CN213562940U - Gantry cutting machine - Google Patents

Abstract

The utility model particularly relates to a longmen cutting machine, including cutting device and the transmission line that is located cutting device below, the transmission line includes transmission line support, first transmission line, first translation elevating gear, second transmission line and second translation elevating gear, and first transmission line and second transmission line are fixed to be set up on the transmission line support, and first transmission line and second transmission line are parallel to each other and direction of delivery is opposite, and first transmission line is located directly over the second transmission line, and first translation elevating gear and the fixed setting of second translation elevating gear are in transmission line support both sides. The beneficial effects of the utility model reside in that: the feeding and the material taking can be completed only by one-man operation, so that the labor cost is saved.

Description

Gantry cutting machine

Technical Field

The utility model relates to a mechanical equipment, concretely relates to longmen cutting machine.

Background

The existing gantry cutting machine needs two persons to operate when feeding and discharging materials on different stations, wherein one person feeds materials and the other person discharges materials.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a longmen cutting machine.

The technical scheme of the utility model as follows:

the utility model provides a gantry cutting machine, includes cutting device and the transmission line that is located cutting device below, and the transmission line includes transmission line support, first transmission line, first translation elevating gear, second transmission line and second translation elevating gear, and first transmission line and the fixed setting of second transmission line are on transmission line support, and first transmission line and second transmission line are parallel to each other and direction of delivery opposite, and first transmission line is located directly over the second transmission line, and first translation elevating gear and the fixed setting of second translation elevating gear are in transmission line support both sides.

The utility model discloses a further preferred: the first translation lifting device and the second translation lifting device have the same structure.

The utility model discloses a further preferred: the first translation and lifting device comprises a rack, a translation assembly and a lifting assembly.

The utility model discloses a further preferred: the translation assembly is movably arranged on the rack, the lifting assembly is fixedly arranged on the rack, four corner positions on the inner side of the rack are respectively provided with a guide shaft, the translation assembly support is sleeved on the four guide shafts and can move up and down along the four guide shafts, the translation assembly support is rotatably provided with two parallel translation assembly driving shafts and two parallel translation assembly driven shafts through a support seat, the translation assembly support is also provided with a translation assembly driving device, the translation assembly driving device and the translation assembly driving shafts are in belt transmission, and the translation assembly driving shafts and the translation assembly driven shafts are in belt transmission; the two sides of the bottom of the translation assembly support are fixedly connected with one ends of two parallel screw rods respectively, and the bottom of the rack is fixedly connected with the screw rods.

The utility model discloses a further preferred: the lifting assembly comprises a lifting assembly driving device, a lifting assembly driving shaft and a lifting assembly driven shaft, the lifting assembly driving device is fixedly arranged on the frame, the lifting assembly driving shaft and the lifting assembly driven shaft are rotatably arranged on the frame, belt transmission is arranged between the lifting assembly driving shaft and the lifting assembly driving device, belt transmission is arranged between the lifting assembly driving shaft and the lifting assembly driven shaft, the lifting assembly driving shaft and the lifting assembly driven shaft are internally hollow, the other ends of the two lead screws are respectively in threaded connection with the lifting assembly driving shaft and the lifting assembly driven shaft, two lead screw nuts are fixedly arranged on the frame, and the two lead screw nuts are respectively in threaded connection with the two lead screws.

The utility model discloses a further preferred: the transmission line support or the first transmission line is fixedly provided with a jacking device.

The utility model discloses a further preferred: the translation assembly driving device and the lifting assembly driving device are motors.

Compared with the prior art, the beneficial effects of the utility model reside in that: the feeding and the material taking can be completed only by one-man operation, so that the labor cost is saved.

Drawings

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

Fig. 1 is the overall structure schematic diagram of a gantry cutting machine provided by the utility model.

Fig. 2 is a first perspective structural view of the first translational lifting device.

Fig. 3 is a second perspective structural view of the first translational lifting device.

Fig. 4 is a schematic structural diagram of the jacking device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to explain the technical solution of the present invention, the following description is made by using specific examples.

