CN113108515B - Bamboo shoots cooling tank is used in processing of white dried bamboo shoots - Google Patents

Abstract

The invention discloses a bamboo shoot cooling tank for processing dried white bamboo shoots, which comprises a rack, wherein the rack is provided with a cooling tank, a bottom tank positioned below the cooling tank and a punching assembly positioned above the cooling tank, a mounting seat of the punching assembly is provided with a gripping telescopic rod, a poking telescopic rod, a rod needle and a pair of clamping plates, the gripping telescopic rod drives the rod needle to move up and down, the rod is used for grabbing bamboo shoots in a bamboo shoot rinsing tank, the poking telescopic rod drives the rod needle to move up and down, the rod is used for poking and cooling bamboo joints in the middle of the vertically placed bamboo shoots, and the clamping plates can clamp the bamboo shoots to realize rotation of the bamboo shoots.

Description

Bamboo shoots cooling tank is used in processing of white dried bamboo shoots

Technical Field

The invention relates to the technical field of bamboo shoot processing equipment, in particular to a bamboo shoot cooling tank for processing dried white bamboo shoots.

Background

The dried white bamboo shoot is a moso bamboo shoot slice which is cooked, cooled, squeezed, dried in the sun or dried. The bamboo shoots need to be rinsed and cooled after being cooked, and because bamboo shoots have bamboo joints which are closed spaces, the cooling speed is slow, and the bamboo shoots are not easy to cool thoroughly. During the cooling process of the boiled bamboo shoots, the boiled bamboo shoots in the pot are fished up, bamboo shoot knots of the bamboo shoots are punctured by an iron rod, hot air in the bamboo shoots is scattered, the cold penetration of the bamboo shoots is facilitated, and water is also pressed out through the holes when the bamboo shoots are pressed in the next process. In the prior art, the bamboo shoots are punched manually, the processing efficiency is low, the temperature inside the bamboo joints is high, and the cooling efficiency is low.

Disclosure of Invention

The invention aims to solve the problem that the cooling speed of bamboo shoots is low in the prior art, and provides a bamboo shoot cooling tank for processing dried white bamboo shoots.

In order to achieve the purpose, the invention adopts the following technical scheme:

dry processing of white bamboo shoots is with bamboo shoots cooling tank, including the frame, set up the cooling tank in the frame, be located the end pond of cooling tank below and be located the subassembly that punches of cooling tank top.

Specifically, one end of the bottom tank is located below a water outlet of the cooling tank, a water pump is arranged inside the bottom tank, and a water outlet end of the water pump is communicated with the cooling tank through a return pipe. The water in the cooling pool flows out from the water outlet, the water flows into the bottom pool, the water in the bottom pool is re-introduced into the cooling pool through the return pipe by the water pump, and the bamboo shoots floating in the cooling pool can be gathered at the water outlet under the action of the water flow.

Preferably, the width of the water outlet of the cooling pool is gradually reduced relative to the width of the pool surface, and the quantity of the bamboo shoots is relatively reduced as the cooling pool is closer to the water outlet. The grabbing piece of the punching assembly is positioned above the water outlet.

Further, the punching assembly comprises a working conveyor belt with a vertically arranged conveying wheel axis, the working conveyor belt is connected with the rack through a supporting wheel, and the supporting wheel can drive the working conveyor belt to convey. The conveying surface of the working conveying belt is evenly provided with a mounting seat, the mounting seat is provided with a grabbing piece, and the mounting seat sequentially passes through the upper part of the water outlet in the rotating process of the working conveying belt.

Furthermore, the installation seat is provided with an object grabbing telescopic rod, a puncturing telescopic rod, a rod needle and a pair of clamping plates. The upper end of the rod needle is connected with the puncturing telescopic rod, the puncturing telescopic rod is connected with the lower end of the object grabbing telescopic rod through a connecting block, and the upper end of the object grabbing telescopic rod is fixedly connected with the mounting seat. Wherein, the object grabbing telescopic rod drives the rod needle to move up and down and is used for grabbing the bamboo shoots in the cooling pool by the rod. The pricking telescopic rod drives the rod needle to move up and down and is used for pricking bamboo joints in the middle of vertically placed bamboo shoots.

