CN218049325U - A full-automatic breed frame soak device for batch production is bred - Google Patents

Abstract

The utility model discloses a full-automatic breed frame soak device for batch production is bred, including breeding frame feed mechanism, soaking mechanism and breeding frame discharge mechanism, breed frame feed mechanism and breed frame discharge mechanism and be located the both sides of soaking the mechanism, breed the frame and soak the mechanism through breeding frame feed mechanism input and soak, export by breeding frame discharge mechanism after soaking the processing, realize breeding the automatic soaking of frame and handle. The utility model discloses can realize breeding the full-automatic soaking of frame and handle, greatly reduced manual operation's intensity of labour, satisfy the assembly line installation requirement of batch production breed, improve the conveying efficiency of breeding the frame.

Description

A full-automatic breed frame soak device for batch production is bred

Technical Field

The utility model relates to a full-automatic breed frame soak device for batch production breed.

Background

The silkworm is commonly called a baby silkworm, also called a silkworm, and belongs to the lepidoptera and the family of the Bombycidae.

The silkworm passes through silkworm eggs, newly-hatched silkworms, silkworm babies, silkworm cocoons and silkworm moths for a lifetime of more than forty days. The silkworm larvae which just hatch from eggs are dark in color and called as the newly hatched silkworms, and fine hairs grow on the silkworms and are not obvious after about two days. After the silkworm comes out of the shell, it begins to peel after a certain period of feeding, and the time of peeling is about one day, called "dormancy". After one-time peeling, the silkworm grows into second-instar larvae, and the silkworms need to peel for four times to become fifth-instar larvae before spinning and cocooning.

All need use the breed frame at the whole in-process of sericulture, consequently to the cleaning and disinfection of breeding the frame extraordinarily important, breed frame among the prior art is usually direct when wasing to put into the cleaning bath with breeding the frame and wash, takes out again and dries, not only causes the waste of water resource, washs unclean moreover, can not satisfy the assembly line installation requirement of batch production breed, and the cleaning efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a technical scheme for a full-automatic breed frame soak device that is used for batch production to breed to the not enough of prior art existence, can realize breeding the full-automatic soaking of frame and handle, greatly reduced manual operation's intensity of labour, satisfy batch production breed's assembly line installation requirement, improved the transport efficiency of breeding the frame.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a full-automatic breed frame soak device for batch production is bred which characterized in that: the automatic soaking device comprises a breeding frame feeding mechanism, a soaking mechanism and a breeding frame discharging mechanism, wherein the breeding frame feeding mechanism and the breeding frame discharging mechanism are positioned on two sides of the soaking mechanism, a breeding frame is input into the soaking mechanism through the breeding frame feeding mechanism for soaking, and is output by the breeding frame discharging mechanism after soaking treatment, so that the automatic soaking treatment of the breeding frame is realized; the full-automatic soaking treatment of the cultivation frame can be realized, the labor intensity of manual operation is greatly reduced, the assembly line installation requirement of industrial cultivation is met, and the conveying efficiency of the cultivation frame is improved.

Furthermore, the breeding frame discharging mechanism comprises a first shell, a first boosting assembly is arranged on one side, close to the soaking mechanism, of the first shell, a guide assembly and a discharging assembly are arranged in the first shell, and the soaked breeding frame is pushed onto the discharging assembly through the first boosting assembly and is lifted and output by the guide assembly and the discharging assembly; through the design of first boosting subassembly, can with breed frame level after soaking on pushing into ejection of compact subassembly, play the effect of linking up the transition, the transport efficiency of breeding the frame has been improved, the direction subassembly can lead at the in-process that breeds the frame and promote, make the laminating of breeding the frame stable output on ejection of compact subassembly, the process of avoiding breeding the frame and carrying to become the horizontal direction because of ejection of compact subassembly carries by vertical direction drops, ejection of compact subassembly can be with breeding the frame and carry to become horizontal transport after promoting by vertical transport, the stability and the reliability of breeding the frame and carrying have been improved.