Examples

The utility model discloses as shown in fig. 1-3, a gantry cutting machine, including cutting device 100 and the transmission line 200 that is located cutting device 100 below, transmission line 200 includes transmission line support 210, first transmission line 220, first translation elevating gear 230, second transmission line 240 and second translation elevating gear 250, first transmission line 220 and second transmission line 240 are fixed to be set up on transmission line support 210, first transmission line 220 and second transmission line 240 are parallel to each other and the direction of delivery is opposite, first transmission line 220 is located directly over second transmission line 240, first translation elevating gear 230 and second translation elevating gear 250 are fixed to be set up in transmission line support 210 both sides; the first translational lifting device 230 and the second translational lifting device 250 are identical in structure; the first translation and lifting device 230 comprises a rack 231, translation assemblies and a lifting assembly, wherein the translation assemblies are movably arranged on the rack 231, the lifting assembly is fixedly arranged on the rack 231, four corners of the inner side of the rack 231 are respectively provided with a guide shaft 232, a translation assembly support 233 is sleeved on the four guide shafts 232, the translation assembly support 233 can move up and down along the four guide shafts 232, the translation assembly support 233 is rotatably provided with two translation assembly driving shafts 235 and a translation assembly driven shaft 236 which are parallel to each other through a support seat 234, the translation assembly support 233 is also provided with a translation assembly driving device 237, the translation assembly driving device 237 and the translation assembly driving shaft 235 are in belt transmission, and the translation assembly driving shaft 235 and the translation assembly 236 are in belt transmission; the two sides of the bottom of the translation component bracket 233 are respectively fixedly connected with one end of two parallel screw rods 238, the bottom of the frame 231 is fixedly connected with the screw rods 238, the lifting component comprises a lifting component driving device 261, lifting unit driving shaft 262 and lifting unit driven shaft 263, lifting unit drive arrangement 261 is fixed to be set up in frame 231, lifting unit driving shaft 262 and lifting unit driven shaft 263 are rotatable to be set up in frame 231, belt drive between lifting unit driving shaft 262 and the lifting unit drive arrangement 261, belt drive between lifting unit driving shaft 262 and the lifting unit driven shaft 263, lifting unit driving shaft 262 and the inside hollow of lifting unit driven shaft 263, two lead screw 238 other ends respectively with lifting unit driving shaft 262 and lifting unit driven shaft 263 threaded connection, the last fixed two lead screw nuts 264 that are equipped with of frame 231, two lead screw nuts 264 respectively with two lead screw 238 threaded connection.

The utility model discloses a theory of operation is: firstly, a material to be cut is placed on a first conveying line 220, the first conveying line 220 conveys the material to be cut to be close to a first translation and lifting device 230, at the moment, a transmission belt between a translation assembly driving shaft 235 and a translation assembly driven shaft 236 in the first translation and lifting device 230 is flush with a belt of the first conveying line 220, then a translation assembly driving device 237 works, the movement direction of the transmission belt between the translation assembly driving shaft 235 and the translation assembly driven shaft 236 is the same as that of the belt of the first conveying line 220, so that the material to be cut is conveyed to the transmission belt between the translation assembly driving shaft 235 and the translation assembly driven shaft 236, then the translation assembly driving device 237 stops working, then a lifting assembly driving device 261 works to drive a lifting assembly driving shaft 262 and a lifting assembly driven shaft 263 to rotate, and two screw rods 238 are in threaded connection with the lifting assembly driving shaft 262 and the lifting assembly driven shaft 263, the screw rod 238 moves downwards in the lifting component driving shaft 262 and the lifting component driven shaft 263 to drive the translation component bracket 233 fixed with the screw rod 238 to move downwards, the four guide shafts 232 are used for guiding the translation component bracket 233 to move, so that a transmission belt between the translation component driving shaft 235 and the translation component driven shaft 236 is flush with the second transmission line 240, then the lifting component driving device 261 stops working, the translation component driving device 237 moves reversely again to drive the material to be cut to enter the second transmission line 240 and be transmitted to the second translation lifting device 250 along with the belt of the second transmission line 240, the second translation lifting device 250 has the same structure with the first translation lifting device 230 and has the opposite working direction, so as to drive the material to be cut to enter the first transmission line 220, when the material passes through the bottom of the cutting device 100, the cutting device 100 cuts the material to obtain a finished product, the user can then remove the finished product and place a new piece of material to be cut as it moves to the empty position.

