CN213604163U - Rotary feeding device with pushing mechanism and twisting system - Google Patents

Abstract

The utility model provides a take pushing mechanism's rotatory material feeding unit and knead system belongs to the tealeaves preparation field. The rotary feeding device with the pushing mechanism comprises a feeding frame body, a rotary disc, a feeding barrel and a pushing mechanism, wherein a circular groove suitable for the feeding barrel to penetrate through is formed in the position, opposite to the feeding barrel, of the rotary disc, the feeding barrel is fixed on the circular groove, the rotary disc is rotatably connected to the feeding frame body, and the pushing mechanism is fixedly connected to the feeding frame body. Through install pushing mechanism additional on rotatory material feeding unit, when rotatory material feeding unit's pay-off bucket pay-off, promote the tealeaves in the pay-off bucket and fall to rolling the bucket of machine, prevent that the tealeaves ejection of compact in the pay-off bucket is incomplete or the phenomenon of not ejection of compact from taking place, improved the efficiency of material loading, owing to avoided the mode that adopts the conveyer belt to transport tealeaves simultaneously, reduced the loss of tealeaves when the transportation, improved the productivity.

Description

Rotary feeding device with pushing mechanism and twisting system

Technical Field

The utility model relates to a tealeaves preparation field, concretely relates to take pushing mechanism's rotatory material feeding unit and knead system.

Background

The tea rolling machine rolls and compresses the tea leaves, so that the leaves are broken lightly and rolled into strips, the volume is reduced, and meanwhile, tea cells are damaged and tea juice is kneaded out, thereby improving the quality of the tea leaves.

The traditional tea rolling method is characterized in that manual rolling is adopted, the rolling force of the tea is controlled manually, and large-scale batch production cannot be realized. In recent years, a tea rolling machine is adopted to roll tea leaves, and the manual rolling work is avoided, but the feeding and the discharging still need to be carried out manually.

In order to solve the problems, the tea leaves are conveyed by the conveying belt in the prior art, the output efficiency of the mode is low, and the damage of the tea leaves can be caused during conveying. If not adopt the conveyer belt to carry out the material loading, adopt a plurality of charging barrels to carry out the pay-off, tealeaves can pile up in charging barrel sometimes, produces the extrusion with charging barrel's lateral wall, and when the bottom plate of charging barrel bottom was opened this moment, the tealeaves in the charging barrel can not be because self gravity whereabouts to lead to unable pay-off, influence the work efficiency of machine of kneading.

The above problems are currently in need of solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a take pushing mechanism's rotatory material feeding unit and knead system is provided to the purpose that the tealeaves in the realization will be sent the storage bucket is released.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a take pushing mechanism's rotatory material feeding unit. The rotary feeding device with the pushing mechanism comprises: the tea leaf pushing device comprises a feeding frame body, a rotary disc, a feeding barrel and a pushing mechanism, wherein a circular groove suitable for the feeding barrel to penetrate through is formed in the position, opposite to the feeding barrel, of the rotary disc, the feeding barrel is fixed on the circular groove, the rotary disc is connected to the feeding frame body in a rotating mode, the pushing mechanism is fixedly connected to the feeding frame body and suitable for pushing tea leaves in the feeding barrel out, the feeding barrel comprises a barrel body, a movable plate and a driving mechanism, the movable plate is arranged at the bottom of the barrel body and movably connected with the barrel body, the driving mechanism is suitable for driving the movable plate to move so as to open or close the bottom of the barrel body, the pushing mechanism comprises a push rod, a push disc and a pushing motor, a rack is arranged on the push rod, and the push rod is fixedly connected with the push disc after penetrating through the feeding frame body, the pushing motor is fixedly arranged on the upper surface of the feeding frame body, and a gear meshed with the rack on the push rod is arranged on the pushing motor.

Further, the feeding frame body comprises a support column and a transverse plate, the transverse plate is fixedly connected with the upper end of the support column, the transverse plate is provided with a rotating motor, a first rotating belt wheel, a second rotating belt wheel, a first rotating gear, a second rotating gear and a belt, the second rotating belt wheel and the first rotating gear are integrally formed, and is rotationally connected to the transverse plate through a rotating shaft, the rotating motor is fixedly arranged on the transverse plate, the first rotating belt wheel is fixedly arranged on a rotor of the rotating motor, the first rotating belt wheel and the second rotating belt wheel are driven by a belt, the second rotating gear is rotationally connected to the transverse plate through a disc rotating shaft, the second rotating gear is meshed with the first rotating gear, and the disk rotating shaft penetrates through the transverse plate and then is fixedly connected with the rotating disk.

