CN119634332B

CN119634332B - Fish collagen peptide continuous extraction device

Info

Publication number: CN119634332B
Application number: CN202510153223.XA
Authority: CN
Inventors: 高怀祖
Original assignee: Zhuhai New High Biotechnology Research Institute Co ltd
Current assignee: Zhuhai New High Biotechnology Research Institute Co ltd
Priority date: 2025-02-12
Filing date: 2025-02-12
Publication date: 2025-04-08
Anticipated expiration: 2045-02-12
Also published as: CN119634332A

Abstract

The invention discloses a fish collagen peptide continuous extraction device, which relates to the technical field of collagen peptide extraction, and comprises a mounting underframe, wherein a cleaning barrel is fixedly arranged at the top end of the mounting underframe, a water guide vertical pipe matched with the cleaning barrel is communicated with the bottom end of the cleaning barrel, a matched electromagnetic valve is arranged in the water guide vertical pipe, a matched conversion mechanism and a cleaning mechanism are arranged on the cleaning barrel, and the conversion mechanism and the cleaning mechanism are matched to drive a third gear to rotate, so that an annular grid plate and the cleaning vertical pipe can be driven to rotate in the horizontal direction, a corresponding second rack can be driven to reciprocate, and two second gears can be driven to reciprocate, so that a corresponding mounting sleeve and a cleaning rotating plate can be driven to reciprocate in the vertical direction through a cleaning rotating rod, fish to be cleaned can be fully separated and fully contacted with a water source, and the cleaning effect of the fish can be further effectively improved.

Description

Fish collagen peptide continuous extraction device

Technical Field

The invention relates to the technical field of collagen peptide extraction, in particular to a fish collagen peptide continuous extraction device.

Background

The fish collagen peptide is a high molecular functional protein, wherein the collagen is a main component of skin, accounts for 80% of the dermis layer of the skin, and the fish skin needs to be cleaned in advance when the fish collagen peptide is extracted.

However, the existing continuous extraction device for the collagen peptide of the fish cannot sufficiently clean the fish when in use, the cleaning effect is poor, and the recycling of a cleaning water source cannot be realized, so that water resources are wasted.

In view of the above problems, the inventors propose a continuous extraction device for fish collagen peptide to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems that the conventional fish collagen peptide continuous extraction device cannot sufficiently clean fish and cannot realize recycling of a cleaning water source when in use, and provides the fish collagen peptide continuous extraction device.

The technical scheme includes that the continuous fish collagen peptide extraction device comprises an installation underframe, a cleaning barrel is fixedly installed at the top end of the installation underframe, a matched water guide vertical pipe is communicated with the bottom end of the cleaning barrel, a matched electromagnetic valve is arranged in the water guide vertical pipe, a matched conversion mechanism and a matched cleaning mechanism are arranged on the cleaning barrel, a matched limiting mechanism is arranged at the end of the cleaning mechanism, a recovery mechanism and a matched processing mechanism are arranged on the inner side of the installation underframe, the matched use of the conversion mechanism and the cleaning mechanism can enable fish to be cleaned to be fully separated and fully contacted with a water source, in addition, continuous development of fish cleaning operation can be guaranteed, the arrangement and use of the limiting mechanism provide convenience for disassembly, assembly, cleaning and replacement of the cleaning mechanism, and the matched use of the recovery mechanism and the processing mechanism realize recycling of the cleaning water source.

Preferably, the conversion mechanism comprises a lateral cross plate, the lateral cross plate is fixedly arranged at the lower end of the outer wall of the cleaning barrel, the lateral cross plate is of a symmetrical structure, the top end of the lateral cross plate is fixedly provided with a multi-stage electric push rod, the tail end of the output end of the multi-stage electric push rod is fixedly connected with a connecting disc, the top end of the connecting disc is fixedly provided with a lifting support rod, the tail end of the lifting support rod is fixedly connected with a lifting barrel column, the lifting barrel column is rotationally inserted with a conversion rotating rod, the opposite back ends of the conversion rotating rod are fixedly sleeved with a first gear, the top of the inner cavity of the lifting barrel column is fixedly provided with a first electric telescopic rod, the tail end of the output end of the first electric telescopic rod is fixedly connected with a first push block, the bottom end of the first push block is fixedly provided with a first rack, the first rack is meshed with the first gear, a conversion sleeve ring matched with the two conversion rotating rods is fixedly arranged between the two conversion rotating rods, the cleaning mechanism comprises a cleaning standpipe, the cleaning standpipe is rotationally inserted in the conversion sleeve ring, the two ends of the cleaning standpipe can be slidably provided with connecting sleeve covers, the two ends of the cleaning standpipe covers are uniformly formed with guide clamping plates distributed in an array mode, the guide clamping plates can be slidably inserted in the vertical sleeve covers, the guide clamping plates can be slidably arranged on the guide clamping plates, the guide clamping plates are slidably arranged in the annular groove covers, the guide clamping covers are fixedly sleeved with the annular groove covers, the guide clamping covers are fixedly arranged at the two ends of the inner side of the guide clamping sleeves, and fixedly arranged in the guide clamping sleeve covers are fixedly connected with the first push sleeves, and are fixedly arranged in the guide sleeve, and are fixedly arranged in the middle respectively, and matched with the guide sleeve, and can be fixedly and sleeved in the guide sleeve, and matched with the guide sleeve, and can be fixedly and matched with one end, and matched with and can be sleeved, and arranged in each guide sleeve, and can and matched with and arranged in each guide plate, and can and used end, and can and used, the integrated into one piece has the washing revolving plate of symmetric distribution on the installation sleeve pipe, equal fixed mounting has the second electric telescopic handle on the inner wall at first inside groove both ends, and the terminal fixedly connected with second ejector pad of second electric telescopic handle output, the equal fixed mounting of opposite side of second ejector pad has the second rack, and the second rack meshes with the second gear mutually, the bottom fixed mounting of clean barrel has first motor, and the output of first motor rotates and runs through clean barrel and is equipped with the fourth gear at its terminal fixed cover, the fourth gear meshes with the third gear mutually.

