CN218289677U - Gu useless boiler leather conveyor - Google Patents

Abstract

The utility model relates to a gu useless boiler leather conveyor, it includes hopper, first compression roller, second compression roller, first compression roller all rotates with second compression roller to be connected in the hopper, the rotation opposite direction of first compression roller and second compression roller, first compression roller is located second compression roller horizontally one side, the hopper internal rotation is connected with first squeeze roll and second squeeze roll, first squeeze roll all is located first compression roller top with second squeeze roll, the rotation opposite direction of first squeeze roll and second squeeze roll, first squeeze roll is located second squeeze roll horizontally one side, the axle center distance of first compression roller and second compression roller is greater than the interval of first squeeze roll and second squeeze roll, the interval of first compression roller and second compression roller is less than the interval of first squeeze roll and second squeeze roll. This application has and carries out twice compression to the leather, reduces the degree that the leather kick-backed grow, and the leather of being convenient for passes through the export of hopper below.

Description

Gu useless boiler leather conveyor

Technical Field

The application relates to the technical field of leather conveying devices, in particular to a leather conveying device of a solid waste boiler.

Background

The leather conveying device generally comprises a conveying belt and a hopper, leather generally needs to be conveyed through a plurality of conveying belts, and a turning condition often occurs in the conveying process, wherein the conveying belt before turning is positioned above the conveying belt after turning. The leather needs to be guided by a conveyor hopper when falling from the upper conveyor belt to the lower conveyor belt. Due to the entanglement of the hide, the hide often entangles during transport, creating a blockage in the hopper.

Due to the winding nature of the leather, the leather often becomes entangled during transport, creating a blockage within the hopper.

A leather conveying device comprises a hopper, a first rotating roller and a second rotating roller. The first rotating roller and the second rotating roller are rotatably connected in the hopper, a first motor for driving the first rotating roller is arranged outside the hopper, a second motor for driving the second rotating roller is arranged outside the hopper, and the first rotating roller and the second rotating roller are located at a horizontal position and opposite in rotating direction.

In view of the above-described related art, the inventors believe that the leather has elasticity, and when the leather is pressed by the first and second rotating rollers, the leather is pressed and shrunk; the leather springback becomes larger after leaving the axes of the first and second rotating rollers. When the leather reaches the outlet below the hopper, the leather may be larger than the outlet below the hopper, so that the leather is blocked at the outlet below the hopper.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the stifled export in hopper below of leather resilience grow, this application provides a solid useless boiler leather conveyor.

The application provides a pair of solid useless boiler leather conveyor adopts following technical scheme:

the utility model provides a gu useless boiler leather conveyor, includes hopper, first compression roller, second compression roller, first compression roller all rotates with the second compression roller and is connected in the hopper, the rotation opposite direction of first compression roller and second compression roller, first compression roller is located second compression roller horizontally one side, interval between first compression roller and the second compression roller is less than the export of hopper below, the hopper internal rotation is connected with first squeeze roller and second squeeze roller, first squeeze roller all is located first compression roller top with the second squeeze roller, the rotation opposite direction of first squeeze roller and second squeeze roller, first squeeze roller is located second squeeze roller horizontally one side, the axle center distance of first compression roller and second compression roller is greater than the interval of first squeeze roller and second squeeze roller, the interval of first compression roller and second compression roller is less than the interval of first squeeze roller and second squeeze roller, be equipped with in the hopper and be used for leading the leather to the guider between first compression roller and the second compression roller.

By adopting the technical scheme, when the leather falls on the guide device, the guide device guides the leather between the first extrusion roller and the second extrusion roller; when the leather falls into the first compression roller and the second compression roller, the leather is compressed; when the leather is separated from the first compression roller and the second compression roller, the leather rebounds and becomes larger due to the elasticity of the leather; when the leather falls into the first pressing roller and the second pressing roller, the leather is compressed again; when the leather breaks away from first squeeze roll and second squeeze roll, the leather takes place the grow of kick-backing once more, nevertheless because the leather receives twice compression for the degree that the leather rebound becomes big is less than the grow degree of kick-backing that receives a compression, and then the leather volume of compressing twice is less than the leather volume of compressing once, makes the twice leather of compression be less than the export of below, is convenient for pass through the export of hopper below.

