second fixing clamp 56, where the first fixing clamp 55 is fixedly connected to the mounting base 2 and is located on a side of the mounting base 2 close to the abutting suction cup 52; the second fixing clamp 56 is fixedly connected to the mounting base 2 and is located on a side of the mounting base 2 away from the first fixing clamp 55.

In this embodiment, the first fixing jig 55 and the second fixing jig 56 have the same shape and are both "concave", the mounting base 2 has two grooves respectively located on two sides of the mounting base 2, the first fixing jig 55 is slidably mounted on the groove of the mounting base 2, the second fixing jig 56 is slidably mounted on the other groove of the mounting base 2, the first fixing jig 55 and the second fixing jig 56 are oppositely arranged and located on two sides of the glass, and clamp the outer side end of the glass, so that the glass is better fixed.

Further, referring to fig. 4, the mounting base 2 has a first threaded protrusion 21, and the first threaded protrusion 21 is located on a side of the mounting base 2 close to the first fixing clamp 55; the support assembly 5 further comprises a first abutting elastic sheet 57, the first abutting elastic sheet 57 is fixedly connected with the first fixing clamp 55, abuts against the first threaded protrusion 21, and is located on one side, close to the first threaded protrusion 21, of the first fixing clamp 55.

In this embodiment, the first threaded protrusion 21 is located in the groove of the mounting base 2, the first abutting elastic sheet 57 is integrally fixed on the outer side of the first fixing clamp 55, the first abutting elastic sheet 57 is a copper sheet, has good resilience and can be pressed, and the outer side of the first abutting elastic sheet 57 is engaged with the first threaded protrusion 21, so that the first abutting elastic sheet 57 fixes the first fixing clamp 55.

Further, referring to fig. 4, the mounting base 2 has a second threaded protrusion 22, and the second threaded protrusion 22 is located on a side of the mounting base 2 close to the second fixing clamp 56; the support assembly 5 further includes a second abutting elastic sheet 58, the second abutting elastic sheet 58 is fixedly connected with the second fixing clamp 56, abuts against the second thread protrusion 22, and is located on one side of the second fixing clamp 56 close to the second thread protrusion 22.

In this embodiment, the second threaded protrusion 22 is located in the groove on the other side of the mounting base 2, the second abutting elastic sheet 58 is integrally fixed on the outer side of the second fixing clamp 56, the second abutting elastic sheet 58 is a copper sheet, has good resilience and can be pressed, and the outer side of the second abutting elastic sheet 58 is engaged with the second threaded protrusion 22, so that the second abutting elastic sheet 58 fixes the second fixing clamp 56.

Further, referring to fig. 4, the damping member 54 further includes a first rubber pad 547, and the first rubber pad 547 is fixedly connected to the first fixing clamp 55 and is located on a side of the first fixing clamp 55 close to the abutting suction cup 52.

In this embodiment, the first rubber pad 547 has good resilience, and is located on one side of the first fixing jig 55 close to the glass, and contacts with the glass, so that the first fixing jig 55 has a buffer function when clamping and fixing the glass, and avoids collision and breakage with the first fixing jig 55 during shaking of the glass.

Further, referring to fig. 4, the damping member 54 further includes a second rubber pad 548, and the second rubber pad 548 is fixedly connected to the second fixing clamp 56 and is located on a side of the second fixing clamp 56 close to the abutting suction cup 52.

In this embodiment, the second rubber pad 548 has good resilience, and is located on the side of the second fixing clamp 56 close to the glass, and contacts with the glass, so that the second fixing clamp 56 has a buffer function when clamping and fixing the glass, and the glass is prevented from colliding and breaking with the second fixing clamp 56 in the shaking process.

Referring to fig. 1 and 5, a glass cutting protective device 400 includes a glass cutting protective structure 100, a slide rail 200 and a guide assembly 300, wherein the slide rail 200 is fixedly connected to a base 1 and is located on one side of the base 1 near a connecting support column 545; the guiding assembly 300 is fixedly connected to the sliding rail 200 and slidably connected to the connecting support column 545.

Further, referring to fig. 5, the guide assembly 300 includes a guide sliding rod 301 and an arc-shaped sliding block 302, wherein the guide sliding rod 301 is fixedly connected to the sliding rail 200 and is located inside the sliding rail 200; the arc-shaped sliding block 302 is fixedly connected with the connecting support column 545, slidably connected with the guide sliding rod 301, and slidably connected with the sliding rail 200, and the arc-shaped sliding block 302 is located between the guide sliding rod 301 and the connecting support column 545.