Further, first boosting subassembly includes the corner ware, first pivot and first promotion piece, first casing is located to the corner ware, first pivot is connected the corner ware, first promotion piece is located in the first pivot, the corner ware drives first promotion piece through first pivot and rotates, the realization is promoted the level of breeding the frame, two corner ware synchronous workings that are located first casing both sides make the first promotion piece synchronous revolution of both sides, breed frame after will soaking is stably carried to discharge mechanism on, can realize breeding the single stable transport of frame.

Further, the direction subassembly includes first limiting plate, second limiting plate and third limiting plate, first limiting plate passes through the second limiting plate and connects the third limiting plate, one side that is close to ejection of compact subassembly on second limiting plate and the third limiting plate is provided with the arcwall face, first limiting plate can carry on spacingly to breeding the frame at the in-process of horizontal transport, prevent to breed the frame and take place to incline and influence the effect of carrying, the second limiting plate can be spacing along with the in-process that ejection of compact subassembly promoted breeding the frame, improve the mobility stability of breeding the frame, the third limiting plate carries out the effect of leading to breeding the frame through the arc face, make and breed the frame turn to along with ejection of compact subassembly together, improve the reliability of breeding the frame and carrying.

Further, ejection of compact subassembly includes the driving gear, driven gear, linking gear and driving chain, the driving gear, driven gear and linking gear overlap respectively and locate in the second pivot, the driving gear, first casing is passed through first bearing frame connection at the both ends of the second pivot on driven gear and the linking gear, the driving chain twines in the driving gear, driven gear and linking gear are last, the rotation through the driving gear can drive the driving chain and remove, and then can drive driven gear and linking gear rotation, satisfy the transport requirement to breeding the frame.

Furthermore, ejection of compact subassembly still includes the tensioning gear, and the tensioning gear cover is located in the second pivot, and the both ends of the second pivot on the tensioning gear are passed through the tensioning subassembly and are connected in first casing, and the tensioning gear can be through tensioning subassembly adjusting position, and then adjusts the tensile force of driving chain, prevents that the driving chain from droing because of not hard up causing, influences the normal transport of breeding the frame.

Furthermore, the tensioning assembly comprises a U-shaped frame, a second bearing seat and an adjusting rod, a second rotating shaft on the tensioning gear is connected with the second bearing seat, the second bearing seat is movably connected in the U-shaped frame through a first sliding block, the adjusting rod penetrates through the U-shaped frame and is connected onto the second bearing seat, the second bearing seat improves stability and reliability of the tensioning gear during rotation, the horizontal position of the second bearing seat can be adjusted through the adjusting rod, then the position of the tensioning gear can be adjusted, adjustment of the tensioning force of the transmission chain is achieved, and the operation is simple and convenient.

Furthermore, first boosting plates are arranged on the transmission chain at equal intervals, the first boosting plates and outer chain plates on the transmission chain are integrally formed, stable conveying of the cultivation frame is facilitated through the first boosting plates, and the conveying reliability of the cultivation frame is improved.

Further, breed frame feed mechanism and include the second casing, the fixed plate, the conveyer belt, the upset subassembly, second boosting subassembly and separate and keep off the subassembly and all locate in the second casing, the second boosting subassembly is located the below of fixed plate, the upset subassembly is located one side of conveyer belt, it is located the below of upset subassembly to separate the fender subassembly, make through the upset subassembly and breed the frame and fall into second boosting subassembly and separate between the fender subassembly, be convenient for push into soaking the mechanism through the second boosting subassembly with breeding the frame, it can play spacing effect to separate the fender subassembly, prevent to breed the frame and take place the slope after dropping and influence it and get into soaking in the mechanism.

Further, equidistant second boosting board that is provided with on the conveyer belt, through the horizontal migration of conveyer belt, can drive through second boosting board and breed frame horizontal migration to the upset subassembly on, improved the stability of breeding the frame and carrying.

Further, the upset subassembly includes first motor, the upset piece, centre gripping subassembly and third pivot, first motor is connected in the second casing, first motor is connected in the third pivot, two upset piece covers are located in the third pivot, all be provided with two sets of mutually perpendicular's centre gripping subassembly on every upset piece, the conveyer belt drives second boosting board horizontal migration, make and breed the frame and push between the centre gripping subassembly with one side, it is rotatory to start first motor and drive the third pivot, make and breed the frame and rotate along with centre gripping subassembly, after breeding the frame and following centre gripping subassembly and rotate 270 together, drop under the effect of gravity to between second boosting subassembly and the fender, realize automatic material loading.