Optionally, a plurality of first push rings are arranged on the circumferential surface of the first extrusion roll, the first push rings are distributed along the length direction of the first extrusion roll in an array manner, a plurality of second push rings are arranged on the circumferential surface of the second extrusion roll, and the second push rings are distributed along the length direction of the second extrusion roll in an array manner.

Through adopting foretell technical scheme, be equipped with first promotion ring on the first squeeze roll for first promotion ring moves the leather and passes through between first squeeze roll and the second squeeze roll, is equipped with second promotion ring on the second squeeze roll, makes the second promote the ring and moves the leather and pass through between first squeeze roll and the second squeeze roll, and then makes the leather compressed by first squeeze roll and second squeeze roll.

Optionally, the first push rings and the second push rings are staggered.

By adopting the technical scheme, when the leather is extruded by the first extrusion roller and the second extrusion roller, each part of the leather is extruded independently, so that the leather is compressed better.

Optionally, the outer surfaces of the first pushing ring and the second pushing ring are both provided with friction belts.

Through adopting foretell technical scheme, when the leather was driven by first propelling ring and second propelling ring, the frictional force of first propelling ring, second propelling ring and leather was increased to the friction area for first propelling ring and second propelling ring are better drives the leather motion.

Optionally, guider includes guide board, support bar, the guide board sets up in first squeeze roll top, the guide board all inclines towards first squeeze roll, and the three side of hopper inner wall all is connected with the guide board, and the length direction of guide board is unanimous with the length direction of first squeeze roll, the support bar sets up in the hopper, a guide board is connected to the one end of support bar, another guide board is connected to the one end of support bar.

Through adopting foretell technical scheme, when the leather fell on the guide board, the guide board led the leather between first squeeze roll and the second squeeze roll.

Optionally, a driving device is arranged outside the hopper, and the driving device is used for driving the first compression roller, the second compression roller, the first squeezing roller and the second squeezing roller to rotate.

Through adopting foretell technical scheme, drive arrangement is first compression roller, second compression roller, first squeeze roll, second squeeze roll drive for the leather can compress between first compression roller, second compression roller and between first squeeze roll, second squeeze roll.

Optionally, the driving device includes a first motor, a first fixing plate, a first gear and a second gear, the first fixing plate is disposed on the outer wall of the hopper, the first fixing plate is located below the first compression roller, the first motor is disposed on the first fixing plate, the first compression roller extends out of the hopper towards one side of the first fixing plate, the first motor is connected with the end face of the first compression roller, the first gear is sleeved on the rotating shaft of the first motor, the second compression roller extends out of the hopper towards one side of the first fixing plate, the second gear is sleeved on the second compression roller, and the first gear and the second gear are meshed with each other.

Through adopting foretell technical scheme, first motor rotates and drives first compression roller and first gear revolve, because first gear and second gear intermeshing for first gear drives second gear revolve, and then drives second compression roller and rotate, makes first compression roller and second compression roller rotate, makes the leather receive the compression.

Optionally, drive arrangement includes third motor, third fixed plate, first driving belt, first action wheel, the first follow driving wheel, outside the hopper is stretched towards one side of third fixed plate to first compression roller, the third fixed plate sets up on the hopper outer wall, the third fixed plate is located first compression roller below, the third motor sets up on the third fixed plate, the third motor is connected with the terminal surface of first compression roller, first action wheel cup joints on the third motor, outside the hopper is stretched towards one side of third fixed plate to first squeeze roll, first from the driving wheel cup joint on first squeeze roll, first driving belt cover is established outside first action wheel and the first follow driving wheel of following.