Preferably, stop gear includes spacing bull stick, the second inside groove has all been seted up at the both ends of wasing the standpipe, spacing bull stick rotates and inserts to establish in the second inside groove, and fixed sleeve has cup jointed spacing lantern ring on the spacing bull stick, spacing lantern ring rotates the card and establishes in the second inside groove, and the equal fixed mounting in opposite side of spacing lantern ring has spacing torsional spring, the terminal of spacing torsional spring and the inner wall fixed connection of second inside groove, and the one end fixedly connected with spacing fixture block of spacing torsional spring is kept away from to spacing bull stick, spacing draw-in groove has been seted up in the middle part of adapter sleeve lid, and spacing fixture block can slide and run through spacing draw-in groove and with adapter sleeve lid slip laminating, the external diameter of spacing fixture block is the same with the internal diameter size of spacing draw-in groove.

Preferably, the recovery mechanism comprises a recovery bottom box and a recovery water pump, the recovery bottom box and the recovery water pump are fixedly arranged at the bottom end of the inner side of the installation underframe, the bottom end of the recovery water pump is provided with a connecting conduit and a recovery conduit which are matched for use, the connecting conduit is communicated with one side of the bottom end of the recovery bottom box, the tail end of the recovery conduit is communicated with the lower end of the cleaning cylinder body, the treatment mechanism comprises a second motor, a shifting screw rod and a containing underframe, the second motor is fixedly arranged on the recovery bottom box, the tail end of the output end of the second motor is fixedly sleeved with a first synchronous wheel, one side of the recovery bottom box is fixedly provided with a side bracket, the second motor is fixedly inserted in the side bracket, the shifting screw rod is rotatably inserted at two sides of the upper end of the recovery bottom box, the tail end of the shifting screw rod is fixedly sleeved with a second synchronous wheel, the outer side of the second synchronous wheel and the first synchronous wheel are in meshed sleeve joint with a transmission synchronous belt, the shifting screw rod is sleeved with a shifting sliding block through threads, the shifting sliding block is in sliding fit with the inner wall of the recovery bottom box, a third electric telescopic rod is fixedly inserted on the shifting sliding block, the tail end of the output end of the third electric telescopic rod is fixedly connected with a shifting pushing block, the inner side of the recovery bottom box is slidably clamped with three U-shaped pushing plates, the sliding direction of the U-shaped pushing plates is the same as that of the shifting sliding block, shifting pushing grooves are formed in two ends of the U-shaped pushing plates, the shifting pushing block can be slidably inserted in the shifting pushing grooves, the three U-shaped pushing plates are sequentially and fixedly connected with a first interception filter screen, a second interception filter screen and a third interception filter screen from top to bottom, the containing bottom frame is fixedly arranged in the recovery bottom box, the first interception filter screen, the second interception filter screen and the third interception filter screen can be movably clamped in the containing bottom frame, and the first interception filter screen, the tail ends of the second interception filter screen and the third interception filter screen are respectively fixedly connected with a first connecting plate, a second connecting plate and a third connecting plate, and the first connecting plate, the second connecting plate and the third connecting plate are fixedly installed in the recovery bottom box.

Compared with the prior art, the invention has the beneficial effects that:

1. Through the cooperation of the conversion mechanism and the cleaning mechanism, the third gear can be driven to rotate, so that the annular grid plate and the cleaning vertical pipe can be driven to rotate in the horizontal direction, the corresponding second racks can be driven to do reciprocating motion, and then the two second gears can be driven to do reciprocating rotation, so that the corresponding mounting sleeve can be driven by the cleaning rotating rod to do reciprocating rotation in the vertical direction, fish to be cleaned can be fully separated and fully contacted with a water source, the cleaning effect of the fish can be further effectively improved, in addition, the two annular grid plates can be conveniently and rapidly replaced, the operation of the other annular grid plate can be rapidly switched when the annular grid plate at the lower end is blocked, further the continuous development of fish cleaning operation can be ensured, the continuous extraction of the collagen peptide of the subsequent fish can be further ensured, and the extraction efficiency of the collagen peptide of the fish is effectively improved;