Furthermore, the mesa of rotating disc is provided with the pay-off locating piece, the diaphragm with the face that the rotating disc is relative is provided with pay-off infrared distance measuring sensor, and pay-off infrared distance measuring sensor is in follow on the rotating disc the axial projection distance rotating disc axle center's of rotating disc distance is the same with the distance in pay-off locating piece and rotating disc axle center.

Further, the feeding barrel comprises a barrel body, a movable plate and a driving mechanism, the movable plate is arranged at the bottom of the barrel body and is movably connected with the barrel body, and the driving mechanism is suitable for driving the movable plate to move, so that the bottom of the barrel body is opened or closed.

Further, actuating mechanism includes first bevel gear, second bevel gear, bottom plate drive gear and bevel gear base, first bevel gear is fixed to be set up on bottom plate pivot upper portion, the lower part of bottom plate pivot with fly leaf fixed connection, the fixed one end that sets up at the base pivot of second bevel gear, the other end of base pivot passes behind the bevel gear base and bottom plate drive gear fixed connection, first bevel gear with the meshing of second bevel gear.

Further, the driving piece includes bracing piece, slide bar, compression spring and J type drive rack, the bracing piece level set up in the upper end of push rod, the slide bar is at the horizontal direction perpendicular to the bracing piece, the compression spring cover is established the slide bar, J type drive rack sliding connection be in on the slide bar, J type drive rack with push rod parallel arrangement.

Further, the number of the slide bars is two.

Further, the barrel body is of a bottomless barrel-shaped structure, and a translation groove suitable for the movable plate to move transversely is formed in the bottom of the barrel body.

Further, an infrared induction sensor is arranged on the inner wall of the barrel body.

On the other hand, the utility model also provides a system of twisting, including as foretell rotatory material feeding unit who takes pushing mechanism.

The utility model has the advantages that: through install pushing mechanism additional on rotatory material feeding unit, when rotatory material feeding unit's pay-off bucket pay-off, promote the tealeaves in the pay-off bucket and fall to rolling the bucket of machine, prevent that the tealeaves ejection of compact in the pay-off bucket is incomplete or the phenomenon of not ejection of compact from taking place, improved the efficiency of material loading, owing to avoided the mode that adopts the conveyer belt to transport tealeaves simultaneously, reduced the loss of tealeaves when the transportation, improved the productivity.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural view of a rotary feeding device with a pushing mechanism according to an embodiment of the present invention.

Fig. 2 is a schematic view of another perspective structure of the rotary feeding device with the pushing mechanism according to the embodiment of the present invention.

Fig. 3 is a sectional view of the rotating disc when the movable plate of the rotary feeding device with the pushing mechanism provided by the embodiment of the present invention is closed.

Fig. 4 is a sectional view of the rotating disc when the movable plate of the rotary feeding device with the pushing mechanism provided by the embodiment of the present invention is opened.

In the figure: 110-a feeding rack body, 111-a supporting column, 112-a transverse plate, 1121-a feeding infrared distance measuring sensor, 113-a rotating motor, 114-a first rotating belt wheel, 115-a second rotating belt wheel, 116-a first rotating gear, 1161-a rotating shaft, 117-a second rotating gear, 1171-a disk rotating shaft, 118-a belt, 119-a supporting plate, 120-a rotating disk, 121-a feeding positioning block, 130-a feeding barrel, 131-a barrel body, 132-a movable plate, 133-a driving mechanism, 1331-a first bevel gear, 1332-a second bevel gear, 1333-a bottom plate driving gear, 1334-a bevel gear base, 1335-a driving part and 1335 a-a supporting rod; 1335 b-sliding bar; 1335 c-compression spring; 1335d-J type driving rack, 1136-bottom plate rotating shaft, 1137-base rotating shaft, 134-circular groove, 135-translation groove, 140-pushing mechanism, 141-push rod, 142-pushing disc and 143-pushing motor.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

Referring to fig. 1-4, the rotary feeding device with pushing mechanism includes a feeding frame body 110, a rotary disc 120, a feeding barrel 130 and a pushing mechanism 140. The number of the feeding barrels 130 is plural, and the plurality of feeding barrels 130 are fixedly disposed on the rotating disk 120. The plurality of feed buckets 130 are equally spaced along the circumferential line of the rotary disk 120. The rotating disc 120 is provided with a circular groove 134 at a position opposite to the feeding barrel 130, the circular groove 134 is suitable for the feeding barrel 130 to pass through, and the feeding barrel 130 is fixed on the circular groove 134. The rotating disc 120 is rotatably connected to the feeding frame body 110, and the material pushing mechanism 140 is fixedly connected to the feeding frame body 110 and adapted to push out the tea leaves in the material feeding barrel 130.

