CN112371861A - Stamping and overturning equipment for processing environment-friendly new energy building board - Google Patents

Abstract

The invention discloses stamping and overturning equipment for processing an environment-friendly new energy building board, which comprises an installation frame, wherein a stamping device, an upper die device, a long moving device, a lower die device, a short moving device, an overturning device and a clamping device are arranged on the installation frame; the mounting bracket is characterized in that a fixing frame is fixedly connected to one side of the mounting bracket, supporting wheels are fixedly connected to two sides of the fixing frame, and two groups of supporting frames are connected to positions of one side, away from the fixing frame, of the mounting bracket. Through stamping device, go up the mould device, move device, lower mould device, move device, turning device and clamping device's cooperation for a short time, make panel overturn fast in the course of working, can quick replacement stamping die improve the practicality, make the panel of processing need not handheld, can improve the security at the stamping process to panel, make the work step of panel punching press reduce, improve production efficiency.

Description

Stamping and overturning equipment for processing environment-friendly new energy building board

Technical Field

The invention relates to the field of processing of environment-friendly new energy building boards, in particular to stamping and overturning equipment for processing environment-friendly new energy building boards.

Background

At present when adding new forms of energy building panel, need to punch a few panel, form panel through mechanical punching's mode, panel need go on in the punching press machine when punching, but the punching machine that adopts at present mostly only has simple stamping forming function, and need artifically place the machined part between stamping die, certain danger has, and when punching to the longer panel of part, especially when punching on the panel that needs multiaspect punching press, all adopt the manual work to go on, need artifically place panel and upset promptly, the security of production has been reduced again, and there is inefficiency in such mode, the operating procedure is many, shortcoming that degree of automation is low.

Therefore, a stamping and overturning device for processing environment-friendly new energy building boards is provided to solve the problems.

Disclosure of Invention

The invention aims to provide stamping and overturning equipment for processing environment-friendly new energy building boards, which can quickly overturn boards in the processing process through the matching of a stamping device, an upper die device, a long moving device, a lower die device, a short moving device, an overturning device and a clamping device, can quickly replace stamping dies to improve the practicability, can improve the safety in the stamping process of the boards without holding the processed boards by hands, reduces the working steps of stamping the boards and improves the production efficiency.

In order to achieve the purpose, the invention provides the following technical scheme: the stamping and overturning equipment for processing the environment-friendly new energy building board comprises an installation frame, wherein a stamping device, an upper die device, a long moving device, a lower die device, a short moving device, an overturning device and a clamping device are arranged on the installation frame;

a fixing frame is fixedly connected to one side of the mounting frame, supporting wheels are fixedly connected to two sides of the fixing frame, and two groups of supporting frames are connected to positions, away from the fixing frame, of the mounting frame;

a stamping device is arranged between the fixed frames and is used for stamping the plates;

an upper die device is arranged at one side of the stamping device close to the mounting frame and used for mounting and dismounting different stamping dies;

a long moving device is arranged at one side position between the mounting frames, which is far away from the mounting frames, and the long moving device is used for long-distance displacement;

a lower die device is arranged at one side of the long moving device close to the mounting frame and used for mounting and dismounting different stamping dies;

a short-moving device is arranged between the support frames and is used for short-distance displacement;

a turning device is arranged on the short-moving device at a position close to one side of the mounting rack and used for rotating;

and a clamping device is arranged in the turnover device and is used for supporting and stabilizing the plate.

As a further improvement of the present invention, the stamping device includes an enclosing ring, the enclosing ring is fixedly connected between the fixing frames, a first hydraulic press is fixedly connected between the enclosing rings, a first moving pair is fixedly connected between the fixing frames at a position close to one side of the lower die device, a stamping frame is fixedly connected between moving members of the first moving pair, the stamping frame is connected with the moving members of the first hydraulic press, and the other side of the stamping frame is connected with the upper die device.

As a further improvement of the present invention, the upper die device includes first slot frames, the first slot frames are respectively and fixedly connected between the stamping frames at a position far from one side of the surrounding ring, the first slot frames are of a structure with a threaded hole, an upper die is arranged between the first slot frames, both sides of the position of the upper die near one side of the first slot frame are fixedly connected with first fixed blocks, the first fixed blocks are of a structure with a threaded hole, a first screw rod is screwed between the adjacent first fixed blocks and the first slot frames, and the first screw rod is matched with the threaded holes of the first fixed blocks and the first slot frames.

