CN112846385B - Equidistant cutting equipment for bulletproof glass fiber board - Google Patents

Abstract

The invention relates to cutting equipment, in particular to equidistant cutting equipment for a bulletproof glass fiber plate. The invention provides equidistant cutting equipment for bulletproof glass fiber boards, which can automatically cut the bulletproof glass fiber boards and improve the cutting efficiency. An isometric cutting apparatus for ballistic resistant glass fiber panels, comprising: a base, one side of which is connected with a blanking plate; the base is provided with a moving mechanism; the cutting mechanism is arranged on the moving mechanism; the supporting mechanism is arranged on the moving mechanism. The bulletproof glass fiber plate can be supported by the supporting mechanism, the cutting area of the bulletproof glass fiber plate can be adjusted by the supporting mechanism, the cutting mechanism can be driven to move by the moving mechanism, and the bulletproof glass fiber plate can be cut by the cutting mechanism, so that the bulletproof glass fiber plate can be automatically cut, and the cutting efficiency can be improved.

Description

Equidistant cutting equipment for bulletproof glass fiber plate

Technical Field

The invention relates to cutting equipment, in particular to equidistant cutting equipment for a bulletproof glass fiber plate.

Background

The bulletproof glass fiber board which is just produced is large in general area, when the bulletproof glass fiber board is to be processed into various products, the bulletproof glass fiber board with the large area needs to be cut into the bulletproof glass fiber board with the proper area, the bulletproof glass fiber board is generally cut manually at present, when the bulletproof glass fiber board is cut manually, an electric cutting machine is held by a hand, then the electric cutting machine is moved to cut the bulletproof glass fiber board, and the electric cutting machine needs to be held by the hand for a long time to work, so that the arm is easy to feel sore, and the efficiency of cutting manually is low.

Therefore, the equidistant cutting equipment for the bulletproof glass fiber plate, which can automatically cut the bulletproof glass fiber plate and improve the cutting efficiency, needs to be developed.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defect that a manual handheld electric cutting machine is needed to cut a bulletproof glass fiber plate, and the technical problem to be solved by the invention is to provide equidistant cutting equipment for the bulletproof glass fiber plate, which can automatically cut the bulletproof glass fiber plate and improve the cutting efficiency.

(2) Technical scheme

In order to solve the above technical problem, the present invention provides an equidistant cutting apparatus for a bulletproof glass fiber sheet, comprising: a base, one side of which is connected with a blanking plate; the base is provided with a moving mechanism; the cutting mechanism is arranged on the moving mechanism; the supporting mechanism is arranged on the moving mechanism.

Preferably, the moving mechanism includes: the end part of the base is connected with a first support, the end part of the first support is provided with an air cylinder, and the air cylinder is connected with a second support; the push rod is connected to one side of the second support.

Preferably, the cutting mechanism comprises: the motor is arranged in the second bracket, and an output shaft of the motor is connected with the rotating plate; the output shaft of the motor is connected with a saw blade.

Preferably, the support mechanism includes: two third supports are connected to one side of the first support, and a sliding rod is connected between the third supports in a sliding manner; the screw rod is connected to the third support in a threaded connection mode.

Preferably, the device further comprises a pressing mechanism, wherein the pressing mechanism comprises: two fourth supports are connected to one side of the blanking plate, and a first rotating rod is rotatably connected between the fourth supports; the feeding plate is connected with the clamping plate in an inner sliding manner, and a plurality of first compression springs are connected between the clamping plate and the feeding plate; the two sides of the first rotating rod are both connected with first cams, and the first cams are matched with the clamping plate; one end of the first rotating rod is connected with a space cam, and the space cam is matched with the push rod; and one side of the lower material plate, which is close to the first rotating rod, is connected with the fixing rod.

Preferably, still include cooling mechanism, cooling mechanism includes: the end part of the second bracket is connected with the storage barrel, the storage barrel is connected with a water pipe, the water pipe is connected with a valve, a sliding plate is arranged on the valve in a sliding mode, and the sliding plate is matched with the fixed rod; and two second compression springs are connected between the sliding plate and the valve.