2. Through the setting and the use of the limiting mechanism, the convenient rotation of the limiting clamping block is facilitated, so that the corresponding limiting rotating rod can be driven to rotate conveniently, the corresponding limiting lantern ring can be driven to rotate conveniently, the corresponding limiting torsion spring can be further twisted, the acting force to the limiting clamping block can be removed, the limiting clamping block can be reset conveniently in a reverse rotation manner, the disassembly and the assembly of the annular grid plate are facilitated, and the disassembly and the cleaning and the replacement of the annular grid plate are facilitated;

3. Through the cooperation of recovery mechanism and processing mechanism, can drive three U type push pedal in proper order and remove, thereby can expand first interception filter screen in proper order, second interception filter screen and third interception filter screen, and then can realize the alternate operation of first interception filter screen, second interception filter screen and third interception filter screen, need not the operation of breaking many times and clean impurity, thereby further ensured the continuous extraction of follow-up fish collagen peptide, the extraction efficiency of fish collagen peptide has recently further been improved, and can intercept the impurity in the washing water source after using and with the washing water source after filtering in the guide pipe is led into the recovery pipe through connecting the pipe, the washing water source after filtering will be led into the cleaning cylinder again by the recovery pipe in later time and recycle, thereby realized the cyclic utilization of washing water source, and then effectively practiced thrift the water resource and realized energy saving and emission reduction's purpose.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present invention.

FIG. 2 is a schematic view of the installation of the recovery mechanism of the present invention.

Fig. 3 is an enlarged schematic view of the structure a in fig. 2 according to the present invention.

Fig. 4 is an enlarged schematic view of the structure at B in fig. 2 according to the present invention.

Fig. 5 is an enlarged schematic view of the structure at C in fig. 2 according to the present invention.

Fig. 6 is an enlarged schematic view of the structure of fig. 2D according to the present invention.

Fig. 7 is an enlarged schematic view of the structure at E in fig. 2 according to the present invention.

Fig. 8 is an enlarged schematic view of the structure of fig. 2 at F in accordance with the present invention.

FIG. 9 is a schematic diagram of a connection of a processing mechanism according to the present invention.

Fig. 10 is an enlarged schematic view of the structure of fig. 9 at G in accordance with the present invention.

1, Installing a chassis; 2, cleaning a cylinder; 21, a water guide standpipe; the device comprises a switching mechanism, a 31, a side connection transverse plate, a 32, a multi-stage electric push rod, a 33, a connecting disc, a 34, a lifting support rod, a 35, a lifting cylinder, a 36, a switching support rod, a 37, a first gear, a 38, a first electric telescopic rod, a 39, a first push block, a 310, a first rack, a 311, a switching collar, a 4, a cleaning mechanism, a 41, a cleaning vertical pipe, a 42, a connecting sleeve cover, a 43, a third gear, a 44, an annular grid plate, a 45, a first inner groove, a 46, a cleaning support rod, a 47, a second gear, a 48, a mounting sleeve, a 49, a cleaning rotating plate, a 410, a second electric telescopic rod, a 411, a second push block, a 412, a second rack, a 413, a first motor, a 414, a fourth gear, a 415, a second inner groove, a 416, a limiting clamping groove, a 417, a guide clamping plate, a 418, a guide clamping groove, a 5, a limiting mechanism, a 51, a limiting rod, a 52, a limiting collar, a 53, a limiting torsion spring, a 54, a limiting clamping block, a6, a recycling mechanism, a 61, a bottom box, a 62, a water pump, a connecting guide pipe, a 64, a second guide wire, a lifting frame, a lifting guide wire, a lifting frame, a 71, a second guide wire, a shifting support, a 71, a shifting support, a 75, a shifting support, a wire, a lifting support, a wire, a lifting frames, a lifting support, and a frames, and a lifting frames, and a lifting rods, and a.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides a continuous extraction device for fish collagen peptide, which comprises an installation underframe 1, wherein the top end of the installation underframe 1 is fixedly provided with a cleaning barrel 2, the bottom end of the cleaning barrel 2 is communicated with a matched water guide vertical pipe 21, a matched electromagnetic valve is arranged in the water guide vertical pipe 21, the cleaning barrel 2 is provided with a matched conversion mechanism 3 and a cleaning mechanism 4, the end part of the cleaning mechanism 4 is provided with a matched limiting mechanism 5, the inner side of the installation underframe 1 is provided with a recovery mechanism 6 and a processing mechanism 7 which are matched with the cleaning barrel 2, the matched use of the conversion mechanism 3 and the cleaning mechanism 4 can ensure that fish to be cleaned is fully separated and fully contacted with a water source, in addition, the continuous development of fish cleaning operation can be ensured, the arrangement of the limiting mechanism 5 provides convenience for the disassembly, assembly, cleaning and replacement of the cleaning mechanism 4, and the recycling of the water source are realized by the matched use of the recovery mechanism 6 and the processing mechanism 7.

