CN214079578U - Multi-gantry double-drive cutting equipment - Google Patents

Abstract

The utility model provides a two formula cutting equipment that drive of many longmen belongs to cutting technical field, include: the gantry type automatic loading and unloading device comprises a rack, at least two portal frames are slidably connected along the length direction of the rack, wherein a first driving mechanism is arranged at each of two ends of each portal frame, one end of each first driving mechanism is detachably connected with the portal frames, and the other end of each first driving mechanism is meshed with the rack; the cutting machine heads are mounted on the portal frame through second driving mechanisms, the second driving mechanisms are meshed with the portal frame, and the number of the cutting machine heads corresponds to the number of the portal frame one to one. The number of the portal frames, the number of the corresponding cutting machine heads and the number of the first driving mechanisms for driving the portal frames to operate are increased, so that the cutting efficiency of products is improved, in addition, the moving stroke of each portal frame is partial length of the total length of the rack, but not the whole length, so that the preparation process requirement of the cutting equipment is reduced, and the production cost of the cutting equipment is further reduced.

Description

Multi-gantry double-drive cutting equipment

Technical Field

The utility model belongs to the technical field of the cutting, a cutting equipment, especially a two formula cutting equipment that drive of many longmen is related to.

Background

In the table-board type cutting equipment, a gantry structure drives a cutting structure to horizontally move on a table board, wherein the gantry structure is connected to a rack of the cutting equipment in a sliding mode, a driving structure generally adopts a first motor to drive a belt pulley to rotate through a speed reducer, and therefore the horizontal movement of the gantry structure is achieved.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided one kind and can improved cutting efficiency to reduce the cutting equipment of its preparation technology precision.

The purpose of the utility model can be realized by the following technical proposal: a multi-gantry dual drive cutting apparatus comprising:

the gantry type automatic loading and unloading device comprises a rack, at least two portal frames are slidably connected along the length direction of the rack, wherein a first driving mechanism is arranged at each of two ends of each portal frame, one end of each first driving mechanism is detachably connected with the portal frames, and the other end of each first driving mechanism is meshed with the rack;

the cutting machine heads are mounted on the portal frame through second driving mechanisms, the second driving mechanisms are meshed with the portal frame, and the number of the cutting machine heads corresponds to the number of the portal frame one to one.

In the above-mentioned two formula cutting equipment that drive of longmen more, first actuating mechanism includes first support, and connects the first motor on first support, and is connected with first gear at the output of first motor, and wherein, first gear meshes with the first rack of installing in the frame mutually, and the axis direction of first motor output is vertical upwards.

In the multi-gantry double-drive cutting equipment, the two sides of the rack are respectively provided with a cross beam, and the cross beam is provided with a first slide rail and a first rack, wherein the first slide rail is in sliding fit with a first slide block arranged on the first support, and the first slide rail and the first rack are respectively positioned on the upper side and the lower side of the cross beam, or the first slide rail and the first rack are respectively positioned on the two adjacent sides of the cross beam.

In the multi-gantry double-drive cutting equipment, the output end of the first motor is connected with the first gear through the first speed reducer, wherein the axial direction of the output end of the first motor is coincident with the axial direction of the output end of the first speed reducer.

In the above-mentioned multi-gantry double-drive cutting equipment, the second driving mechanism includes a second bracket and a second motor connected to the second bracket, and a second gear is connected to an output end of the second motor, wherein the second gear is engaged with a second rack mounted on the gantry.

In the multi-gantry double-drive cutting equipment, a second slide rail is mounted on the gantry and is in sliding fit with a second slide block mounted on the second support, wherein the second slide rail and the second rack are located on the upper side and the lower side of the gantry, or the second slide rail and the second rack are located on the adjacent two sides of the gantry.

In the multi-gantry double-drive cutting equipment, the output end of the second motor is connected with the second gear through the second speed reducer, wherein the axial direction of the output end of the second motor is coincident with the axial direction of the output end of the second speed reducer.

In the multi-gantry double-drive cutting equipment, the gantry is provided with the protection mechanism, wherein the protection mechanism comprises two sealing strip wheels which are respectively arranged at two ends of the gantry, and the two sealing strip wheels are connected through a sealing strip.

In the multi-gantry double-drive cutting equipment, the two sides of the sealing belt are respectively provided with the pressing covers, wherein the two pressing covers are respectively arranged on the gantry frame and are abutted and matched with the two sides of the sealing belt.

