CN211137288U - Full-automatic cavity grid plate cutting machine - Google Patents

Abstract

The utility model relates to a panel cutting field specifically is a full-automatic cavity grid plate cutting machine, including the frame, through the portable support of slip subassembly and frame sliding connection, drive portable support reciprocating motion's a drive arrangement, be equipped with the support plate who is used for supporting panel on portable support for compress tightly the hold-down mechanism of panel, a cutting mechanism for carrying out the cutting with compressing tightly back panel still includes the adjusting part who adjusts the cutting size, and is used for detecting the detecting element of cutting position, the adjusting part includes first slide rail, with first slide rail adaptation and can lock the first slider on first slide rail, still include the controller. Cutting length can be adjusted to this device, and the double-pass cutting, save time improves work efficiency, has economic benefits.

Description

Full-automatic cavity grid plate cutting machine

Technical Field

The utility model relates to a panel cutting field, a concrete position full-automatic cavity grid plate cutting machine.

Background

The traditional packaging material is made of paper materials or wood materials, is easy to damage and low in recycling rate in the transportation process, and meanwhile, a large amount of vegetation needs to be consumed in the preparation process, a large amount of pollution is generated, and the energy-saving and environment-friendly theme is not met. The hollow grid plate is a novel packaging material, dust can not be generated in the using process, the hollow grid plate is not easy to damage, the reuse rate is high, the hollow grid plate can be recycled, in addition, the quality of the hollow grid plate is light, the toughness is good, the size is flexible, the cost is relatively low, and the hollow grid plate is widely applied to production and life.

CN 205255084U discloses a synchronous transverse cutting machine, which comprises a bracket and a material guiding and conveying platform arranged above a rack, a transverse moving frame is arranged on the support through a sliding rail in a sliding way, a transverse moving driving motor and a speed reducer are fixedly arranged at the lower end of the transverse moving frame, a driving gear is arranged on a driving shaft of the speed reducer, a driving rack matched with the driving gear is arranged on the rack, the two sides of the transverse moving frame are provided with a material pressing plate which is connected with a piston rod of a material pressing cylinder, the material pressing cylinder is fixedly arranged on the transverse moving frame, the upper end of the transverse moving frame is provided with a cutter moving driving device, a driving chain wheel, a driving chain and a cutter moving slide rail, the cutter moving frame is arranged on the transverse moving frame in a sliding way through the cutter moving slide rail, the cutter moving frame is connected with the driving chain, and a cutter mounting frame is arranged at the lower end of the cutter moving frame. Although the device can realize the cutting of the plate to be cut, the moving distance of the cutter is fixed, when the cutting length of the plate to be cut is small, the time is wasted, and meanwhile, the device can only cut in a single pass, so that the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

To the problem that above-mentioned prior art exists, the utility model provides a full-automatic cavity grid plate cutting machine can adjust the cutting distance, carries out reciprocal double-pass cutting.

In order to solve the above problems, the technical solution of the present invention is: a full-automatic hollow grid plate cutting machine comprises a rack, a movable support, a first driving device, an adjusting assembly and a detection element, wherein the movable support is connected with the rack in a sliding mode through a sliding assembly, the first driving device drives the movable support to reciprocate, a supporting plate used for supporting a plate to be cut is arranged on the movable support, a pressing mechanism used for pressing the plate to be cut, a cutting mechanism used for cutting the pressed plate to be cut, the adjusting assembly further comprises an adjusting assembly used for adjusting the cutting size, the detection element used for detecting the cutting position, the adjusting assembly comprises a first sliding rail, a first sliding block which is matched with the first sliding rail and can be locked on the first sliding rail, and the controller; when a plate to be cut is located at a preset position, the controller sends a starting signal to the pressing mechanism to press the plate to be cut, after the pressing mechanism presses the plate to be cut, the controller sends the starting signal to the first driving device to drive the movable support to move along the running direction of the plate to be cut, meanwhile, the controller sends the starting signal to the cutting mechanism to cut, when the detection element detects that the cutting mechanism reaches a preset position, the controller sends a signal to the controller, the controller sends a stopping signal to the cutting mechanism, and sends a reset signal to the first driving device and the pressing mechanism.

According to the full-automatic hollow grid plate cutting machine, the pressing mechanism comprises the extrusion plate used for pressing the plate to be cut, and the second driving device used for driving the extrusion plate to press the plate to be cut on the supporting plate, and the controller sends a signal used for controlling the running state to the second driving device.