The conversion mechanism 3 comprises a lateral cross plate 31, the lateral cross plate 31 is fixedly arranged at the lower end of the outer wall of the cleaning cylinder 2, the lateral cross plate 31 is in a symmetrical structure, the top end of the lateral cross plate 31 is fixedly provided with a multi-stage electric push rod 32, the tail end of the output end of the multi-stage electric push rod 32 is fixedly connected with a connecting disc 33, the top end of the connecting disc 33 is fixedly provided with a lifting support rod 34, the tail end of the lifting support rod 34 is fixedly connected with a lifting cylinder column 35, the lifting cylinder column 35 is rotatably inserted with a conversion rotating rod 36, the opposite ends of the conversion rotating rod 36 are fixedly sleeved with first gears 37, the top of the inner cavity of the lifting cylinder column 35 is fixedly provided with a first electric telescopic rod 38, the tail end of the output end of the first electric telescopic rod 38 is fixedly connected with a first push block 39, the bottom end of the first push block 39 is fixedly provided with a first rack 310, the first rack 310 is meshed with the first gears 37, the conversion sleeve ring 311 used in a matched mode is fixedly arranged between the two conversion rotating rods 36, the cleaning mechanism 4 comprises a cleaning vertical pipe 41, the cleaning vertical pipe 41 is rotatably inserted in the conversion sleeve ring 311, two ends of the cleaning vertical pipe 41 can be slidably sleeved with a connecting sleeve cover 42, two ends of the cleaning vertical pipe 41 are uniformly formed with guiding clamping plates 417 distributed in an array mode, the guiding clamping plates 417 can be slidably inserted in the connecting sleeve cover 42, guiding clamping grooves 418 distributed in an array mode are formed in the connecting sleeve cover 42, the guiding clamping plates 417 can be slidably inserted in the guiding clamping grooves 418, the matched use of the guiding clamping plates 417 and the guiding clamping grooves 418 provides a guarantee for stable and accurate insertion of the connecting sleeve cover 42, one end outer side of the connecting sleeve cover 42 is fixedly sleeved with a third gear 43, the other end outer side of the connecting sleeve cover 42 is fixedly sleeved with an annular grid plate 44, the annular grid plate 44 can be slidably inserted in the cleaning cylinder 2, the middle part of wasing standpipe 41 has seted up the first inside groove 45 that the cooperation was used, and first inside groove 45 internal rotation grafting has two wasing bull sticks 46, the middle part fixed sleeve who washs bull stick 46 has cup jointed second gear 47, and the both ends that washs bull stick 46 have all been fixed sleeve who has installation sleeve 48, integrated into one piece has the symmetrically distributed washs revolving plate 49 on the installation sleeve 48, all fixed mounting has second electric telescopic handle 410 on the inner wall at first inside groove 45 both ends, and the end fixedly connected with second ejector pad 411 of second electric telescopic handle 410 output, the opposite side of second ejector pad 411 all fixed mounting has second rack 412, and second rack 412 meshes with second gear 47, the bottom fixed mounting of cleaning barrel 2 has first motor 413, and the output of first motor 413 rotates and runs through cleaning barrel 2 and at its end fixed sleeve fourth gear 414, fourth gear 414 meshes with third gear 43.

By adopting the technical scheme, when the fish-cleaning device is used, the two multi-stage electric push rods 32 are started, so that the two lifting support rods 34 can be driven to synchronously move upwards through the connecting disc 33, the two lifting cylinder posts 35 can be driven to synchronously move upwards, the cleaning standpipe 41 can be driven to move upwards through the conversion rotating rod 36 and the conversion lantern ring 311, the two annular grid plates 44 can be driven to synchronously move upwards, the multi-stage electric push rods 32 are suspended when a proper distance is reserved between the annular grid plates 44 at the upper end and the cleaning cylinder 2, then a proper amount of fish to be cleaned is guided between the lower annular grid plates 44 and the cleaning cylinder 2, then the cleaning standpipe 41 and the annular grid plates 44 are reset, and a proper amount of cleaning water source is guided into the cleaning cylinder 2, at the moment, the third gear 43 at the lower end is meshed with the fourth gear 414, then the first motor 413 and the two second electric telescopic rods 410 are started, so that the third gear 43 can be driven to rotate by the fourth gear 414, and then the annular grid plate 44 and the cleaning standpipe 41 can be driven to rotate in the horizontal direction, meanwhile, the two second electric telescopic rods 410 can drive the corresponding second pushing blocks 411 to reciprocate, so that the corresponding second racks 412 can be driven to reciprocate, and then the two second gears 47 can be driven to reciprocate, so that the corresponding mounting sleeve 48 and the cleaning rotary plate 49 can be driven by the cleaning rotary rod 46 to reciprocate in the vertical direction, and further the fishes to be cleaned can be fully separated and fully contacted with a water source, further the cleaning effect of the fishes can be effectively improved, during the subsequent use, when the annular grid plate 44 at the lowest end is blocked, the multistage electric push rods 32 are required to be started again, the lowest annular grid plate 44 is moved to the highest position, and then the two first electric telescopic rods 38 are started, the first pushing block 39 can drive the corresponding first rack 310 to move, and the corresponding first gear 37 can be driven to rotate, so that the cleaning standpipe 41 can be driven to rotate in the vertical direction through the conversion rotating rod 36 and the conversion lantern ring 311, and the two annular grid plates 44 can be conveniently and rapidly transposed, and after transposition is completed, the annular grid plates 44 are moved to a proper position according to the steps, and fish to be cleaned are guided into the cleaning barrel 2.

