CN210638415U

CN210638415U - Reduce nutrition loss's fish feed processing device

Info

Publication number: CN210638415U
Application number: CN201921006928.5U
Authority: CN
Inventors: 余富庭
Original assignee: Jingmen Wulong Forage Co ltd
Current assignee: Jingmen Wulong Forage Co ltd
Priority date: 2019-07-01
Filing date: 2019-07-01
Publication date: 2020-05-29
Anticipated expiration: 2029-07-01

Abstract

The utility model discloses a reduce nutrition loss's fish feed processing device, include vacuum pump, main part, shock attenuation supporting mechanism and bear the frame, bear four corners of frame bottom and all install shock attenuation supporting mechanism, and bear the top of frame and install the main part, the one end welding of main part has the amortization cover, and the internally mounted of amortization cover has driving motor, and first right angle gear is installed to driving motor's output. The utility model discloses an install exhaust-gas treatment mechanism and shock attenuation supporting mechanism, make the device utilize inside adsorption tower and the storage water tank of exhaust-gas treatment mechanism on the one hand, realized the effect of better edulcoration dedusting bits to the waste gas that the device produced, the gas of having guaranteed the outside environment of last row is comparatively clean, on the other hand utilizes the damping spring that shock attenuation supporting mechanism goes up to set up, the effect of shock attenuation groove and snubber block, make the device alleviate self produced vibration when moving, thereby the stationary performance when having promoted the device operation.

Description

Reduce nutrition loss's fish feed processing device

Technical Field

The utility model relates to a fish feed processing equipment technical field specifically is a fish feed processing device who reduces nutrition loss.

Background

The fish meat is tender, the taste is delicious and nutritive value is quite high, be the common cate on people's dining table, consequently the demand volume to fish on the market is high, in order to enlarge the output of fish, promote the quality of fish, fish feed often need be used to the breed in-process of fish, the nutrient composition of fish feed can not only promote the growth of fish, and can promote the immune disease resistance ability of fish, fish feed often need use a fish feed processing apparatus in its preparation process, but current fish feed processing apparatus still has following several problems when using:

1. the traditional fish feed processing and treating device generally uses overhigh drying temperature in the drying process, which causes excessive loss of nutrient components in the fish feed and is not beneficial to the long-term popularization of the device;

2. the existing fish feed processing device also has the problems of simple structure and difficult disassembly and combination of internal components of the device, which leads to low practicability of the device and is not beneficial to the overhaul and maintenance of the device;

3. current fish feed processing apparatus often directly discharges the external environment with the tail gas that produces among the stoving process in the market, and does not possess corresponding shock attenuation buffer structure, and this practicality that leads to the device is low, is not conform to the epoch theme of environmental protection.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reduce fish feed processing apparatus that nutrition runs off to when solving that to put forward in the above-mentioned background art add man-hour nutrient composition run off too much, install the difficult dismantlement of inner assembly and make up and cause the pollution and do not possess corresponding shock attenuation buffer structure's problem for the environment.

In order to achieve the above object, the utility model provides a following technical scheme: a fish feed processing device capable of reducing nutrition loss comprises a vacuum pump, a main body, a damping support mechanism and a bearing frame, wherein the damping support mechanism is mounted at four corners of the bottom end of the bearing frame, the main body is mounted at the top end of the bearing frame, a silencing cover is welded at one end of the main body, a driving motor is mounted in the silencing cover, a first right-angle gear is mounted at the output end of the driving motor, a second right-angle gear is mounted at the top end of the first right-angle gear, a first driving plate is welded at one end, away from the driving motor, of the second right-angle gear, a second driving plate matched with the first driving plate is arranged at one end, away from the driving motor, in the main body, a storage tank is mounted between the second driving plate and the first driving plate, a PLC control box is mounted on the main body above the driving motor, a PLC controller is mounted in, the input of vacuum pump is linked together with the inside of main part, and the main part is kept away from the one end of PLC control box and is installed exhaust-gas treatment mechanism, and the output of vacuum pump is provided with the connecting pipe that is linked together with exhaust-gas treatment mechanism inside, the light wave heating tube is evenly installed to the inside of main part, and vacuum pressure sensor is installed on the inside top of main part, installs temperature sensor in the main part of vacuum pressure sensor one end.