As a further improvement of the present invention, the long-distance moving device includes a second hydraulic device, the second hydraulic device is fixedly connected between the mounting frames at a position far from one side of the mounting frame, a connecting frame is fixedly connected between the mounting frames at a position near one side of the second hydraulic device, a second moving pair is fixedly connected to the connecting frame, a U-shaped frame is fixedly connected between the moving members of the second moving pair at a position near one side of the mounting frame, the U-shaped frame is connected with the lower die device, and the U-shaped frame is connected with the moving members of the second hydraulic device.

As a further improvement of the present invention, the lower die device includes second slot frames, the second slot frames are respectively connected to two sides of the U-shaped frame, the second slot frames are of a structure with a threaded hole, a lower die is disposed between the second slot frames, two sides of the lower die are both connected to second fixed blocks, the second fixed blocks are of a structure with a threaded hole, a second screw is screwed between each adjacent second fixed block and the second slot frame, and the second screw is matched with the threaded holes of the second fixed blocks and the second slot frames.

As a further improvement of the invention, the short-moving device comprises an extension frame, the extension frame is fixedly connected to the support frames at a position far away from one side of the mounting frame, an electric push rod is fixedly connected between the extension frames, a third moving pair is fixedly connected between the support frames, a lifting frame is connected between moving members of the third moving pair, the turnover device is arranged on the lifting frame, and the moving members of the electric push rod are connected with the lifting frame.

As a further improvement of the invention, the turnover device comprises an annular slide rail, the annular slide rail is fixedly connected to the lifting frame at a position far away from one side of the support frame, slide blocks are slidably connected to two sides in the annular slide rail, the slide blocks are connected with rotating frames respectively, mounting rings are connected between the rotating frames, the number of the mounting rings is two, the clamping devices are arranged in the mounting rings respectively, a gear ring is fixedly connected to the periphery of one mounting ring, a servo motor is fixedly connected to a position of the lifting frame near one side of the gear ring, a driving gear is connected to an output shaft of the servo motor through a coupler, and the driving gear is matched with the gear ring.

As a further improvement of the present invention, the clamping device includes a fork dividing frame, the fork dividing frame is fixedly connected to two sides of the mounting ring, two sides of the fork dividing frame are both connected with fasteners, a guide plate is disposed at a rotating member position of each adjacent fastener, the rotating members of the fasteners are both rotatably connected to the guide plates, and a guide wheel set is rotatably connected to a corresponding side position of each guide plate.

As a further improvement of the invention, a heating device is arranged at the top end of the supporting frame, the heating device is positioned between the overturning device and the punching device, the heating device comprises a heating cylinder, an annular low-power electric heating device arranged on the inner wall of the heating cylinder, an annular high-power electric heating device arranged on the inner wall of the heating cylinder and a mounting seat arranged on the outer wall of the heating cylinder, an annular mounting cavity is arranged in the mounting seat, a preheating switch circuit is arranged at the upper half part of the mounting cavity, a heating switch circuit is arranged at the lower half part of the mounting cavity, the preheating switch circuit and the heating switch circuit have the same structure, the preheating switch circuit comprises a semicircular second magnet arranged in the mounting cavity in a sliding manner, a first guide rod fixed at the right end of the second magnet through the mounting plate, an electric connecting head arranged at one end of the first guide rod far away from the mounting plate and an electric connecting seat arranged at the right end of the mounting cavity, the electric connection seat comprises two metal semi-rings, the metal semi-rings are connected with the installation seat in a sliding mode through second guide rods, the two metal semi-rings on the upper half portion of the installation cavity are respectively connected with a power supply and a low-power electric heating device through electric wires, the two metal semi-rings on the lower half portion of the installation cavity are respectively connected with the power supply and a high-power electric heating device through electric wires, reset springs are arranged between the first guide rods, the second guide rods and the installation seat, the low-power electric heating device and the high-power electric heating device are respectively made of electric heating wires with different powers, and the low-power electric heating device and the high-power electric heating device are arranged in a plurality of numbers and are evenly distributed on the inner wall of;

a telescopic electric cylinder is arranged on one side surface, close to the heating device, of the mounting ring at the right end of the turnover device, a first magnet is arranged at one end, far away from the mounting ring, of the telescopic electric cylinder, the first magnet is located inside the mounting cavity, and the first magnet and the second magnet are mutually exclusive;

the position of the installation cavity corresponding to the position between the preheating switch circuit and the heating switch circuit is a heating closing area.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the upper die and the lower die are respectively mounted and dismounted through the first screw and the second screw, so that the stamping shapes of the plates can be diversified, and the practicability and the stamping comprehensiveness of the device are improved.

