CN217321291U - Tilapia mossambica flesh of fish freshness keeps storage device - Google Patents

Abstract

The utility model discloses a tilapia flesh freshness keeping and storing device, which belongs to the technical field of flesh storage equipment, and comprises a fresh-keeping device, a material taking port, a material taking door, a rotary material taking device, a material taking and placing component and a flesh storage box, wherein the rotary material taking device is arranged in the fresh-keeping device, the material taking and placing component is provided with a plurality of components which are equidistantly arranged on the rotary material taking device, the flesh storage box is provided with a plurality of components, each of the material taking and placing components is provided with a flesh storage box, the material taking port is arranged at one side of the fresh-keeping device and corresponds to one of the flesh storage boxes, the area of the material taking port is slightly larger than that of the flesh storage box, the material taking door is arranged at one side of the fresh-keeping device provided with the material taking port and shields the material taking port; this device has realized taking or when placing food to the fresh-keeping device of tilapia meat, inside the fresh-keeping device of the entering of outside air as far as possible to further improve the effect that tilapia freshness keeps efficiency.

Description

Tilapia mossambica flesh of fish freshness keeps storage device

Technical Field

The utility model relates to a flesh of fish storage facilities technical field especially relates to a flesh of fish freshness of tilapia keeps storage device.

Background

Tilapia (African crucian carp) is the main aquatic product for cultivation in China. The meat is delicious, has less thorn, has high protein content, is rich in 8 essential amino acids needed by human body, wherein the content of glutamic acid and glycine is particularly high. Tilapia is popular with people due to the characteristics, is called white salmon and fish in the 21 st century, and has become one of hot spots for cultivation, processing and export in recent years.

Traditional tilapia freshness retaining device is for being used for carrying out the freezer that keeps in cold storage to the tilapia meat that cuts usually, traditional freezer is because being used for placing treat fresh-keeping food place uncovered great, open the in-process a large amount of air of freezer cabinet door when placing or taking tilapia meat and can get into inside the freezer, air conditioning in the freezer also can run off simultaneously, thereby produce the influence to the flesh of fish quality of keeping fresh in the freezer, be unfavorable for the freshness retaining work of tilapia meat, lack one kind and when taking or placing food to the tilapia meat freshness retaining device, it gets inside the freshness retaining device to reduce outside air as far as possible, thereby further improve the device that tilapia freshness retaining effect.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a tilapia flesh of fish freshness keeps storage device to solve the above-mentioned technical problem who mentions.

The embodiment of the utility model provides an adopt following technical scheme: including fresh-keeping device, get the material mouth, get the bin gate, gyration extracting device, get and put subassembly and flesh of fish and store the box, gyration extracting device sets up inside fresh-keeping device, it has a plurality of, a plurality of to get the subassembly get and put the subassembly equidistance setting on gyration extracting device, the flesh of fish is stored the box and is equipped with a plurality of, every get and all be provided with a flesh of fish on the subassembly and store the box, get the material mouth setting in one side of fresh-keeping device and store the box position correspondence rather than one of the flesh of fish, and it slightly is greater than the flesh of fish and store the box to get the material mouth area, it sets up in one side that fresh-keeping device is equipped with the material mouth and shelters from the material mouth of getting.

Further, the rotary material taking device comprises a track assembly, a moving assembly and a driving assembly, the track assembly is arranged in the fresh-keeping device, the number of the moving assemblies is the same as that of the taking and placing assemblies, the moving assemblies are arranged on the track assembly at equal intervals, the driving assembly is arranged at the side end of the track assembly, the track assembly comprises a connecting frame, a first track and a second track, the two connecting frames are symmetrically arranged at the two sides in the fresh-keeping device, the first track and the second track are both arranged in a ring shape and have consistent tracks, the second track is smaller than the first track, the first track is arranged above the two connecting frames, the outer side of the first track is respectively connected with the two ends of the tops of the two connecting frames, the second track is arranged below the first track, and the inner side of the second track is connected with two ends of the two connecting frames respectively.

