CN113399577B - Full-automatic pneumatic system feeding equipment - Google Patents

Abstract

The invention discloses a full-automatic pneumatic system feeding device, which structurally comprises a transmission platform, a support frame and a driver, wherein the driver is arranged at the position close to the rear end of the side of the transmission platform, the bottom of the transmission platform is welded with the top of the support frame, when the bearing plate on the clapboard rotates to the position right below the transmission platform, the bearing plate can slide downwards along the power strip through the gravity of the impact ball, thereby leading the impact ball to generate impact vibration on the inner wall of the power strip, leading part of the magnet scraps attached to the surface of the power strip to fall off, effectively avoiding the condition that the magnet scraps are attached to the outer surface of the clapboard, the swinging plate can be quickly contracted along the bearing plate under the matching of the connecting and fixing plate through the quick pulling of the elastic strip to the swinging plate, thereby enabling the top of the swing plate to impact the bottom of the carrier plate and the resulting vibration to direct magnet debris on the swing plate into the interior of the pass-through chamber.

Description

Full-automatic pneumatic system feeding equipment

Technical Field

The invention relates to the field of air pressure systems, in particular to a feeding device of a full-automatic air pressure system.

Background

Full-automatic atmospheric pressure press pay-off is used for carrying out the equipment of pay-off to full-automatic atmospheric pressure press mainly, place on the conveyer belt of full-automatic atmospheric pressure press pay-off through treating the pressurized part, bottom by the lower depression bar of conveyer belt conveying to the press when the part, then can make the lower depression bar pressurize the part, if full-automatic atmospheric pressure press pay-off is conveying the part that needs installation permanent magnet, through placing permanent magnet at the top of part draw-in groove, press permanent magnet inside the part draw-in groove through the push down of press again, based on the discovery of the inventor of the above-mentioned description, the present full-automatic atmospheric pressure system pay-off equipment mainly has following not enoughly, for example:

because the draw-in groove inboard of part need closely laminate with permanent magnet, if permanent magnet's diameter is greater than the draw-in groove of part, after pushing down the depression bar through the press and impressing, then the permanent magnet avris can appear and drop on the conveyer belt of magnet piece to full-automatic atmospheric pressure press feeder, if the conveyer belt of full-automatic atmospheric pressure press feeder is steel, then can make the magnet piece adsorb and be difficult to get rid of on the conveyer belt surface, long-time accumulation then can make the surface of conveying the condition of unevenness appear.

Disclosure of Invention

Aiming at the problems, the invention provides a full-automatic pneumatic system feeding device.

In order to realize the purpose, the invention is realized by the following technical scheme: a full-automatic pneumatic system feeding device structurally comprises a transmission table, a support frame and a driver, wherein the driver is arranged at the position close to the rear end of the side of the transmission table, and the bottom of the transmission table is welded with the top of the support frame; the conveying table comprises a partition plate, a conveying belt and a linkage frame, the inner side of the conveying belt is movably clamped with the linkage frame, and the linkage frame is fixed at the inner side position of the partition plate.

As a further optimization of the invention, the conveyor belt comprises a bearing plate, impact balls and a power strip, wherein the inner side of the bearing plate is attached to the outer surface of the power strip, the impact balls are arranged in the inner position of the power strip, and the impact balls are made of alloy steel with higher density.

As a further optimization of the invention, the bearing plate comprises a top plate, a pull-back strip, a vibrating block, a lower sliding plate and connecting blocks, wherein the pull-back strip is fixed between the top of the connecting block and the inner wall of the top plate, the top of the vibrating block is attached to the bottom of the top plate, the upper surface of the lower sliding plate is connected with the bottom of the connecting block, the edge side of the connecting block is movably clamped with the inside of the top plate, seven vibrating blocks are arranged, and the seven vibrating blocks are uniformly distributed at the bottom of the top plate in parallel.