Furthermore, each group of clamping assemblies consists of two clamping rods which are arranged in parallel.

Further, the second boosting assembly comprises a second motor, a crank-link mechanism, a second pushing block, a slide rail and a jacking frame, the second motor is connected with the positioning plate through a speed reducer, the positioning plate is fixedly connected with the second shell, an output shaft of the speed reducer is connected with the second pushing block through the crank-link mechanism, the jacking frame is arranged on the bottom surface of the second pushing block, the crank-link mechanism is driven to rotate through the second motor, the second pushing block can be driven to be horizontally pushed out, meanwhile, the jacking frame drives the cultivation frame to be pushed into the soaking mechanism, the second motor continues to rotate, the second pushing block is driven to retract through the crank-link mechanism, pushing and conveying of the next cultivation frame are carried out, and the positioning plate improves the working stability of the second motor and the crank-link mechanism.

Further, the crank-link mechanism comprises a crank and a connecting rod, the crank is connected with the output shaft, and the other end of the crank is connected with the second pushing block through the connecting rod.

Furthermore, two sliding rails are arranged in the second shell in parallel, the second pushing block is movably connected to the sliding rails through the second sliding block, and the second pushing block moves back and forth along the sliding rails through the second sliding block, so that the working stability and reliability of the pushing frame are further improved.

Further, separate the fender subassembly and include the balancing weight, the fourth pivot with separate the dog, the balancing weight passes through the stay cord and connects the fourth pivot, it locates in the fourth pivot to separate the dog, when second boosting subassembly withdraws, the balancing weight is located the minimum, the dog closure that separates of both sides can block the breed frame after falling, when second boosting subassembly top pushes away, drive through breeding the frame and block the piece and open, push the breed frame and soak in the mechanism, second boosting subassembly retracts again, the fourth pivot drives under the effect of balancing weight this moment and separates the dog closure, block next breed frame.

The utility model discloses owing to adopted above-mentioned technical scheme, following beneficial effect has:

1. through the design of first boosting subassembly, can with breed frame level after soaking on pushing into ejection of compact subassembly, play the effect of linking up the transition, the transport efficiency of breeding the frame has been improved, the direction subassembly can lead at the in-process that breeds the frame and promote, make the laminating of breeding the frame stable output on ejection of compact subassembly, the process of avoiding breeding the frame and carrying to become the horizontal direction because of ejection of compact subassembly carries by vertical direction drops, ejection of compact subassembly can be with breeding the frame and carry to become horizontal transport after promoting by vertical transport, the stability and the reliability of breeding the frame and carrying have been improved.

2. The soaking device can realize full-automatic soaking treatment of the culture frame, greatly reduces the labor intensity of manual operation, and meets the assembly line installation requirement of industrial culture.

3. The two corner devices on the two sides of the first shell work synchronously, so that the first pushing blocks on the two sides rotate synchronously, the soaked cultivation frame is stably conveyed to the discharging mechanism, and single stable conveying of the cultivation frame can be realized.

4. The first limiting plate can carry on spacingly to breeding the frame at the in-process of horizontal transport, prevents to breed the frame and takes place to incline and influence the effect of carrying, and the second limiting plate can carry on spacingly along with the in-process that ejection of compact subassembly promoted breeding the frame, improves the mobility stability who breeds the frame, and the third limiting plate carries out the effect of leading to breeding the frame through the arc face, makes and breeds the frame and turn to along with ejection of compact subassembly together, improves the reliability that breeds the frame and carry.

5. Through the horizontal migration of conveyer belt, can drive through the second boosting board and breed frame horizontal migration to the upset subassembly on, improved the stability that the frame was carried, rethread upset subassembly makes and breeds the frame and falls into between second boosting subassembly and the fender subassembly, be convenient for push into through the second boosting subassembly with breeding the frame and soak in the mechanism, the fender subassembly can play spacing effect, prevents to breed the frame and takes place the slope after dropping and influence it and get into and soak in the mechanism.