Further, every it all includes first pulley, second pulley and connecting plate to remove the subassembly, one side and the first track of first pulley are close to orbital one side sliding fit of second, the connecting plate setting is in the bottom of first pulley and rotate the connection, the second pulley has two, two the second pulley interval sets up in the bottom of connecting plate and rotates the connection, two one side of second pulley is close to orbital one side sliding fit of first with the second track respectively.

Further, drive assembly includes mounting bracket, drive worm and driving motor, the mounting bracket setting is inside and be located first track and second track inboard at fresh-keeping device, the both ends of drive worm rotate with the both ends of mounting bracket respectively and are connected, drive worm and first orbital side parallel arrangement, driving motor sets up and is connected with the junction of drive worm one end and mounting bracket at one side of mounting bracket and driving motor's output.

Further, every get and put the subassembly and set up respectively at the top of a removal subassembly, every get and put the subassembly and all include mount, transmission piece and electric putter, the mount sets up top and swing joint at first pulley, the transmission piece sets up the one side that is close to the drive worm at the mount lower extreme, the transmission piece size agrees with mutually with the pitch of drive worm, the fish flesh is stored the box and is set up top and the sliding fit at the mount, the electric putter level sets up the one end that is close to the drive worm at the mount top and electric putter's output and the side that the box was stored to the fish flesh is connected.

The embodiment of the utility model provides an above-mentioned at least one technical scheme who adopts can reach following beneficial effect:

firstly, the device separates a batch of tilapia flesh from a plurality of tilapia flesh storage boxes through the arrangement of the tilapia flesh storage boxes for independent fresh keeping, the tilapia flesh storage boxes are not in contact with each other, adhesion among a plurality of tilapia mossambica after a period of cold storage is avoided, the tilapia mossambica are not convenient to take independently, meanwhile, a material taking port corresponding to the position of the tilapia flesh storage boxes and slightly larger than the area of the tilapia flesh storage boxes is arranged at the side end of the fresh keeping device, a material taking door is arranged at the material taking port, when tilapia flesh needs to be taken or placed, a rotary material taking device is controlled to drive one of the tilapia flesh storage boxes with the fish flesh or empty flesh to move to the material taking port, the material taking door is opened, the tilapia flesh storage boxes are controlled to move to the outside of the fresh keeping device through a material taking and taking assembly and cover the material taking port, then the tilapia flesh is placed or taken out, and the material taking port is smaller in area compared with the traditional cold storage cabinet, and shelter from the material taking port when taking or placing the flesh of fish to reduced a large amount of air as far as possible and got into the fresh-keeping device inside or the cold air runs off from the fresh-keeping device in the possibility, thereby further improved the effect that this device was fresh-keeping to tilapia.

Secondly, when fish meat needs to be placed or taken out, the driving motor is controlled to work to drive the driving worm to rotate, the transmission blocks on the several taking and placing components are respectively and equidistantly positioned on the screw pitch on the driving worm, the transmission blocks are controlled to continuously move along the linear direction through the rotation of the driving worm, after the transmission blocks move to be separated from the screw pitch on the driving worm, the transmission blocks on the subsequent taking and placing components can move to the screw pitch of the driving worm and linearly move, and simultaneously, the transmission blocks slide on the first track and the second track along the tracks through the first pulley and the second pulley respectively, so that the fish meat storage boxes arranged on the plurality of taking and placing components perform rotary motion on the track component, through the working principle, any fish meat storage box can be controlled to move to be parallel to the material taking port, the material taking door is opened, and the placement or taking of the tilapia is completed, because the area of the material taking opening is smaller compared with that of the opening of the traditional refrigerated cabinet, the air entering amount when the material taking door is opened is reduced, and the preservation efficiency of tilapia is improved.

The utility model discloses a fresh-keeping device, including a fresh-keeping door, a material taking opening and a material taking opening.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

FIG. 1 is a partial sectional view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of a partial structure of the present invention;

fig. 4 is a schematic perspective view of the rotary material-taking device of the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

fig. 6 is a schematic perspective view of the taking and placing assembly and the fish storage box according to the present invention.