Above-mentioned full-automatic cavity grid plate cutting machine, cutting mechanism includes third drive arrangement, the speed reducer that links to each other with third drive arrangement, the first follow driving wheel that links to each other with the speed reducer, the second that corresponds the setting with the first follow driving wheel follows the driving wheel, connects the first hold-in range from driving wheel and second from the driving wheel, is located the blade holder on the hold-in range to and connect the blade on the blade holder, the controller send be used for controlling running state the signal extremely third drive arrangement.

Above-mentioned full-automatic cavity grid plate cutting machine, the slip subassembly is including the second slide rail that is located the frame and sets up along waiting to cut panel traffic direction, connect on the movable support with the second slider of second slide rail adaptation.

Above-mentioned full-automatic cavity grid plate cutting machine, be equipped with the scale mark that is used for measuring the distance on the first spout.

Above-mentioned full-automatic cavity grid plate cutting machine, be equipped with the support frame that is used for supporting the panel of waiting to cut in the frame, the support frame includes the bracing piece to and connect the bearing roller between the bracing piece.

Above-mentioned full-automatic cavity grid plate cutting machine, be equipped with the stabilizing component who is used for preventing that the blade operation in-process from rocking on the movable support, stabilizing component includes the third slide rail to and be located the blade holder and the third slider of third slide rail adaptation.

According to the full-automatic hollow grid plate cutting machine, the blades are high manganese steel triangular blades with the thickness of 3-8mm and cutting edges on two sides.

Above-mentioned full-automatic cavity grid plate cutting machine, be equipped with the fourth slide rail on the frame side along the direction of waiting to cut the panel motion, with the fourth slider of fourth slide rail adaptation, connect the connecting plate on the fourth slider, set up the fifth slide rail on the connecting plate, with the fifth slider of fifth slide rail adaptation to and connect the photoelectric switch on the fifth slider, photoelectric switch can send signal to controller.

According to the full-automatic hollow grid plate cutting machine, the first driving device is a first air cylinder, the second driving device is a second air cylinder, and the third driving device is a servo motor.

The utility model has the advantages that: the first cylinder drives the movable support to operate, so that a plate to be cut is continuously input while being cut, and the working efficiency is improved; the servo motor is matched with the speed reducer, so that the output rotating speed is more stable, and the cutting effect is better; the high manganese steel triangular blade is adopted, double-pass cutting can be performed, and the service life of the high manganese steel material is longer; by arranging the stabilizing assembly, the blade can run more stably, and the cutting effect is optimized; through setting up the adjusting part that can adjust cutting length to and detecting element, can control blade feed distance, cut the panel of waiting of different length, save time raises the efficiency.

Drawings

FIG. 1 is a front view of the present apparatus;

FIG. 2 is a side view of the present device;

FIG. 3 is a rear view of the present device;

Fig. 4 is a cross-sectional view of the apparatus in the direction of travel of the sheet to be cut.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-4.

The utility model provides a full-automatic cavity grid plate cutting machine, includes frame 1, through the movable support 29 of slip subassembly with frame 1 sliding connection, the first drive arrangement 2 of the reciprocating motion of drive movable support 29, be equipped with the supporting plate 13 that is used for supporting the panel that waits to cut on movable support 29, a hold-down mechanism for compressing tightly the panel that waits to cut, a cutting mechanism for waiting to cut panel to cut after will compressing tightly. The cutting device is characterized by further comprising an adjusting assembly for adjusting the cutting size and a detecting element for detecting the cutting position, wherein the adjusting assembly comprises a first sliding rail 16 with a scale size, which is arranged on the pressing mechanism, and a first sliding block 20 which is correspondingly arranged, is matched with the first sliding rail and can be locked on the first sliding rail 16, when the size is adjusted, the first sliding block 20 is moved to a required position by observing the scale size on the first sliding rail 16, and then the first sliding block 20 is locked. The detecting element can be a distance sensor, a travel switch, etc., and can be installed on the tool post 17 or the first slider 5, and the travel switch 11 is preferably used in the cutting machine, and the travel switch 11 is installed on two sides of the tool post 17.

The movable support 29 includes two support plates disposed correspondingly, and a connecting plate connected to an upper portion of the support plates. The pressing mechanism comprises a pressing plate 14 used for pressing a plate to be cut, and a second driving device which is located on the connecting plate and used for driving the pressing plate to extrude the plate to be cut, wherein a pressing sheet 27 with a certain angle is arranged at the bottom of the pressing plate, the plate to be cut can be protected, the input of the plate to be cut is facilitated, and a second cylinder 10 is selected preferably by the second driving device. The pressure sensor 28 for detecting pressure is provided on the pressing piece 27.

