CN213415588U - Feeding device - Google Patents

Abstract

The utility model discloses a loading attachment belongs to the feed mechanism field, comprising a main body, the pay-off chamber has been seted up to the top of main part, the left side fixed mounting in pay-off chamber has motor A, motor A's power take off end rotates and is connected with the carousel, the left side fixedly connected with pay-off screw rod A of carousel, the outside of carousel is rotated and is connected with the one end of belt, the other end of belt rotates and is connected with pay-off screw rod B, the top fixed mounting in pay-off chamber has the support, the both sides of support are rotated and are connected with the transfer roller. The utility model discloses a transfer roller drives the conveyer belt and rotates, and shake device A and shake device B and last the shake to the conveyer belt in to sediment raw materials transportation process prevents the sediment raw materials agglomeration, collects the raise dust simultaneously, has improved the security of device, carries out the twin-screw pay-off through pay-off screw rod A and pay-off screw rod B moreover, has improved the efficiency and the stability of pay-off.

Description

Feeding device

Technical Field

The utility model relates to a feed mechanism field especially relates to loading attachment.

Background

In the wall fitment of building trade, need coat the thick liquids on the wall usually, for example plaster, plaster before plastering and need carry out the lime-soil processing, and traditional lime-soil processing feeding process is the manual work mostly and carries out the material loading, and the material loading speed is slow, inefficiency, and is very inconvenient to at the material loading in-process, produce the raise dust easily, cause harmful effects to workman's healthy, for solving above-mentioned problem, we have announced loading attachment.

The patent No. CN201911299840.1 relates to an automatic building feeding device, which is characterized by comprising a frame; the storage container is arranged on the rack and used for storing slurry; the discharge pipe is arranged on the frame; the feeding assembly comprises a feeding driver, a screw and a feeding pipe, wherein the feeding pipe is installed in the rack, the upper end and the lower end of the feeding pipe are respectively communicated with the discharging pipe and the storage container, the screw is arranged in the feeding pipe in a penetrating mode, the feeding driver is installed at the upper end or the lower end of the feeding pipe, and the feeding driver is connected with the screw and used for driving the screw to rotate. The feeding driver drives the screw rod to rotate, slurry stored in the storage container can be conveyed to the discharging pipe through the material conveying pipe and is output by the discharging pipe, and therefore feeding can be driven by an instrument to replace manual operation.

The device has the following disadvantages when in use: 1. when the device is used, the used raw material slag cannot be shaken off, so that subsequent stirring is not uniform or a feeding machine is blocked, and meanwhile, in the feeding process, the raised dust generated in shaking cannot be absorbed, so that improvement is needed; 2. the device can not realize quick automatic feeding when using, can not prevent simultaneously that the too big condition of blockking up the machine of sediment from taking place, so still need improve.

SUMMERY OF THE UTILITY MODEL

The utility model provides a feeding device, which aims to solve the problems that the prior feeding device cannot shake and disperse used raw material slag when in use by being provided with a conveying roller, a support, a conveying belt, a shaking device A, a shaking device B, a dust collector, a dust absorption pipeline, a filter screen, a collecting box, a motor A, a feeding screw rod B and a feeding cavity, so that the subsequent stirring is uneven or the feeding machine is blocked, meanwhile, in the feeding process, the raised dust generated in shaking cannot be absorbed, by being provided with the conveying roller, the support, the conveying belt, the shaking device A, the shaking device B, the dust collector, the dust absorption pipeline, the filter screen and the collecting box, when in use, the conveying rollers on two sides of the support are electrified by an external power supply, the conveying roller is electrified and rotated to drive the conveying belt on the outer side to rotate, then, the slag raw material is put into the outer side of the, then, a motor B inside the shaking device A and the shaking device B is electrified through an external power supply, the motor B is electrified to work and rotate to drive a connecting rod A outside to rotate, the connecting rod B is driven to rotate outside the wheel disc when the connecting rod A rotates, the connecting rod B drives an ejector rod at the other end to reciprocate up and down in the chute, the ejector rod moves up and down in the fixed shaft sleeve, the conveyor belt is prevented from reciprocating shaking while the ejector rod is deviated, the residue raw material above the conveyor belt is shaken and dispersed, dust is shielded by a cover plate outside the conveyor belt for one time, then a dust collector is electrified through the external power supply, the dust collector is electrified through a dust collection pipeline to suck the raised dust generated on the left side of the conveyor belt into the collection box, a filter screen is embedded on the outer side of the dust collection pipeline, and the possible residue with larger particles is effectively prevented from collapsing into the dust, the safety of the device is improved, the existing feeding device cannot realize quick automatic feeding when in use, and cannot prevent the situation that the machine is blocked by overlarge slag, and the processing efficiency is influenced, through installing the motor A, the feeding screw B and the feeding cavity, the slag raw material conveyed to the inside of the main body by the conveyor belt and the matching of the shaking device A and the shaking device B enters the lower part of the main body, at the moment, the motor A is electrified through an external power supply, the motor A rotates to drive the outer rotary disc to rotate, the rotary disc rotates to drive the feeding screw A to rotate firstly, and simultaneously drive the outer belt to rotate, the belt rotates to drive the outer feeding screw B to rotate, the feeding screw A and the feeding screw B are meshed with each other to be connected and rotate, the slag raw material is conveyed to the inside of the processing field through the feeding cavity, compared with the traditional single screw, the raw materials of the slag can be extruded and crushed in the process of meshing movement of the double feeding screws, so that the quality of subsequent processing of the ash is improved, the slag is effectively prevented from being too large in size and blocking the feeding cavity, and the feeding stability is improved.