Through adopting foretell technical scheme, the third motor rotates and drives first compression roller and action wheel rotation, because the action wheel is connected with first drive belt for the third motor drives the drive belt and rotates, and then the drive belt drives from the driving wheel rotation, makes first compression roller and first squeeze roll rotate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the hides are compressed as they pass between the first and second squeeze rollers; when the leather passes through first compression roller and second compression roller, the leather is compressed once more, through twice compression, and the degree that the leather resilience becomes big is less than the degree that receives the rebound grow of once compression, is convenient for pass through the export of hopper below.

2. The leather dropped on the guide device is guided to the first and second pressing rollers by the guide device.

3. Through a driving device, the first compression roller, the second compression roller, the first compression roller and the first extrusion roller are driven to rotate, so that the leather is compressed.

Drawings

FIG. 1 is a schematic structural view of embodiment 1 of the present application;

FIG. 2 is an exploded view of the highlighting drive device of embodiment 1;

FIG. 3 is a sectional view showing the internal structure of the hopper in embodiment 1;

fig. 4 is a schematic structural diagram of embodiment 2 of the present application.

Reference numerals: 1. a hopper; 12. a first compression roller; 121. a first connection hole; 122. a first limit plate; 13. a second compression roller; 131. a second connection hole; 132. a second limiting plate; 14. a first squeeze roll; 141. a first push ring; 142. a friction belt; 143. a third connection hole; 144. a third limiting plate; 15. a second squeeze roll; 151. a second push ring; 152. a fourth connecting hole; 153. a fourth limiting plate; 2. a guide device; 21. a guide plate; 22. a supporting strip; 3. a drive device; 31. a first motor; 311. a first fixing plate; 32. a second motor; 321. a second fixing plate; 33. a first gear; 34. a second gear; 35. a third gear; 36. a fourth gear; 41. a third motor; 411. a third fixing plate; 42. a fourth motor; 421. a fourth fixing plate; 43. a first drive belt; 44. a second belt; 45. a first drive wheel; 46. a first driven wheel; 47. a second drive wheel; 48. a second driven wheel.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

Example 1

The embodiment discloses a solid useless boiler leather conveyor. Referring to fig. 1 and 2, the leather conveying device for the solid waste boiler comprises a hopper 1, a first compression roller 12 and a second compression roller 13. The drive means 3 is located on one side of the outer wall of the hopper 1.

Referring to fig. 1 and 2, the outer wall of the hopper 1 is opened with a first connection hole 121 at a side facing the driving unit 3. One end of the first compression roller 12 is rotatably connected to the inner wall of the hopper 1, and the other end thereof extends out of the first connection hole 121. The outer wall of the hopper 1 is provided with a first limiting plate 122 for preventing the first compression roller 12 from moving out of the hopper 1, and the first limiting plate 122 is rotatably connected with the first limiting plate 122. The first limiting plate 122 is provided with a bolt, and the bolt is used for connecting the outer wall of the hopper 1 with the first limiting plate 122.

Referring to fig. 1 and 2, a second connection hole 131 is formed in a side surface of the outer wall of the hopper 1 facing the driving device 3, one end of the second compression roller 13 is rotatably connected to the inner wall of the hopper 1, and the other end of the second compression roller extends out of the second connection hole 131. A second limiting plate 132 for preventing the second compression roller 13 from moving out of the hopper 1 is disposed on the outer wall of the hopper 1, and the second limiting plate 132 is rotatably connected to the second limiting plate 132. The second limiting plate 132 is provided with bolts, and the bolts are used for connecting the outer wall of the hopper 1 with the second limiting plate 132.

Referring to fig. 2, the first compression roller 12 rotates in the opposite direction to the second compression roller 13, and the first compression roller 12 is horizontally disposed on the second compression roller 13. The spacing between the first compression roller 12 and the second compression roller 13 is smaller than the outlet below the hopper 1.