Further, the stick needle is located between the splint, set up vertical regulation telescopic link and horizontal regulation telescopic link between splint and the mount pad, the position of the adjustable splint of vertical regulation telescopic link and horizontal regulation telescopic link for press from both sides tight bamboo shoots.

Further, set up mounting panel and rotor plate between the work end of splint and horizontal regulation telescopic link, rotor plate fixed connection splint, set up on the mounting panel and hold the rotor plate and with the recess of rotor plate coaxial axis, rotor plate and mounting panel swivelling joint can make the position of bamboo shoots obtain adjusting. Because bamboo shoots one end is thin and the other end is thick, when the splint is used for clamping the bamboo shoots, the bamboo shoots can rotate due to gravity, the thick end is downward, the thin end is upward, and the bamboo shoots are convenient to puncture once.

Further, the inner wall of recess sets up spacing telescopic link, the work end of spacing telescopic link sets up the limiting plate, the limiting plate sets up the cambered surface that corresponds with the rotor plate side, and the position of the adjustable limiting plate of spacing telescopic link, when limiting plate and rotor plate side contact, because frictional force, the rotor plate can not rotate, realizes the location of rotor plate and splint.

Preferably, the side of the rod needle is provided with a scattering rod, the scattering rod is positioned in a groove on the side of the rod needle, a supporting spring is arranged between the upper end and the lower end of the scattering rod and between the rod needle, the lower end of the scattering rod is hinged with the rod needle, and the upper end of the scattering rod is connected with one end of the pull rope. The stay cord is taut, and the stick that scatters is located the recess of excellent needle side, and the side of excellent needle does not have protrudingly, is loosened when the stay cord, and the lower extreme rotation of scattering the stick under supporting spring's supporting role, and the recess of stick needle side is stretched out from the upper end of scattering the stick, scatters the stick and forms the form of scattering at excellent needle for prevent that bamboo shoots from droing in the removal after snatching.

Furthermore, the other end of the pull rope is wound on a winding coil, the winding coil is rotatably connected with the mounting seat, and a hole for the pull rope to penetrate through is formed in the rod needle. Still set up the receipts line subassembly that is used for receiving coil intermittent type receipts line on the mount pad, receive the line subassembly and include sleeve, fixed axle, volute spiral spring, ratchet, sliding bracket, return spring and stopper, receive coil and the fixed cover of ratchet and connect in the sleeve, sleeve and the coaxial swivelling joint of fixed axle, fixed axle fixed connection mount pad. One side of the limiting block is an inclined plane corresponding to the tooth surface of the ratchet wheel tooth part, the other side of the limiting block is a vertical plane, and the ratchet wheel tooth part corresponds to the limiting block. The limiting block is located at one end of the sliding support, the sliding support is connected with the mounting seat in a sliding mode, and a return spring with a vertical axis is arranged between the sliding support and the mounting seat. A volute spiral spring is arranged between the sleeve and the fixed shaft, and a convex block corresponding to the connecting block is arranged on the side face of the sliding support. When the thing telescopic link was in the primary importance, the connecting block supported the lug, and return spring is compressed, and the lowest extreme position of stopper is higher than the highest position of ratchet tooth portion.

When the bamboo shoots are grabbed, the object grabbing telescopic rod extends, the connecting block and the rod needle move downwards, the connecting block loosens the limit on the convex block, the return spring extends, the lowest end position of the limiting block is lower than the highest end position of the ratchet tooth part, the rod needle pulls the take-up coil to rotate through the pull rope, the take-up coil drives the ratchet wheel to rotate simultaneously through the sleeve, the tooth surface of the ratchet tooth part is in contact with the inclined surface of the limiting block, the ratchet tooth part can push the limiting block and the sliding support to move upwards, and after the ratchet tooth part passes through the limiting block, the limiting block moves downwards under the action of the return spring to prevent the ratchet wheel from reversing to form unidirectional movement of the ratchet wheel; successfully prick into bamboo shoots when the stick needle, the stick needle up moves, drives bamboo shoots and up moves simultaneously, and the stay cord is loosened this moment, and under supporting spring's supporting role, the upper end of scattering stick stretches out from the recess of stick needle side, scatters the stick and forms the form of scattering at the stick needle, prevents that bamboo shoots from droing.