Preferably, waste gas treatment mechanism from the top down has set gradually ring flange, intake pipe, adsorption tower, active carbon filter, storage water tank, outlet duct and blast pipe, and the inside of adsorption tower evenly is provided with the active carbon filter, and the intake pipe is installed on the inside top of adsorption tower, and the storage water tank is installed to bearing frame below the adsorption tower, and the inside bottom of adsorption tower is linked together through outlet duct and the inside bottom of storage water tank to the inside top of storage water tank is provided with the blast pipe.

Preferably, the air inlet pipe is connected with the connecting pipe through a flange plate, and the vertical center line of the water storage tank and the vertical center line of the adsorption tower are on the same vertical line.

Preferably, supporting legs, damping slot, damping spring and snubber block have set gradually on the shock attenuation supporting mechanism, and the welding of the top of supporting legs has the damping slot, and the bottom of supporting legs is provided with anti-skidding rubber pad, and the inside bottom of damping slot evenly is provided with damping spring to the snubber block that matches with the damping slot is installed on damping spring's top.

Preferably, the storage tank is evenly provided with the air vent, and the intermediate position department of storage tank bottom is provided with the charge door, installs sealed lid on the charge door to constitute threaded connection between sealed lid and the charge door.

Preferably, the sliding strips are evenly welded at two ends of the material storage tank, sliding grooves matched with the sliding strips are formed in the first driving plate and the second driving plate, fixing bolts are arranged between the sliding strips and the sliding grooves, the second driving plate, the first right-angle gear and the second right-angle gear are connected with the main body through bearings, and the first right-angle gear and the second right-angle gear are meshed with each other.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the fish feed processing device capable of reducing nutrition loss is provided with the vacuum pump, the vacuum pressure sensor, the temperature sensor, the light wave heating tube and the PLC, so that the device can vacuumize the interior of the device by utilizing the action of the vacuum pump and the vacuum pressure sensor on one hand, and can dry fish feed at a low temperature by utilizing the principle that the boiling point of liquid is reduced in a vacuum state, energy is saved, and the phenomenon that the nutritional ingredients in the fish feed are greatly lost due to overhigh drying temperature is avoided, and on the other hand, the drying temperature in the device can be accurately controlled by utilizing the action of the temperature sensor and the light wave heating tube, so that the using effect of the device is improved;

(2) the fish feed processing device capable of reducing nutrition loss is provided with the driving motor, the first right-angle gear, the second right-angle gear and the storage tank, so that the device not only drives the storage tank to rotate by the aid of electric power supplied by the driving motor, so that fish feed in the storage tank can be fully mixed and dried, the processing effect of the device is improved, but also the stable effect of the storage tank during rotation is improved by means of a rotating structure formed by the first right-angle gear and the second right-angle gear, and the practicability of the device is enhanced;

(3) the fish feed processing device capable of reducing nutrition loss optimizes the structure of the device by installing the first drive plate, the second drive plate, the slide bar, the slide groove, the fixing bolt and the storage tank, and is convenient for a user to disassemble and clean the storage tank, so that the functionality of the device is enhanced;

(4) this reduce fish feed processing apparatus that nutrition runs off is through installing exhaust-gas treatment mechanism and shock attenuation supporting mechanism, make the device utilize inside adsorption tower and the storage water tank of exhaust-gas treatment mechanism on the one hand, the effect of better edulcoration dust removal bits has been realized to the waste gas that the device produced, the gas of having guaranteed the last outside environment of emission is comparatively clean, on the other hand utilizes the damping spring who sets up on the shock attenuation supporting mechanism, the effect of shock attenuation groove and snubber block, make the device alleviate self produced vibration when moving, thereby the stationary performance when having promoted the device operation.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the front cross-sectional structure of the shock-absorbing support mechanism of the present invention;

FIG. 4 is a schematic view of the front cross-sectional structure of the waste gas treatment device of the present invention;

fig. 5 is an enlarged schematic view of the structure at B in fig. 1 according to the present invention.