The cutting mechanism comprises a third driving device positioned on one side of the movable support, a speed reducer 18 connected with the third driving assembly, a first driven wheel 19 connected with the speed reducer 18, a second driven wheel 6 positioned on the other side of the movable support and corresponding to the first driven wheel 19, a synchronous belt 7 connecting the first driven wheel 19 and the second driven wheel 6, a cutter holder 17 positioned on the synchronous belt 7, and a blade 12 connected to the cutter holder 17. The third driving device preferably adopts a servo motor 15, and the rotating speed is reduced through a speed reducer 18, so that the stability of the blade 12 in the cutting process is improved, and the cutting is more accurate. The tool apron consists of two clamping plates, a bolt and a nut, wherein the bolt and the nut are used for clamping the two clamping plates, the blade 12 is positioned between the two clamping plates, and the blade 12 can be replaced independently, so that the tool apron is simple and convenient. The blade 12 is a triangular blade with the thickness of 3-8mm and the cutting edges on two sides, the blade 12 has a certain thickness, when the blade is in the cutting process, vibration is not easy to occur, the stability is better, meanwhile, the cutting edges on two sides of the blade 12 can perform reciprocating cutting, the working efficiency is greatly improved, the blade 12 is made of high manganese steel, the performance is better, and the service life is longer.

The sliding assembly comprises a second sliding rail 3 which is arranged on the rack and arranged along the extrusion direction of the plate to be cut, and a second sliding block 4 which is connected to the movable support 29 and matched with the second sliding rail 3, when the cutting machine runs, a first driving device and the servo motor 15 run simultaneously, namely when the cutting mechanism cuts, the first driving device drives the movable support to move along the movement direction of the plate to be cut, the time is saved, the working efficiency is improved, and the first driving device preferably selects the first cylinder 2.

Treat in the frame that cut panel input one end is equipped with and is used for supporting the support frame of waiting to cut panel, the support frame is including corresponding bracing piece 9 that sets up to and connect the bearing roller 8 between bracing piece 9, when waiting to cut panel input, the support frame can support waiting to cut panel, and simultaneously through bearing roller 8, the messenger waits to cut panel input more smoothly.

Be equipped with on the movable support 29 and be used for preventing the stabilizing component that the blade operation in-process rocked, stabilizing the component including being located the third slide rail 16 on the movable support to and be located the blade holder on with the third slider 20 of third slide rail 16 adaptation, when cutting, stabilizing the component and can preventing that the blade from receiving servo motor 15 to influence the emergence and rocking, cause the cutting effect not good.

The side edge of the rack 1 is provided with a fourth slide rail 21 along the movement direction of the plate to be cut, a fourth slide block 22 matched with the fourth slide rail 21, a connecting plate 23 connected to the fourth slide block 22, a fifth slide rail 24 arranged on the connecting plate 23, a fifth slide block 25 matched with the fifth slide rail 24, and a photoelectric switch 26 connected to the fifth slide block 25, wherein the input length of the plate to be cut can be preset by adjusting the position of the fourth slide block 22.

The cutting machine further comprises a controller in signal communication with the first cylinder 2, the second cylinder 10, the servo motor 15, the photoelectric switch 26, the pressure sensor 28, and the travel switch 11. When the first cutting is carried out, when the photoelectric switch 26 detects that the plate to be cut is input to the designated position, a signal is sent to the controller, the controller sends a starting signal to the second air cylinder 10, the second air cylinder 10 drives the extrusion plate 14 to extrude the plate to be cut after receiving the starting signal, when the pressure sensor 28 on the pressing sheet 27 detects that the pressure reaches a preset value, a signal is sent to the controller, the controller sends a stop signal to the second air cylinder 10, the second air cylinder 10 stops running after receiving the signal, meanwhile, the controller sends a starting signal to the first cylinder 2 and the servo motor 15, the first cylinder 2 drives the movable support 29 to move along the running direction of the plate to be cut after receiving the starting signal, the servo motor 15 starts running after receiving the starting signal, the speed is adjusted by the speed reducer 18, the first driven wheel 19 and the synchronous belt 7 transmit power, and finally the blade 12 is driven to operate and cut. When the travel switch 11 on the tool apron 17 touches the first slider 5, a signal is sent to the controller, the controller sends a reset signal to the first cylinder 2 and the second cylinder 10 after receiving the signal, the first cylinder 2 and the second cylinder 10 recover to the original position after receiving the signal, meanwhile, the controller sends a stop signal to the servo motor 15, and the servo motor 15 stops running after receiving the stop signal.