Preferably, the device further comprises a pushing mechanism, wherein the pushing mechanism comprises: the other side of the lower plate is connected with a fifth support, the fifth support is rotatably connected with a material pushing plate, and two second torsion springs are connected between the material pushing plate and the fifth support; the supporting plate is connected to the other side, close to the first rotating rod, of the blanking plate in a sliding mode and is in contact fit with the material pushing plate; one side, close to the first support, of the base is connected with a sixth support, the sixth support is rotatably connected with a second rotating rod, and the second rotating rod is matched with the supporting plate; a first torsion spring is connected between the second rotating rod and the sixth bracket; the rotating block is rotatably connected to one side of the second support and matched with the second rotating rod; and a third torsion spring is connected between the rotating block and the second bracket.

Preferably, the blanking plate is composed of a shelf and a frame.

(3) Advantageous effects

1. Can support shellproof glass fiber board through supporting mechanism, and can adjust the size of shellproof glass fiber board cutting area through supporting mechanism, can drive cutting mechanism through moving mechanism and remove, can cut shellproof glass fiber board through cutting mechanism to need not artifical handheld electric cutting machine and cut shellproof glass fiber board, and then realized can cutting shellproof glass fiber board voluntarily, can improve the purpose of cutting efficiency.

2. Can compress tightly the shellproof glass fiber board through extrusion mechanism and fix in flitch down to can prevent to carry out the shellproof glass fiber board of cutting work time and rock by oneself, and then can be convenient for carry out cutting work, can cool down cutting mechanism through cooling down mechanism.

3. The cut bulletproof glass fiber plate can be pushed out of the supporting mechanism through the material pushing mechanism, so that the cut bulletproof glass fiber plate is not required to be manually taken down.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the moving mechanism of the present invention.

Fig. 3 is a schematic perspective view of the cutting mechanism of the present invention.

Fig. 4 is a schematic perspective view of the supporting mechanism of the present invention.

Fig. 5 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 6 is a schematic perspective view of a part of the pressing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the cooling mechanism of the present invention.

Fig. 8 is a schematic perspective view of a part of the cooling mechanism of the present invention.

Fig. 9 is a schematic view of a first partially separated body structure of the pushing mechanism of the present invention.

Fig. 10 is an enlarged view of invention a.

Fig. 11 is a schematic view of a second partial body structure of the pushing mechanism of the present invention.

Fig. 12 is an enlarged view of invention B.

The symbols in the drawings are: 1-base, 2-blanking plate, 3-moving mechanism, 31-first support, 32-cylinder, 33-second support, 34-push rod, 4-cutting mechanism, 41-motor, 42-rotating plate, 43-saw blade, 5-supporting mechanism, 51-third support, 52-sliding rod, 53-screw rod, 6-extruding mechanism, 61-fourth support, 62-first rotating rod, 63-clamping plate, 64-first cam, 65-space cam, 66-first compression spring, 67-fixing rod, 7-cooling mechanism, 71-storage barrel, 72-water pipe, 73-valve, 74-sliding plate, 75-second compression spring, 8-pushing mechanism, 81-fifth support, 82-supporting plate, 821-pushing plate, 83-sixth support, 84-second rotating rod, 85-first torsion spring, 86-second torsion spring, 87-rotating block and 88-third torsion spring.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

An isometric cutting device for a bulletproof glass fiber plate is shown in figures 1-4 and comprises a base 1, a blanking plate 2, a moving mechanism 3, a cutting mechanism 4 and a supporting mechanism 5, wherein the blanking plate 2 is connected to the left side of the base 1, the moving mechanism 3 is installed on the base 1, and the cutting mechanism 4 and the supporting mechanism 5 are respectively installed on the moving mechanism 3.

The moving mechanism 3 comprises a first support 31, an air cylinder 32, a second support 33 and a push rod 34, the first support 31 is connected to the top of the base 1, the air cylinder 32 is mounted at the top of the first support 31, the second support 33 is connected to the air cylinder 32, and the push rod 34 is connected to the upper portion of the left side of the second support 33.