Further, excellent needle up moves the in-process, the connecting block can be close to the lug, shorten home position as the thing telescopic link, promote the lug and up move when the connecting block, the stopper follows sliding support and up moves, the stopper eliminates the restriction to the reversal of ratchet tooth portion, under volute spiral spring's effect, the ratchet reversal, it tightens up to the stay cord formation to receive the coil, the upper end of stick is scattered in the stay cord pulling, make and scatter the whole recess that gets into excellent needle side of stick, the side of excellent needle does not have protrudingly, a pull-out for excellent needle.

Furthermore, the stay cord is hollow tubular, the scattering rod is provided with a communication hole for communicating the stay cord with the outside, the sleeve is further provided with an annular liquid storage tank, the liquid storage tank is communicated with one end of the winding coil through the guide pipe and the stay cord, the side face of the liquid storage tank is provided with a rotating ring, the rotating ring is rotatably connected with the liquid storage tank, when the sleeve rotates, the rotating ring can keep relatively static, the rotating ring is provided with a liquid inlet pipe, the liquid inlet pipe is communicated with the liquid storage tank, and the liquid storage tank is internally provided with a micro water pump. The liquid inlet pipe is communicated with the cold box, ice water is filled in the cold box, and the ice water enters the liquid storage box through the liquid inlet pipe. When the stick needle punches bamboo shoots, micro-water pump can flow out in the inside frozen water guide-in honeycomb duct of liquid reserve tank and stay cord, frozen water can the runner hole of stick needle, from when stick needle from the top down when between the different bamboo joints, frozen water can flow in between the bamboo joint of bamboo shoots simultaneously, cools off bamboo shoots inside, improves cooling efficiency.

The invention has the beneficial effects that:

1. this dried white bamboo shoots processing is with bamboo shoots cooling tank can carry out the automation to bamboo shoots and snatch in bamboo shoots cooling process and punch with the bamboo joint, replaces artifically, and work efficiency is high.

2. The bamboo shoot cooling tank for processing the dried white bamboo shoots can effectively prevent the bamboo shoots from falling off in the process of grabbing the bamboo shoots, and keeps stable and effective grabbing work;

3. the bamboo shoot cooling tank for processing the dried white bamboo shoots can keep the bamboo shoots in a vertical state before punching, a rod needle for punching can punch bamboo joints from top to bottom at one time, and the punching efficiency is high; in the process of punching, ice water can be filled between bamboo joints of the bamboo shoots to cool the interiors of the bamboo shoots, and the cooling efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of a bamboo shoot cooling tank for processing dried white bamboo shoots;

FIG. 2 is a schematic structural view of the dried white bamboo shoot for processing in the cooling tank of the bamboo shoot cooling tank;

FIG. 3 is a schematic view of the distribution of the bamboo shoot cooling tank mounting seats for processing dried white bamboo shoots;

FIG. 4 is an enlarged schematic structural view of a position A of a bamboo shoot cooling pool for processing the dried white bamboo shoots;

FIG. 5 is a schematic view of the structure of the rotating plate of the bamboo shoot cooling tank for processing dried white bamboo shoots;

FIG. 6 is a schematic structural view of a coil winding part of a bamboo shoot cooling tank for processing dried white bamboo shoots;

FIG. 7 is a schematic view of the structure of the fixing shaft of the bamboo shoot cooling pool for processing the dried white bamboo shoots.

In the figure: 1. a cooling pool; 2. a bottom tank; 3. a work conveyor belt; 4. a support wheel; 5. an object grabbing telescopic rod; 6. puncturing the telescopic rod; 7. a rod needle; 8. a vertically adjustable telescoping rod; 9. a splint; 10. a mounting seat; 11. a water outlet; 12. transversely adjusting the telescopic rod; 13. mounting a plate; 14. a rotating plate; 15. limiting the telescopic rod; 16. a limiting plate; 17. connecting blocks; 18. winding a coil; 19. a sleeve; 20. a fixed shaft; 21. a volute spiral spring; 22. a ratchet wheel; 23. pulling a rope; 24. a sliding support; 25. a return spring; 26. a limiting block; 27. a bump; 28. a liquid storage tank; 29. a rotating ring; 30. a liquid inlet pipe; 31. a flow guide pipe; 71. a de-registering bar; 72. a support spring; 73. a flow-through hole; 201. a water pump; 202. a return pipe.