The spacing mechanism 5 includes spacing bull stick 51, the second inside groove 415 has all been seted up at the both ends of wasing standpipe 41, spacing bull stick 51 rotates and inserts and establish in second inside groove 415, and fixed sleeve has cup jointed spacing lantern ring 52 on the spacing bull stick 51, spacing lantern ring 52 rotates the card and establishes in second inside groove 415, and the equal fixed mounting of opposite side of spacing lantern ring 52 has spacing torsional spring 53, the terminal of spacing torsional spring 53 and the inner wall fixed connection of second inside groove 415, and the one end fixedly connected with spacing fixture block 54 of spacing torsional spring 53 is kept away from to spacing bull stick 51, spacing draw-in groove 416 has been run through in the middle part of adapter sleeve lid 42, and spacing fixture block 54 can slide run through spacing draw-in groove 416 and with adapter sleeve lid 42 slip laminating, the external diameter of spacing fixture block 54 is the same with the internal diameter size of spacing draw-in groove 416, thereby the slip run through and dislocation stable joint of spacing fixture block 54 provides the guarantee.

Through adopting above-mentioned technical scheme, during the use, the user need rotate the spacing fixture block 54 of upper end to can drive and correspond spacing bull stick 51 rotation, and then can drive and correspond spacing lantern ring 52 rotation, further can twist reverse and correspond spacing torsional spring 53, stop rotating when spacing fixture block 54 rotates ninety degrees, then take off the annular grid board 44 of jam and clean and carry out spacing fixed with another annular grid board 44 according to the step.

The recovery mechanism 6 comprises a recovery bottom box 61 and a recovery water pump 62, the recovery bottom box 61 and the recovery water pump 62 are fixedly arranged at the bottom end of the inner side of the installation chassis 1, a connecting conduit 63 and a recovery conduit 64 which are matched with each other are arranged at the bottom end of the recovery water pump 62, the connecting conduit 63 is communicated with one side of the bottom end of the recovery bottom box 61, the tail end of the recovery conduit 64 is communicated with the lower end of the cleaning barrel 2, the treatment mechanism 7 comprises a second motor 71, a shifting screw 72 and a containing bottom frame 73, the second motor 71 is fixedly arranged on the recovery bottom box 61, the tail end of the output end of the second motor 71 is fixedly sleeved with a first synchronous wheel 74, the side connection bracket 718 provides a guarantee for the stable installation of the second motor 71, one side of the recovery bottom box 61 is fixedly provided with a side connection bracket 718, the second motor 71 is fixedly inserted into the side connection bracket 718, the shifting screw rod 72 is rotatably inserted at two sides of the upper end of the recovery bottom box 61, the tail end of the shifting screw rod 72 is fixedly sleeved with a second synchronous wheel 75, the second synchronous wheel 75 is meshed with the outer side of the first synchronous wheel 74 and sleeved with a transmission synchronous belt 76, the recovery bottom box 61 is provided with an anti-drop stop lever matched with the transmission synchronous belt 76, the shifting screw rod 72 is in threaded sleeve connection with a shifting slide block 77, the shifting slide block 77 is in sliding fit with the inner wall of the recovery bottom box 61, a third electric telescopic rod 78 is fixedly inserted on the shifting slide block 77, the tail end of the output end of the third electric telescopic rod 78 is fixedly connected with a shifting push block 79, the inner side of the recovery bottom box 61 is in sliding joint with three U-shaped push plates 710, the sliding direction of the U-shaped push plates 710 is the same as that of the shifting slide block 77, both ends of the U-shaped push plates 710 are provided with shifting push grooves 711, the shifting push blocks 79 can be in sliding inserted in the shifting push grooves 711, the three U-shaped push plates 710 are sequentially and fixedly connected with a first interception filter screen 712, a second interception filter screen 713 and a third interception filter screen 714 from top to bottom, the side edges of the first interception filter screen 712, the second interception filter screen 713 and the third interception filter screen 714 are respectively provided with a rigid traction rope matched with the side edges of the first interception filter screen 712, the second interception filter screen 713 and the third interception filter screen 714, so that the side edges of the first interception filter screen 712, the second interception filter screen 713 and the third interception filter screen 714 can be kept in a tight state during use, flexible deformation filtration interception is performed in the middle of the side edges, a containing bottom frame 73 is fixedly arranged in the recovering bottom box 61, the first interception filter screen 712, the second interception filter screen 713 and the third interception filter screen 714 can be movably clamped in the containing bottom frame 73, the tail ends of the first interception filter screen 712, the second interception filter screen 713 and the third interception filter screen 714 are respectively fixedly connected with a first connecting plate 715, a second connecting plate 716 and a third connecting plate 717, and the first connecting plate 715, the second connecting plate 716 and the third connecting plate 717 are fixedly arranged in the recovering bottom box 61.