2. According to the invention, the lower die and the turnover device are respectively driven by the short-moving device and the long-moving device to move downwards for different distances, so that the turnover process of the plate can be smoothly carried out, manual operation is not required, the automation degree of the turnover process of the plate can be improved, and the safety of plate stamping is improved.

3. According to the invention, the plate is arranged at the middle part of the annular slide rail, so that the plate does not need to be manually turned over, the safety on a processing table is ensured, the rotation angle can be freely controlled by driving the servo motor to rotate, and the plate can be universally stamped.

4. According to the invention, the plate is placed between the guide wheel set and the guide wheel set, and the guide wheel set is tightly attached to the plate through the fastener and the guide plate, so that the plate has stability in the processing process, the plate can be moved while having stability, and the plate does not need to be manually held in the processing process, thereby ensuring the safety.

Drawings

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

Fig. 2 is a sectional front view structure diagram of the invention.

Fig. 3 is a front view of the stamping device of the present invention.

Fig. 4 is a front view of the upper mold device of the present invention.

Fig. 5 is a schematic front view of the long-moving device of the present invention.

FIG. 6 is a front view schematically showing the structure of the lower mold device according to the present invention.

Fig. 7 is a schematic front view of the short-moving device of the present invention.

Fig. 8 is a front view of the turning device of the present invention.

Fig. 9 is a front view schematically showing the structure of a part of the clamping apparatus of the present invention.

Fig. 10 is a schematic top view of a portion of the clamping device of the present invention.

Fig. 11 is a front view schematically showing a heating apparatus according to the present invention.

Fig. 12 is a side view of the mounting base of the present invention.

In the figure: 1: mounting frame, 2: mount, 3: supporting wheel, 4: support frame, 5: press device, 6: upper die device, 7: long-moving device, 8: lower die device, 9: short-moving device, 10: turning device, 11: clamping device, 12: heating device, 51: surrounding ring, 52: first hydraulic press, 53: first sliding pair, 54: punch holder, 61: first slot carrier, 62: upper die, 63: first fixing block, 64: first screw, 71: second hydraulic device, 72: connecting frame, 73: second sliding pair, 74: u-shaped frame, 81: second slot carrier, 82: lower mold, 83: second fixed block, 84: second screw, 91: extension frame, 92: electric push rod, 93: third moving pair, 94: crane, 101: annular slide rail, 102: slider, 103: rotating frame, 104: mounting ring, 105: ring gear, 106: servo motor, 107: drive gear, 108: telescopic electric cylinder, 109: first magnet, 111: fork dividing rack, 112: fastener, 113: guide plate, 114: guide wheel set, 121: heating cartridge, 122: low-power electric heating device, 123: high-power electric heating device, 124: second magnet, 125: first guide bar, 126: electrical connector, 127: electrical connection socket, 128: a second guide bar.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below 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.

It will be understood that when an element is referred to as being "fixed," "mounted," "connected," or "disposed" to another element, it can be directly on the other element or be indirectly on the other element. It will be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships that are based on the orientations or positional relationships shown in the drawings, are used merely to facilitate description of the present invention and to simplify description, and do not indicate or imply that the referenced devices or elements must have the particular orientations, configurations and operations described in the specification, and therefore are not to be considered limiting.

As a further development of the invention, the terms "first", "second", "third", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying a number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

Referring to fig. 1-12, the present invention provides a technical solution: the stamping and overturning equipment for processing the environment-friendly new energy building board comprises an installation frame 1, wherein a stamping device 5, an upper die device 6, a long moving device 7, a lower die device 8, a short moving device 9, an overturning device 10 and a clamping device 11 are arranged on the installation frame 1;

a fixed frame 2 is fixedly connected to one side of the mounting frame 1, supporting wheels 3 are fixedly connected to two sides of the fixed frame 2, and two groups of supporting frames 4 are connected to positions, away from the fixed frame 2, of the mounting frame 1;

a stamping device 5 is arranged between the fixed frames 2, and the stamping device 5 is used for stamping the plate;

an upper die device 6 is arranged at a position, close to one side of the mounting frame 1, of the stamping device 5, and the upper die device 6 is used for mounting and dismounting different stamping dies;

a long moving device 7 is arranged between the mounting frames 1 and far away from the fixing frame 2, and the long moving device 7 is used for long-distance displacement;

a lower die device 8 is arranged at a position, close to one side of the mounting frame 1, of the long moving device 7, and the lower die device 8 is used for mounting and dismounting different stamping dies;

a short-moving device 9 is arranged between the support frames 4, and the short-moving device 9 is used for short-distance displacement;

a turning device 10 is arranged on the short-moving device 9 at a position close to one side of the mounting rack 1, and the turning device 10 is used for rotating;

a clamping device 11 is arranged in the turnover device 10, and the clamping device 11 is used for supporting and stabilizing the plate.