In the figure: 1. a vacuum pump; 2. a connecting pipe; 3. a vacuum pressure sensor; 4. a main body; 5. a temperature sensor; 6. an exhaust gas treatment mechanism; 601. a flange plate; 602. an air inlet pipe; 603. an activated carbon filter plate; 604. an adsorption tower; 605. a water storage tank; 606. an air outlet pipe; 607. an exhaust pipe; 7. a shock-absorbing support mechanism; 701. supporting legs; 702. a damping spring; 703. a damping groove; 704. a damper block; 8. a carrier; 9. a drive motor; 10. a sound deadening hood; 11. a first drive plate; 12. a PLC controller; 13. a PLC control box; 14. a sealing cover; 15. a feed inlet; 16. a light wave heating tube; 17. a material storage tank; 18. a vent hole; 19. a slide bar; 20. a chute; 21. fixing the bolt; 22. a second drive plate; 23. a first right angle gear; 24. a second right angle gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely 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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides an embodiment: a fish feed processing device capable of reducing nutrition loss comprises a vacuum pump 1, a main body 4, shock absorption supporting mechanisms 7 and a bearing frame 8, wherein the shock absorption supporting mechanisms 7 are mounted at four corners of the bottom end of the bearing frame 8, the main body 4 is mounted at the top end of the bearing frame 8, supporting legs 701, shock absorption grooves 703, shock absorption springs 702 and shock absorption blocks 704 are sequentially arranged on the shock absorption supporting mechanisms 7, the shock absorption grooves 703 are welded at the top ends of the supporting legs 701, anti-skid rubber pads are arranged at the bottom ends of the supporting legs 701, the shock absorption springs 702 are uniformly arranged at the bottom ends inside the shock absorption grooves 703, and the shock absorption blocks 704 matched with the shock absorption grooves 703 are mounted at the top;

when the vibration damping device is used, the elastic deformation of the damping spring 702 is utilized, and the displacement transformation of the damping block 704 in the damping groove 703 during up-and-down movement is matched, so that the vibration force generated in the operation process of the device can be buffered, and the operation of the whole device is more stable;

a silencing cover 10 is welded at one end of the main body 4, a driving motor 9 is installed inside the silencing cover 10, a first right-angle gear 23 is installed at the output end of the driving motor 9, a second right-angle gear 24 is installed at the top end of the first right-angle gear 23, a first driving plate 11 is welded at one end, away from the driving motor 9, of the second right-angle gear 24, a second driving plate 22 matched with the first driving plate 11 is arranged at one end, away from the driving motor 9, inside the main body 4, a storage tank 17 is installed between the second driving plate 22 and the first driving plate 11, vent holes 18 are evenly formed in the storage tank 17, a feed opening 15 is formed in the middle position of the bottom end of the storage tank 17, a sealing cover 14 is installed on the feed opening 15, and the sealing cover 14 is in threaded;

the structure of the device is optimized, and a user can conveniently load materials into the material storage tank 17 through the feed inlet 15;

the two ends of the material storage tank 17 are uniformly welded with sliding strips 19, sliding grooves 20 matched with the sliding strips 19 are formed in the first driving plate 11 and the second driving plate 22, fixing bolts 21 are arranged between the sliding strips 19 and the sliding grooves 20, the second driving plate 22, the first right-angle gear 23 and the second right-angle gear 24 are connected with the main body 4 through bearings, and the first right-angle gear 23 and the second right-angle gear 24 are meshed with each other;

the material storage tank 17 can be conveniently disassembled and assembled by a user through the cooperation of the slide bar 19, the chute 20 and the fixing bolt 21, so that the device can be conveniently cleaned and maintained, and the practicability of the device is enhanced;