In this embodiment, the slide rail 200 is a circular rail, and is installed on the upper surface of the base 1 by a thread, and the center of the machining groove of the base 1 is used as a center of circle, so that one side of the slide rail 200 faces upward, the guide slide bar 301 is installed inside the slide rail 200 and surrounds a circle of the slide rail 200, so that the arc-shaped slider 302 is matched with the slide rail 200, and the guide slide bar 301 penetrates through the arc-shaped slider 302, and since the top of the arc-shaped slider 302 is fixed to the bottom of the connection support column 545 by a thread, the arc-shaped slider 302 and the connection support column 545 slide horizontally along the slide rail 200 together.

Further, referring to fig. 5, the guiding assembly 300 further includes a guiding wheel 303, and the guiding wheel 303 is rotatably connected to the arc-shaped sliding block 302, abuts against the sliding rail 200, and is located between the arc-shaped sliding block 302 and the sliding rail 200.

In this embodiment, the guide wheel 303 is a rubber wheel, and is connected to one side of the arc-shaped slider 302 close to the slide rail 200 through a rotating shaft, and an outer side surface of the guide wheel 303 abuts against an inner side surface of the slide rail 200, so as to damp sliding of the arc-shaped slider 302, and thus the connection support column 545, the connection rod 3, and the cutter 4 rotate more stably.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (7)

1. A glass cutting protective structure is characterized by comprising a base, a mounting seat, a connecting rod, a cutter and a supporting assembly;

the mounting seat is fixedly connected with the base and is positioned on one side of the base, the connecting rod is connected with the base in a sliding mode and is positioned on one side, close to the mounting seat, of the base, and the cutter is fixedly connected with the connecting rod and is positioned at one end, far away from the base, of the connecting rod;

the support assembly comprises a hydraulic telescopic cylinder, a butt sucking disc, a telescopic spring and a damping member, the hydraulic telescopic cylinder is fixedly connected with the base and is positioned on one side, close to the mounting seat, of the base, the butt sucking disc is fixedly connected with the hydraulic telescopic cylinder and is positioned on one side, far away from the base, of the hydraulic telescopic cylinder, one side of the telescopic spring is abutted against the base, the other side of the telescopic spring is abutted against the hydraulic telescopic cylinder, and the telescopic spring is sleeved on the periphery of the hydraulic telescopic cylinder;

the damping member comprises a shaft rod, a sleeve, a roller and a butt spring, the shaft rod is fixedly connected with the connecting rod and is located at one end, close to the butt sucker, of the connecting rod, the sleeve is slidably connected with the shaft rod and is fixedly connected with the cutter, and is located at one end, far away from the connecting rod, of the shaft rod, the sleeve is provided with a sliding groove, the shaft rod part extends into the sliding groove, the roller is rotatably connected with the sleeve and is abutted to the shaft rod and located at one side, close to the shaft rod, of the sleeve, one side of the butt spring is abutted to the shaft rod, the other side of the butt spring is abutted to the sleeve and is located in the sliding groove.

2. The glass-cutting protective structure of claim 1,

the supporting assembly further comprises a first fixing clamp and a second fixing clamp, the first fixing clamp is fixedly connected with the mounting seat and is positioned on one side, close to the abutting sucker, of the mounting seat; the second fixing clamp is fixedly connected with the mounting seat and is positioned on one side, far away from the first fixing clamp, of the mounting seat.

3. The glass-cutting protective structure of claim 2,

the damping member further comprises a first rubber pad, and the first rubber pad is fixedly connected with the first fixing clamp and is positioned on one side, close to the abutting sucker, of the first fixing clamp.

4. The glass-cutting protective structure of claim 2,

the shock-absorbing member further comprises a second rubber pad, and the second rubber pad is fixedly connected with the second fixing clamp and is positioned on one side, close to the abutting sucker, of the second fixing clamp.

5. A glass cutting protective device, comprising the glass cutting protective structure according to any one of claims 1 to 4, a slide rail and a guide assembly, wherein the slide rail is fixedly connected with a base and is positioned on one side of the base close to a connecting support column; the guide assembly is fixedly connected with the slide rail and is connected with the connecting support column in a sliding mode.

6. The glass cutting guard of claim 5,

the guide assembly comprises a guide sliding rod and an arc-shaped sliding block, and the guide sliding rod is fixedly connected with the sliding rail and is positioned inside the sliding rail; the arc-shaped sliding block is fixedly connected with the connecting support columns, is connected with the guide sliding rod in a sliding mode, and is connected with the sliding rail in a sliding mode, and the arc-shaped sliding block is located between the guide sliding rod and the connecting support columns.

7. The glass cutting guard of claim 6,

the guide assembly further comprises a guide wheel, the guide wheel is rotatably connected with the arc-shaped sliding block, is abutted to the sliding rail and is located between the arc-shaped sliding block and the sliding rail.

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