In some embodiments of the present invention, the punching device 5 includes surrounding rings 51, the surrounding rings 51 are fixedly connected between the fixing frames 2, first hydraulic presses 52 are fixedly connected between the surrounding rings 51, a first moving pair 53 is fixedly connected between the fixing frames 2 at a position near one side of the lower die device 8, punching frames 54 are fixedly connected between moving members of the first moving pair 53, the punching frames 54 are connected with the moving members of the first hydraulic presses 52, and the other side of the punching frame 54 is connected with the upper die device 6.

In some embodiments of the present invention, the upper die device 6 includes first slot frames 61, the first slot frames 61 are respectively and fixedly connected between the stamping frames 54 at a position far away from one side of the surrounding ring 51, the first slot frames 61 are in a structure with a threaded hole, an upper die 62 is arranged between the first slot frames 61, first fixing blocks 63 are fixedly connected to both sides of the upper die 62 at a position near one side of the first slot frame 61, the first fixing blocks 63 are in a structure with a threaded hole, first screws 64 are screwed between adjacent first fixing blocks 63 and the first slot frames 61, and the first screws 64 are matched with the threaded holes of the first fixing blocks 63 and the first slot frames 61.

In some embodiments of the present invention, the long moving device 7 includes a second hydraulic device 71, the second hydraulic device 71 is fixedly connected between the mounting frames 1 at a position far from the side of the fixing frame 2, a connecting frame 72 is fixedly connected between the mounting frames 1 at a position near to the side of the second hydraulic device 71, a second moving pair 73 is fixedly connected to the connecting frame 72, a U-shaped frame 74 is fixedly connected between the moving member of the second moving pair 73 at a position near to the side of the mounting frame 1, the U-shaped frame 74 is connected to the lower mold device 8, and the U-shaped frame 74 is connected to the moving member of the second hydraulic device 71.

In some embodiments of the present invention, the lower die device 8 includes second slot frames 81, the second slot frames 81 are respectively connected to two sides of the U-shaped frame 74, the second slot frames 81 have a structure with a threaded hole, a lower die 82 is disposed between the second slot frames 81, two sides of the lower die 82 are respectively connected to second fixing blocks 83, the second fixing blocks 83 have a structure with a threaded hole, a second screw 84 is screwed between each adjacent second fixing block 83 and the second slot frame 81, and the second screw 84 is matched with the threaded holes of the second fixing blocks 83 and the second slot frames 81.

Through adopting the mode that mould and bed die installed and dismantled through first screw rod and second screw rod respectively, can make the punching press shape of panel have the variety, improve the practicality and the higher punching press wholeness of this equipment.

In some embodiments of the present invention, the short moving device 9 includes an extension frame 91, the extension frame 91 is fixedly connected to the support frame 4 at a position far from one side of the mounting frame 1, an electric push rod 92 is fixedly connected between the extension frames 91, a third moving pair 93 is fixedly connected between the support frames 4, a lifting frame 94 is connected between moving members of the third moving pair 93, the turning device 10 is arranged on the lifting frame 94, and the moving member of the electric push rod 92 is connected to the lifting frame 94.

In some embodiments of the present invention, the turning device 10 includes an annular slide rail 101, the annular slide rail 101 is fixedly connected to a position of the lifting frame 94 far away from one side of the supporting frame 4, two sides of the inside of the annular slide rail 101 are slidably connected with sliding blocks 102, the sliding blocks 102 are both connected with rotating frames 103, mounting rings 104 are connected between the rotating frames 103, the number of the mounting rings 104 is two, the clamping devices 11 are respectively arranged in the mounting rings 104, a toothed ring 105 is fixedly connected to the outer periphery of one group of the mounting rings 104, a servo motor 106 is fixedly connected to a position of the lifting frame 94 near one side of the toothed ring 105, an output shaft of the servo motor 106 is connected with a driving gear 107 through a coupling, and the driving gear 107 is matched with the toothed ring 105.

