CN111872238A - Scooter face material equipment of bending - Google Patents

Abstract

The invention discloses a scooter plate material bending device, which comprises a workbench, a bearing frame, a pressing component, a hot bending component and a feeding component, wherein the bearing frame is fixed above the left side of the workbench, a lifting arm is connected below the top of the bearing frame, an upper pressing die is connected at the bottom of a heat-resistant plate, a wet heating box is arranged in the middle of the hot bending component, a power wheel set is arranged at the bottom of the feeding component, a high-temperature steam kettle is arranged on the left side of the workbench, the scooter plate material bending device can realize the pressing and bending of plates through the pressing component, the high-temperature steam kettle is adopted in a main framework to supply high-temperature steam to the interior of the wet heating box, compared with the common heating processing of the plates by an electric heating metal block or other heating components, the high-temperature steam can enable the plates to be heated to generate plasticity, and simultaneously, the water in the high-, the plate is prevented from being broken when being subjected to hot bending treatment.

Description

Scooter face material equipment of bending

Technical Field

The invention relates to the technical field of plate bending treatment, in particular to a scooter plate surface material bending device.

Background

The skateboard project is a nasal ancestor of the history of extreme sports, a plurality of extreme sports projects are extended from the skateboard project, the skateboard sports evolved from surfing in the late 60 s in the 20 th century becomes the coolest sports on the earth, the skateboard sports are very skillful, and the skateboarders have invented a plurality of new actions so far.

The scooter face material on market chooses for use a panel for most when chooseing for use, and current slide simple structure, most slide all are a face, or constitute by two relative gliding faces, can not satisfy smooth hand people to the requirement of slide skill and the interesting increase of amusement to influence the performance of operating personnel technique, consequently, we provide a scooter face material equipment of bending.

Disclosure of Invention

The invention aims to provide a scooter board material bending device, which aims to solve the problems that the prior art provides a scooter board material bending device for a scooter, most of which adopt one board when the scooter board materials on the market are selected, the prior art is simple in structure, most of sliding boards are one board or consist of two boards which can slide relatively, the requirements of skaters on the skill of the scooter cannot be met, and the entertainment interest is increased, so that the performance of the technology of operators is influenced, and the scooter board material bending device is provided.

In order to achieve the purpose, the invention provides the following technical scheme: a scooter plate surface material bending device comprises a workbench, a bearing frame, a pressing component, a hot bending component and a feeding component, a bearing frame is fixed above the left side of the workbench, a lifting arm is arranged above the pressing component, and the pressing component is positioned below the bearing frame and comprises a lifting arm, a heat-resistant plate, an upper pressing die, a movable die, a bevel block, a hydraulic push rod and a limiting groove, the lifting arm is connected below the top of the bearing frame, the bottom end of the lifting arm is connected with a heat-resistant plate, the bottom of the heat-resistant plate is connected with an upper pressing die, the middle part of the hot bending component is provided with a wet heat box, the hot bending component is positioned above the middle part of the workbench, the bottom of the feeding component is provided with a power wheel set, and the feeding assembly is positioned on the right side of the workbench, the left side of the workbench is provided with a high-temperature steam kettle, and the top end of the high-temperature steam kettle is connected with a heat-resistant hose.

Preferably, the limiting groove is installed to the inboard bottom of workstation, and the limiting groove is provided with two, two limiting grooves are symmetrical about the vertical central line of workstation, the inside of limiting groove transversely is provided with hydraulic rod, and hydraulic rod's end connection has the bevel piece, be provided with movable mould between two bevel pieces.

Preferably, the workbench and the bearing frame are welded, the lifting arm, the bearing frame and the heat-resistant plate are connected through bolts to form a detachable structure, and the heat-resistant plate and the upper pressing die are of an integrated structure.

Preferably, formula structure as an organic whole between spacing groove and the workstation, and all pass through bolted connection between hydraulic push rod and spacing groove and the inclined plane piece, constitute detachable construction, be sliding connection between inclined plane piece and the movable mould, constitute movable structure.