The utility model provides a specific technical scheme as follows:

the utility model provides a feeding device, which comprises a main body, a feeding cavity is arranged above the main body, a motor A is fixedly arranged at the left side of the feeding cavity, the power output end of the motor A is rotationally connected with a turntable, the left side of the turntable is fixedly connected with a feeding screw rod A, the outer side of the turntable is rotationally connected with one end of a belt, the other end of the belt is rotationally connected with a feeding screw rod B, a bracket is fixedly arranged above the feeding cavity, two sides of the bracket are rotationally connected with a conveying roller, the outer side of the conveying roller is rotationally connected with a conveying belt, two sides of the conveying roller are detachably provided with a cover plate, the cover plate is internally detachably provided with a shaking device A and a shaking device B, a collecting box is fixedly arranged above the motor A, a dust collector is detachably connected above the collecting box, the right side of the dust collector is, the dust absorption pipeline extends to the upper left side of the feeding cavity.

Optionally, shake device A and include motor B, connecting rod A, connecting rod B, spout, ejector pin, fixed axle sleeve and rim plate, motor B's power take off end rotates the one end that is connected with connecting rod A, connecting rod A's the other end rotates the one end that is connected with connecting rod B, motor B's outside fixed mounting has the rim plate, and connecting rod A rotates the outside of connecting at the rim plate with connecting rod B's junction, connecting rod B's the other end rotates and is connected with the ejector pin, shake device A's top fixed mounting has fixed axle sleeve, the spout has been seted up to the below both sides of fixed axle sleeve, and the below both sides slidable mounting of ejector pin is in the inside of spout, the top of ejector pin is cup jointed inside fixed axle.

Optionally, the structure of the jitter device B is the same as that of the jitter device a.

Optionally, a filter screen is embedded in the dust suction pipeline.

Optionally, the feeding screw a and the feeding screw B are engaged with each other.

Optionally, the power input ends of the motor a, the motor B, the dust collector and the conveying roller are electrically connected with the power output end of the external power supply.

The utility model has the advantages as follows:

1. the utility model aims at providing a through installing the transfer roller, a support, the conveyer belt, tremble device A, tremble device B, the dust catcher, the dust absorption pipeline, filter screen and collecting box, current loading attachment can't tremble and scatter the raw materials sediment when using, lead to follow-up inhomogeneous or block up the feeding machine of stirring, simultaneously in the feeding process, the raise dust that produces when trembleing can't be absorbed, when using, at first the transfer roller of support both sides is switched on through external power supply, the transfer roller circular telegram rotates the conveyer belt rotation in the drive outside, then put the sediment raw materials into the conveyer belt outside, the conveying intracavity portion to the main part inside by the conveyer belt, subsequently motor B inside tremble device A and tremble device B is switched on through external power supply, motor B circular telegram work rotates the connecting rod A rotation in the drive outside, connecting rod B is driven to rotate the motion outside the rim plate, connecting rod B drives the ejector pin of the other end at the inside up-and-down motion of spout, the ejector pin reciprocates in fixed axle sleeve is inside, carry out reciprocal shake to the conveyer belt when preventing that the ejector pin from taking place the skew, the realization is trembled the sediment raw materials of conveyer belt top and is dispersed, the apron in the conveyer belt outside once shelters from the dust, switch on for the dust catcher through external power source afterwards, the dust that the dust catcher circular telegram work produced the conveyer belt left side through dust absorption pipeline inhales inside the collection box, and it has the filter screen to inlay in the outside of dust absorption pipeline, the effectual great sediment of granule that prevents to probably exist collapses into inside the dust absorption pipeline, the security of device has been improved.