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.

Referring to fig. 1, a bamboo shoot cooling pool for processing dried white bamboo shoots comprises a frame, wherein the frame is provided with a cooling pool 1, a bottom pool 2 positioned below the cooling pool 1 and a punching assembly positioned above the cooling pool 1.

Specifically, one end of the bottom tank 2 is located below the water outlet 11 of the cooling tank 1, a water pump 201 is arranged inside the bottom tank 2, and a water outlet end of the water pump 201 is communicated with the cooling tank 1 through a return pipe 202. The water in the cooling pool 1 flows out from the water outlet 11, flows into the bottom pool 2, the water in the bottom pool 2 is reintroduced into the cooling pool 1 through the return pipe 22 by the water pump 21, and the bamboo shoots floating in the cooling pool 1 are gathered at the water outlet 11 due to the water flow.

Referring to fig. 2, the width of the water outlet 11 of the cooling pool 1 is gradually reduced relative to the width of the pool surface, and the closer to the water outlet 11, the smaller the number of bamboo shoots is, so that the accurate single grabbing is facilitated. The gripping member of the perforating assembly is positioned above the water outlet 11.

Further, the subassembly that punches includes the work conveyer belt 3 of the vertical setting of transfer gear axis, and work conveyer belt 3 passes through supporting wheel 4 to be connected with the frame, and supporting wheel 4 can drive the conveying of work conveyer belt 3. Referring to fig. 3, the conveying surface of the working conveyor belt 3 is uniformly provided with mounting seats 10, the mounting seats 10 are provided with gripping members, and the mounting seats 10 sequentially pass through the upper part of the water outlet 11 in the rotating process of the working conveyor belt 3.

Further, a gripping telescopic rod 5, a puncturing telescopic rod 6, a rod needle 7 and a pair of clamping plates 9 are arranged on the mounting seat 10. The upper end of the rod needle 7 is connected with the puncturing telescopic rod 6, the puncturing telescopic rod 6 is connected with the lower end of the object grabbing telescopic rod 5 through a connecting block 17, and the upper end of the object grabbing telescopic rod 5 is fixedly connected with the mounting seat 10. Wherein, the object grabbing telescopic rod 5 drives the rod needle 7 to move up and down for grabbing the bamboo shoots in the cooling pool 1 by the rod needle 7. The pricking telescopic rod 6 drives the rod needle 7 to move up and down, and the rod needle 7 is used for pricking bamboo joints in the middle of vertically placed bamboo shoots.

Further, stick needle 7 is located between splint 9, set up vertical regulation telescopic link 8 and horizontal regulation telescopic link 12 between splint 9 and the mount pad 10, vertical regulation telescopic link 8 and horizontal regulation telescopic link 12 adjust the position of splint 9, make splint 9 can press from both sides tight bamboo shoots. Wherein, the upper end fixed connection mount pad 10 of vertical regulation telescopic link 8, the lower extreme fixed connection of vertical regulation telescopic link 8 transversely adjusts telescopic link 12, and the work end of transversely adjusting telescopic link 12 connects splint 9.

Further, referring to fig. 4 and 5, an installation plate 13 and a rotation plate 14 are arranged between the clamping plate 9 and the working end of the transverse adjusting telescopic rod 12, the rotation plate 14 is fixedly connected with the clamping plate 9, a groove which is used for accommodating the rotation plate 14 and is coaxial with the rotation plate 14 is formed in the installation plate 13, and the rotation plate 14 is rotatably connected with the installation plate 13, so that the direction of the bamboo shoots can be adjusted. Because the thin one end of bamboo shoots is thick, cliies bamboo shoots when splint 9, and bamboo shoots is rotatable because of gravity, and thick end down, and thin end up can keep bamboo shoots to be in vertical state before punching, and the excellent needle of usefulness of punching can once only puncture the bamboo joint from the top down, and it is efficient to punch.