In the multi-gantry double-drive cutting equipment, the rack and the gantry are respectively provided with a bracket which is a first bracket and a second bracket, wherein the first bracket and the second bracket are respectively internally provided with a first drag chain and a second drag chain, the first drag chain is connected with the first driving mechanism, and the second drag chain is connected with the second driving mechanism.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model provides a pair of many longmen double-drive formula cutting equipment, through the quantity that increases the portal frame, and the quantity that corresponds the cutting aircraft nose to and the quantity of the first actuating mechanism of drive portal frame operation, improve the cutting efficiency of product, in addition, the removal stroke of each portal frame is the partial length of frame overall length, and not whole length, thereby has reduced cutting equipment's preparation technological requirement, and then has reduced cutting equipment's manufacturing cost.

(2) The meshing transmission between the gear and the rack is realized, the gantry is more stable during horizontal movement on the frame, and the movement of the position is more accurate, the precision of the cutting machine head in the plate cutting process is improved, in addition, the axis direction of the output end of the first motor is vertically arranged, the first motor is vertically upwards arranged on the whole in the installation process of the gantry, the size of the frame in the width direction is reduced, and the possibility of collision between an operator and the first driving mechanism is reduced.

(3) Through setting up the speed reducer, can reduce the output rotational speed of motor, thereby the moving speed of accurate control gantry on the frame and the moving speed of cutting head on the gantry, and then improve the precision of panel cutting, in addition, the axis direction of motor output and the coincidence of the axis direction of speed reducer output, make motor and speed reducer be located same vertical line, thereby avoid enlarging cutting equipment size on the width direction because of the increase of speed reducer, and then reduced actuating mechanism and operating personnel and collided the possibility.

(4) Through setting up the sealing tape, can hide second rack and second gear, avoid the macromolecule granule in the air to fall into the meshing department between the two to improve the reliability when the meshing transmission between second rack and the second gear.

(5) Through the gland, can flatten the both sides of sealing the area, avoid the side of sealing the area to take place "the upwarp phenomenon", on the one hand, further hide the meshing position of second rack and second gear, improve the reliability when the meshing transmission between second rack and the second gear, on the other hand makes the smooth and easy nature of cutting machine head when sliding on the portal frame.

(6) The first driving mechanism and the second driving mechanism are more smooth in the moving process, the first bracket and the second bracket are installed, the first drag chain and the second drag chain are supported, bending and sagging caused by self gravity are avoided, and the smoothness of the first driving mechanism and the second driving mechanism in the moving process is further guaranteed.

Drawings

Fig. 1 is the structure schematic diagram of the utility model relates to a many longmen double-drive formula cutting equipment.

Fig. 2 is the first partial structure schematic diagram of the multi-gantry double-drive cutting apparatus of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic view of a partial structure of a multi-gantry dual-drive cutting apparatus of the present invention.

Fig. 5 is an enlarged view of a portion B in fig. 4.

Fig. 6 is an enlarged view of a portion C in fig. 4.

In the figure, 100, a rack; 110. a first rack; 120. a cross beam; 130. a first slide rail; 140. a first bracket; 200. a gantry; 210. a second rack; 220. a second slide rail; 230. a second bracket; 300. a first drive mechanism; 310. a first bracket; 320. a first motor; 330. a first gear; 340. a first slider; 350. a first speed reducer; 360. a first tow chain; 400. cutting the machine head; 500. a second drive mechanism; 510. a second bracket; 520. a second motor; 530. a second gear; 540. a second slider; 550. a second speed reducer; 560. a second tow chain; 600. a protection mechanism; 610. a sealing wheel; 620. sealing the tape; 630. and (7) pressing the cover.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 6, the utility model provides a pair of many longmen double-drive formula cutting equipment, include: the gantry crane comprises a rack 100, at least two portal frames 200 are slidably connected along the length direction of the rack 100, wherein two ends of each portal frame 200 are respectively provided with a first driving mechanism 300, one end of each first driving mechanism 300 is detachably connected with the portal frame 200, and the other end of each first driving mechanism 300 is meshed with the rack 100; the cutting heads 400 are mounted on the gantry 200 through the second driving mechanism 500, and the second driving mechanism 500 is meshed with the gantry 200, wherein the number of the cutting heads 400 corresponds to the number of the gantry 200.

In this embodiment, when the two portal frames 200 are respectively located at the two ends of the rack 100, the product can be cut in a manner that the two ends are close to the middle part by the opposite movement of the two portal frames 200; when the two portal frames 200 are located in the middle of the rack 100, the product can be cut in a manner that the middle part of the product is respectively closed to the two ends by the opposite movement of the two portal frames 200. However, the synchronous cutting of the two sides of the product can be realized by adopting a cutting mode that the two ends are close to the middle part or a cutting mode that the middle part is close to the two ends, so that the cutting efficiency is improved.