Preferably, the curved subassembly of heat includes wet hot box, last pressure hole, steam hole, ends the position circle, pushes down nib, door slot, drive hole, insulated gate, meshing tooth, driving motor and drive gear, the top middle part of workstation is provided with wet hot box, and the top of wet hot box runs through and is provided with the pressure hole, both sides all are provided with the steam hole around the left side middle part of wet hot box, and the inboard bottom of wet hot box is provided with ends the position circle, the below of ending the position circle runs through and is provided with down the nib, both sides are all vertically put and are provided with the door slot around the right-hand of wet hot box, and the top of front side door slot runs through and is provided with the drive hole, the inside in door slot is provided with the insulated gate, and the front side of insulated gate is provided with the meshing tooth, driving motor is installed in the outside upper right side of wet hot box, and driving motor's output is connected.

Preferably, the driving gear penetrates through a driving hole above the door slot to be meshed with meshing teeth on the front side of the isolation door, and the right end of the heat-resistant hose is connected with a steam hole on the left side of the wet heat box.

Preferably, be the integral type structure between damp heat box and last pressure hole, steam hole, stop position circle, the die hole of pushing down, gate slot and the drive hole, isolation door and meshing tooth formula structure as an organic whole, driving motor is connected with damp heat box through the bolt, constitutes detachable construction, heat-resisting hose is connected with the steam hole through the screw.

Preferably, the feeding subassembly includes power wheelset, ejector pad, integrates the frame, pre-position board, right angle card and ejector pad lead to the groove, the outside surface mounting of power wheelset has ejector pad, the top of power wheelset is provided with the integration frame, the bottom of integrating the frame is connected with pre-position board, and integrates four interior angular points of frame and all is provided with the right angle card, the middle part of integrating the frame transversely runs through and is provided with the ejector pad and leads to the groove.

Preferably, the power wheel set and the pushing piece are welded, the integrated frame, the pre-positioning plate, the right-angle clamp and the pushing through groove are of an integrated structure, and the pushing piece and the pushing through groove are movably connected to form a movable structure.

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

1. according to the invention, the high-temperature steam kettle is adopted to supply high-temperature steam to the interior of the wet and hot box, and compared with the common method which is beneficial to heating the plate by an electric heating metal block or other heating components, the high-temperature steam can enable the plate to be heated to generate plasticity, meanwhile, the water in the high-temperature steam can improve the toughness of the plate, and the plate is prevented from being broken when being subjected to hot bending treatment.

2. The heat-resisting device is arranged between the lifting arm and the upper pressing die, so that when the lifting arm penetrates out and drives the upper pressing die at the bottom to descend, the area of the lifting arm entering the interior of the wet and hot box is reduced, and the lifting arm is prevented from being influenced by a high-temperature and high-humidity environment.

3. The left side of the damp and hot box in the hot bending assembly is provided with the two steam holes, so that high-temperature steam in the high-temperature steam kettle can be uniformly heated when being transmitted to the inside of the damp and hot box through the internal hot hose, and the situations of cracks and breakage during bending caused by nonuniform heating of plates are prevented.

4. The hot bending assembly is provided with the wet heat box, the isolation door and other assemblies, so that high-temperature steam transmitted in the high-temperature steam kettle can be effectively isolated, meanwhile, the high-temperature steam can be effectively limited in the wet heat box, the influence of high-temperature steam diffusion on workers and a precise structure is prevented, and the safety and the economical efficiency of equipment are improved.