Reference numerals

Fresh-keeping device 1, get material mouthful 2, material taking door 3, gyration extracting device 4, track subassembly 41, link 411, first track 412, second track 413, removal subassembly 42, first pulley 421, second pulley 422, connecting plate 423, drive assembly 43, mounting bracket 431, drive worm 432, driving motor 433, get subassembly 5, mount 51, transmission block 52, electric putter 53, flesh of fish storage box 6.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to limit the invention to the precise embodiments disclosed. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the utility model provides a tilapia flesh of fish freshness keeps storage device, including fresh-keeping device 1, get material mouth 2, get material door 3, gyration extracting device 4, get and put subassembly 5 and flesh of fish storage box 6, gyration extracting device 4 sets up inside fresh-keeping device 1, it has a plurality of to get to put subassembly 5, a plurality of get to put subassembly 5 equidistance setting on gyration extracting device 4, flesh of fish storage box 6 is equipped with a plurality of, each get to put subassembly 5 on all be provided with a flesh of fish storage box 6, get material mouth 2 set up in one side of fresh-keeping device 1 and correspond with one of them flesh of fish storage box 6 position, and the area of material mouth 2 is slightly greater than storage box 6, get material door 3 set up in one side that fresh-keeping device 1 was equipped with material mouth 2 and shelter from material mouth 2; the traditional tilapia freshness retaining device is a refrigerated cabinet which is generally used for refrigerating and keeping cut tilapia meat, the traditional refrigerated cabinet has a large placing opening for placing food to be preserved, a large amount of air can enter the interior of the refrigerated cabinet in the process of opening a cabinet door of the refrigerated cabinet when tilapia meat is placed or taken, and meanwhile, cold air in the refrigerated cabinet can synchronously run off, so that the quality of fish meat preserved in the refrigerated cabinet is influenced, the tilapia meat freshness retaining work is not facilitated, and a device which can reduce the external air entering the interior of the freshness retaining device 1 as far as possible when the tilapia meat freshness retaining device 1 is taken or placed with food is lacked, so that the tilapia freshness retaining effect is further improved; the device firstly separates a batch of tilapia flesh from each other to be preserved separately by arranging the tilapia flesh storage box 6, the tilapia flesh is not in contact with each other, adhesion among a plurality of tilapia mossambica after being refrigerated for a period of time is avoided, the tilapia mossambica are not convenient to take separately, meanwhile, a material taking opening 2 which corresponds to the position of the tilapia flesh storage box 6 and has an area slightly larger than that of the tilapia flesh storage box 6 is arranged at the side end of the fresh-keeping device 1, a material taking door 3 is arranged at the material taking opening 2, when the tilapia flesh needs to be taken or placed, the rotary material taking device 4 is controlled to drive one of the tilapia flesh storage boxes 6 which is filled with the tilapia flesh or is empty to move to the material taking opening 2, the material taking door 3 is opened, the tilapia flesh storage box 6 is controlled to move to the outside of the fresh-keeping device 1 by the material taking assembly 5 and is shielded from the material taking opening 2, then the tilapia flesh is placed or taken out, in the process, the material taking opening 2 has a smaller area compared with the traditional refrigerated cabinet, the material taking port 2 is shielded when fish is taken or placed, so that the possibility that a large amount of air enters the interior of the preservation device 1 or cold air is lost from the preservation device 1 is reduced as much as possible, and the effect of the device on preserving tilapia is further improved; this device has realized taking or when placing food to tilapia meat fresh-keeping device 1, inside the fresh-keeping device 1 of the entering of outside air as far as possible to further improve the effect that tilapia freshness keeps efficiency.

Preferably, the revolving material taking device 4 includes a track assembly 41, a moving assembly 42 and a driving assembly 43, the track assembly 41 is disposed inside the fresh-keeping device 1, the number of the moving assemblies 42 is consistent with that of the picking and placing assemblies 5, a plurality of the moving assemblies 42 are disposed on the track assembly 41 at equal intervals, the driving assembly 43 is disposed at the side end of the track assembly 41, the track assembly 41 includes a connecting frame 411, a first track 412 and a second track 413, the connecting frame 411 has two, the two connecting frames 411 are symmetrically disposed at two sides inside the fresh-keeping device 1, the first track 412 and the second track 413 are both disposed in a ring shape and have consistent tracks, the second track 413 is smaller than the first track 412, the first track 412 is disposed above the two connecting frames 411 and the outer side of the first track 412 is respectively connected with two ends at the top of the two connecting frames 411, the second track 413 is disposed below the first track 412, the inner sides of the second rails 413 are connected to both ends of the two connection frames 411, respectively.