Referring to fig. 2, the inner wall of the hopper 1 is provided with a first squeeze roller 14 and a second squeeze roller 15. The side of the outer wall of the hopper 1 facing the driving device 3 is provided with a third connecting hole 143. One end of the first squeeze roller 14 is rotatably connected to the inner wall of the hopper 1, and the other end of the first squeeze roller 14 extends out of the third connecting hole 143. The outer wall of the hopper 1 is provided with a third limiting plate 144 for preventing the first squeezing roller 14 from moving out of the hopper 1, and the third limiting plate 144 is rotatably connected with the first squeezing roller 14. The third limiting plate 144 is provided with a bolt, and the bolt is used for connecting the outer wall of the hopper 1 with the third limiting plate 144.

Referring to fig. 2, a fourth connection hole 152 is formed in a side surface of the outer wall of the hopper 1 facing the driving unit 3. One end of the second squeeze roller 15 is rotatably connected to the inner wall of the hopper 1, and the other end thereof protrudes through the fourth connection hole 152. The outer wall of the hopper 1 is provided with a fourth limiting plate 153 for preventing the second squeezing roller 15 from moving out of the hopper 1, and the fourth limiting plate 153 is rotatably connected with the second squeezing roller 15. The fourth limiting plate 153 is provided with a bolt, and the bolt is used for connecting the outer wall of the hopper 1 with the fourth limiting plate 153.

Referring to fig. 2, both the first and second pressing rolls 14 and 15 are positioned above the first compression roll 12, and the first pressing roll 14 is horizontally disposed above the second pressing roll 15. The first press roll 14 rotates in the opposite direction to the second press roll 15. The distance between the first pressing roll 14 and the second pressing roll 15 is smaller than the axial distance between the first compression roll 12 and the second compression roll 13, and the distance between the first pressing roll 14 and the second pressing roll 15 is larger than the distance between the first compression roll 12 and the second compression roll 13.

Referring to fig. 2, a plurality of first push rings 141 are fixedly connected to the circumferential surface of the first pressing roll 14, and the plurality of first push rings 141 are arranged in an array along the longitudinal direction of the first pressing roll 14. A plurality of second push rings 151 are fixedly connected to the circumferential surface of the second pressing roll 15, and the plurality of second push rings 151 are distributed in an array along the longitudinal direction of the second pressing roll 15. The first push rings 141 and the second push rings 151 are staggered with each other. The outer surfaces of the first push ring 141 and the second push ring 151 are provided with friction belts 142.

Referring to fig. 2 and 3, two guiding devices 2 are arranged in the hopper 1, the two guiding devices 2 are symmetrical along the central axis of the hopper 1, and the guiding devices 2 comprise a guiding plate 21 and a supporting bar 22. All with guide board 21 fixed connection the three side of 1 inner wall of hopper, the length direction of guide board 21 is unanimous with the length direction of first squeeze roll 14, and two guider 2 are located the top of first squeeze roll 14, and the one end and the guide board 21 fixed connection of support bar 22, the one end and the 1 inner wall fixed connection of hopper that guide board 21 was kept away from to support bar 22.

Referring to fig. 2 and 3, a driving device 3 is disposed outside the hopper 1, and the driving device 3 includes a first motor 31, a second motor 32, a first fixing plate 311, a second fixing plate 321, a first gear 33, a second gear 34, a third gear 35, and a fourth gear 36.

Referring to fig. 2 and 3, the first fixing plate 311 is fixedly coupled to the outer wall of the hopper 1, the first fixing plate 311 is positioned below the first coupling hole 121, the first motor 31 is fixedly coupled to the first fixing plate 311, and the first compression roller 12 is coupled to the first motor 31. The first gear 33 is sleeved on the rotating shaft of the first motor 31, the second gear 34 is sleeved on the second compression roller 13, and the first gear 33 and the second gear 34 are meshed with each other.