As a further optimization of the invention, the lower sliding plate comprises a top connection plate, an elastic strip, a swinging plate and a connection and fixation plate, the elastic strip is arranged at the top of the swinging plate and at the bottom of the inner wall of the top connection plate, the swinging plate is hinged with the bottom of the connection and fixation plate, the side edge of the connection and the inner wall of the top connection plate are movably clamped, and the connection and fixation plate can slide downwards along the top connection plate by the inertia force generated by the downward extension of the mechanism.

As a further optimization of the invention, the swinging plate comprises a fixed block, two collision blocks and two through cavities, wherein the collision blocks are arranged on the inner wall of the fixed block, the through cavities penetrate through the inner position of the fixed block, and the two through cavities are uniformly and symmetrically distributed in the fixed block.

As a further optimization of the present invention, the through cavity includes a frame, an inner block, a movable block, and an inner contact surface, the inner block is embedded in the inner position of the inner contact surface, the movable block is mounted in the inner position of the frame, the inner contact surface is attached to the inner wall of the frame, and the inner contact surface is made of plastic.

As a further optimization of the invention, the built-in block comprises a deformation strip, an elastic strip, a fixed plate and two lower swing plates, wherein the deformation strip is fixed between the two lower swing plates, the elastic strip is arranged between the side edge of the fixed plate and the inner side of the lower swing plates, the lower swing plates are hinged with the top of the fixed plate, and the two lower swing plates are uniformly and symmetrically distributed on the top of the fixed plate.

As a further optimization of the invention, the lower swing plate comprises a stress plate, a bottom connecting plate and striking strips, the bottom of the stress plate is attached to the upper surface of the bottom connecting plate, the striking strips are fixed at the position of the upper surface of the bottom connecting plate, six striking strips are arranged, and three striking strips are uniformly distributed at the top of the bottom connecting plate in a group and are symmetrically distributed.

The invention has the following beneficial effects:

1. when the loading board on the baffle rotates under to the transmission platform, through the gravity of impact ball self, can slide downwards along the power strip to make the impact ball can produce the striking vibration to the inner wall of power strip, thereby make the partial magnet piece of power strip surface adhesion can drop, the effectual condition of avoiding the magnet piece to adhere to at the baffle surface.

2. Drag through the elasticity strip to the quick of swing board production, can make the swing board contract along the loading board fast under the cooperation of even solid board to make the top of swing board can strike mutually with the bottom of loading board, thereby the vibration that makes the production can lead to the leading-in inside that runs through the chamber of the magnet piece on the swing board, the effectual remaining partial magnet piece that has avoided the lower slide can get into between swing board and the loading board and attached to the condition at swing board upper surface.

Drawings

Fig. 1 is a schematic structural diagram of a feeding device of a full-automatic pneumatic system according to the present invention.

Fig. 2 is a schematic side perspective structural view of the transfer station of the present invention.

FIG. 3 is a schematic side view of a portion of a conveyor belt according to the invention.

FIG. 4 is a schematic side view of the carrier plate according to the present invention.

FIG. 5 is a side view of a semi-sectional structure of the lower slide plate of the present invention.

FIG. 6 is a side view of the swing plate of the present invention.

FIG. 7 is a schematic structural view of a through-cavity side-view cross-sectional device of the present invention.

FIG. 8 is a side view of a half-section of the present invention.

FIG. 9 is a side view of the wobble plate of the present invention.

In the figure: the device comprises a conveying table-1, a supporting frame-2, a driver-3, a partition plate-11, a conveying belt-12, a linkage frame-13, a bearing plate-a 1, a striking ball-a 2, a power strip-a 3, an overhead plate-a 11, a pulling strip-a 12, a vibrating block-a 13, a lower sliding plate-a 14, a connecting block-a 15, a top connecting plate-b 1, an elastic strip-b 2, a swinging plate-b 3, a connecting plate-b 4, a fixing block-c 1, a striking block-c 2, a through cavity-c 3, a frame-c 31, an internal block-c 32, a movable block-c 33, an internal connecting surface-c 34, a deformation strip-d 1, an elastic strip-d 2, a fixing plate-d 3, a lower swinging plate-d 4, a stress plate-d 41, a bottom connecting plate-d 42 and a striking strip-d 43.