Through adopting short device and long device of moving to drive the mode that bed die and turning device moved different distances downwards respectively, can make the upset process of panel go on smoothly, and do not need the manual work to carry out manual operation, can make the upset process automation degree of panel improve, and improved the security of panel punching press.

Through adopting and arranging panel in the position department at annular slide rail middle part, can make panel not need the manual work to overturn, not only guarantee the security at the processing bench, drive rotatory mode through servo motor moreover, can also make rotation angle free control, can carry out universal punching press to panel.

In some embodiments of the present invention, the clamping device 11 includes a fork dividing frame 111, the fork dividing frame 111 is fixedly connected to two sides of the inside of the mounting ring 104, fasteners 112 are connected to two sides of the fork dividing frame 111, a guide plate 113 is disposed at a position of a rotating member of each adjacent fastener 112, the rotating member of each fastener 112 is rotatably connected to the guide plate 113, and a guide wheel set 114 is rotatably connected to a position of a corresponding side of the guide plate 113.

Through adopting place panel and the mode between the direction wheelset to make the mode that panel was hugged closely to the direction wheelset through fastener and deflector, not only can make panel have stability in the course of working, can also remove panel when having stability, and do not need artifical handheld panel to go on in the course of working, guaranteed the security.

As a further improvement of the present invention, a heating device 12 is disposed at the top end of the supporting frame 4, the heating device 12 is located between the turnover device 10 and the stamping device 5, the heating device 12 includes a heating cylinder 121, an annular low-power electric heating device 122 disposed on the inner wall of the heating cylinder 121, an annular high-power electric heating device 123 disposed on the inner wall of the heating cylinder 121, and a mounting seat disposed on the outer wall of the heating cylinder 121, an annular mounting cavity is disposed inside the mounting seat, a preheating switch circuit is disposed on the upper half of the mounting cavity, a heating switch circuit is disposed on the lower half of the mounting cavity, the preheating switch circuit and the heating switch circuit have the same structure, the preheating switch circuit includes a second semi-annular magnet 124 slidably disposed in the mounting cavity, a first guide rod 125 fixed at the right end of the second magnet 124 through the mounting plate, an electrical connector 126 disposed at one end of the first guide rod 125 far from the mounting plate, and an electrical connector 126 slidably disposed at the right end of the The electrical connection seat 127 comprises two metal half rings, the metal half rings are slidably connected with the installation seat through a second guide rod 128, the two metal half rings on the upper half part of the installation cavity are respectively connected with a power supply and the low-power electric heating device 122 through electric wires, the two metal half rings on the lower half part of the installation cavity are respectively connected with the power supply and the high-power electric heating device 123 through electric wires, return springs are respectively arranged between the first guide rod 125 and the second guide rod 128 and the installation seat, the low-power electric heating device 122 and the high-power electric heating device 123 are respectively made of electric heating wires with different powers, and the low-power electric heating device 122 and the high-power electric heating device 123 are both provided with a plurality of electric heating wires and are uniformly distributed on the inner wall of the heating cylinder 121;

a telescopic electric cylinder 108 is arranged on one side surface, close to the heating device 12, of the mounting ring 104 at the right end of the turnover device 10, a first magnet 109 is arranged at one end, far away from the mounting ring 104, of the telescopic electric cylinder 108, the first magnet 109 is positioned in the mounting cavity, and the first magnet 109 and the second magnet 124 are arranged in a mutually exclusive manner;

the position of the installation cavity corresponding to the position between the preheating switch circuit and the heating switch circuit is a heating closing area.

The working principle is as follows: when a plate needs to be stamped and turned over, the plate can be placed in the clamping device 11 for stabilization, then the plate is pushed to the right in the clamping device 11, so that the plate enters the position between the lower die device 8 and the supporting wheel 3 group, the position, required for the first stamping, of the plate is located at the position between the upper die device 6 and the lower die device 8, then the stamping device 5 can be started, the stamping device 5 drives the upper die device 6 to move downwards, so that the upper die device 6 and the lower die device 8 can perform stamping forming on the plate, the supporting wheel 3 group can prevent the plate from deforming at two sides in the stamping process, and after the first stamping is completed, the stamping device 5 can be controlled to move upwards for resetting; when the next position of the plate needs to be reversely punched and formed, the short moving device 9 and the long moving device 7 can be started and controlled to move downwards, so as to drive the turnover device 10 and the lower die device 8 to move downwards, when the short moving device 9 and the long moving device 7 both move downwards to the end points thereof, the long moving device 7 makes the lower die device 8 move downwards to be separated from the rotation range of the turnover device 10, at the moment, the turnover device 10 can be started, so as to turn over the plate, so that the surface of the plate needing to be punched for the second time faces the upper die device 6, at the moment, the turnover device 10 can be closed, the plate can be pushed rightwards, the position of the plate needing to be punched for the second time is positioned below the upper die device 6, and then the short moving device 9 and the long moving device 7 can be controlled to move upwards to reset, so that the turnover device 10 and the lower die device 8 move upwards to reset, the lower die device 8 contacts with the plate again, and at this time, the punching device 5 can be started to punch the plate for the second time by the upper die device 6.