The feeding frame body 110 comprises a supporting column 111 and a transverse plate 112, the transverse plate 112 is fixedly connected to the upper end of the supporting column 111, the transverse plate 112 is provided with a rotating motor 113, a first rotating belt wheel 114, a second rotating belt wheel 115, a first rotating gear 116, a second rotating gear 117 and a belt 118, and the second rotating belt wheel 115 and the first rotating gear 116 are integrally formed and are rotatably connected to the transverse plate 112 through a rotating shaft 1161. The rotating motor 113 is fixedly arranged on the horizontal plate 112, the first rotating belt wheel 114 is fixedly arranged on a rotor of the rotating motor 113, the first rotating belt wheel 114 and the second rotating belt wheel 115 are driven by a belt 118, the second rotating gear 117 is rotatably connected to the horizontal plate 112 through a disc rotating shaft 1171, and the second rotating gear 117 is meshed with the first rotating gear 116. The disk rotating shaft 1171 passes through the transverse plate 112 and is fixedly connected with the rotating disk 120.

The rotating disk 120 rotates as follows:

when the rotating motor 113 rotates, the first rotating pulley 114 drives the second rotating pulley 115 to rotate, the first rotating gear 116 integrated with the second rotating pulley 115 rotates, the second rotating gear 117 is driven, and the disk rotating shaft is driven to rotate, so that the rotating disk 120 rotates.

The feeding barrel 130 comprises a barrel body 131, a movable plate 132 and a driving mechanism 133, wherein the movable plate 132 is disposed at the bottom of the barrel body 131 and movably connected to the barrel body 131, and the driving mechanism 133 is adapted to drive the movable plate 132 to move, so as to open or close the bottom of the barrel body 131.

The barrel body 131 is a bottomless barrel-shaped structure, and a translation groove 135 suitable for the movable plate 132 to move transversely is formed at the bottom of the barrel body 131. An infrared sensor (not shown) is disposed on the inner wall of the tub body 131, and the infrared sensor is adapted to detect the number of tea leaves in the tub body 131. In this embodiment, the infrared sensor is model number LH 1958.

One end of the movable plate 132 is fixedly connected to the driving mechanism 133, and the movable plate 132 is adapted to completely cover the bottom of the tub body 131.

The driving mechanism 133 includes a first bevel gear 1331, a second bevel gear 1332, a bottom plate driving gear 1333 and a bevel gear base 1334, the first bevel gear 1331 is fixedly disposed on the upper portion of the bottom plate rotating shaft 1136, the lower portion of the bottom plate rotating shaft 1136 is fixedly connected to the movable plate 132, the second bevel gear 1332 is fixedly disposed at one end of the base rotating shaft 1137, the other end of the base rotating shaft 1137 penetrates through the bevel gear base 1334 and is fixedly connected to the bottom plate driving gear 1333, and the first bevel gear 1331 is engaged with the second bevel gear 1332. Wherein the bottom plate driving gear 1333 is driven by a driving member 1335, in other embodiments, the driving member 1335 may be, but is not limited to, a motor.

The operation of the drive mechanism 133 is as follows:

the driving member 1335 drives the bottom plate driving gear 1333 to rotate, so as to drive the base rotating shaft 1137 to rotate, when the base rotating shaft 1137 rotates, the second bevel gear 1332 fixed to the base rotating shaft 1137 also rotates, at this time, since the first bevel gear 1331 is engaged with the second bevel gear 1332, when the second bevel gear 1332 rotates, the first bevel gear 1331 also rotates, the bottom plate rotating shaft 1136 fixedly connected to the first bevel gear 1331 rotates, at this time, the movable plate 132 fixed to the bottom plate rotating shaft 1136 is driven to rotate, thereby opening and closing the movable plate 132. The cross-sectional view of the rotating disk 120 when the movable plate is closed is shown in fig. 3. When the movable plate 132 is opened, a sectional view of the rotary disk 120 is shown in fig. 4.