Preferably, each moving assembly 42 includes a first pulley 421, a second pulley 422 and a connecting plate 423, one side of the first pulley 421 is in sliding fit with one side of the first rail 412 close to the second rail 413, the connecting plate 423 is disposed at the bottom of the first pulley 421 and is rotatably connected to the first rail, there are two second pulleys 422, two second pulleys 422 are disposed at the bottom of the connecting plate 423 at intervals and are rotatably connected to the second rail, and one side of each second pulley 422 is in sliding fit with one side of the second rail 413 close to the first rail 412.

Preferably, the driving assembly 43 includes a mounting frame 431, a driving worm 432 and a driving motor 433, the mounting frame 431 is disposed inside the fresh keeping device 1 and is located inside the first track 412 and the second track 413, two ends of the driving worm 432 are respectively connected with two ends of the mounting frame 431 in a rotating manner, the driving worm 432 is arranged in parallel with a side end of the first track 412, the driving motor 433 is disposed on one side of the mounting frame 431, and a connection between an output end of the driving motor 433 and one end of the driving worm 432 and the mounting frame 431 is connected.

Preferably, each of the taking and placing assemblies 5 is respectively arranged at the top of one of the moving assemblies 42, each of the taking and placing assemblies 5 includes a fixed frame 51, a transmission block 52 and an electric push rod 53, the fixed frame 51 is arranged at the top of the first pulley 421 and is movably connected to the fixed frame, the transmission block 52 is arranged at one side of the lower end of the fixed frame 51 close to the driving worm 432, the size of the transmission block 52 is matched with the pitch of the driving worm 432, the fish storage box 6 is arranged at the top of the fixed frame 51 and is in sliding fit with the fixed frame, the electric push rod 53 is horizontally arranged at one end of the top of the fixed frame 51 close to the driving worm 432, and the output end of the electric push rod 53 is connected to the side end of the fish storage box 6; when fish meat needs to be placed or taken out, the driving motor 433 is controlled to work to drive the driving worm 432 to rotate, wherein the driving blocks 52 on the several taking and placing components 5 are respectively and equidistantly positioned on the screw pitch on the driving worm 432, the driving worm 432 rotates to control the driving blocks 52 to continuously move along the linear direction, after the driving blocks move to be separated from the screw pitch on the driving worm 432, the driving blocks 52 on the subsequent taking and placing components 5 move to the screw pitch of the driving worm 432 and linearly move, and simultaneously, the first pulley 421 and the second pulley 422 respectively slide on the first track 412 and the second track 413 along the tracks of the first track 412 and the second track 413, so that the several fish meat storage boxes 6 arranged on the several taking and placing components 5 perform rotary motion on the track component 41, and through the working principle, any fish meat storage box 6 can be controlled to move to a position parallel to the material taking port 2, the material taking door 3 is opened to finish the placement or taking of the tilapia, and the material taking port 2 has smaller area compared with the traditional refrigerator, so that the air entering amount when the material taking door 3 is opened is reduced, and the tilapia preservation efficiency is improved; store 6 when appointed flesh of fish and remove to and get the regional back that material mouthful 2 positions correspond, open and get material door 3 and expose and get material mouthful 2, the work of simultaneous control electric putter 53 is stored 6 toward getting material mouthful 2 directions promotion of box with the flesh of fish, until pushing away it to 1 outside of fresh-keeping device, at the in-process of taking or placing tilapia, because the size that box 6 was stored to the flesh of fish is slightly less than and gets material mouthful 2, thereby carried out sheltering from of certain degree to getting material mouthful 2, thereby the entering amount of air when further having reduced and getting material door 3 and opening, also avoided the loss of 1 inside air conditioning of fresh-keeping device to a certain extent, thereby further improved the fresh-keeping efficiency to tilapia.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (5)