The utility model provides a pair of many longmen double-drive formula cutting equipment, through the quantity that increases portal frame 200, and the quantity that corresponds cutting head 400, and the quantity of the first actuating mechanism 300 of drive portal frame 200 operation, improve the cutting efficiency of product, in addition, the removal stroke of each portal frame 200 is the partial length of frame 100 overall length, and not whole length, thereby reduced cutting equipment's preparation technological requirement, and then reduced cutting equipment's manufacturing cost.

Preferably, as shown in fig. 1 to 6, the first driving mechanism 300 includes a first bracket 310, and a first motor 320 connected to the first bracket 310, and a first gear 330 is connected to an output end of the first motor 320, wherein the first gear 330 is engaged with the first rack 110 mounted on the rack 100, and an axial direction of the output end of the first motor 320 is vertically upward.

In this embodiment, through the meshing transmission between the rack and pinion, make portal frame 200 more steady when horizontal migration on frame 100, and the removal of position is more accurate, thereby it is higher to improve the precision of cutting aircraft nose 400 when cutting panel, in addition, the axis direction of first motor 320 output is vertical setting, make the installation of first motor 320 on portal frame 200 be vertical upwards setting on the whole, thereby the size of frame 100 on the width direction has been reduced, and then the possibility that operating personnel and first actuating mechanism 300 bump has been reduced.

Further preferably, a cross beam 120 is respectively disposed on two sides of the rack 100, and a first slide rail 130 and a first rack 110 are mounted on the cross beam 120, wherein the first slide rail 130 is slidably engaged with a first slider 340 mounted on the first support 310, and the first slide rail 130 and the first rack 110 are respectively located on the upper side and the lower side of the cross beam 120, or the first slide rail 130 and the first rack 110 are respectively located on two adjacent sides of the cross beam 120.

In the present embodiment, when the first slide rail 130 and the first rack 110 are respectively located at the upper side and the lower side of the cross beam 120, wherein the first slide rail 130 is installed at the upper side of the cross beam 120, and the first rack 110 is installed at the lower side of the cross beam 120, or the first rack 110 is installed at the upper side of the cross beam 120, and the first slide rail 130 is installed at the lower side of the cross beam 120, both of the above manners may be adopted.

Preferably, as shown in fig. 1 to 6, an output end of the first motor 320 is connected to the first gear 330 through a first speed reducer 350, wherein an axial direction of the output end of the first motor 320 coincides with an axial direction of the output end of the first speed reducer 350.

In this embodiment, by providing the first speed reducer 350, the output rotation speed of the first motor 320 can be reduced, thereby accurately controlling the speed of the gantry 200 during horizontal movement on the frame 100, and further improving the accuracy of plate cutting, in addition, the axis direction of the output end of the first motor 320 coincides with the axis direction of the output end of the first speed reducer 350, so that the first motor 320 and the first speed reducer 350 are located on the same vertical line, thereby avoiding the increase of the speed reducers and enlarging the size of the cutting equipment in the width direction, and further reducing the possibility of collision between the first driving mechanism 300 and an operator.

Preferably, as shown in fig. 1 to 6, the second driving mechanism 500 includes a second bracket 510, and a second motor 520 connected to the second bracket 510, and a second gear 530 is connected to an output end of the second motor 520, wherein the second gear 530 is engaged with the second rack 210 mounted on the gantry 200.

Further preferably, the gantry 200 is provided with a second slide rail 220, and the second slide rail 220 is in sliding fit with a second slide block 540 mounted on the second bracket 510, wherein the second slide rail 220 and the second rack 210 are located on the upper and lower sides of the gantry 200, or the second slide rail 220 and the second rack 210 are located on two adjacent sides of the gantry 200.

Further preferably, the output end of the second motor 520 is connected to the second gear 530 through a second speed reducer 550, wherein the axial direction of the output end of the second motor 520 coincides with the axial direction of the output end of the second speed reducer 550.

Preferably, as shown in fig. 1 to 6, a shielding mechanism 600 is installed on the gantry 200, wherein the shielding mechanism 600 includes two sealing rollers 610 respectively installed at both ends of the gantry 200, and the two sealing rollers 610 are connected by a sealing belt 620.

In the embodiment, by providing the seal belt 620, the second rack 210 and the second gear 530 can be hidden, and macromolecular particles in the air are prevented from falling into the engagement between the second rack 210 and the second gear 530, so that the reliability of the engagement transmission between the second rack 210 and the second gear 530 is improved.

It is further preferable that a pressing cover 630 is disposed on each of two sides of the sealing tape 620, wherein the two pressing covers 630 are respectively mounted on the gantry 200 and are in abutting fit with the two sides of the sealing tape 620.