Further, the inner wall of the groove is provided with a limiting telescopic rod 15, the working end of the limiting telescopic rod 15 is provided with a limiting plate 16, the limiting plate 16 is provided with an arc surface corresponding to the side surface of the rotating plate 14, and the axis of the limiting telescopic rod 15 points to the circle center of the rotating plate 14. The position of the limit plate 16 can be adjusted by the limit telescopic rod 15, when the limit plate 16 is contacted with the side surface of the rotating plate 14, the rotating plate 14 can not rotate due to friction force, and the rotating plate 14 and the clamping plate 9 are positioned.

Referring to fig. 6, a scattering rod 71 is arranged on the side surface of the needle 7, the scattering rod 71 is arranged in a groove on the side surface of the needle 7, a supporting spring 72 is arranged between the upper end and the lower end of the scattering rod 71 and between the needle 7, the lower end of the scattering rod 71 is hinged with the needle 7, and the upper end of the scattering rod 71 is connected with one end of the pull rope 23. The pulling rope 23 is tightened, the scattering rod 71 is positioned in a groove on the side surface of the needle 7, the side surface of the needle 7 has no protrusion, when the pulling rope 23 is loosened, the lower end of the scattering rod 71 rotates, the upper end of the scattering rod 71 extends out of the groove on the side surface of the needle 7 under the supporting action of the supporting spring 72, and the scattering rod 71 forms a scattering shape on the needle 7 and is used for preventing bamboo shoots from falling off in the movement after grabbing.

Referring to fig. 6 and 7, the other end of the pulling rope 23 is wound around the winding coil 18, the winding coil 18 is rotatably connected with the mounting seat 10, and a hole for accommodating the pulling rope 23 is formed in the bar needle 7. Still set up the line subassembly of receiving that is used for receiving coil 18 intermittent type receipts line on the mount pad 10, receive the line subassembly and include sleeve 19, fixed axle 20, volute spiral spring 21, ratchet 22, sliding support 24, return spring 25 and stopper 26, receive coil 18 and ratchet 22 fixed the cup joint in sleeve 19, sleeve 19 and the coaxial swivelling joint of fixed axle 20, fixed axle 20 fixed connection mount pad 10. One side of the limiting block 26 is an inclined surface corresponding to the tooth surface of the tooth part of the ratchet wheel 22, the other side of the limiting block 26 is a vertical plane, and the tooth part of the ratchet wheel 22 corresponds to the limiting block 26. The limiting block 26 is located at one end of the sliding support 24, the sliding support 24 is connected with the installation seat 10 in a sliding mode, and a return spring 25 with a vertical axis is arranged between the sliding support 24 and the installation seat 10. A scroll spring 21 is arranged between the sleeve 19 and the fixed shaft 20, and a convex block 27 corresponding to the connecting block 17 is arranged on the side surface of the sliding bracket 24. When the object expansion rod 5 is at the original position, the connecting block 17 is abutted against the lug 27, the return spring 25 is compressed, and the lowest end position of the limiting block 26 is higher than the highest end position of the tooth part of the ratchet wheel 22.

When the bamboo shoots are grabbed, the object grabbing telescopic rod 5 extends, the connecting block 17 and the rod needle 7 move downwards, the connecting block 17 loosens the limit of the lug 27, the return spring 25 extends, the lowest end position of the limiting block 26 is lower than the highest end position of the tooth part of the ratchet wheel 22, the rod needle 7 pulls the winding coil 18 to rotate through the pull rope, the winding coil 18 drives the ratchet wheel 22 to rotate simultaneously through the sleeve 19, the tooth surface of the tooth part of the ratchet wheel 22 is in contact with the inclined surface of the limiting block 26, the tooth part of the ratchet wheel 22 can push the limiting block 26 and the sliding support 24 to move upwards, after the tooth part of the ratchet wheel 22 passes through the limiting block 26, the limiting block 26 moves downwards under the action of the return spring 25, the ratchet wheel 22 is prevented from reversing, and the unidirectional movement of the ratchet wheel 22 is formed; when the bamboo shoots are successfully pricked by the bar needle 7, the bar needle 7 moves upwards and drives the bamboo shoots to move upwards, at the moment, the pull rope 23 is loosened, the upper end of the scattering bar 71 extends out of the groove on the side face of the bar needle 7 under the supporting action of the supporting spring 72, and the scattering bar 71 forms a scattering shape on the bar needle 7 to prevent the bamboo shoots from falling off.