2. The utility model aims at providing a motor A, a feeding screw B and a feeding cavity, the existing feeding device can not realize quick automatic feeding when in use, and can not prevent the situation that the slag blocks the machine too big at the same time, thereby affecting the processing efficiency, when the slag raw material conveyed to the inner part of the main body by the cooperation of a conveyor belt and a shaking device A and a shaking device B enters the lower part of the main body, the motor A is electrified by an external power supply at the moment, the motor A works and rotates to drive the turntable at the outer side to rotate, the feeding screw A is firstly driven to rotate when the turntable rotates, and the belt at the outer side can be driven to rotate at the same time, the feeding screw B which is rotationally connected at the outer side is driven to rotate when the belt rotates, the feeding screw A and the feeding screw B are meshed with each other to be connected and rotate, the slag raw material is conveyed to the inner, the raw materials of the slag can be extruded and crushed in the process of meshing movement of the double feeding screws, so that the quality of subsequent processing of the ash is improved, the slag is effectively prevented from being too large in size and blocking the feeding cavity, and the feeding stability is improved.

Drawings

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

Fig. 1 is a schematic view of the overall structure of a feeding device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a shaking device a of the feeding device according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a feeding screw a and a feeding screw B of the feeding device of the embodiment of the present invention.

In the figure: 1. a main body; 2. a feeding screw A; 3. a feeding cavity; 4. a conveyor belt; 5. a conveying roller; 6. a cover plate; 7. a dithering device A; 8. a dithering device B; 9. a support; 10. a dust collection duct; 11. a filter screen; 12. a dust collector; 13. a collection box; 14. a motor A; 15. a feeding screw B; 16. a belt; 17. a connecting rod A; 18. a wheel disc; 19. a turntable; 20. a motor B; 21. a chute; 22. a connecting rod B; 23. fixing the shaft sleeve; 24. and a push rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The feeding device according to the embodiment of the present invention will be described in detail with reference to fig. 1 to 3.

Referring to fig. 1, 2 and 3, a feeding device provided by an embodiment of the present invention includes a main body 1, a feeding cavity 3 is disposed above the main body 1, a motor a14 is fixedly mounted on the left side of the feeding cavity 3, a rotary disc 19 is rotatably connected to a power output end of the motor a14, a feeding screw a2 is fixedly connected to the left side of the rotary disc 19, one end of a belt 16 is rotatably connected to the outer side of the rotary disc 19, a feeding screw B15 is rotatably connected to the other end of the belt 16, a bracket 9 is fixedly mounted above the feeding cavity 3, conveying rollers 5 are rotatably connected to both sides of the bracket 9, a conveying belt 4 is rotatably connected to the outer side of the conveying rollers 5, cover plates 6 are detachably mounted on both sides of the conveying rollers 5, a shaking device a7 and a shaking device B8 are detachably mounted inside the cover plates 6, a collecting box 13 is fixedly mounted above the motor a14, a dust collector 12 is detachably connected above the collecting box 13, one end of a dust collection pipeline 10 is detachably connected to the right side of the dust collector 12, the dust collection pipeline 10 extends to the upper left side of the feeding cavity 3, when the dust collector is used, the conveying rollers 5 on the two sides of the support 9 are electrified through an external power supply, the conveying rollers 5 are electrified to rotate to drive the conveying belt 4 on the outer side to rotate, then the slag raw materials are put on the outer side of the conveying belt 4 and conveyed to the inside of the feeding cavity 3 inside the main body 1 through the conveying belt 4, then the shaking device A7 and the motor B20 inside the shaking device B8 are electrified through the external power supply, the motor B20 is electrified to work and rotate to drive the connecting rod A17 on the outer side to rotate, the connecting rod B22 is driven to rotate on the outer side of the wheel disc 18 when the connecting rod A17 rotates, the connecting rod B22 drives the ejector rod, prevent ejector pin 24 from taking place the skew while reciprocating the shake to conveyer belt 4, realize shaking and scattering the sediment raw materials of conveyer belt 4 top, apron 6 outside conveyer belt 4 once shelters from the dust, subsequently energize dust catcher 12 through external power source, dust catcher 12 circular telegram work sucks the raise dust that produces in the left side of conveyer belt 4 through dust absorption pipeline 10 to the collection box 13 inside, and inlay filter screen 11 in the outside of dust absorption pipeline 10, the effectual big sediment of granule that prevents to exist collapses into the dust absorption pipeline 10 inside, the security of the device has been improved, the sediment raw materials that are carried to the main part 1 inside by conveyer belt 4 and cooperation of shake device A7 and shake device B8 enter into main part 1 below, electrify motor A14 through external power source at this moment, motor A14 work rotates and drives outside carousel 19 to rotate, carousel 19 drives feeding screw A2 to rotate at first when rotating, meanwhile, the belt 16 on the outer side can be driven to rotate, the belt 166 drives the feeding screw B15 which is connected with the outer side in a rotating mode to rotate when rotating, the feeding screw A2 and the feeding screw B12 are meshed with each other to be connected and rotate, the slag raw material is conveyed to the interior of a processing field through the feeding cavity 3, compared with a traditional single screw, the slag raw material can be extruded and crushed in the process of meshing motion of the double feeding screws, the quality of subsequent lime soil processing is improved, the phenomenon that the slag is too large in size and blocks the feeding cavity 3 is effectively prevented, and the feeding stability is improved.