Referring to fig. 2 and 3, a second fixing plate 321 is fixedly coupled to an outer wall of the hopper 1, the second fixing plate 321 is positioned below the second coupling hole 131, a second motor 32 is fixedly coupled to the second fixing plate 321, and the second motor 32 is coupled to the first pressing roller 14. The third gear 35 is sleeved on the second motor 32, the fourth gear 36 is sleeved on the second squeezing roller 15, and the third gear 35 and the fourth gear 36 are meshed with each other.

The implementation principle of the embodiment 1 is as follows: when the first motor 31 is started, the first motor 31 drives the first compression roller 12 and the first gear 33 to rotate, and since the first gear 33 and the second gear 34 are meshed with each other, the second gear 34 rotates, and then the second gear 34 drives the second compression roller 13 to rotate, so that the first compression roller 12 and the second compression roller 13 rotate together.

When the second motor 32 is started, the second motor 32 drives the first squeeze roll 14 and the third gear 35 to rotate, and the third gear 35 drives the fourth gear 36 to rotate due to the mutual engagement of the third gear 35 and the fourth gear 36, so that the second squeeze roll 15 is driven to rotate, and the first squeeze roll 14 and the second squeeze roll 15 rotate together.

When the hides fall onto the first pressure roller 14 and the second pressure roller 15, the hides are compressed; when the leathers fall onto the first compression roller 12 and the second compression roller 13, the leathers are compressed again so that the leathers can pass through the outlet below the hopper 1.

Example 2

Referring to fig. 4, the present embodiment is different from embodiment 1 in that the driving device 3 includes a third motor 41, a fourth motor 42, a third fixing plate 411, a fourth fixing plate 421, a first transmission belt 43, a second transmission belt 44, a first driving wheel 45, a first driven wheel 46, a second driving wheel 47, and a second driven wheel 48.

Referring to fig. 4, the third fixing plate 411 is fixedly connected to the outer wall of the hopper 1, the third fixing plate 411 is located below the third connecting hole 143, the third motor 41 is fixedly connected to the third fixing plate 411, the first compression roller 12 is connected to the third motor 41, the first driving wheel 45 is sleeved on the third motor 41, the first driven wheel 46 is sleeved on the first squeeze roller 14, and the first driving belt 43 is sleeved outside the first driving wheel 45 and the first driven wheel 46.

Referring to fig. 4, the fourth fixing plate 421 is fixedly connected to the outer wall of the hopper 1, the fourth fixing plate 421 is located below the fourth connecting hole 152, the fourth motor 42 is fixedly connected to the fourth fixing plate 421, the second compression roller 13 is connected to the fourth motor 42, the second driving wheel 47 is sleeved on the fourth motor 42, the second driven wheel 48 is sleeved on the second squeezing roller 15, and the second transmission belt 44 is sleeved outside the second driving wheel 47 and the second driven wheel 48.

The implementation principle of the embodiment 2 is as follows: when the third motor 41 is started, the third motor 41 drives the first compression roller 12 and the first driving wheel 45 to rotate, and the first driving wheel 45 is connected with the first driven wheel 46 through the first transmission belt 43, so that the first squeezing roller 14 rotates.

When the fourth motor 42 rotates, the fourth motor 42 drives the second compression roller 13 and the second driving wheel 47 to rotate, and the second driving wheel 47 is connected with the second driven wheel 48 through the second transmission belt 44, so that the second squeezing roller 15 rotates.

The above description is only a preferred embodiment of the present application and should not be taken as limiting the present application, and any modifications, equivalents, improvements and the like made within the design concept of the present application should be included in the protection scope of the present application.