5. The feeding assembly is provided with the power wheel set and the pushing piece block, the pushing piece block can continuously move along the pushing piece through the left side and the right side through the rotation of the power wheel set, and the plate on the upper surface of the pre-positioning plate is pushed to the inner side of the stop ring in the wet and hot box, so that the automatic feeding and limiting of the workpiece are completed.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of a pressing assembly according to the present invention;

FIG. 3 is a schematic view of a hot-bending assembly according to the present invention;

FIG. 4 is a schematic diagram of a portion of the feed hot-bending assembly of the present invention;

FIG. 5 is a schematic view of a feed assembly of the present invention;

FIG. 6 is a schematic diagram of a multi-component mating structure of the present invention.

In the figure: 1. a work table; 2. a carrier; 3. pressing the components; 301. a lifting arm; 302. a heat-resistant plate; 303. pressing the die upwards; 304. a movable mold; 305. a bevel block; 306. a hydraulic push rod; 307. a limiting groove; 4. a hot bending assembly; 401. a wet and hot box; 402. pressing the hole upwards; 403. a steam vent; 404. a stop ring; 405. pressing down the die hole; 406. a door slot; 407. a drive aperture; 408. an isolation gate; 409. meshing teeth; 410. a drive motor; 411. a drive gear; 5. a feed assembly; 501. a power wheel set; 502. a pushing block; 503. an integration frame; 504. a preposition plate; 505. a right-angle card; 506. a pushing piece through groove; 6. a high-temperature steam kettle; 7. a heat-resistant hose.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides the following technical solutions: the utility model provides a scooter face material equipment of bending, comprises a workbench 1, bear frame 2, pressing components 3, 4 and feeding components 5 of hot-bending subassembly, the left side top of workstation 1 is fixed with bears frame 2, pressing components 3's top is provided with lift arm 301, and pressing components 3 is located the below that bears frame 2, pressing components 3 includes lift arm 301, heat-resisting board 302, go up moulding-die utensil 303, movable mould 304, sloping block 305, hydraulic push rod 306 and spacing groove 307, the top below that bears frame 2 is connected with lift arm 301, and lift arm 301's bottom is connected with heat-resisting board 302, heat-resisting board 302 bottom is connected with last moulding-die utensil 303.

Limiting groove 307 is installed to the inboard bottom of workstation 1, and limiting groove 307 is provided with two, and two limiting groove 307 are symmetrical about the vertical central line of workstation 1, and the inside of limiting groove 307 transversely is provided with hydraulic ram 306, and hydraulic ram 306's end connection has bevel block 305, is provided with movable mould 304 between two bevel block 305.

The workbench 1 and the bearing frame 2 are welded, the lifting arm 301, the bearing frame 2 and the heat-resistant plate 302 are all connected through bolts to form a detachable structure, and the heat-resistant plate 302 and the upper pressing die 303 are in an integrated structure.

The limiting groove 307 and the workbench 1 are of an integrated structure, the hydraulic push rod 306, the limiting groove 307 and the inclined plane block 305 are connected through bolts to form a detachable structure, and the inclined plane block 305 and the movable mold 304 are in sliding connection to form a movable structure.

Be provided with heat-resistant board 302 between lifing arm 301 and the last moulding-die utensil 303, be favorable to wearing out and driving the last moulding-die utensil 303 decline of bottom when lifing arm 301, reduce lifing arm 301 and enter into the inside area of damp and hot case 401, prevent that the high temperature and high humidity environment from producing the influence to lifing arm 301.

The middle part of the hot bending component 4 is provided with a hot-wet box 401, the hot bending component 4 is positioned above the middle part of the workbench 1, the hot bending component 4 comprises a hot-wet box 401, an upper pressure hole 402, a steam hole 403, a stop ring 404, a lower pressure die hole 405, a door slot 406, a driving hole 407, an isolation door 408, meshing teeth 409, a driving motor 410 and a driving gear 411, the middle part above the workbench 1 is provided with the hot-wet box 401, the upper pressure hole 402 is arranged above the hot-wet box 401 in a penetrating manner, the front side and the rear side of the left middle part of the hot-wet box 401 are provided with the steam holes 403, the bottom of the inner side of the hot-wet box 401 is provided with the stop ring 404, the lower pressure die hole 405 is arranged below the stop ring 404 in a penetrating manner, the front side and the rear side of the right side of the hot-wet box 401 are both vertically provided with the door slots 406, the driving hole 407 is arranged above the front side door slot 406 in a, a driving motor 410 is installed at the upper right outside the wet heat box 401, and the output end of the driving motor 410 is connected with a driving gear 411.