The utility model discloses in, first translation elevating gear 230's theory of operation is: the translation assembly driving device 237 works to drive a translation assembly driving shaft 235 driven by a belt to rotate, the translation assembly driving shaft 235 rotates to drive a translation assembly driven shaft 236 to rotate through the belt, and translation movement of materials on the belt between the translation assembly driving shaft 235 and the translation assembly driven shaft 236 is realized; the lifting assembly driving device 261 drives the lifting assembly driving shaft 262 to rotate when working, the lifting assembly driving shaft 262 drives the lifting assembly driven shaft 263 to rotate through a belt, and due to the threaded connection of the lead screw 238 with the lifting assembly driving shaft 262 and the lifting assembly driven shaft 263, the lead screw 238 moves downwards along the insides of the lifting assembly driving shaft 262 and the lifting assembly driven shaft 263, and the lead screw nut 264 is also used for guiding the lead screw 238.

In the utility model, as shown in fig. 4, a jacking device 211 is fixedly arranged on the conveying line bracket 210 or the first conveying line 220, and is used for jacking out the processed material or material tray when the processed material or material tray moves to a certain position (detected by the in-place detection device) after the cutting is finished; the user takes out the processed material, then puts in the material to be processed, and after the detection device detects that the material to be processed is put in place, the jacking device 211 contracts, and the material to be processed moves along with the first transmission line 220.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A gantry cutting machine is characterized in that: the cutting device comprises a cutting device and a conveying line located below the cutting device, the conveying line comprises a conveying line support, a first conveying line, a first translation lifting device, a second conveying line and a second translation lifting device, the first conveying line and the second conveying line are fixedly arranged on the conveying line support, the first conveying line and the second conveying line are parallel to each other and opposite in conveying direction, the first conveying line is located right above the second conveying line, and the first translation lifting device and the second translation lifting device are fixedly arranged on two sides of the conveying line support.

2. The gantry cutting machine of claim 1, wherein: the first translation lifting device and the second translation lifting device have the same structure.

3. The gantry cutting machine of claim 1, wherein: the first translation and lifting device comprises a rack, a translation assembly and a lifting assembly.

4. The gantry cutting machine of claim 1, wherein: the translation assembly is movably arranged on the rack, the lifting assembly is fixedly arranged on the rack, four corner positions on the inner side of the rack are respectively provided with a guide shaft, the translation assembly support is sleeved on the four guide shafts and can move up and down along the four guide shafts, the translation assembly support is rotatably provided with two parallel translation assembly driving shafts and two parallel translation assembly driven shafts through a support seat, the translation assembly support is also provided with a translation assembly driving device, the translation assembly driving device and the translation assembly driving shafts are in belt transmission, and the translation assembly driving shafts and the translation assembly driven shafts are in belt transmission; the two sides of the bottom of the translation assembly support are fixedly connected with one ends of two parallel screw rods respectively, and the bottom of the rack is fixedly connected with the screw rods.

5. The gantry cutting machine of claim 1, wherein: the lifting assembly comprises a lifting assembly driving device, a lifting assembly driving shaft and a lifting assembly driven shaft, the lifting assembly driving device is fixedly arranged on the frame, the lifting assembly driving shaft and the lifting assembly driven shaft are rotatably arranged on the frame, belt transmission is arranged between the lifting assembly driving shaft and the lifting assembly driving device, belt transmission is arranged between the lifting assembly driving shaft and the lifting assembly driven shaft, the lifting assembly driving shaft and the lifting assembly driven shaft are internally hollow, the other ends of the two lead screws are respectively in threaded connection with the lifting assembly driving shaft and the lifting assembly driven shaft, two lead screw nuts are fixedly arranged on the frame, and the two lead screw nuts are respectively in threaded connection with the two lead screws.

6. The gantry cutting machine of claim 1, wherein: the transmission line support or the first transmission line is fixedly provided with a jacking device.

7. The gantry cutting machine of claim 1, wherein: the translation assembly driving device and the lifting assembly driving device are motors.

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