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 of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides a feeding device of a full-automatic pneumatic system, which structurally comprises a transmission platform 1, a support frame 2 and a driver 3, wherein the driver 3 is arranged at the position close to the rear end of the side of the transmission platform 1, and the bottom of the transmission platform 1 is welded with the top of the support frame 2; the conveying table 1 comprises a partition plate 11, a conveying belt 12 and a linkage frame 13, wherein the inner side of the conveying belt 12 is movably clamped with the linkage frame 13, and the linkage frame 13 is fixed at the inner side of the partition plate 11.

Wherein, conveyer belt 12 includes loading board a1, striking ball a2, power strip a3, the inboard of loading board a1 is laminated with power strip a 3's surface mutually, striking ball a2 is installed in the inside position of power strip a3, striking ball a2 adopts the great alloy steel material of density, when the mechanism rotates to the below, through the gravity of power strip a3 self, can the landing downwards to can produce the striking vibration to the inner wall of power strip a 3.

The bearing plate a1 comprises a top plate a11, a pulling strip a12, a vibrating block a13, a lower sliding plate a14 and a connecting block a15, wherein the pulling strip a12 is fixed between the top of the connecting block a15 and the inner wall of the top plate a11, the top of the vibrating block a13 is attached to the bottom of the top plate a11, the upper surface of the lower sliding plate a14 is connected with the bottom of the connecting block a15, the side of the connecting block a15 is movably clamped with the inside of the top plate a11, seven vibrating blocks a13 are arranged and uniformly distributed at the bottom of the top plate a11 in parallel, the vibrating blocks a15 can slide downwards along the vibrating block a13 when the mechanism rotates to the lower side through the self gravity of the lower sliding plate a14, and then the pulling force generated by the pulling strip a12 to the connecting block a15 can enable the connecting block a15 to pull the lower sliding plate a14 to be quickly reset, so that the inner wall of the vibrating block a13 can impact the bottom of the lower sliding plate 14.

The lower sliding plate a14 comprises a top connecting plate b1, an elastic strip b2, a swinging plate b3 and a connecting and fixing plate b4, the elastic strip b2 is mounted at the top of the swinging plate b3 and the bottom of the inner wall of the top connecting plate b1, the swinging plate b3 is hinged to the bottom of the connecting and fixing plate b4, the side of the connecting and fixing plate b4 is movably clamped with the inner wall of the top connecting plate b1, and the connecting and fixing plate b4 can slide downwards along the top connecting plate b1 through the inertia force generated by downward extension of a mechanism, so that the swinging plate b3 can collide with the inner wall of the top connecting plate b1 to swing when the connecting and fixing plate b4 descends to the utmost extent.

The detailed use method and action of the embodiment are as follows:

in the invention, the driver 3 on the transmission platform 1 drives the linkage frame 13 to rotate, so that the linkage frame 13 can drive the partition plate 11 to advance, the partition plate 11 can forward transmit parts needing to be provided with magnets to the bottom of a lower pressing rod of a press machine to pressurize, when the bearing plate a1 on the partition plate 11 rotates to a position right below the transmission platform 1, the bearing plate a2 can slide downwards along the power strip a3 by the gravity of the impact ball a2, so that the impact ball a2 can generate impact vibration on the inner wall of the power strip a3, thereby part of magnet scraps attached to the surface of the power strip a3 can fall off, when the bearing plate a1 rotates to a position right below the lower sliding plate a14, the lower sliding plate a14 can slide downwards along the vibration block a13 by the gravity of the lower sliding plate a14, and the connecting block a15 can be quickly pulled by the pull back strip a12 to slide upwards along the top plate a11 to reset, therefore, the inner wall of the lower sliding plate a14 can generate impact vibration on the bottom of the vibrating block a13, so that the magnet scraps at the bottom of the lower sliding plate a14 can be vibrated to fall, the swinging plate b3 can slide downwards along the top connecting plate b1 under the cooperation of the connecting plate b4 through the inertia force generated when the lower sliding plate a14 extends downwards, and when the connecting plate b4 slides to the extreme, the swinging plate b3 can generate impact vibration on the inner wall of the top connecting plate b1 through the connecting plate b4, so that the swinging plate b3 can shake under vibration, the magnet scraps on the surface of the lower sliding plate a14, which cannot be vibrated by the vibrating block a13 in a short distance, can be cleaned, and the situation that the magnet scraps are attached to the outer surface of the partition plate 11 is effectively avoided.