The driving gear 411 passes through a driving hole 407 above the door slot 406 to be meshed with meshing teeth 409 at the front side of the isolation door 408, and the right end of the heat-resistant hose 7 is connected with a steam hole 403 at the left side of the wet heat box 401.

The wet and hot box 401, the upper pressure hole 402, the steam hole 403, the stop ring 404, the lower pressure die hole 405, the door slot 406 and the driving hole 407 are all of an integrated structure, the isolation door 408 and the meshing teeth 409 are of an integrated structure, the driving motor 410 is connected with the wet and hot box 401 through bolts to form a detachable structure, and the heat-resistant hose 7 is connected with the steam hole 403 through threads.

The left side of the damp and hot box 401 in the hot bending component 4 is provided with two steam holes 403, so that the workpiece can be heated more uniformly when high-temperature steam in the high-temperature steam kettle 6 is conveyed to the inside of the damp and hot box 401 through the heat-resistant hose 7, and the situation that the plate is cracked when being heated unevenly and cracked due to cracking and bending is prevented.

The hot bent assembly 4 is provided with assemblies such as a hot wet box 401 and an isolation door 408, can effectively isolate high-temperature steam conveyed in the high-temperature steam kettle 6, can effectively limit the high-temperature steam in the hot wet box 401, prevents that high-temperature steam from diffusing and causing influences on workers and precise structures, and improves the safety and the economical efficiency of equipment.

The bottom of feeding subassembly 5 is provided with power wheel set 501, and feeding subassembly 5 is located the right side of workstation 1, feeding subassembly 5 includes power wheel set 501, ejector pad 502, integrate frame 503, pre-positioning plate 504, right angle card 505 and ejector pad lead to groove 506, the outside surface mounting of power wheel set 501 has ejector pad 502, power wheel set 501's top is provided with integration frame 503, the bottom of integration frame 503 is connected with pre-positioning plate 504, and the four interior angular points of integration frame 503 all are provided with right angle card 505, the middle part of integration frame 503 transversely runs through and is provided with ejector pad lead to groove 506.

The power wheel set 501 and the pushing piece block 502 are welded, the integrated frame 503, the pre-positioning plate 504, the right-angle card 505 and the pushing piece through groove 506 are all of an integrated structure, and the pushing piece block 502 and the pushing piece through groove 506 are movably connected to form a movable structure.

The feeding assembly 5 is provided with a power wheel set 501 and a pushing block 502, the pushing block 502 can continuously move from the right side to the left side along a pushing through groove 506 through the rotation of the power wheel set 501, and the plate on the upper surface of the pre-positioning plate 504 is pushed to the inner side of a stop ring 404 inside the wet heat box 401, so that the automatic feeding and limiting of the workpiece are completed.

The left side of workstation 1 is provided with high-temperature steam cauldron 6, and the top of high-temperature steam cauldron 6 is connected with heat-resisting hose 7, adopt high-temperature steam cauldron 6 to supply with high-temperature steam to wet heat box 401 inside in the main framework, do benefit to electric heat metal block or other heating element for common and carry out heat treatment to panel, high-temperature steam can make panel be heated and produce plasticity, moisture in the high-temperature steam can improve the toughness of panel simultaneously, avoid panel breaking when carrying out the hot-bending treatment.