Furthermore, in the upward movement process of the rod needle 7, the connecting block 17 is close to the projection 27, the object telescopic rod 5 is shortened to the original position, when the connecting block 17 pushes the projection 27 to move upward, the limiting block 26 moves upward along with the sliding support 24, the limiting block 26 eliminates the limitation on the reverse rotation of the tooth part of the ratchet wheel 22, under the action of the volute spring 21, the ratchet wheel 22 rotates reversely, the take-up coil 18 tightens the pull rope 23, the pull rope 23 pulls the upper end of the scattering rod 71, the scattering rod 71 integrally enters the groove in the side face of the rod needle 7, and the side face of the rod needle 7 is not protruded and used for pulling out the rod needle 7.

Further, the pull rope 23 is hollow and tubular, the scattering rod 71 is provided with a communication hole 73 for communicating the pull rope 23 with the outside, the sleeve 19 is further provided with an annular liquid storage tank 28, the liquid storage tank 28 is communicated with one end of the pull rope 23 fixed on the winding coil 18 through the guide pipe 31, a rotating ring 29 is arranged on the side surface of the liquid storage tank 28, the rotating ring 29 is rotatably connected with the liquid storage tank 28, when the sleeve 19 rotates, the rotating ring 29 can keep relatively static, the rotating ring 29 is provided with a liquid inlet pipe 30, the liquid inlet pipe 30 is communicated with the liquid storage tank 28, and a micro water pump is arranged in the liquid storage tank 28. The liquid inlet pipe 30 is communicated with the cold box, ice water is filled in the cold box, and the ice water enters the liquid storage box 28 through the liquid inlet pipe 30. When the stick needle 7 punches the bamboo shoots, the micro water pump can guide ice water in the liquid storage tank 28 into the flow guide pipe 31 and the pull rope 23, the ice water can flow out of the flow holes 73 of the stick needle 7, and when the stick needle 7 passes through different bamboo joints from top to bottom, the ice water can flow into the bamboo joints of the bamboo shoots simultaneously to cool the interior of the bamboo shoots, so that the cooling efficiency is improved.

The working process of the bamboo shoot cooling tank for processing the dried white bamboo shoots comprises the following steps:

the first step is as follows: the water in the cooling pool 1 flows out from the water outlet 11, flows into the bottom pool 2, the water in the bottom pool 2 is reintroduced into the cooling pool 1 through the return pipe 22 by the water pump 21, the bamboo shoots are located in the cooling pool 1, and the bamboo shoots floating in the cooling pool 1 are gathered at the water outlet 11 due to the water flow.

The second step is that: the gripping member of the perforating assembly is positioned above the water outlet 11. When the bamboo shoots are grabbed, the object grabbing telescopic rod 5 extends, the connecting block 17 and the rod needle 7 move downwards, the connecting block 17 loosens the limit of the lug 27, the return spring 25 extends, the lowest end position of the limiting block 26 is lower than the highest end position of the tooth part of the ratchet wheel 22, the rod needle 7 pulls the winding coil 18 to rotate through the pull rope, the winding coil 18 drives the ratchet wheel 22 to rotate simultaneously through the sleeve 19, the tooth surface of the tooth part of the ratchet wheel 22 is in contact with the inclined surface of the limiting block 26, the tooth part of the ratchet wheel 22 can push the limiting block 26 and the sliding support 24 to move upwards, after the tooth part of the ratchet wheel 22 passes through the limiting block 26, the limiting block 26 moves downwards under the action of the return spring 25 to prevent the ratchet wheel 22 from reversing, the unidirectional movement of the ratchet wheel 22 is formed, and the rod needle 7 grabs the bamboo shoots until the rod needle 7 pricks the bamboo shoots;