By adopting the technical scheme, when in use, the two third electric telescopic rods 78 are started, so that the two shifting push blocks 79 can be driven to move downwards, the third electric telescopic rods 78 are closed when the shifting push blocks 79 are clamped into the shifting push grooves 711 on the U-shaped push plates 710 at the bottommost end, then the second motor 71 is started, so that the first synchronous wheels 74 can be driven to rotate, the two second synchronous wheels 75 can be driven to rotate by the transmission synchronous belt 76, the two shifting screw rods 72 can be further driven to synchronously rotate, the shifting sliding blocks 77 can be driven to move towards the side far away from the second motor 71, the U-shaped push plates 710 at the bottommost end can be driven by the third electric telescopic rods 78 and the shifting push blocks 79 to move towards the side far away from the second motor 71, the stored third interception filter screen 714 can be further developed step by step, and the second motor 71 is turned off after the third interception filter 714 is fully unfolded, the electromagnetic valve is opened and the multi-stage electric push rod 32 is started again after the cleaning of the fish to be cleaned is completed, at this time, the used cleaning water source is guided into the recovery bottom box 61 through the water guide standpipe 21, then the used cleaning water source falls on the third interception filter 714, then the third interception filter 714 can intercept impurities in the used cleaning water source, the filtered cleaning water source is stored in the recovery bottom box 61, then the electromagnetic valve is turned off and the recovery water pump 62 is started, so that the filtered cleaning water source can be guided into the recovery guide pipe 64 through the connecting guide pipe 63 and guided into the cleaning cylinder 2 again through the recovery guide pipe 64 for recycling, and then the subsequent fish cleaning operation and the cleaning water source filtering and recycling operation are carried out again according to the steps above, when the third interception filter 714 is used for a period of time, the second motor 71 is required to be started again and the corresponding U-shaped push plate 710 is reset, then the third electric telescopic rod 78 is started again, so that the shifting push block 79 can be driven to move upwards, the third electric telescopic rod 78 is suspended when the shifting push block 79 is clamped into the middle shifting push groove 711, the second interception filter 713 is unfolded and used according to the steps, and the first interception filter 712 can be unfolded and used according to the steps.

The working principle is that when the device is used, the two third electric telescopic rods 78 are started, so that the two shifting push blocks 79 can be driven to move downwards, the third electric telescopic rods 78 are closed when the shifting push blocks 79 are clamped into shifting push grooves 711 on the U-shaped push plates 710 at the lowest ends, then the second motors 71 are started, so that the first synchronous wheels 74 can be driven to rotate, the two second synchronous wheels 75 can be driven to rotate through the transmission synchronous belts 76, the two shifting screw rods 72 can be driven to rotate synchronously, the shifting sliding blocks 77 can be driven to move towards the side far away from the second motors 71, the U-shaped push plates 710 at the lowest ends can be driven to move towards the side far away from the second motors 71 through the third electric telescopic rods 78 and the shifting push blocks 79, the stored third filter screens 714 can be further unfolded gradually, and the second motors 71 are closed after the third filter screens 714 are unfolded completely;

Then, two multi-stage electric push rods 32 are started, so that two lifting struts 34 can be driven to synchronously move upwards through a connecting disc 33, and then two lifting cylinder posts 35 can be driven to synchronously move upwards, further, a first motor 413 and two second electric telescopic rods 410 are started, so that two annular grid plates 44 can be driven to synchronously move upwards, and when a proper distance is reserved between the annular grid plates 44 at the upper end and the cleaning cylinder 2, the multi-stage electric push rods 32 are suspended, then a proper amount of fish to be cleaned is led between the lower annular grid plates 44 and the cleaning cylinder 2, then the cleaning standpipe 41 and the annular grid plates 44 are reset, a proper amount of cleaning water source is led into the cleaning cylinder 2, at the moment, a third gear 43 at the lower end is meshed with a fourth gear 414, then a first motor 413 and two second electric telescopic rods 410 are started, so that the third gear 43 can be driven to rotate through the fourth gear 414, and then the annular grid plates 44 and the cleaning standpipe 41 can be driven to rotate in the horizontal direction, and at the same time, the two second electric telescopic rods 410 drive corresponding second push blocks 411 to reciprocate, so that the corresponding second racks 412 can be driven to reciprocate, and the corresponding second racks can be driven to rotate in the vertical direction, and the corresponding racks can be driven to rotate, and the two racks can be further, and the cleaning sleeve 46 can be driven to rotate, and the corresponding to clean and the water source can be fully and well, and the cleaning effect can be cleaned, and completely, and can be separated, and can be cleaned, and washed by the cleaning effect and the water source can be rotated and washed by the cleaning cylinder and the water;