In this embodiment, through the gland 630, can flatten the both sides of the sealing tape 620, avoid the side of the sealing tape 620 to take place "the upwarp phenomenon", on the one hand, further hide the meshing position of second rack 210 and second gear 530, improve the reliability when meshing transmission between second rack 210 and the second gear 530, on the other hand makes the cutting head 400 smooth and easy nature when sliding on the portal frame 200.

Further preferably, anti-collision blocks are respectively installed at both ends of the gantry 200 to control the moving stroke of the cutter head 400 on the gantry 200, thereby improving the reliability of the use of the cutter head 400.

Preferably, as shown in fig. 1 to 6, a bracket, namely, a first bracket 140 and a second bracket 230, is mounted on each of the gantry 100 and the gantry 200, wherein a first drag chain 360 and a second drag chain 560 are mounted in the first bracket 140 and the second bracket 230, respectively, and the first drag chain 360 is connected to the first driving mechanism 300 and the second drag chain 560 is connected to the second driving mechanism 500.

In this embodiment, the first and second drag chains 360 and 560 are arranged to make the first and second driving mechanisms 300 and 500 smoother during the moving process, and the first and second brackets 140 and 230 are installed to support the first and second drag chains 360 and 560, so as to prevent the first and second drag chains 360 and 560 from bending and sagging due to their own gravity, thereby further ensuring the smoothness of the first and second driving mechanisms 300 and 500 during the moving process.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a many longmen double-drive formula cutting equipment which characterized in that includes:

the gantry type automatic loading and unloading device comprises a rack, at least two portal frames are slidably connected along the length direction of the rack, wherein a first driving mechanism is arranged at each of two ends of each portal frame, one end of each first driving mechanism is detachably connected with the portal frames, and the other end of each first driving mechanism is meshed with the rack;

the cutting machine heads are mounted on the portal frame through second driving mechanisms, the second driving mechanisms are meshed with the portal frame, and the number of the cutting machine heads corresponds to the number of the portal frame one to one.

2. The multi-gantry double drive cutting apparatus according to claim 1, wherein the first driving mechanism comprises a first support and a first motor connected to the first support, and a first gear is connected to an output end of the first motor, wherein the first gear is engaged with a first rack mounted on the frame, and an axial direction of an output end of the first motor is vertically upward.

3. The multi-gantry double-drive cutting device according to claim 2, wherein a cross beam is arranged on each side of the machine frame, and a first slide rail and a first rack are mounted on the cross beam, wherein the first slide rail is slidably engaged with a first slide block mounted on the first support, and the first slide rail and the first rack are respectively located on the upper side and the lower side of the cross beam, or the first slide rail and the first rack are respectively located on the adjacent two sides of the cross beam.

4. The multi-gantry double drive cutting apparatus according to claim 2, wherein the output end of the first motor is connected to the first gear through a first reducer, wherein the axial direction of the output end of the first motor coincides with the axial direction of the output end of the first reducer.

5. The multi-gantry dual drive cutting apparatus of claim 1, wherein the second driving mechanism comprises a second support and a second motor connected to the second support, and a second gear is connected to an output end of the second motor, wherein the second gear is engaged with a second rack mounted on the gantry.

6. The multi-gantry double-drive cutting equipment according to claim 5, wherein a second slide rail is mounted on the gantry and is in sliding fit with a second slide block mounted on the second support, wherein the second slide rail and the second rack are located on the upper side and the lower side of the gantry, or the second slide rail and the second rack are located on two adjacent sides of the gantry.

7. The multi-gantry double drive cutting apparatus according to claim 5, wherein the output end of the second motor is connected to the second gear through a second reducer, wherein the axial direction of the output end of the second motor coincides with the axial direction of the output end of the second reducer.

8. The multi-gantry double-drive cutting equipment according to claim 1, wherein a protection mechanism is installed on the gantry, wherein the protection mechanism comprises two seal wheels which are respectively installed at two ends of the gantry, and the two seal wheels are connected through a seal belt.

9. The multi-gantry double-drive cutting device according to claim 8, wherein two pressing covers are respectively arranged on two sides of the sealing belt, wherein the two pressing covers are respectively arranged on the gantry and are abutted and matched with the two sides of the sealing belt.

10. The multi-gantry double-drive cutting equipment according to claim 1, wherein a bracket is respectively arranged on the machine frame and the gantry, and the bracket is respectively a first bracket and a second bracket, wherein a first drag chain and a second drag chain are respectively arranged in the first bracket and the second bracket, and the first drag chain is connected with the first driving mechanism, and the second drag chain is connected with the second driving mechanism.

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