The feeding positioning block 121 is arranged on the table top of the rotating disc 120, the feeding infrared distance measuring sensor 1121 is arranged on the surface of the transverse plate 112 opposite to the rotating disc 120, and the distance from the axial projection of the feeding infrared distance measuring sensor 1121 on the rotating disc 120 along the rotating disc 120 to the axis of the rotating disc 120 is the same as the distance from the feeding positioning block 121 to the axis of the rotating disc 120.

When the feeding infrared distance measuring sensor 1121 detects the feeding positioning block 121, that is, the feeding positioning block 121 is located right below the feeding infrared distance measuring sensor 1121, at this time, the feeding barrel 130 is coaxial with the rolling barrel, and the tea leaves are fed into the rolling barrel by controlling the opening of the movable plate 132 at the bottom of the feeding barrel 130 which is coaxial with the rolling barrel.

In this embodiment, the rotary feeding device further includes a pushing mechanism 140, and the pushing mechanism 140 is disposed on the transverse plate 112 and adapted to push the tea leaves in the feeding barrel 130 into the kneading barrel when the feeding infrared distance measuring sensor 1121 detects the feeding positioning block 121.

The pushing mechanism 140 includes a push rod 141, a pushing tray 142 and a pushing motor 143, a rack is disposed on the push rod 141, the push rod 141 penetrates through the transverse plate 112 of the feeding frame body 110 and then is fixedly connected to the pushing tray 142, the pushing motor 143 is fixedly disposed on the upper surface of the transverse plate 112, and a gear engaged with the rack on the push rod 141 is disposed on the pushing motor 143.

The operation of the pusher mechanism 140 is as follows:

when the feeding infrared distance measuring sensor 1121 detects the feeding positioning block 121, the pushing motor 143 is controlled to rotate, at this time, the push rod 141 moves downward to drive the pushing disc 142 to move downward, tea leaves in the feeding barrel 130 are pushed into the rolling barrel, and when the infrared distance measuring sensor detects that no tea leaves exist in the feeding barrel 130, the pushing motor 143 is controlled to rotate reversely, and the pushing disc 142 is pulled upward.

In this embodiment, the driving member 1335 includes a supporting rod 1335a, a sliding rod 1335b, a compression spring 1335c and a J-shaped driving rack 1335D, the supporting rod 1335a is horizontally disposed at the upper end of the push rod 141, the sliding rod 1335b is perpendicular to the supporting rod 1335a in the horizontal direction, the compression spring 1335c is sleeved on the sliding rod 1335b, the J-shaped driving rack 1335D is slidably connected to the sliding rod 1335b, and the J-shaped driving rack 1335D is disposed in parallel with the push rod 141.

In the present embodiment, the number of the slide bars 1335b is two. In other embodiments, the J-drive rack 1335D may be prevented from wobbling by providing a guide block on the slide bar 1335 b.

The operation of the drive 1335 is as follows:

when the pushing motor 143 rotates, the pushing rod 141 is driven downward, and at the same time, the supporting rod 1335a and the sliding rod 1335b fixed to the pushing rod 141 are driven downward, so that the J-shaped driving rack 1335d is synchronously driven downward, the curved end of the J-shaped driving rack 1335d is tangent to the bottom plate driving gear 1333, then the compression spring 1335c is compressed by the J-shaped driving rack 1335d, and when the J-shaped driving rack 1335d is meshed with the bottom plate driving gear 1333, the bottom plate driving gear 1333 is driven to rotate. Thereby achieving the rotation of the floor driving gear 1333 driven by the driving member 1335.

The pushing disc 142 and the movable plate 132 are driven by the same motor, so that the number of the motors is reduced, and the energy consumption of tea rolling is reduced.

In this embodiment, each motor and each sensor are controlled by a controller, and the type of the controller is any one of a single chip microcomputer, an editable logic gate array and a PLC programmable controller.

The embodiment of the utility model provides a system of twisting is still provided, include like foretell rotatory material feeding unit who takes pushing mechanism.