When the electromagnetic valve is opened and the multistage electric push rod 32 is started again after the cleaning of the fish to be cleaned is completed, at the moment, the used cleaning water source is guided into the recovery bottom box 61 through the water guide vertical pipe 21, then the used cleaning water source falls on the third interception filter screen 714, then the third interception filter screen 714 can intercept impurities in the used cleaning water source, the filtered cleaning water source is stored in the recovery bottom box 61, during the period, the multistage electric push rod 32 can gradually move the cleaned fish upwards through the annular grid plate 44 at the lower end, at the moment, a user can conveniently take out the cleaned fish and conduct fish collagen peptide extraction operation, then the electromagnetic valve is closed and the recovery water pump 62 is started, so that the filtered cleaning water source can be guided into the recovery guide pipe 64 through the connecting pipe 63 and guided into the cleaning barrel 2 again through the recovery guide pipe 64 for recycling, and then the subsequent fish cleaning operation and the cleaning water source filtering and reutilization operation are carried out again according to the steps;

During the subsequent use, when the annular grid plate 44 at the lowest end is blocked, the multistage electric push rod 32 needs to be started again and the annular grid plate 44 at the lowest end is moved to the highest position, then the two first electric telescopic rods 38 are started, so that the corresponding first racks 310 can be driven to move by the first push blocks 39, the corresponding first gears 37 can be driven to rotate, the cleaning standpipe 41 can be driven to rotate in the vertical direction by the conversion rotating rod 36 and the conversion lantern ring 311, the two annular grid plates 44 can be conveniently and quickly replaced, after the replacement is completed, the annular grid plate 44 is moved to the proper position and fish to be cleaned is guided into the cleaning cylinder 2 according to the steps, during the period, the user needs to rotate the limit clamping blocks 54 at the upper end, so that the corresponding limit rotating rod 51 can be driven to rotate, and then can drive corresponding spacing lantern ring 52 to rotate, further can twist corresponding spacing torsional spring 53, stop rotating when spacing fixture block 54 rotates ninety degrees, then take off the annular grid board 44 of jam and clean and carry out spacing fixed according to the step above with another annular grid board 44, in addition, after the third interception filter screen 714 uses a period of time, need start the second motor 71 again and reset corresponding U type push pedal 710 again, then start third electric telescopic handle 78 again, thereby can drive shift ejector 79 and shift up, and pause third electric telescopic handle 78 and expand the use according to the step above with second interception filter screen 713 when shift ejector 79 blocks into the shift ejector slot 711 in the centre, and then can expand the use of first interception filter screen 712 according to the step above.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. The continuous fish collagen peptide extraction device comprises an installation underframe (1), and is characterized in that a cleaning barrel (2) is fixedly installed at the top end of the installation underframe (1), a water guide vertical pipe (21) matched with the installation underframe is communicated with the bottom end of the cleaning barrel (2), an electromagnetic valve matched with the installation underframe is arranged in the water guide vertical pipe (21), a switching mechanism (3) matched with the installation underframe (2) and a cleaning mechanism (4) are arranged on the cleaning barrel (2), a limiting mechanism (5) matched with the cleaning mechanism (4) is arranged at the end part of the cleaning mechanism (4), a recovery mechanism (6) matched with the installation underframe (1) and a processing mechanism (7) are arranged at the inner side of the installation underframe (1), fish to be cleaned can be fully separated and fully contacted with a water source through the matching use of the switching mechanism (3) and the cleaning mechanism (4), in addition, the continuous development of fish cleaning operation can be realized, the setting use of the limiting mechanism (5) provides convenience for the disassembly, cleaning and the water source of the cleaning mechanism (6) and the processing mechanism (7);

The recovery mechanism (6) comprises a recovery bottom box (61) and a recovery water pump (62), wherein the recovery bottom box (61) and the recovery water pump (62) are fixedly arranged at the bottom end of the inner side of the installation chassis (1), a connecting conduit (63) and a recovery conduit (64) which are matched with each other are arranged at the bottom end of the recovery water pump (62), the connecting conduit (63) is communicated with one side of the bottom end of the recovery bottom box (61), and the tail end of the recovery conduit (64) is communicated with the lower end of the cleaning barrel (2);

The processing mechanism (7) comprises a second motor (71), a shifting screw rod (72) and a containing bottom frame (73), the second motor (71) is fixedly arranged on the recycling bottom box (61), the tail end of the output end of the second motor (71) is fixedly sleeved with a first synchronous wheel (74), the shifting screw rod (72) is rotatably inserted and arranged at two sides of the upper end of the recycling bottom box (61), the tail end of the shifting screw rod (72) is fixedly sleeved with a second synchronous wheel (75), the outer side of the second synchronous wheel (75) is meshed and sleeved with a transmission synchronous belt (76) with the outer side of the first synchronous wheel (74), the shifting screw rod (72) is sleeved with a shifting slider (77) in a threaded manner, the shifting slider (77) is in sliding fit with the inner wall of the recycling bottom box (61), the shifting slider (77) is fixedly connected with a third electric telescopic rod (78) in a sleeved manner, the tail end of the output end of the third electric telescopic rod (78) is fixedly connected with a shifting push block (79), the inner side of the recycling bottom box (61) is slidably clamped with three U-shaped push plates (710), the U-shaped push plates (710) can be pushed by the same sliding direction as the shifting push plates (710) in the shifting push plates (711) and the two ends of the shifting push plates (711) can be pushed by the same sliding direction, three U type push pedal (710) from top to bottom in proper order fixedly connected with first interception filter screen (712), second interception filter screen (713) and third interception filter screen (714), hold underframe (73) fixed mounting in retrieving underframe (61), and first interception filter screen (712), second interception filter screen (713) and third interception filter screen (714) can movable card establish in holding underframe (73), the end of first interception filter screen (712), second interception filter screen (713) and third interception filter screen (714) is fixedly connected with first link plate (715), second link plate (716) and third link plate (717) respectively, and first link plate (715), second link plate (716) and third link plate (717) are all fixed mounting in retrieving underframe (61).