The cutting mechanism 4 comprises a motor 41, a rotating plate 42 and a saw blade 43, the motor 41 is installed in the second bracket 33, the rotating plate 42 is connected to an output shaft of the motor 41, the saw blade 43 is connected to an output shaft of the motor 41, and the saw blade 43 is located above the rotating plate 42.

The supporting mechanism 5 includes a third bracket 51, a sliding rod 52 and a screw 53, the left side of the first bracket 31 is connected with two third brackets 51 in a front-back symmetrical manner, the sliding rod 52 is connected between the two third brackets 51 in a sliding manner, and the third brackets 51 are connected with the screw 53 in a threaded connection manner.

When the bulletproof glass fiber board is to be cut, the device can be used, firstly, the bulletproof glass fiber board is placed into the blanking plate 2, then the bulletproof glass fiber board is contacted with the sliding rod 52, then the height of the sliding rod 52 can be adjusted according to the size of the cutting area, when the height of the sliding rod 52 is to be adjusted, the screw rod 53 can be rotated, the screw rod 53 loosens the sliding rod 52, then the height of the sliding rod 52 can be adjusted, after the adjustment is finished, the screw rod 53 is rotated reversely, so that the sliding rod 52 can be fixed again by the screw rod 53, then, the air cylinder 32 can be started to enable the second support 33 to move backwards, the second support 33 can move backwards to drive the motor 41 to move backwards, the saw blade 43 can be started to move backwards, at the moment, the motor 41 can be started to enable the saw blade 43 to rotate and move backwards to cut the bulletproof glass fiber board, after the cutting is finished, control cylinder 32 makes second support 33 move forward and reset, at this moment, can take off the shellproof glass fiber board that cuts, repeat the above-mentioned operation, can repeat cutting work, after cutting work is accomplished, it can to close cylinder 32 and motor 41, so can support shellproof glass fiber board through supporting mechanism 5, and can adjust shellproof glass fiber board cutting area's size through supporting mechanism 5, can drive cutting mechanism 4 through moving mechanism 3 and remove, can cut shellproof glass fiber board through cutting mechanism 4, thereby need not artifical handheld electric cutting machine to cut shellproof glass fiber board, and then realized can cutting shellproof glass fiber board automatically, can improve the purpose of cutting efficiency.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 5 and 6, the device further comprises a pressing mechanism 6, wherein the pressing mechanism 6 comprises a fourth bracket 61, a first rotating rod 62 and a clamping plate 63, first cam 64, space cam 65, first compression spring 66 and dead lever 67, lower flitch 2 right side front and back symmetry is connected with two fourth supports 61, the rotary type is connected with first rotary rod 62 between two fourth supports 61, right side sliding connection in the lower flitch 2 has clamping plate 63, be connected with four first compression springs 66 between clamping plate 63 and the lower flitch 2, the front and back both sides of first rotary rod 62 all are connected with first cam 64, first cam 64 and clamping plate 63 cooperate, the front end of first rotary rod 62 is connected with space cam 65, space cam 65 cooperates with push rod 34, lower flitch 2 right side is connected with dead lever 67, dead lever 67 is located the upside of first rotary rod 62.

The second bracket 33 moves backwards to drive the push rod 34 to move backwards, the push rod 34 moves backwards to rotate the space cam 65 by 90 degrees, the space cam 65 rotates by 90 degrees to drive the first rotating rod 62 to rotate by 90 degrees, the first rotating rod 62 rotates by 90 degrees to drive the first cam 64 to rotate by 90 degrees, the clamping plate 63 can move inwards through the first cam 64, the first compression spring 66 is compressed along with the clamping plate 63, the bulletproof glass fiber plate can be firmly pressed and fixed in the blanking plate 2 through the inward movement of the clamping plate 63, so that the bulletproof glass fiber plate can be prevented from shaking automatically during cutting operation, thereby facilitating the cutting work, and similarly, when the second bracket 33 drives the push rod 34 to move forward for resetting, the space cam 65 can be rotated in reverse by 90 degrees to be reset, so that the first cam 64 can be reset to release the clamping plate 63, under the action of the first compression spring 66, the clamping plate 63 can be moved outwards to reset, so that the bulletproof glass fiber plate is loosened. So can compress tightly the shellproof glass fiber board through extrusion mechanism 6 and fix in flitch 2 down to can prevent to cut the shellproof glass fiber board of during operation and rock by oneself, and then can be convenient for carry out cutting work.