a PLC control box 13 is arranged on a main body 4 above a driving motor 9, a PLC controller 12 is arranged inside the PLC control box 13, a vacuum pump 1 is arranged at the top end of the main body 4, the input end of the vacuum pump 1 is communicated with the inside of the main body 4, a waste gas treatment mechanism 6 is arranged at one end of the main body 4 far away from the PLC control box 13, a connecting pipe 2 communicated with the inside of the waste gas treatment mechanism 6 is arranged at the output end of the vacuum pump 1, the waste gas treatment mechanism 6 is sequentially provided with a flange plate 601, an air inlet pipe 602, an adsorption tower 604, an active carbon filter plate 603, a water storage tank 605, an air outlet pipe 606 and an exhaust pipe 607 from top to bottom, the active carbon filter plate 603 is uniformly arranged inside the adsorption tower 604, the air inlet pipe 602 is arranged at the top end inside the adsorption tower 604, the water storage tank 605 is arranged on a bearing, an exhaust pipe 607 is arranged at the top end inside the water storage tank 605;

the air inlet pipe 602 is connected with the connecting pipe 2 through a flange plate 601, and the vertical center line of the water storage tank 605 and the vertical center line of the adsorption tower 604 are on the same vertical line;

when the device is used, waste gas generated in the drying process of the device can enter the adsorption tower 604 to remove harmful substances under the adsorption and filtration effects of the activated carbon filter plate 603, the waste gas subjected to adsorption and filtration treatment can enter the water storage tank 605 to remove dust and debris carried by the waste gas under the effect of liquid, so that the finally discharged gas is cleaner, the environmental pollution is small, the flying of dust and debris cannot occur, and the device conforms to the time theme of environmental protection;

the optical wave heating tube 16 is uniformly installed inside the main body 4, the vacuum pressure sensor 3 is installed at the top end inside the main body 4, the temperature sensor 5 is installed on the main body 4 at one end of the vacuum pressure sensor 3, the output end of the vacuum pressure sensor 3 is electrically connected with the input end of the PLC controller 12 through a lead, the output end of the PLC controller 12 is electrically connected with the input end of the vacuum pump 1 through a lead, the output end of the temperature sensor 5 is electrically connected with the input end of the PLC controller 12 through a lead, the output end of the PLC controller 12 is electrically connected with the input end of the optical wave heating tube 16 through a lead, the output end of the PLC controller 12 is electrically connected with the input end of the driving motor 9 through a lead, the model of the driving motor 9 can be Y355L1-2, the model of the optical wave heating tube 16 can be BN-124, the model of the vacuum pump 1 can be BYNFZ, the model of the PLC controller 12 can be FX1, the temperature sensor 5 may be of the type CWDZ11 and the vacuum pressure sensor 3 may be of the type PTJ 410Z.