The first hydraulic press 52 can be activated to move the moving member of the first hydraulic press 52 downward, so as to drive the punching frame 54 to move downward through the moving member of the first moving pair 53, and thus drive the upper die device 6 to move downward to punch the sheet material.

Different types of upper dies 62 can be placed between the first slot frames 61 through the first fixed block 63, and then through the first screw 64 is right the first fixed block 63 and the first slot frames 61 are fixed, so that the upper dies 62 are fixed, and thus, the plate can be subjected to punch forming in different shapes.

After the first stamping forming is performed on the plate, the second hydraulic device 71 may be started, so that the moving member of the second hydraulic device 71 drives the U-shaped frame 74 to move downward through the moving member of the second moving pair 73, thereby driving the lower die device 8 to move downward, and making the lower die device 8 separate from the rotation range of the turnover device 10, so that the plate in the turnover device 10 can be effectively turned over without being clamped; after the plate is rotated, the second hydraulic device 71 may be controlled to move upward for resetting.

Can with go up mould 62 cooperation kind the bed die 82 pass through the second fixed block 83 place in between the second slot frame 81, then pass through the second screw 84 is right the second fixed block 83 with the second slot frame 81 is fixed, thereby makes the bed die 82 fixes, so, can carry out the stamping forming of different shapes to panel.

The electric push rod 92 can be started after the first-time punch forming of the plate, the electric push rod 92 drives the lifting frame 94 to move downwards through the moving element of the third moving pair 93, so that the turnover device 10 is driven to move downwards, and the plate in the turnover device 10 can not touch the upper die 62 in the rotating process.

When the electric push rod 92 and the second hydraulic device 71 both move downwards to the end point, the servo motor 106 can be started at this time, the servo motor 106 will drive the driving gear 107 to rotate, so as to drive the gear ring 105 to rotate, the gear ring 105 will drive the mounting ring 104 and the rotating frame 103 to rotate, so as to enable the rotating frame 103 to rotate in the annular slide rail 101 through the slider 102, so as to drive the clamping device 11 to drive the plate therein to rotate, the operation time of the servo motor 106 can be controlled, so that the plate can rotate by a required angle, and one surface of the plate, which is required to be subjected to secondary stamping forming, faces the upper die 62.

A sheet material may be placed between the guide wheel sets 114 and then the fasteners 112 may be rotated, the fasteners 112 will cause the guide wheel sets 114 to closely engage the sheet material, providing stability to the sheet material, while the sheet material may be pushed and moved by the guide wheel sets 114 to allow the sheet material to move between the upper die 62 and the lower die 82.

During the rotation process of the turnover device 10, the first magnet 109 on the telescopic electric cylinder 108 is driven to rotate to the region of the installation cavity corresponding to the preheating switch circuit from the heating closing region of the installation cavity, and slowly rotate in the region of the preheating switch circuit, at this time, the repulsive force between the first magnet 109 and the second magnet 124 pushes the first guide rod 125 and the electrical connector 126 thereon in the preheating switch circuit to move rightwards, so that the electrical connector 126 is connected with the electrical connector 127, a closed loop is formed between the power supply in the preheating switch circuit and the low-power electric heating device 122, and the low-power electric heating device 122 works to preheat the board; until the first magnet 109 on the telescopic electric cylinder 108 rotates to the region of the installation cavity corresponding to the heating switch circuit, at this time, the repulsive force between the first magnet 109 and the second magnet 124 pushes the first guide rod 125 of the heating switch circuit and the electrical connector 126 thereon to move rightwards to be connected with the electrical connector 127 in the heating switch circuit, the heating switch circuit is switched on, and then the high-power electrical heating device 123 heats the plate sufficiently, the heated plate has small deformation resistance during processing, and the obtained product has high strength; when the turning device 10 turns over the plate completely, the first magnet 109 on the telescopic electric cylinder 108 moves to the heating closing area of the installation cavity again, the second magnet 124 in the heating switch circuit and the preheating switch circuit loses the repulsive force of the first magnet 109, and under the action of the reset spring, the original position is restored, and the loop between the power supply and the electric heating device is disconnected.