Example 3

On the basis of embodiment 2, as shown in fig. 1 and 7, the device further comprises a cooling mechanism 7, wherein the cooling mechanism 7 comprises a storage barrel 71, a water pipe 72, a valve 73, a sliding plate 74 and a second compression spring 75, the top of the second bracket 33 is connected with the storage barrel 71, the lower part of the storage barrel 71 is connected with the water pipe 72, the water pipe 72 is connected with the valve 73, the sliding plate 74 is slidably arranged on the valve 73, the sliding plate 74 is matched with the fixed rod 67, and the two second compression springs 75 are connected between the sliding plate 74 and the valve 73.

Cold water can be injected into the storage barrel 71, the second bracket 33 moves backwards to drive the storage barrel 71 to move backwards, the storage barrel moves backwards to drive the water pipe 72 to move backwards, the water pipe 72 moves backwards to drive the components on the water pipe to move backwards, when the sliding plate 74 moves backwards to be in contact with the fixed rod 67, the sliding plate 74 can move upwards under the action of the fixed rod 67 to open the valve 73, the second compression spring 75 is compressed therewith, after the valve 73 is opened, the cold water in the storage barrel 71 flows out through the water pipe 72 and falls on the saw blade 43, so that the temperature of the saw blade 43 can be reduced, water can be retained through the rotating plate 42 to prevent the cold water from falling on the motor 41, and similarly, the second bracket 33 moves forwards to reset to drive the storage barrel 71 to move forwards to reset, so that the sliding plate 74 moves forwards to reset therewith, when the sliding plate 74 moves forwards to be separated from the fixed rod 67, under the action of the second compression spring 75, the slide plate 74 can be moved downwards to reset the valve 73 to be closed, and the cold water stops flowing out; the cutting mechanism 4 can be cooled by the cooling mechanism 7 in this manner.

Example 4

On the basis of embodiment 3, as shown in fig. 1, 9, 10, 11 and 12, the present invention further includes a material pushing mechanism 8, the material pushing mechanism 8 includes a fifth support 81, a support plate 82, a material pushing plate 821, a sixth support 83, a second rotating rod 84, a first torsion spring 85, a second torsion spring 86, a rotating block 87 and a third torsion spring 88, the fifth support 81 is connected to the left portion of the lower plate 2, the material pushing plate 821 is rotatably connected to the fifth support 81, two second torsion springs 86 are connected between the material pushing plate 821 and the fifth support 81, the support plate 82 is connected to the right side of the lower plate 2, the support plate 82 is located below the first rotating rod 62, the support plate 82 is in contact fit with the material pushing plate 821, the sixth support 83 is connected to the top portion of the base 1, the sixth support 83 is located at the left side of the first support 31, the second rotating rod 84 is rotatably connected to the sixth support 83, the second rotating rod 84 is matched with the supporting plate 82, a first torsion spring 85 is connected between the second rotating rod 84 and the sixth support 83, a rotating block 87 is rotatably connected to the left portion of the second support 33, the rotating block 87 is matched with the second rotating rod 84, and a third torsion spring 88 is connected between the rotating block 87 and the second support 33.

The second bracket 33 moves backwards to drive the rotating block 87 to move backwards, when the rotating block 87 moves backwards to be contacted with the second rotating rod 84, the second rotating rod 84 can be swung, the first torsion spring 85 is compressed along with the second rotating rod, the second rotating rod 84 can be swung to move the supporting plate 82 leftwards, the supporting plate 82 moves leftwards to enable the material pushing plate 821 to rotate and open, the second torsion spring 86 is compressed along with the second rotating rod, the supporting plate 82 moves leftwards to push the cut bulletproof glass fiber plate out of the sliding rod 52, so that the cut bulletproof glass fiber plate is not required to be taken down manually, when the rotating block 87 moves backwards to be separated from the second rotating rod 84, the second rotating rod 84 can be swung and reset under the action of the first torsion spring 85, the material pushing plate 821 can be rotated and reset under the action of the second torsion spring 86, the supporting plate 82 can be reset along with the right movement, the second bracket 33 drives the rotating block 87 to move forwards and reset, under the action of the second rotating rod 84, the rotating block 87 can be rotated, the third torsion spring 88 is compressed along with the second rotating rod, when the rotating block 87 moves forwards to be separated from the second rotating rod 84, the rotating block 87 can be rotated and reset under the action of the third torsion spring 88, and therefore the cut bulletproof glass fiber plate can be pushed out from the supporting mechanism 5 through the material pushing mechanism 8, and the cut bulletproof glass fiber plate does not need to be manually taken down.