the third step: when the bamboo shoots are successfully pricked by the stick needle 7, the object grabbing telescopic rod 5 is shortened, the stick needle 7 moves upwards, meanwhile, the bamboo shoots are driven to move upwards, the pull rope 23 is loosened, under the supporting effect of the supporting spring 72, the upper end of the scattering rod 71 extends out of a groove in the side face of the stick needle 7, the scattering rod 71 forms a scattering shape on the stick needle 7, and the bamboo shoots are prevented from falling off.

The fourth step: in the upward movement process of the rod needle 7, the connecting block 17 is close to the lug 27, when the object grabbing telescopic rod 5 is shortened to the original position, when the connecting block 17 pushes the lug 27 to move upward, the limiting block 26 moves upward along with the sliding support 24, the limiting block 26 eliminates the limitation on the reverse rotation of the tooth part of the ratchet wheel 22, under the action of the scroll spring 21, the ratchet wheel 22 reverses, the winding coil 18 tightens the pull rope 23, the pull rope 23 pulls the upper end of the scattering rod 71, the scattering rod 71 is integrally retracted into the groove in the side face of the rod needle 7, and the side face of the rod needle 7 is not protruded and used for pulling out the rod needle 7.

The fifth step: the position of splint 9 is adjusted to vertical regulation telescopic link 8 and horizontal regulation telescopic link 12, makes splint 9 press from both sides tight bamboo shoots, punctures the shrink of telescopic link 6 this moment, extracts out stick needle 7 from bamboo shoots.

And a sixth step: the limit telescopic rod 15 is shortened, the rotating plate 14 can rotate freely, bamboo shoots can rotate due to gravity, the thick end is downward, the thin end is upward, and the bamboo shoots are in a vertical state; the limit telescopic rod 15 extends, and the limit plate 16 is contacted with the side surface of the rotating plate 14, so that the rotating plate 14 and the clamping plate 9 are positioned.

The seventh step: the puncturing telescopic rod 6 extends simultaneously, so that the rod needle 7 moves downwards, the bamboo joint of the bamboo shoot is punctured by the rod needle 7 from top to bottom at one time, and the punching of the bamboo joint is completed;

in the process, the micro water pump can guide ice water in the liquid storage tank 28 into the flow guide pipe 31 and the pull rope 23, the ice water can flow out of the flow holes 73 of the rod needle 7, and when the rod needle 7 passes through different bamboo joints from top to bottom, the ice water can simultaneously flow into the bamboo joints of the bamboo shoots to cool the insides of the bamboo shoots, so that the cooling efficiency is improved.

Eighth step: the punching is finished, the puncturing telescopic rod 6 is shortened at the same time, the rod needle 7 is pulled out of the bamboo shoots, the micro water pump also stops working, the working conveyor belt 3 rotates, the mounting seat 10 which is finished in punching is driven to leave the upper part of the water outlet 11, and the next mounting seat 10 enters the upper part of the water outlet 11 to continue working. The bamboo shoots after the punching are driven to the upper part of the other cooling pool, the clamping plate 9 is loosened, and the bamboo shoots are put down.

The dry processing of white bamboo shoot in this embodiment is with bamboo shoots cooling bath can carry out the automation to bamboo shoots in bamboo shoots cooling process and snatch and the punching of bamboo joint, replaces artifically, and it is efficient to punch, at the in-process that punches, can toward pour into the frozen water between the bamboo joint of bamboo shoots into, cools off bamboo shoots inside, improves cooling efficiency.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. The bamboo shoot cooling tank is used in processing of the dried white bamboo shoots, and is characterized by comprising a cooling tank (1), a bottom tank (2) positioned below the cooling tank (1) and a punching assembly positioned above the cooling tank (1), wherein the punching assembly comprises a work conveying belt (3) with a vertically arranged conveying wheel axis, a mounting seat (10) is uniformly arranged on a conveying surface of the work conveying belt (3), an object grabbing telescopic rod (5), a puncturing telescopic rod (6), a rod needle (7) and a paired clamping plate (9) are arranged on the mounting seat (10), and the clamping plate (9) is rotatably connected with the mounting seat (10);