When the second cutting is carried out, when the photoelectric switch 26 detects that the plate to be cut is input to the designated position, a signal is sent to the controller, the controller sends a starting signal to the second air cylinder 10, the second air cylinder 10 drives the extrusion plate 14 to extrude the plate to be cut after receiving the starting signal, when the pressure sensor 28 on the pressing sheet 27 detects that the pressure reaches a preset value, a signal is sent to the controller, the controller sends a stop signal to the second air cylinder 10, the second air cylinder 10 stops running after receiving the signal, meanwhile, the controller sends a starting signal to the first cylinder 2 and the servo motor 15, the first cylinder 2 drives the movable support 29 to move along the running direction of the plate to be cut after receiving the starting signal, the servo motor 15 reverses and runs after receiving the starting signal, the speed is adjusted by the speed reducer 18, the first driven wheel 19 and the synchronous belt 7 transmit power, and finally the blade 12 is driven to operate and cut. When the travel switch 11 on the tool apron 17 touches the first slider 5, a signal is sent to the controller, the controller sends a reset signal to the first cylinder 2 and the second cylinder 10 after receiving the signal, the first cylinder 2 and the second cylinder 10 recover to the original position after receiving the signal, meanwhile, the controller sends a stop signal to the servo motor 15, and the servo motor 15 stops running after receiving the stop signal. Subsequent signaling repeats the second cut.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic cavity grid plate cutting machine which characterized in that: the cutting device comprises a rack, a movable support, a first driving device, an adjusting assembly and a detection element, wherein the movable support is connected with the rack in a sliding mode through a sliding assembly, the first driving device drives the movable support to reciprocate, a supporting plate used for supporting a plate to be cut is arranged on the movable support, a pressing mechanism used for pressing the plate, a cutting mechanism used for cutting the pressed plate to be cut, the adjusting assembly is used for adjusting the cutting size, the detection element is used for detecting the cutting position, the adjusting assembly comprises a first sliding rail, a first sliding block which is matched with the first sliding rail and can be locked on the first sliding rail, and the controller is also arranged; when a plate to be cut is located at a preset position, the controller sends a starting signal to the pressing mechanism to press the plate to be cut, after the pressing mechanism presses the plate to be cut, the controller sends the starting signal to the first driving device to drive the movable support to move along the running direction of the plate to be cut, meanwhile, the controller sends the starting signal to the cutting mechanism to cut, when the detection element detects that the cutting mechanism reaches a preset position, the controller sends a signal to the controller, the controller sends a stopping signal to the cutting mechanism, and sends a reset signal to the first driving device and the pressing mechanism.

2. The full-automatic hollow grid plate cutting machine according to claim 1, characterized in that: the pressing mechanism comprises a pressing plate used for pressing a plate to be cut, and a second driving device used for driving the pressing plate to press the plate to be cut on the supporting plate, and the controller sends a signal used for controlling the running state to the second driving device.

3. The full-automatic hollow grid plate cutting machine according to claim 1, characterized in that: the cutting mechanism comprises a third driving device, a speed reducer connected with the third driving device, a first driven wheel connected with the speed reducer, a second driven wheel arranged corresponding to the first driven wheel, a synchronous belt connecting the first driven wheel and the second driven wheel, a cutter holder arranged on the synchronous belt, and a blade connected to the cutter holder, wherein the controller sends a signal for controlling the running state to the third driving device.

4. The full-automatic hollow grid plate cutting machine according to claim 1, characterized in that: the sliding assembly comprises a second sliding rail which is positioned on the rack and arranged along the running direction of the plate to be cut, and a second sliding block which is connected to the movable support and is matched with the second sliding rail.

5. The full-automatic hollow grid plate cutting machine according to claim 1, characterized in that: and the first sliding rail is provided with scale marks for measuring distance.

6. The full-automatic hollow grid plate cutting machine according to claim 1, characterized in that: the support frame is used for supporting the plate to be cut and comprises support rods and carrier rollers connected between the support rods.

7. The full-automatic hollow grid plate cutting machine according to claim 1, characterized in that: the movable support is provided with a stabilizing assembly used for preventing the blade from shaking in the operation process, and the stabilizing assembly comprises a third slide rail and a third slide block which is positioned on the tool apron and matched with the third slide rail.

8. The full-automatic hollow grid plate cutting machine according to claim 3, characterized in that: the blade is a high manganese steel triangular blade with the thickness of 3-8mm and cutting edges at two sides.

9. The full-automatic hollow grid plate cutting machine according to claim 1, characterized in that: the side edge of the rack is provided with a fourth slide rail along the movement direction of the plate to be cut, a fourth slide block matched with the fourth slide rail, a connecting plate connected to the fourth slide block, a fifth slide rail arranged on the connecting plate, a fifth slide block matched with the fifth slide rail and a photoelectric switch connected to the fifth slide block, wherein the photoelectric switch can send signals to the controller.

10. The full-automatic hollow grid plate cutting machine according to claim 1, characterized in that: the first driving device is a first air cylinder, the second driving device is a second air cylinder, and the third driving device is a servo motor.

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