Example 2

As shown in fig. 6-9:

the swinging plate b3 comprises a fixed block c1, an impact block c2 and a through cavity c3, the impact block c2 is mounted on the inner wall of the fixed block c1, the through cavity c3 penetrates through the inner position of the fixed block c1, two through cavities c3 are arranged, the two through cavities c3 are uniformly and symmetrically distributed in the fixed block c1, and magnet fragments can be guided into the through cavity c3 through vibration generated by extension of the fixed block c 1.

The through cavity c3 comprises a frame c31, an internal block c32, a movable block c33 and an internal connecting surface c34, wherein the internal block c32 is embedded in the internal connecting surface c34, the movable block c33 is installed in the internal connecting position of the frame c31, the internal connecting surface c34 is attached to the inner wall of the frame c31, and the internal connecting surface c34 is made of plastic, so that magnet debris cannot be adsorbed on the surface of the internal connecting surface c 34.

The built-in block c32 comprises a deformation bar d1, an elastic bar d2, a fixed plate d3 and a lower swing plate d4, the deformation bar d1 is fixed between two lower swing plates d4, the elastic bar d2 is installed between the edge side of the fixed plate d3 and the inner side of the lower swing plate d4, the lower swing plate d4 is hinged to the top of the fixed plate d3, the number of the lower swing plates d4 is two, the two lower swing plates d4 are uniformly distributed on the top of the fixed plate d3 in a symmetrical mode, the lower swing plate d4 can swing downwards along the fixed plate d3 through the inertia force generated by downward extension of a mechanism, magnet scraps can be discharged downwards from a gap between the lower swing plate d4 and the inner wall of an object, the deformation bar d1 is made of natural latex with strong elasticity, and can deform along with the swing of the lower swing plate d4 through the deformation bar d 1.

Wherein, lower wobble plate d4 includes atress board d41, end fishplate bar d42, hits strip d43, atress board d 41's bottom and end fishplate bar d 42's upper surface laminate mutually, hit strip d43 and be fixed in end fishplate bar d 42's upper surface position, it is equipped with six to hit strip d43, and three is a set of even top at end fishplate bar d42 and is the symmetric distribution, through the swing power that the mechanism swing produced, can make and hit strip d43 to produce the impact vibration to the bottom of atress board d 41.

The detailed use method and action of the embodiment are as follows:

in the invention, because the swinging plate b3 extends downwards to form a gap between the top of the rear swinging plate b3 and the bottom of the top connecting plate b1, so that part of magnet debris remained on the lower sliding plate a14 can enter between the swinging plate b3 and the top connecting plate b1 and is adhered to the upper surface of the swinging plate b3, and if the magnet debris accumulates for a long time, the swinging plate b3 is difficult to completely reset, the swinging plate b3 can be quickly contracted along the top connecting plate b1 under the matching of the connecting plate b4 through quick pulling of the elastic strip b2, so that the top of the swinging plate b3 can collide with the bottom of the top connecting plate b1, the generated vibration can lead the magnet debris on the swinging plate b3 into the inside of the through cavity c3, the inertia force generated by the stretching of the swinging plate b3 can swing the block c2, the collision block c2 can collide with the movable cavity c3, and the movable block 33 can collide with the inner wall 31 of the frame through collision block c 9, so that the magnet fragments passing through the inside of the cavity c3 can be rapidly discharged to the bottom of the inner junction surface c34, the lower swing plate d4 can be swung down along the fixed plate d3 by the inertial force generated by the swing plate b3 protruding downward again, therefore, a gap can be generated between the inner wall of the inner connecting surface c34 and the edge side of the lower swing plate d4, so that magnet scraps in the through cavity c3 can be discharged downwards through the gap between the inner walls of the lower swing plates d4 and d34, the lower swing plate d4 can be swung upwards and reset through the thrust generated by the elastic strip d2 on the lower swing plate d4, therefore, the striking strip d43 can generate impact vibration on the bottom of the stress plate d41, so that the magnet fragments on the stress plate d41 can fall off, and the residual magnet fragments can be discharged after the lower swinging plate d4 swings downwards again, so that the situation that part of the residual magnet fragments of the lower swinging plate a14 enter the space between the swinging plate b3 and the abutting plate b1 and are attached to the upper surface of the swinging plate b3 is effectively avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (5)