The working principle is as follows: when the bending device for the board material of the scooter is used, firstly, a power circuit of the whole device is switched on, processed boards are sequentially layered and put into the right-angle card 505 in the feeding assembly 5, so that the boards are stacked and integrated on the inner sides of the frame 503 and the right-angle card 505 and are stopped on the pre-positioning plate 504, then, a power source of the power wheel set 501 is switched on, the power wheel set 501 starts to operate and drives the pushing piece block 502 on the outer side to move anticlockwise along with the surface of the power wheel set 501, when the pushing piece block 502 rotates to the right upper side of the power wheel set 501, the pushing piece block 502 starts to be embedded with the pushing piece through groove 506, and a first workpiece above the pre-positioning plate 504 at the bottom of the integrated frame 503 is pushed to the wet heat box 401.

When a first workpiece moves to the interior of the wet and hot box 401 from the interior of the pushing through groove 506, the left end of the workpiece abuts against the stop ring 404 and is separated from the pushing through groove 506, and drops into the lower die pressing hole 405 below the stop ring 404, at this time, the driving motor 410 starts to operate and drives the driving gear 411 at the output end to rotate, the driving gear 411 passes through the driving hole 407 windward of the door groove 406 and is meshed with the meshing teeth 409 at the front side of the isolation door 408, and the isolation door 408 gradually descends along the door grooves 406 under the driving of the driving gear 411 until the isolation door 408 completely seals the right side of the wet and hot box 401.

At this time, the switch of the high-temperature steam kettle 6 is turned on, the high-temperature steam is conveyed along the heat-resistant hose 7 to the interior of the hot-wet box 401, the hot bending pretreatment of the workpiece is started, the temperature of the workpiece rises continuously, and simultaneously, the moisture in the high-temperature steam is partially absorbed by the workpiece, so that the toughness and plasticity of the workpiece are enhanced.

And then, adjusting the lifting arm 301 to extend out, so as to drive the heat-resisting block 302 at the bottom and the upper pressing die 303 to descend through the upper pressing hole 402 until the upper pressing die 303 completely contacts the upper surface of the workpiece, continuously applying pressure on the surface of the workpiece until the workpiece completely passes through the lower pressing hole 405 at the bottom of the sub-taenia jade wet-hot box 401, completing the hot bending treatment on the plate by matching with a specific radian at the bottom of the lower pressing hole 405, adjusting the hydraulic push rod 306 to extend out and drive the inclined plane blocks 305 at the end part to relatively gather after the workpiece is subjected to the hot bending treatment and is shaped, at the moment, the movable die 304 gradually rises under the extrusion action of the two inclined plane blocks 305 at the bottom, and ejecting the finally-formed material out of the lower pressing hole 405.

Then, the high-temperature steam kettle 6 stops conveying the high-temperature steam in the wet and hot box 401, meanwhile, the driving motor 410 rotates reversely, the driving gear 411 drives the isolation door 408 to move upwards along the vertical direction of the door slot 406 until the isolation door 408 resets, and then an operator can take out the workpiece after the bending is finished.

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 a scooter face material equipment of bending, includes workstation (1), bears frame (2), pressfitting subassembly (3), hot-bending subassembly (4) and feeding subassembly (5), its characterized in that: a bearing frame (2) is fixed above the left side of the workbench (1), a lifting arm (301) is arranged above the pressing component (3), the pressing component (3) is located below the bearing frame (2), the pressing component (3) comprises the lifting arm (301), a heat-resistant plate (302), an upper pressing die (303), a movable die (304), an inclined plane block (305), a hydraulic push rod (306) and a limiting groove (307), the lifting arm (301) is connected below the top of the bearing frame (2), the heat-resistant plate (302) is connected to the bottom end of the lifting arm (301), the upper pressing die (303) is connected to the bottom of the heat-resistant plate (302), a wet heat box (401) is arranged in the middle of the hot bending component (4), the hot bending component (4) is located above the middle of the workbench (1), a power wheel set (501) is arranged at the bottom of the feeding component (5), and the feeding component (5) is positioned on the right side of the workbench (1), the left side of the workbench (1) is provided with a high-temperature steam kettle (6), and the top end of the high-temperature steam kettle (6) is connected with a heat-resistant hose (7).