To sum up, through stamping device, go up the mould device, move device, lower mould device, short cooperation that moves device, turning device and clamping device for a long time, make panel overturn fast in the course of working, can quick replacement stamping die improve the practicality, make the panel of processing need not handheld, can improve the security in the stamping process to panel, make the work step of panel punching press reduce, improve production efficiency.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an environmental protection new forms of energy building panel processing is with punching press tipping arrangement, includes mounting bracket (1), its characterized in that: the mounting frame (1) is provided with a stamping device (5), an upper die device (6), a long moving device (7), a lower die device (8), a short moving device (9), a turnover device (10) and a clamping device (11);

a fixed frame (2) is fixedly connected to one side of the mounting frame (1), supporting wheels (3) are fixedly connected to two sides of the fixed frame (2), and two groups of supporting frames (4) are connected to the position, far away from the fixed frame (2), of the mounting frame (1);

a stamping device (5) is arranged between the fixed frames (2), and the stamping device (5) is used for stamping the plate;

an upper die device (6) is arranged at one side of the stamping device (5) close to the mounting frame (1), and the upper die device (6) is used for mounting and dismounting different stamping dies;

a long moving device (7) is arranged between the mounting frames (1) and at a position far away from one side of the mounting frame (2), and the long moving device (7) is used for long-distance displacement;

a lower die device (8) is arranged at a position, close to one side of the mounting frame (1), of the long moving device (7), and the lower die device (8) is used for mounting and dismounting different stamping dies;

a short-moving device (9) is arranged between the support frames (4), and the short-moving device (9) is used for short-distance displacement;

a turning device (10) is arranged on the short-moving device (9) at a position close to one side of the mounting rack (1), and the turning device (10) is used for rotating;

and a clamping device (11) is arranged in the turnover device (10), and the clamping device (11) is used for supporting and stabilizing the plate.

2. The stamping and overturning device for processing the environment-friendly new energy building board as claimed in claim 1, wherein: stamping device (5) are including surrounding ring (51), surrounding ring (51) fixed connection in between mount (2), first hydraulic press (52) of fixedly connected with between surrounding ring (51), nearly between mount (2) lower mould device (8) one side position department fixedly connected with first sliding pair (53), fixedly connected with punching press frame (54) between the moving member of first sliding pair (53), punching press frame (54) with the moving member of first hydraulic press (52) is connected, punching press frame (54) opposite side with go up die set (6) and be connected.

3. The stamping and overturning device for processing the environment-friendly new energy building board as claimed in claim 2, wherein: go up mould device (6) including first slot frame (61), first slot frame (61) fixed connection respectively is in keep away from between punching press frame (54) surround ring (51) one side position department, first slot frame (61) is for having the structure of screw hole, be equipped with mould (62) between first slot frame (61), it is nearly to go up mould (62) the equal fixedly connected with first fixed block (63) in both sides of first slot frame (61) one side position department, first fixed block (63) are for having the structure of screw hole, and are adjacent first fixed block (63) with first screw rod (64) have all been revolved between first slot frame (61), first screw rod (64) with the screw hole cooperation of first fixed block (63) and first slot frame (61).

4. The stamping and overturning device for processing the environment-friendly new energy building board as claimed in claim 1, wherein: long move device (7) including second hydraulic apparatus (71), second hydraulic apparatus (71) fixed connection in keep away from between mounting bracket (1) mount (2) one side position department, it is nearly between mounting bracket (1) second hydraulic apparatus (71) one side position department fixedly connected with link (72), fixedly connected with second removes vice (73) on link (72), the moving member of second removes vice (73) is nearly fixedly connected with U-shaped frame (74) between mounting bracket (1) one side position department, U-shaped frame (74) with lower mould device (8) are connected, U-shaped frame (74) with the moving member of second hydraulic apparatus (71) is connected.

5. The stamping and overturning device for processing the environment-friendly new energy building board as claimed in claim 4, wherein: lower mould device (8) are including second slot frame (81), second slot frame (81) are connected respectively U-shaped frame (74) both sides, second slot frame (81) are for having the structure of screw hole, be equipped with bed die (82) between second slot frame (81), bed die (82) both sides all are connected with second fixed block (83), second fixed block (83) are for having the structure of screw hole, and are adjacent second fixed block (83) with all having second screw rod (84) soon between second slot frame (81), second screw rod (84) with the screw hole cooperation of second fixed block (83) and second slot frame (81).