Description of the drawings:

the present invention will be further explained with reference to the accompanying drawings:

FIG. 1 is an effect diagram of the fully automatic cultivation frame soaking device for industrial cultivation of the present invention;

FIG. 2 is a schematic view of the internal structure of the discharging mechanism of the utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2 at I;

FIG. 4 is an enlarged view of a portion of FIG. 2 at II;

fig. 5 is a schematic structural view of the guide assembly of the present invention;

FIG. 6 is an internal structure view of the feeding mechanism of the middle cultivating frame of the utility model;

fig. 7 is a schematic structural view in the direction a in fig. 6.

In the figure: 1-feeding mechanism of cultivation frame; 2-a soaking mechanism; 3-a culture frame discharging mechanism; 4-a first housing; 5-breeding frames; 6-a guide assembly; 7-supporting the guide rail; 8-a corner device; 9-a first rotating shaft; 10-a first pusher block; 11-a drive gear; 12-a driven gear; 13-engaging gears; 14-a tensioning gear; 15-a transmission chain; 16-a second shaft; 17-a first bearing seat; 18-a first booster plate; 19-a U-shaped frame; 20-a second bearing block; 21-a first slider; 22-adjusting rod; 23-a first limiting plate; 24-a second limiting plate; 25-a third limiting plate; 26-arc surface; 27-a fixing plate; 28-a conveyor belt; 29-a first motor; 30-turning over the block; 31-a clamping bar; 32-a bottom plate; 33-a second motor; 34-a positioning plate; 35-a second housing; 36-a crank; 37-a connecting rod; 38-a second pusher block; 39-a second slide; 40-a slide rail; 41-pushing frame; 42-a second booster plate; 43-a third shaft; 44-a fourth shaft; 45-spacing block; 46-a counterweight block; 47-pull cord.

Detailed Description

It should be noted that, in the present application, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

As shown in fig. 1 to 7, do the utility model relates to a full-automatic breed frame soak device for batch production breed, including breeding frame feed mechanism 1, soaking mechanism 2 and breeding frame discharge mechanism 3, breeding frame feed mechanism 1 and breeding frame discharge mechanism 3 and being located the both sides of soaking mechanism 2, breeding the frame and soaking the mechanism through breeding frame feed mechanism input and soaking, export by breeding frame discharge mechanism after soaking, realize breeding the automatic soaking of frame and handle.

Breed frame discharge mechanism 3 and include first casing 4, one side that is close to soaking mechanism 2 on first casing 4 is provided with first boosting subassembly, first boosting subassembly includes corner ware 8, first pivot 9 and first promotion piece 10, corner ware 8 is located first casing 4, corner ware 8 is connected to first pivot 9, first promotion piece 10 is located on first pivot 9, corner ware 8 drives first promotion piece 10 through first pivot 9 and rotates, realize promoting the level of breeding frame 5, two corner ware 8 synchronous workings that are located first casing 4 both sides, make the synchronous revolution of first promotion piece 10 of both sides, breed frame 5 after will soaking stably carry to discharge mechanism, can realize breeding the single stable transport of frame 5, through the design of first boosting subassembly, can push breed frame 5 after soaking on the discharge assembly horizontally, play the effect of linking up the transition, the transport efficiency of breeding frame 5 has been improved.

A guide assembly 6 and a discharge assembly are arranged in the first shell 4, and the soaked cultivation frame 5 is pushed onto the discharge assembly by a first boosting assembly and is lifted and output by the guide assembly 6 and the discharge assembly; the guide assembly 6 can lead in the in-process of breeding 5 promotions of frame, make and breed 5 laminating and stabilize the output on ejection of compact subassembly, avoid breeding frame 5 and drop because of the process that ejection of compact subassembly carried to become the horizontal direction and carry by vertical direction, ejection of compact subassembly can become horizontal transport after promoting by vertical transport breeding frame 5, the stability and the reliability of breeding 5 transport have been improved, this soak device can realize breeding frame 5's full-automatic soaking treatment, greatly reduced manual operation's intensity of labour, satisfy the assembly line installation requirement of batch production breed.