2. The apparatus of claim 1, wherein: limiting groove (307) are installed to the inboard bottom of workstation (1), and limiting groove (307) are provided with two, two limiting groove (307) are symmetrical about the vertical central line of workstation (1), the inside of limiting groove (307) transversely is provided with hydraulic push rod (306), and the end connection of hydraulic push rod (306) has bevel block (305), be provided with movable mould (304) between two bevel blocks (305).

3. The apparatus of claim 1, wherein: for the welding between workstation (1) and the bearing frame (2), be bolted connection between lift arm (301) and bearing frame (2) and heat-resisting board (302), constitute detachable construction, formula structure as an organic whole between heat-resisting board (302) and last compression mold (303).

4. The apparatus of claim 2, wherein: formula structure as an organic whole between spacing groove (307) and workstation (1), and all pass through bolted connection between hydraulic ram (306) and spacing groove (307) and inclined plane piece (305), constitute detachable construction, be sliding connection between inclined plane piece (305) and movable mould (304), constitute movable structure.

5. The apparatus of claim 1, wherein: the hot bending component (4) comprises a hot-wet box (401), an upper pressing hole (402), a steam hole (403), a stop ring (404), a lower pressing die hole (405), a door groove (406), a driving hole (407), an isolation door (408), meshing teeth (409), a driving (410) and a driving gear (411), the hot-wet box (401) is arranged in the middle of the upper portion of the workbench (1), the upper pressing hole (402) penetrates through the upper portion of the hot-wet box (401), the steam holes (403) are arranged on the front side and the rear side of the middle portion of the left side of the hot-wet box (401), the stop ring (404) is arranged at the bottom of the inner side of the hot-wet box (401), the lower pressing die hole (405) penetrates through the lower portion of the stop ring (404), the door grooves (406) are vertically arranged on the front side and the rear side of the right side of the hot-wet box (401), and the driving hole (407), the inside of door slot (406) is provided with dodge gate (408), and the front side of dodge gate (408) is provided with meshing tooth (409), driving motor (410) are installed to the outside upper right side of damp and hot case (401), and driving motor's (410) output is connected with drive gear (411).

6. The apparatus of claim 5, wherein: the driving gear (411) penetrates through a driving hole (407) above the door slot (406) to be meshed with meshing teeth (409) on the front side of the isolation door (408), and the right end of the heat-resistant hose (7) is connected with a steam hole (403) on the left side of the wet heat box (401).

7. The apparatus of claim 5, wherein: the steam-hot box is characterized in that the wet-hot box (401), the upper pressure hole (402), the steam hole (403), the stop ring (404), the lower pressure die hole (405), the door slot (406) and the driving hole (407) are integrated, the isolation door (408) and the meshing teeth (409) are integrated, the driving motor (410) is connected with the wet-hot box (401) through bolts to form a detachable structure, and the heat-resistant hose (7) is connected with the steam hole (403) through threads.

8. The apparatus of claim 1, wherein: feeding subassembly (5) include power wheelset (501), ejector pad (502), integration frame (503), advance location board (504), right angle card (505) and ejector pad through groove (506), the outside surface mounting of power wheelset (501) has ejector pad (502), the top of power wheelset (501) is provided with integration frame (503), the bottom of integration frame (503) is connected with advances location board (504), and the four interior angular points of integration frame (503) all are provided with right angle card (505), the middle part of integration frame (503) transversely runs through and is provided with ejector pad through groove (506).

9. The apparatus of claim 8, wherein: the power wheel set (501) and the pushing piece block (502) are welded, all the integrated frame (503), the pre-positioning plate (504), the right-angle clamp (505) and the pushing piece through groove (506) are of an integrated structure, and the pushing piece block (502) and the pushing piece through groove (506) are movably connected to form a movable structure.

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