Referring to fig. 1 and 2, the shaking device a7 includes a motor B20, a connecting rod a17, a connecting rod B22, a sliding groove 21, a push rod 24, a fixed shaft sleeve 23 and a wheel disc 18, the power output end of the motor B20 rotates and is connected with one end of the connecting rod a17, the other end of the connecting rod a17 rotates and is connected with one end of the connecting rod B22, the wheel disc 18 is fixedly installed on the outer side of the motor B20, the connecting part of the connecting rod a17 and the connecting rod B22 rotates and is connected with the outer side of the wheel disc 18, the push rod 24 is rotatably connected with the other end of the connecting rod B22, the fixed shaft sleeve 23 is fixedly installed above the shaking device a7, the sliding groove 21 is opened on both sides below the fixed shaft sleeve 23, both sides below the push rod 24 are slidably installed inside the sliding groove 21.

Referring to fig. 1 and 2, the construction of the shaker B8 is the same as that of the shaker a 7.

Referring to fig. 1, a filter screen 11 is mounted in the dust suction duct 10.

Referring to fig. 1 and 3, the feed screw a2 and the feed screw B15 are engaged with each other.

Referring to fig. 1, 2 and 3, the power input terminals of the motor a14, the motor B20, the dust collector 12 and the conveying roller 5 are electrically connected with the power output terminal of the external power source.

The embodiment of the utility model provides a feeding device, at first the transfer roller 5 circular telegram for support 9 both sides through external power source during the use, transfer roller 5 circular telegram rotates the conveyer belt 4 that drives the outside and rotates, put into the conveyer belt 4 outside afterwards with the sediment raw materials, carry to the pay-off chamber 3 inside the main part 1 by conveyer belt 4 inside, after then through external power source for shake device A7 and shake the inside motor B20 circular telegram of device B8, motor B20 circular telegram work rotates the connecting rod A17 rotation that drives the outside and rotates, connecting rod B22 is driven the rotary motion in the rim plate 18 outside when connecting rod A17 rotates, connecting rod B22 drives ejector pin 24 of the other end reciprocating motion from top to bottom in spout 21 inside, ejector pin 24 reciprocates in fixed axle sleeve 23 inside, carry out reciprocal shake to conveyer belt 4 when preventing ejector pin 24 from taking place the skew, realize shaking up and down the sediment raw materials that send the area 4 top, apron 6 in the conveyer belt 4, then electrifying the dust collector 12 by an external power supply, sucking the raised dust generated at the left side of the conveyor belt 4 into the collection box 13 by electrifying the dust collector 12 through the dust collection pipeline 10, embedding the filter screen 11 at the outer side of the dust collection pipeline 10, effectively preventing the slag with larger particles possibly existing from collapsing into the dust collection pipeline 10, improving the safety of the device, feeding the slag raw material conveyed to the inner part of the main body 1 by the conveyor belt 4, the shaking device A7 and the shaking device B8 in a matching way into the lower part of the main body 1, electrifying the motor A14 by the external power supply, driving the turntable 19 at the outer side to rotate by the motor A14, driving the feeding screw A2 to rotate when the turntable 19 rotates, driving the belt 16 at the outer side to rotate at the same time, driving the feeding screw B15 rotationally connected at the outer side to rotate when the belt 166 rotates, and mutually meshing and connecting the feeding screw A2 and the feeding screw B12, carry the sediment raw materials to the processing place inside through the material conveying chamber 3, compare in traditional single screw rod, the in-process of two pay-off screw rod meshing motions can extrude the sediment raw materials and pulverize, has improved the quality of follow-up lime soil processing to effectually prevent that the sediment volume is too big, blocks up material conveying chamber 3, has improved the stability of pay-off.