Guide assembly 6 includes first limiting plate 23, second limiting plate 24 and third limiting plate 25, first limiting plate 23 passes through second limiting plate 24 and connects third limiting plate 25, one side that is close to ejection of compact subassembly on second limiting plate 24 and the third limiting plate 25 is provided with arcwall face 26, the inboard bottom symmetry of first casing 4 is provided with support rail 7, support rail 7 is parallel to each other with first limiting plate 23, and interval between support rail 7 and the first limiting plate 23 and the size phase-match of breeding frame 5, first limiting plate 23 can carry on spacingly to breeding frame 5 at the in-process of horizontal transport, prevent to breed frame 5 and take place to incline and influence the effect of carrying, second limiting plate 24 can carry on spacingly along with ejection of compact subassembly promotion in-process breeding frame 5, improve the stability of breeding frame 5, third limiting plate 25 carries out the effect of leading through arcwall face 26 to breeding frame 5, make breeding frame 5 turn to along with ejection of compact subassembly together, improve the reliability that breeds frame 5 and carry, support rail 7 can cooperate first limiting plate 23 to breed frame 5.

The discharging assembly comprises a driving gear 11, a driven gear 12, a connecting gear 13, a tensioning gear 14 and a transmission chain 15, the two driving gears 11, the two driven gears 12, the two connecting gears 13 and the two tensioning gears 14 are respectively sleeved on a second rotating shaft 16, the driving gear 11 is positioned on one side far away from the soaking mechanism 2, the driven gear 12 is positioned on one side close to the soaking mechanism 2, the connecting gear 13 is distributed between the driving gear 11 and the driven gear 12, the two ends of the second rotating shaft 16 on the driving gear 11, the driven gear 12 and the connecting gear 13 are connected with the first shell 4 through a first bearing seat 17, the end part of the second rotating shaft 16 on the driving gear 11 is connected with a first driving motor, the two ends of the second rotating shaft 16 on the tensioning gear 14 are connected with the first shell 4 through the tensioning assembly, the transmission chain 15 is wound on the driving gear 11, the driven gear 12, the connecting gear 13 and the tensioning gear 14, the transmission chain 15 can be driven by the rotation of the driving gear 11, the driven gear 12, the connecting gear 13 and the tensioning gear 14 can be driven to rotate, the conveying requirement on the cultivation frame 5 can be met, the tensioning assembly, the tensioning force can be adjusted, the transmission chain 15, and the transmission chain can be prevented from being loosened and being affected by the loosening of the cultivation frame 5.

The tensioning assembly comprises a U-shaped frame 19, a second bearing seat 20 and an adjusting rod 22, a second rotating shaft 16 on the tensioning gear 14 is connected with the second bearing seat 20, the second bearing seat 20 is movably connected in the U-shaped frame 19 through a first sliding block 21, the adjusting rod 22 penetrates through the U-shaped frame 19 and is connected onto the second bearing seat 20, the second bearing seat 20 improves stability and reliability of the tensioning gear 14 during rotation, the horizontal position of the second bearing seat 20 can be adjusted through the adjusting rod 22, then the position of the tensioning gear 14 can be adjusted, adjustment of the tensioning force of the transmission chain 15 is achieved, and the operation is simple and convenient.

First boosting plates 18 are arranged on the transmission chain 15 at equal intervals, the first boosting plates 18 and outer chain plates on the transmission chain 15 are integrally formed, stable conveying of the cultivation frame 5 is facilitated through the first boosting plates 18, and conveying reliability of the cultivation frame 5 is improved.

Breed frame feed mechanism 1 and include second casing 35, fixed plate 27, conveyer belt 28, the upset subassembly, second boosting subassembly and fender subassembly are all located in second casing 35, conveyer belt 28 is located the top of fixed plate 27, be connected with second driving motor on the conveyer belt 28, equidistant second boosting board 42 that is provided with on the conveyer belt 28, the second boosting subassembly is located the below of fixed plate 27, the upset subassembly is located one side of conveyer belt 28, the fender subassembly is located the below of upset subassembly, the inboard bottom of second casing 35 is provided with bottom plate 32, horizontal migration through conveyer belt 28, can drive through second boosting board 42 and breed 5 horizontal migration to the upset subassembly on, the stability that breed frame 5 carried has been improved, rethread upset subassembly makes breed frame 5 fall into between second boosting subassembly and the fender subassembly, be convenient for will breed frame 5 through the second boosting subassembly and push into in mechanism 2 soaks, the fender subassembly can play spacing effect, prevent to breed 5 and take place the slope and influence it and soak in mechanism 2 after getting into.