The working principle is as follows: when the fish feed drying device is used, the external power supply is connected, a worker firstly starts the driving motor 9 to drive the first right-angle gear 23 to rotate, the first right-angle gear 23 can drive the second right-angle gear 24 meshed with the first right-angle gear to rotate when rotating, so as to drive the storage tank 17 to rotate, when the storage tank 17 rotates until the charging hole 15 is positioned at the top end position, the driving motor 9 is closed, then the sealing cover 14 is opened, fish feed to be dried is poured into the charging hole 15, then the device is closed, firstly the connecting pipe 2 and the air inlet pipe 602 are separated by using the action of the flange plate 601, the vacuum pump 1 is started to match with the action of the vacuum pressure sensor 3 to realize the operation of vacuumizing the inside of the main body 4, then the connecting pipe 2 and the air inlet pipe 602 are connected, the driving motor 9 and the light wave heating pipe 16 are started again, the storage tank 17, and the effect of uniform drying is achieved, in the drying process, on one hand, the device continuously vacuumizes the inside of the device by utilizing the effects of the vacuum pump 1 and the vacuum pressure sensor 3, and utilizes the principle that the boiling point of liquid is reduced in a vacuum state, so that the fish feed can be dried at a low temperature, the energy is saved, and the loss of a large amount of nutritional ingredients in the fish feed caused by overhigh drying temperature is avoided, on the other hand, the drying temperature in the device can be more accurately controlled by utilizing the effects of the temperature sensor 5 and the light wave heating tube 16, thereby improving the using effect of the device, finally, the waste gas generated in the drying process of the fish feed can enter the waste gas treatment mechanism 6 to realize the tail gas treatment effect, in particular, the waste gas generated in the drying process of the device can enter the adsorption tower 604 to realize the removal of harmful substances under the adsorption and filtration effects of the active carbon filter, inside waste gas after adsorption filtration can get into storage water tank 605, under the effect of liquid, got rid of its dust piece that carries to make the gas that discharges at last comparatively clean, little to environmental pollution, the condition that the dirt bits fly upward can not appear, accords with the epoch theme of environmental protection.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a reduce nutrition loss's fish feed processing apparatus, includes vacuum pump (1), main part (4), shock attenuation supporting mechanism (7) and bears frame (8), its characterized in that: the damping support mechanism (7) is mounted at four corners of the bottom end of the bearing frame (8), the main body (4) is mounted at the top end of the bearing frame (8), a silencing cover (10) is welded at one end of the main body (4), a driving motor (9) is mounted inside the silencing cover (10), a first right-angle gear (23) is mounted at the output end of the driving motor (9), a second right-angle gear (24) is mounted at the top end of the first right-angle gear (23), a first driving plate (11) is welded at one end, away from the driving motor (9), of the second right-angle gear (24), a second driving plate (22) matched with the first driving plate (11) is arranged at one end, away from the driving motor (9), of the main body (4), a material storage tank (17) is mounted between the second driving plate (22) and the first driving plate (11), and a PLC control box (13) is mounted on the main body (4) above the, the internally mounted of PLC control box (13) has PLC controller (12), vacuum pump (1) is installed on the top of main part (4), and the input of vacuum pump (1) is linked together with the inside of main part (4), and the one end that PLC control box (13) was kept away from in main part (4) installs exhaust-gas treatment mechanism (6), and the output of vacuum pump (1) is provided with connecting pipe (2) that are linked together with exhaust-gas treatment mechanism (6) inside, the inside evenly installed of main part (4) has light wave heating tube (16), and vacuum pressure sensor (3) are installed on the inside top of main part (4), install temperature sensor (5) on main part (4) of vacuum pressure sensor (3) one end.

2. A fish feed processing apparatus for reducing nutrient loss as claimed in claim 1, wherein: waste gas treatment mechanism (6) from the top down has set gradually ring flange (601), intake pipe (602), adsorption tower (604), activated carbon filter (603), storage water tank (605), outlet duct (606) and blast pipe (607), and the inside of adsorption tower (604) evenly is provided with activated carbon filter (603), intake pipe (602) are installed on the inside top of adsorption tower (604), install storage water tank (605) on bearing frame (8) of adsorption tower (604) below, and the inside bottom of adsorption tower (604) is linked together through outlet duct (606) and the inside bottom of storage water tank (605), and the inside top of storage water tank (605) is provided with blast pipe (607).

3. A fish feed processing apparatus for reducing nutrient loss as claimed in claim 2, wherein: the air inlet pipe (602) is connected with the connecting pipe (2) through a flange plate (601), and the vertical center line of the water storage tank (605) and the vertical center line of the adsorption tower (604) are on the same vertical line.

4. A fish feed processing apparatus for reducing nutrient loss as claimed in claim 1, wherein: supporting legs (701), damping groove (703), damping spring (702) and snubber block (704) have set gradually on shock attenuation supporting mechanism (7), and the top welding of supporting legs (701) has damping groove (703), and the bottom of supporting legs (701) is provided with anti-skidding rubber pad, and the inside bottom in damping groove (703) evenly is provided with damping spring (702) to damping spring (702)'s top is installed and is damped groove (703) assorted snubber block (704).

5. A fish feed processing apparatus for reducing nutrient loss as claimed in claim 1, wherein: evenly be provided with air vent (18) on storage tank (17), and the intermediate position department of storage tank (17) bottom is provided with charge door (15), installs sealed lid (14) on charge door (15) to constitute threaded connection between sealed lid (14) and charge door (15).

6. A fish feed processing apparatus for reducing nutrient loss as claimed in claim 1, wherein: both ends of storage tank (17) all have evenly welded draw runner (19), all be provided with on first drive plate (11) and second drive plate (22) with draw runner (19) assorted spout (20), and be provided with between draw runner (19) and spout (20) fixing bolt (21), all be connected with main part (4) through the bearing on second drive plate (22), first right angle gear (23) and second right angle gear (24) intermeshing.