Claims (8)

1. The utility model provides a gu useless boiler leather conveyor, includes hopper (1), first compression roller (12), second compression roller (13), first compression roller (12) all rotate with second compression roller (13) and connect in hopper (1), the rotation opposite direction of first compression roller (12) and second compression roller (13), first compression roller (12) are located second compression roller (13) horizontally one side, interval between first compression roller (12) and second compression roller (13) is less than the export of hopper (1) below, its characterized in that: hopper (1) internal rotation is connected with first squeeze roll (14) and second squeeze roll (15), first squeeze roll (14) all are located first compression roller (12) top with second squeeze roll (15), the rotation direction of first squeeze roll (14) and second squeeze roll (15) is opposite, first squeeze roll (14) are located second squeeze roll (15) horizontally one side, the axial-center distance of first compression roller (12) and second compression roller (13) is greater than the interval of first squeeze roll (14) and second squeeze roll (15), the interval of first compression roller (12) and second compression roller (13) is less than the interval of first squeeze roll (14) and second squeeze roll (15), be equipped with in hopper (1) and be used for leading the leather to guider (2) between first compression roller (12) and second compression roller (13).

2. The leather conveying device for the solid waste boiler as claimed in claim 1, characterized in that: be equipped with a plurality of first push ring (141) on the periphery of first squeeze roll (14), it is a plurality of first push ring (141) distribute along the length direction array of first squeeze roll (14), be equipped with a plurality of second push ring (151) on the periphery of second squeeze roll (15), it is a plurality of second push ring (151) distribute along the length direction array of second squeeze roll (15).

3. The leather conveying device for the solid waste boiler as claimed in claim 2, wherein: the plurality of first push rings (141) and the plurality of second push rings (151) are arranged in a staggered manner.

4. The leather conveying device for the solid waste boiler as claimed in claim 2, wherein: and friction belts (142) are arranged on the outer surfaces of the first pushing ring (141) and the second pushing ring (151).

5. The leather conveying device for the solid waste boiler as claimed in claim 1, characterized in that: guider (2) are including guide board (21), support bar (22), guide board (21) set up in first squeeze roll (14) top, guide board (21) all incline towards first squeeze roll (14), and the three side of hopper (1) inner wall all is connected with guide board (21), and the length direction of guide board (21) is unanimous with the length direction of first squeeze roll (14), support bar (22) set up in hopper (1), one guide board (21) is connected to the one end of support bar (22), another guide board (21) is connected to the one end of support bar (22).

6. The leather conveying device for the solid waste boiler as claimed in claim 1, wherein: a driving device (3) is arranged outside the hopper (1), and the driving device (3) is used for driving the first compression roller (12), the second compression roller (13), the first squeezing roller (14) and the second squeezing roller (15) to rotate.

7. The leather conveying device for the solid waste boiler as claimed in claim 6, wherein: the driving device (3) comprises a first motor (31), a first fixing plate (311), a first gear (33) and a second gear (34), wherein the first fixing plate (311) is arranged on the outer wall of the hopper (1), the first fixing plate (311) is located below the first compression roller (12), the first motor (31) is arranged on the first fixing plate (311), the first compression roller (12) extends out of the hopper (1) towards one side of the first fixing plate (311), the first motor (31) is connected with the end face of the first compression roller (12), the first gear (33) is sleeved on a rotating shaft of the first motor (31), the second compression roller (13) extends out of the hopper (1) towards one side of the first fixing plate (311), the second gear (34) is sleeved on the second compression roller (13), and the first gear (33) and the second gear (34) are meshed with each other.

8. The leather conveying device for the solid waste boiler as claimed in claim 6, wherein: drive arrangement (3) include third motor (41), third fixed plate (411), first drive belt (43), first action wheel (45), first follow driving wheel (46), outside hopper (1) is stretched towards one side of third fixed plate (411) first compression roller (12), third fixed plate (411) sets up on hopper (1) outer wall, third fixed plate (411) are located first compression roller (12) below, third motor (41) set up on third fixed plate (411), third motor (41) and the end connection of first compression roller (12), first action wheel (45) cup joints on third motor (41), outside hopper (1) is stretched towards one side of third fixed plate (411) first squeeze roller (14), first follow driving wheel (46) cup joint on first squeeze roller (14), first drive belt (43) cover is established outside first action wheel (45) and first follow driving wheel (46).

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