the rod needle (7) is positioned between the clamping plates (9), the upper end of the rod needle (7) is connected with the puncturing telescopic rod (6), the puncturing telescopic rod (6) is connected with the lower end of the object grabbing telescopic rod (5) through a connecting block (17), and the upper end of the object grabbing telescopic rod (5) is fixedly connected with the mounting seat (10);

the side of excellent needle (7) sets up scatters stick (71), scatter and set up supporting spring (72) between the upper and lower both ends of stick (71) and between excellent needle (7), hinged joint between lower extreme and excellent needle (7) of stick (71) scatters, the one end of stay cord (23) is connected to the upper end of scattering stick (71), the other end of stay cord (23) twines in receipts coil (18), receipts coil (18) and mount pad (10) swivelling joint, stay cord (23) are hollow tubulose, scatter stick (71) and set up intercommunication stay cord (23) and external intercommunicating pore (73).

2. The dried white bamboo shoots processing is with bamboo shoots cooling pond according to claim 1, characterized in that still set up the line subassembly of receiving that is used for receiving coil (18) intermittent type line on mount pad (10), receive line subassembly and include sleeve (19), fixed axle (20), spiral spring (21), ratchet (22), sliding support (24), return spring (25) and stopper (26), receive coil (18) and ratchet (22) fixed cover and connect in sleeve (19), sleeve (19) and fixed axle (20) coaxial rotation are connected, fixed axle (20) fixed connection mount pad (10), set up spiral spring (21) between sleeve (19) and fixed axle (20), the tooth portion of ratchet (22) corresponds with stopper (26), stopper (26) are located the one end of sliding support (24), sliding support (24) and mount pad (10) sliding connection, set up axis vertical return spring (25) between sliding support (24) and mount pad (10), the side setting of sliding support (24) corresponds lug (27) with connecting block (17) position.

3. The cooling tank for the dried white bamboo shoots for processing according to claim 2, wherein the sleeve (19) is further provided with an annular liquid storage tank (28), the liquid storage tank (28) is communicated with one end of the winding ring (18) fixed by the pull rope (23) through a guide pipe (31), a rotating ring (29) is arranged on the side surface of the liquid storage tank (28), the rotating ring (29) is rotatably connected with the liquid storage tank (28), and the liquid inlet pipe (30) is arranged on the rotating ring (29).

4. The bamboo shoot cooling pool for processing the dried white bamboo shoots as claimed in claim 2 or 3, wherein one surface of the limiting block (26) is an inclined surface corresponding to the tooth surface of the tooth part of the ratchet wheel (22), and the other surface of the limiting block (26) is a vertical plane.

5. The bamboo shoots cooling pond for processing dried white bamboo shoots according to claim 1 or 3, characterized in that, set up vertical regulation telescopic link (8) and horizontal regulation telescopic link (12) between splint (9) and mount pad (10), swivelling joint between the working end of splint (9) and horizontal regulation telescopic link (12).

6. The processing of dried white bamboo shoots is with bamboo shoots cooling pond according to claim 5, characterized in that, set up mounting panel (13) and rotor plate (14) between the work end of splint (9) and horizontal regulation telescopic link (12), rotor plate (14) fixed connection splint (9), set up on mounting panel (13) and hold rotor plate (14) and with the recess of rotor plate (14) coaxial axle center, the inner wall of recess sets up spacing telescopic link (15), the work end of spacing telescopic link (15) sets up limiting plate (16), limiting plate (16) set up the cambered surface that corresponds with rotor plate (14) side, the directional centre of a circle of rotor plate (14) of axis of spacing telescopic link (15).

7. The cooling tank for the dried white bamboo shoots for processing according to claim 1 or 3, wherein one end of the bottom tank (2) is located below the water outlet (11) of the cooling tank (1), a water pump (201) is arranged inside the bottom tank (2), and the water outlet end of the water pump (201) is communicated with the cooling tank (1) through a return pipe (202).

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