2. The fish collagen peptide continuous extraction device according to claim 1, wherein the switching mechanism (3) comprises a lateral cross plate (31), the lateral cross plate (31) is fixedly installed at the lower end of the outer wall of the cleaning barrel (2), the lateral cross plate (31) is of a symmetrical structure, the top end of the lateral cross plate (31) is fixedly provided with a multi-stage electric push rod (32), the tail end of the output end of the multi-stage electric push rod (32) is fixedly connected with a connecting disc (33), the top end of the connecting disc (33) is fixedly provided with a lifting support rod (34), the tail end of the lifting support rod (34) is fixedly connected with a lifting barrel column (35), the lifting barrel column (35) is rotatably connected with a switching rotating rod (36), the opposite ends of the switching rotating rod (36) are fixedly sleeved with a first gear (37), the top of an inner cavity of the lifting barrel column (35) is fixedly provided with a first electric telescopic rod (38), the tail end of the output end of the first electric telescopic rod (38) is fixedly connected with a first push block (39), the bottom end of the first push block (39) is fixedly provided with a lifting barrel column (35), and the first gear (310) is fixedly connected with a first gear (310) and the first gear (310) is meshed with the first gear (310).

3. The continuous fish collagen peptide extraction device according to claim 2, wherein the cleaning mechanism (4) comprises a cleaning standpipe (41), the cleaning standpipe (41) is rotatably inserted in the conversion collar (311), two ends of the cleaning standpipe (41) are both slidably sleeved with a connecting sleeve cover (42), a third gear (43) is fixedly sleeved at one outer side of one end of the connecting sleeve cover (42), an annular grid plate (44) is fixedly sleeved at the other outer side of the connecting sleeve cover (42), the annular grid plate (44) can be slidably inserted in the cleaning barrel (2), a first inner groove (45) matched with the cleaning standpipe (41) is formed in the middle of the cleaning standpipe (41), two cleaning rotary rods (46) are fixedly sleeved at the middle of the first inner groove (45), two ends of the cleaning rotary rods (46) are both fixedly sleeved with second gears (47), symmetrically distributed cleaning rotary plates (49) are integrally formed at one outer side of one end of the connecting sleeve cover (42), two opposite second pushing rods (410) are fixedly installed at two ends of the second inner wall (45) of the first inner groove (45), and the second rack (412) is meshed with the second gear (47), a first motor (413) is fixedly arranged at the bottom end of the cleaning barrel (2), the output end of the first motor (413) rotates to penetrate through the cleaning barrel (2) and is fixedly sleeved with a fourth gear (414) at the tail end of the cleaning barrel, and the fourth gear (414) is meshed with the third gear (43).

4. A fish collagen peptide continuous extraction apparatus as claimed in claim 3, wherein guide clamping plates (417) distributed in an array are integrally formed at both ends of the cleaning standpipe (41), and the guide clamping plates (417) can be slidably inserted into the connecting sleeve cover (42).

5. The continuous fish collagen peptide extraction apparatus as claimed in claim 4, wherein the connecting sleeve cover (42) is provided with guide clamping grooves (418) distributed in an array, and the guide clamping plates (417) can be slidably inserted into the guide clamping grooves (418).

6. A fish collagen peptide continuous extraction device as claimed in claim 3, wherein the limiting mechanism (5) comprises a limiting rotating rod (51), the two ends of the cleaning vertical tube (41) are provided with second inner grooves (415), the limiting rotating rod (51) is rotatably inserted in the second inner grooves (415), the limiting rotating rod (51) is fixedly sleeved with a limiting collar (52), the limiting collar (52) is rotatably clamped in the second inner grooves (415), the opposite sides of the limiting collar (52) are fixedly provided with limiting torsion springs (53), the tail ends of the limiting torsion springs (53) are fixedly connected with the inner walls of the second inner grooves (415), one ends of the limiting rotating rod (51) away from the limiting torsion springs (53) are fixedly connected with limiting clamping blocks (54), the middle part of the connecting sleeve cover (42) is provided with limiting clamping grooves (416) in a penetrating mode, and the limiting clamping blocks (54) can slide through the limiting clamping grooves (416) and are in sliding fit with the connecting sleeve cover (42).

7. The continuous fish collagen peptide extraction apparatus as claimed in claim 6, wherein the outer diameter of the limit clamping block (54) is the same as the inner diameter of the limit clamping groove (416).

8. A fish collagen peptide continuous extraction apparatus as claimed in claim 1, wherein a side support (718) is fixedly installed on one side of the recovery bottom box (61), and the second motor (71) is fixedly inserted into the side support (718).