It should be noted that the utility model relates to a feeding device, which comprises a main body 1, a feeding screw A2, a feeding cavity 3, a conveyor belt 4, a conveyor roller 5, a cover plate 6, a shaking device A7, a shaking device B8, a bracket 9, a dust suction pipeline 10, a filter screen 11, a dust collector 12, a collecting box 13, a motor A14, a feeding screw B15, a belt 16, a connecting rod A17, a wheel disc 18, a rotating disc 19, a motor B20, a sliding chute 21, a connecting rod B22, a fixed shaft sleeve 23 and a mandril 24, the electrical components are all products in the prior art, the technical personnel in the field select, install and complete the debugging operation of the circuit according to the use requirement to ensure that all the electrical equipment can work normally, the components are all universal standard components or components known by the technical personnel in the field, the structure and principle are known to the skilled person through technical manuals or through routine experimentation, and the applicant is not specifically limited herein.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (6)

1. Feeding device, including main part (1), its characterized in that, the material conveying chamber (3) has been seted up to the top of main part (1), the left side fixed mounting in material conveying chamber (3) has motor A (14), the power take off end of motor A (14) rotates and is connected with carousel (19), the left side fixedly connected with pay-off screw rod A (2) of carousel (19), the outside of carousel (19) rotates and is connected with the one end of belt (16), the other end of belt (16) rotates and is connected with pay-off screw rod B (15), the top fixed mounting in material conveying chamber (3) has support (9), the both sides of support (9) rotate and are connected with transfer roller (5), the outside of transfer roller (5) rotates and is connected with conveyer belt (4), the both sides demountable installation of transfer roller (5) has apron (6), the inside demountable installation of apron (6) has trembler A (7) and trembler B (8), the dust collector is characterized in that a collecting box (13) is fixedly mounted above the motor A (14), a dust collector (12) is detachably connected above the collecting box (13), one end of a dust collection pipeline (10) is detachably connected to the right side of the dust collector (12), and the dust collection pipeline (10) extends to the upper portion of the left side of the feeding cavity (3).

2. The feeding device according to claim 1, wherein the shaking device A (7) comprises a motor B (20), a connecting rod A (17), a connecting rod B (22), a sliding groove (21), a push rod (24), a fixed shaft sleeve (23) and a wheel disc (18), the power output end of the motor B (20) is rotatably connected with one end of the connecting rod A (17), the other end of the connecting rod A (17) is rotatably connected with one end of the connecting rod B (22), the wheel disc (18) is fixedly installed on the outer side of the motor B (20), the connecting part of the connecting rod A (17) and the connecting rod B (22) is rotatably connected with the outer side of the wheel disc (18), the push rod (24) is rotatably connected with the other end of the connecting rod B (22), a fixed shaft sleeve (23) is fixedly installed above the shaking device A (7), the sliding grooves (21) are formed in two sides below the fixed shaft sleeve (23), and both sides of the lower part of the push rod (24) are slidably arranged in the sliding groove (21), and the upper part of the push rod (24) is sleeved in the fixed shaft sleeve (23).

3. A loading device according to claim 1, characterized in that the structure of said jitter device B (8) is identical to the structure of jitter device a (7).

4. The feeding device according to claim 1, characterized in that a filter screen (11) is embedded in the dust suction pipeline (10).

5. A loading device according to claim 1, characterised in that the feed screws a (2) and B (15) are in intermeshing connection.

6. The feeding device according to claim 2, wherein the electric input ends of the motor A (14), the motor B (20), the dust collector (12) and the conveying roller (5) are electrically connected with the electric output end of an external power supply.

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