1. The utility model provides a full-automatic pneumatic system feeder equipment, its structure is including transmission platform (1), support frame (2), driver (3), back position, its characterized in that are leaned on in the avris of transmission platform (1) in driver (3): the bottom of the transmission table (1) is welded with the top of the support frame (2);

the conveying table (1) comprises a partition plate (11), a conveying belt (12) and a linkage frame (13), the inner side of the conveying belt (12) is movably clamped with the linkage frame (13), and the linkage frame (13) is fixed at the inner side position of the partition plate (11);

the conveyor belt (12) comprises a bearing plate (a1), an impact ball (a2) and a power strip (a3), wherein the inner side of the bearing plate (a1) is attached to the outer surface of the power strip (a3), and the impact ball (a2) is mounted at the inner position of the power strip (a 3);

the bearing plate (a1) comprises a top plate (a11), a pull-back strip (a12), a vibrating block (a13), a lower sliding plate (a14) and a connecting block (a15), wherein the pull-back strip (a12) is fixed between the top of the connecting block (a15) and the inner wall of the top plate (a11), the top of the vibrating block (a13) is attached to the bottom of the top plate (a11), the upper surface of the lower sliding plate (a14) is connected with the bottom of the connecting block (a15), and the edge side of the connecting block (a15) is movably clamped with the inside of the top plate (a 11);

lower slide board (a14) is including top connection board (b1), first elasticity strip (b2), swing board (b3), even firm board (b4), first elasticity strip (b2) is installed in the top of swing board (b3) and the inner wall bottom position of top connection board (b1), swing board (b3) and the bottom hinged joint who links firm board (b4), the avris that links firm board (b4) and the inner wall activity block of top connection board (b 1).

2. The feeding device of a full automatic pneumatic system according to claim 1, wherein: the swing plate (b3) comprises a fixed block (c1), an impact block (c2) and a through cavity (c3), wherein the impact block (c2) is mounted at the inner wall position of the fixed block (c1), and the through cavity (c3) penetrates through the inner position of the fixed block (c 1).

3. The feeding device of a full-automatic pneumatic system according to claim 2, wherein: the through cavity (c3) comprises a frame (c31), an internal block (c32), a movable block (c33) and an internal connecting surface (c34), wherein the internal block (c32) is embedded in the internal position of the internal connecting surface (c34), the movable block (c33) is installed in the internal position of the frame (c31), and the internal connecting surface (c34) is attached to the inner wall of the frame (c 31).

4. The feeding device of a full-automatic pneumatic system according to claim 3, wherein: built-in piece (c32) is including warping strip (d1), second elasticity strip (d2), fixed plate (d3), lower hem board (d4), it is fixed in between two lower hem boards (d4) to warp strip (d1), second elasticity strip (d2) is installed between the avris of fixed plate (d3) and the inboard of lower hem board (d4), the top hinged joint of lower hem board (d4) and fixed plate (d 3).

5. The feeding device of a full-automatic pneumatic system according to claim 4, wherein: the lower swing plate (d4) comprises a stress plate (d41), a bottom connecting plate (d42) and a striking strip (d43), the bottom of the stress plate (d41) is attached to the upper surface of the bottom connecting plate (d42), and the striking strip (d43) is fixed to the upper surface of the bottom connecting plate (d 42).

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