To sum up, the utility model provides a take pushing mechanism's rotatory material feeding unit and knead system, wherein, take pushing mechanism's rotatory material feeding unit includes pay-off frame body, rotating disc, pay-off bucket and pushing equipment, rotating disc be with the relative position department of pay-off bucket has seted up and has been suitable for the circular slot that the pay-off bucket passed, the pay-off bucket is fixed on the circular slot, rotating disc rotates to be connected on the pay-off frame body, pushing equipment fixed connection be in on the pay-off frame body, and be suitable for with tealeaves in the pay-off bucket is released. Through install pushing mechanism additional on rotatory material feeding unit, when rotatory material feeding unit's pay-off bucket pay-off, promote the tealeaves in the pay-off bucket and fall to rolling the bucket of machine, prevent that the tealeaves ejection of compact in the pay-off bucket is incomplete or the phenomenon of not ejection of compact from taking place, improved the efficiency of material loading, owing to avoided the mode that adopts the conveyer belt to transport tealeaves simultaneously, reduced the loss of tealeaves when the transportation, improved the productivity.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides a take pushing mechanism's rotatory material feeding unit which characterized in that, take pushing mechanism's rotatory material feeding unit includes: the automatic feeding device comprises a feeding frame body, a rotary disc, a feeding barrel and a pushing mechanism, wherein a circular groove suitable for the feeding barrel to penetrate through is formed in the position, opposite to the feeding barrel, of the rotary disc, the feeding barrel is fixed on the circular groove, the rotary disc is rotationally connected to the feeding frame body, the pushing mechanism is fixedly connected to the feeding frame body, the feeding barrel comprises a barrel body, a movable plate and a driving mechanism, the movable plate is arranged at the bottom of the barrel body and is movably connected with the barrel body, the driving mechanism is suitable for driving the movable plate to move so as to open or close the bottom of the barrel body, the pushing mechanism comprises a push rod, a push disc and a pushing motor, a rack is arranged on the push rod, the push rod penetrates through the feeding frame body and is fixedly connected with the push disc, and the pushing motor is fixedly arranged on the upper surface of the feeding frame body, and a gear meshed with the rack on the push rod is arranged on the pushing motor.

2. The rotary feeding device with pushing mechanism according to claim 1, wherein the feeding frame body comprises a supporting column and a transverse plate, the transverse plate is fixedly connected to the upper end of the supporting column, the transverse plate is provided with a rotary motor, a first rotary pulley, a second rotary pulley, a first rotary gear, a second rotary gear and a belt, the second rotary pulley is integrally formed with the first rotary gear and is rotatably connected to the transverse plate through a rotary shaft, the rotary motor is fixedly arranged on the transverse plate, the first rotary pulley is fixedly arranged on a rotor of the rotary motor, the first rotary pulley and the second rotary pulley are driven by the belt, the second rotary gear is rotatably connected to the transverse plate through a disc rotating shaft, and the second rotary gear is meshed with the first rotary gear, and the disk rotating shaft penetrates through the transverse plate and is fixedly connected with the rotating disk.

3. The rotary feeding device with the pushing mechanism according to claim 2, wherein a feeding positioning block is disposed on the table top of the rotary disk, a feeding infrared distance measuring sensor is disposed on the surface of the transverse plate opposite to the rotary disk, and the distance from the axial projection of the feeding infrared distance measuring sensor on the rotary disk along the rotary disk to the axis of the rotary disk is the same as the distance from the feeding positioning block to the axis of the rotary disk.

4. A rotary feeding device with a pushing mechanism as claimed in claim 1, wherein the driving mechanism comprises a first bevel gear, a second bevel gear, a bottom plate driving gear and a bevel gear base, the first bevel gear is fixedly arranged at the upper part of the bottom plate rotating shaft, the lower part of the bottom plate rotating shaft is fixedly connected with the movable plate, the second bevel gear is fixedly arranged at one end of the base rotating shaft, the other end of the base rotating shaft penetrates through the bevel gear base and is fixedly connected with the bottom plate driving gear, and the first bevel gear is engaged with the second bevel gear.

5. The rotary feeder with pushing mechanism as claimed in claim 4, wherein the driving member comprises a support rod, a slide rod, a compression spring and a J-shaped driving rack, the support rod is horizontally disposed on the upper end of the push rod, the slide rod is perpendicular to the support rod in the horizontal direction, the compression spring is sleeved on the slide rod, the J-shaped driving rack is slidably connected to the slide rod, and the J-shaped driving rack is disposed parallel to the push rod.

6. The rotary feeder with pushing mechanism according to claim 5, wherein the number of the slide bars is two.

7. The rotary feeder with pushing mechanism according to claim 1,

the barrel body is of a bottomless barrel-shaped structure, and a translation groove suitable for the movable plate to move transversely is formed in the bottom of the barrel body.

8. The rotary feeder with pushing mechanism according to claim 1,

an infrared induction sensor is arranged on the inner wall of the barrel body.

9. A kneading system comprising a rotary feeder with a pushing mechanism according to any one of claims 1 to 8.

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