6. The stamping and overturning device for processing the environment-friendly new energy building board as claimed in claim 1, wherein: move device (9) for a short time including extension frame (91), extension frame (91) fixed connection is in keeping away from mounting bracket (1) one side position department on support frame (4), fixedly connected with electric putter (92) between extension frame (91), fixedly connected with third removal vice (93) between support frame (4), be connected with crane (94) between the moving member of third removal vice (93), turning device (10) are located on crane (94), the moving member of electric putter (92) with crane (94) are connected.

7. The stamping and overturning device for processing the environment-friendly new energy building board as claimed in claim 6, wherein: the turnover device (10) comprises an annular slide rail (101), the annular slide rail (101) is fixedly connected to one side position of the lifting frame (94) far away from the support frame (4), the two sides in the annular slide rail (101) are connected with slide blocks (102) in a sliding way, the slide blocks (102) are connected with rotating frames (103), mounting rings (104) are connected between the rotating frames (103), the number of the mounting rings (104) is two, the clamping devices (11) are arranged in the mounting rings (104), the peripheries of a group of the mounting rings (104) are fixedly connected with toothed rings (105), a servo motor (106) is fixedly connected at the position of the lifting frame (94) close to one side of the gear ring (105), the output shaft of the servo motor (106) is connected with a driving gear (107) through a coupler, and the driving gear (107) is matched with the gear ring (105).

8. The stamping and overturning device for processing the environment-friendly new energy building board as claimed in claim 7, wherein: clamping device (11) are including dividing crotch (111), divide crotch (111) respectively fixed connection in both sides in collar (104), divide crotch (111) both sides all to be connected with fastener (112), and is adjacent the rotating member position department of fastener (112) all is equipped with deflector (113), the equal rotary type of rotating member of fastener (112) is connected on deflector (113), the equal rotary type in one side position department that deflector (113) correspond is connected with guide wheel group (114).

9. The stamping and overturning device for processing the environment-friendly new energy building board as claimed in claim 7, wherein: the heating device (12) is arranged at the top end of the support frame (4), the heating device (12) is located between the turnover device (10) and the punching device (5), the heating device (12) comprises a heating cylinder (121), an annular low-power electric heating device (122) arranged on the inner wall of the heating cylinder (121), an annular high-power electric heating device (123) arranged on the inner wall of the heating cylinder (121) and a mounting seat arranged on the outer wall of the heating cylinder (121), an annular mounting cavity is formed in the mounting seat, a preheating switch circuit is arranged on the upper half part of the mounting cavity, a heating switch circuit is arranged on the lower half part of the mounting cavity, the preheating switch circuit and the heating switch circuit are identical in structure, the preheating switch circuit comprises a semi-annular second magnet (124) arranged in the mounting cavity in a sliding mode, and a first guide rod (125) fixed at the right end of the second magnet (124) through a mounting plate, The electric connection seat (127) is arranged at one end of the first guide rod (125) far away from the mounting plate, the electric connection seat (126) is slidably arranged at the right end of the mounting cavity, the electric connection seat (127) comprises two metal half rings, the metal half rings are slidably connected with the mounting seat through a second guide rod (128), the two metal half rings at the upper half part of the mounting cavity are respectively connected with a power supply and a low-power electric heating device (122) through electric wires, the two metal half rings at the lower half part of the mounting cavity are respectively connected with the power supply and a high-power electric heating device (123) through electric wires, return springs are respectively arranged between the first guide rod (125) and the mounting seat and between the second guide rod (128) and the mounting seat, the low-power electric heating device (122) and the high-power electric heating device (123) are respectively made of heating wires with different powers, and a plurality of low-power electric heating devices (122) and high-power, and are uniformly distributed on the inner wall of the heating cylinder (121);

a telescopic electric cylinder (108) is arranged on one side surface, close to the heating device (12), of the mounting ring (104) at the right end of the turnover device (10), a first magnet (109) is arranged at one end, far away from the mounting ring (104), of the telescopic electric cylinder (108), the first magnet (109) is located inside the mounting cavity, and mutual exclusion is arranged between the first magnet (109) and the second magnet (124);

the position of the installation cavity corresponding to the position between the preheating switch circuit and the heating switch circuit is a heating closing area.

Images