1. The utility model provides a tilapia flesh of fish freshness keeps storage device, a serial communication port, including fresh-keeping device (1), get material mouth (2), get material door (3), gyration extracting device (4), get and put subassembly (5) and flesh of fish and store box (6), gyration extracting device (4) set up inside fresh-keeping device (1), it has a plurality of, a plurality of to get to put subassembly (5) equidistance setting on gyration extracting device (4), the flesh of fish is stored box (6) and is equipped with a plurality of, every get and all be provided with a flesh of fish and store box (6) on putting subassembly (5), get material mouth (2) and set up in one side of fresh-keeping device (1) and store box (6) position with one of the flesh of fish and correspond, and get material mouth (2) area and slightly be greater than flesh of the flesh of fish and store box (6), it sets up to get material door (3) and shelter from material mouth (2) in one side that fresh-keeping device (1) is equipped with getting material mouth (2) and shelter from .

2. The tilapia flesh freshness keeping and storing device according to claim 1, wherein the rotary material taking device (4) comprises a track assembly (41), two moving assemblies (42) and a driving assembly (43), the track assembly (41) is arranged inside the freshness keeping device (1), the number of the moving assemblies (42) is consistent with that of the taking and placing assemblies (5), a plurality of the moving assemblies (42) are equidistantly arranged on the track assembly (41), the driving assembly (43) is arranged at the side end of the track assembly (41), the track assembly (41) comprises two connecting frames (411), a first track (412) and a second track (413), the two connecting frames (411) are symmetrically arranged at two sides inside the freshness keeping device (1), the first track (412) and the second track (413) are both annularly arranged and have consistent tracks, the second track (413) is smaller than the first track (412), the first track (412) is arranged above the two connecting frames (411), the outer side of the first track (412) is connected with the two ends of the tops of the two connecting frames (411) respectively, the second track (413) is arranged below the first track (412), and the inner side of the second track (413) is connected with the two ends of the two connecting frames (411) respectively.

3. The tilapia flesh freshness retaining and storing device according to claim 2, wherein each moving assembly (42) comprises a first pulley (421), a second pulley (422) and a connecting plate (423), one side of the first pulley (421) is in sliding fit with one side of the first rail (412) close to the second rail (413), the connecting plate (423) is arranged at the bottom of the first pulley (421) and is rotatably connected with the first pulley, two second pulleys (422) are arranged at the bottom of the connecting plate (423) at intervals and are rotatably connected with the second rail (413), and one sides of the two second pulleys (422) are in sliding fit with one side of the second rail (413) close to the first rail (412).

4. The tilapia fish freshness retaining and storing device according to claim 2, wherein the driving assembly (43) comprises a mounting rack (431), a driving worm (432) and a driving motor (433), the mounting rack (431) is arranged inside the freshness retaining device (1) and is positioned inside the first track (412) and the second track (413), two ends of the driving worm (432) are respectively connected with two ends of the mounting rack (431) in a rotating manner, the driving worm (432) is arranged in parallel with the side end of the first track (412), the driving motor (433) is arranged on one side of the mounting rack (431), and the output end of the driving motor (433) is connected with the connection between one end of the driving worm (432) and the mounting rack (431).

5. The tilapia flesh freshness retaining and storing device according to claim 4, wherein each picking and placing component (5) is respectively arranged on the top of a moving component (42), each picking and placing component (5) comprises a fixed frame (51), a transmission block (52) and an electric push rod (53), the fixed frame (51) is arranged at the top of the first pulley (421) and is movably connected with the first pulley, the transmission block (52) is arranged at one side of the lower end of the fixed frame (51) close to the driving worm (432), the size of the transmission block (52) is matched with the thread pitch of the driving worm (432), the fish storage box (6) is arranged at the top of the fixed frame (51) and is in sliding fit with the fixed frame, the electric push rod (53) is horizontally arranged at one end of the top of the fixing frame (51) close to the driving worm (432) and the output end of the electric push rod (53) is connected with the side end of the fish storage box (6).

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