The upset subassembly includes first motor 29, upset piece 30, centre gripping subassembly and third pivot 43, first motor 29 is connected in second casing 35, first motor 29 is connected to third pivot 43, three pivot 43 is located on third pivot 43 to two upset piece 30 covers, all be provided with two sets of mutually perpendicular's centre gripping subassembly on every upset piece 30, every group centre gripping subassembly comprises two parallel arrangement's clamping rod 31 each other, clamping rod 31 symmetric distribution is in the both sides of conveyer belt 28, conveyer belt 28 drives second boosting board 42 horizontal migration, make and breed frame 5 and push between two clamping rod 31 of same one side, start first motor 29 and drive third pivot 43 rotatoryly, make and breed frame 5 along with clamping rod 31 rotatory together, after breeding frame 5 and following clamping rod 31 rotatory 270 together, drop to second boosting subassembly and between the fender under the effect of gravity, realize automatic material loading.

The second boosting assembly comprises a second motor 33, a crank-link mechanism, a second pushing block 38, a sliding rail 40 and a pushing frame 41, the second motor 33 is connected with a positioning plate 34 through a speed reducer, the positioning plate 34 is fixedly connected with a second shell 35, the crank-link mechanism comprises a crank 36 and a connecting rod 37, an output shaft of the speed reducer is connected with the crank 36, the other end of the crank 36 is connected with the second pushing block 38 through the connecting rod 37, the pushing frame 41 is arranged on the bottom surface of the second pushing block 38, the two sliding rails 40 are arranged in the second shell 35 in parallel, the second pushing block 38 is movably connected with the sliding rail 40 through a second sliding block 39, the crank 36 is driven to rotate through the second motor 33, the second pushing block 38 can be driven to horizontally push through the connecting rod 37, meanwhile, the pushing frame 41 drives the cultivation frame 5 to push into the soaking mechanism 2, the second motor 33 continues to rotate, the connecting rod 37 and the second pushing block 38 are driven to retract through the crank 36 to carry out the next cultivation frame 5, the positioning plate 34 improves the working stability of the second motor 33, the crank 36 and the connecting rod 37, and the working stability of the second pushing block 38 further improves the reliability of the pushing frame 41 and the pushing frame 41.

Separate and keep off the subassembly and include balancing weight 46, fourth pivot 44 and separate dog 45, balancing weight 46 passes through stay cord 47 and connects fourth pivot 44, separate dog 45 and locate on fourth pivot 44, when second boosting subassembly withdrawal, balancing weight 46 is located the minimum, the dog 45 closure that separates of both sides, can block breed frame 5 after the whereabouts, when second boosting subassembly pushes away, through breeding frame 5 and driving the dog and open, it soaks in mechanism 2 to promote to breed frame 5, second boosting subassembly withdrawal again, fourth pivot 44 drives under balancing weight 46's effect this moment and separates dog 45 closure, block next breed frame 5.

The utility model discloses a theory of operation as follows: the culture frame is conveyed to the turnover assembly through a conveying belt on the culture frame feeding mechanism, then falls onto the bottom plate after being rotated by 270 degrees through the turnover assembly, is limited through the barrier assembly, then the second boosting assembly is started, and the culture frame is sequentially pushed into the soaking mechanism through the second boosting assembly to be soaked; on the breed frame after soaking processing got into guide assembly and supporting guide, start first boosting subassembly after that, on pushing ejection of compact subassembly with the breed frame after soaking, promote earlier through ejection of compact subassembly and realize horizontal transport again, the frame is being bred and is being led through guide assembly to the in-process that the horizontal direction changed by vertical direction, has improved the stability and the reliability that breed the frame was carried.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications based on the present invention to achieve substantially the same technical effects are all covered by the scope of the present invention.

Claims (16)

1. The utility model provides a full-automatic breed frame soak device for batch production is bred which characterized in that: including breeding frame feed mechanism, soaking mechanism and breeding frame discharge mechanism, breed frame feed mechanism with breed frame discharge mechanism and be located soak the both sides of mechanism, breed the frame warp breed frame feed mechanism input soak the mechanism and soak, after soaking the processing by breed frame discharge mechanism output realizes breed the automatic soaking processing of frame.

2. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 1, wherein: breed frame discharge mechanism includes first casing, be close to on the first casing soak one side of mechanism and be provided with first boosting subassembly, be provided with guide subassembly and ejection of compact subassembly in the first casing, after soaking breed the frame warp first boosting subassembly promotes extremely on the ejection of compact subassembly, and by guide subassembly with ejection of compact subassembly promotes the output.

3. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 2, characterized in that: first boosting subassembly includes corner ware, first pivot and first promotion piece, the corner ware is located first casing, first pivot is connected the corner ware, first promotion piece is located in the first pivot, the corner ware warp first pivot drives first promotion piece rotates, and the realization is right breed the level of frame promotes.

4. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 2, characterized in that: the guide assembly comprises a first limiting plate, a second limiting plate and a third limiting plate, the first limiting plate is connected with the third limiting plate through the second limiting plate, and arc-shaped surfaces are arranged on one sides, close to the discharging assembly, of the second limiting plate and the third limiting plate.

5. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 2, characterized in that: the discharging assembly comprises a driving gear, a driven gear, a linking gear and a transmission chain, the driving gear is sleeved on the second rotating shaft, the driven gear is sleeved on the linking gear, two ends of the second rotating shaft are connected with the first shell through first bearing seats, and the transmission chain is wound on the driving gear, the driven gear and the linking gear.

6. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 5, wherein: the discharging assembly further comprises a tensioning gear, the tensioning gear is sleeved on the second rotating shaft, and two ends of the second rotating shaft on the tensioning gear are connected to the first shell through the tensioning assembly.

7. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 6, wherein: the tensioning assembly comprises a U-shaped frame, a second bearing seat and an adjusting rod, the second rotating shaft on the tensioning gear is connected with the second bearing seat, the second bearing seat is movably connected in the U-shaped frame through a first sliding block, and the adjusting rod penetrates through the U-shaped frame and is connected to the second bearing seat.

8. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 5, wherein: first boosting plates are arranged on the transmission chain at equal intervals, and the first boosting plates and the outer chain plates on the transmission chain are integrally formed.

9. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 1, wherein: breed frame feed mechanism includes second casing, fixed plate, conveyer belt, upset subassembly, second boosting subassembly and separates and keep off the subassembly, the fixed plate the conveyer belt the upset subassembly the second boosting subassembly with it all locates to separate the fender subassembly in the second casing, the second boosting subassembly is located the below of fixed plate, the upset subassembly is located one side of conveyer belt, it is located to separate the fender subassembly the below of upset subassembly.

10. The full-automatic culture frame soaking device for industrial culture according to claim 9, wherein: and second boosting plates are arranged on the conveying belt at equal intervals.

11. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 9, wherein: the turnover assembly comprises a first motor, turnover blocks, a clamping assembly and a third rotating shaft, wherein the first motor is connected to the second shell, the third rotating shaft is connected with the first motor, the turnover blocks are sleeved on the third rotating shaft, and each turnover block is provided with two groups of mutually perpendicular clamping assemblies.

12. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 11, wherein: each group of clamping components consists of two clamping rods which are arranged in parallel.

13. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 9, wherein: the second boosting assembly comprises a second motor, a crank link mechanism, a second pushing block and a pushing frame, the second motor is connected with the positioning plate through a speed reducer, the positioning plate is fixedly connected with the second shell, an output shaft of the speed reducer is connected with the second pushing block through the crank link mechanism, and the pushing frame is arranged on the bottom surface of the second pushing block.

14. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 13, wherein: the crank connecting rod mechanism comprises a crank and a connecting rod, the crank is connected with the output shaft, and the other end of the crank is connected with the second pushing block through the connecting rod.

15. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 13, wherein: two sliding rails are arranged in the second shell in parallel, and the second pushing block is movably connected with the sliding rails through a second sliding block.

16. The fully automatic cultivation frame soaking device for industrial cultivation according to claim 9, wherein: the blocking assembly comprises a balancing weight, a fourth rotating shaft and a blocking block, the balancing weight is connected with the fourth rotating shaft through a pull rope, and the blocking block is arranged on the fourth rotating shaft.

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