The above-mentioned embodiments only express the preferred embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as the limitation of the scope of the present invention. It should be noted that various changes, modifications and substitutions may be made by those skilled in the art without departing from the spirit of the invention, and all are intended to be included within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (2)

1. An isometric cutting apparatus for ballistic resistant glass fiber sheets, comprising:

a base (1), one side of which is connected with a blanking plate (2);

the moving mechanism (3) is arranged on the base (1);

the cutting mechanism (4) is installed on the moving mechanism (3);

the supporting mechanism (5) is arranged on the moving mechanism (3);

the moving mechanism (3) includes:

the device comprises a first support (31), wherein the end part of a base (1) is connected with the first support (31), the end part of the first support (31) is provided with an air cylinder (32), and the air cylinder (32) is connected with a second support (33);

a push rod (34), wherein one side of the second bracket (33) is connected with the push rod (34);

the cutting mechanism (4) comprises:

the motor (41) is installed in the second support (33), and an output shaft of the motor (41) is connected with the rotating plate (42);

the output shaft of the motor (41) is connected with a saw blade (43);

the support mechanism (5) includes:

the first support (31) is connected with two third supports (51), and a sliding rod (52) is connected between the third supports (51) in a sliding manner;

the screw (53) is connected to the third bracket (51) in a threaded connection mode;

still include extrusion mechanism (6), extrusion mechanism (6) include:

one side of the blanking plate (2) is connected with two fourth brackets (61), and a first rotating rod (62) is rotatably connected between the fourth brackets (61);

the feeding plate (2) is internally connected with a clamping plate (63) in a sliding manner, and a plurality of first compression springs (66) are connected between the clamping plate (63) and the feeding plate (2);

the two sides of the first rotating rod (62) are both connected with first cams (64), and the first cams (64) are matched with the clamping plate (63);

one end of the first rotating rod (62) is connected with the space cam (65), and the space cam (65) is matched with the push rod (34);

the fixing rod (67) is connected to one side, close to the first rotating rod (62), of the blanking plate (2);

still include cooling mechanism (7), cooling mechanism (7) include:

the end part of the second support (33) is connected with the storage barrel (71), the storage barrel (71) is connected with a water pipe (72), the water pipe (72) is connected with a valve (73), a sliding plate (74) slides on the valve (73), and the sliding plate (74) is matched with the fixed rod (67);

the two second compression springs (75) are connected between the sliding plate (74) and the valve (73);

still include pushing equipment (8), pushing equipment (8) include:

the other side of the blanking plate (2) is connected with a fifth support (81), the fifth support (81) is connected with a material pushing plate (821) in a rotating mode, and two second torsion springs (86) are connected between the material pushing plate (821) and the fifth support (81);

the supporting plate (82) is connected to the other side, close to the first rotating rod (62), of the blanking plate (2) in a sliding mode, and the supporting plate (82) is in contact fit with the material pushing plate (821);

one side, close to the first support (31), of the base (1) is connected with the sixth support (83), the sixth support (83) is connected with a second rotating rod (84) in a rotating mode, and the second rotating rod (84) is matched with the supporting plate (82);

a first torsion spring (85) is connected between the second rotating rod (84) and the sixth bracket (83);

the rotating block (87) is rotatably connected to one side of the second support (33), and the rotating block (87) is matched with the second rotating rod (84);

and a third torsion spring (88) is connected between the rotating block (87) and the second bracket (33).

2. An equidistant cutting device for ballistic glass fiber sheets according to claim 1, characterized in that the blanking plate (2) consists of a frame and a frame.

Images