CN211601646U - Byproduct cooling device suitable for meat powder processing - Google Patents

Abstract

The utility model relates to a accessory substance cooling device suitable for meat meal processing relates to the technical field of meat meal production facility, including the breather pipe that is used for acceping waste gas, the breather pipe is the heliciform ring outward and is equipped with the cooling tube, the breather pipe overcoat is equipped with the isolation tube, the cooling tube sets up between breather pipe and isolation tube, the cooling tube is connected with the cooling water pump that is used for pumping water in the cooling tube and is used for the feed tank for the cooling tube supplies water, be provided with the cooling mechanism that is used for reducing the feed tank temperature on the feed tank, be fixed with the temperature measurement box that the material that adopts the coefficient of heat conductivity to be high to make in the breather pipe, be fixed. The utility model discloses the waste gas that produces meat meal production has carries out precooling to avoid the too high waste gas of temperature to cause the material damage of adsorption and purification and influence the technological effect that purifying effect's phenomenon takes place.

Description

Byproduct cooling device suitable for meat powder processing

Technical Field

The utility model belongs to the technical field of the technique of meat powder processing equipment and specifically relates to a by-product cooling device suitable for meat powder processing is related to.

Background

The meat powder is prepared by taking livestock bodies, residual broken meat, bones, internal organs and the like which are not suitable for eating in livestock slaughter houses as raw materials, and carrying out high-temperature cooking, degreasing, drying and crushing. The crude protein content of the meat meal is generally between 50% and 60%, and the amino acid components are balanced, so that the meat meal is an important component of the livestock and poultry feed.

The prior patent document with application publication number CN109170987A discloses a meat powder production device and a process, which comprises the steps of cleaning animal tissues and organs, then breaking ice, stewing the broken animal tissues and organs at high temperature, deodorizing waste gas generated in the process and then discharging; carrying out three-stage squeezing degreasing on the animal tissue organ after high-temperature cooking, and increasing the squeezing pressure section by section; squeezing and degreasing animal tissues and organs to produce meat powder and an oil-water mixture, drying the meat powder, deodorizing waste gas generated in the drying process, discharging, and performing oil-water separation on the oil-water mixture; cooling the dried meat powder, removing dust generated in the cooling process, bagging the cooled meat powder for storage, deodorizing waste gas generated in the storage process, and then discharging; and (3) sending the oil after oil-water separation to an oil storage tank for storage, sending water to a wastewater recycling system, extracting the collagen in the water, and then sending the rest water to a drying tank.

The above prior art solutions have the following drawbacks: the waste gas that produces in the heating stoving process can be mixed with high temperature steam, and current deodorization method is mostly absorption method, and high temperature steam makes the bulk temperature of waste gas too high, very easily causes adsorption medium's damage, and then influences the deodorization effect.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a by-product cooling device suitable for meat meal processing for the work of cooling down is carried out to the waste gas that produces in the meat meal course of working, avoids influencing subsequent waste gas deodorization and purification's effect.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: byproduct cooling device suitable for meat grinder processing, including the breather pipe that is used for acceping waste gas, the breather pipe is the heliciform ring outward and is equipped with the cooling tube, the breather pipe overcoat is equipped with the isolation tube, the cooling tube sets up between breather pipe and isolation tube, the cooling tube is connected with and is used for the cooling water pump to the pump water in the cooling tube and is used for the feed water tank for the cooling tube supplies water, be provided with the mechanism of cooling that is used for reducing the feed water tank temperature on the feed water tank, the breather pipe internal fixation has the temperature measurement box that the material that adopts the coefficient of heat conductivity to be high to make, the internal fixation of temperature measurement box has.

Through adopting above-mentioned technical scheme, the heat that the waste gas gived off is absorbed to the water in the cooling tube, thereby reduce the temperature of waste gas, avoid the subsequent absorption material of too high temperature waste gas damage and influence the effect of adsorbing the purification, temperature sensor is long service life because of the protection of temperature measurement box, temperature sensor does not influence the temperature monitoring to waste gas because of the coefficient of heat conductivity of temperature measurement box is high, the user can be according to the temperature real time control water-cooling effect of waste gas, the comdenstion water appears because of excessive cooling waste gas in avoiding the breather pipe, excellent in use effect, the isolation tube can avoid user direct contact cooling tube and isolation tube, prevent the user scald when guaranteeing water-cooling heat absorption effect, high safety in use.

The present invention may be further configured in a preferred embodiment as: and a heat insulation layer made of glass wool is fixed on the inner peripheral wall of the isolation tube.

Through adopting above-mentioned technical scheme, the insulating layer can further reduce the temperature of isolation tube periphery, and safety protection nature is higher.

The present invention may be further configured in a preferred embodiment as: the cooling mechanism includes by high intake antrum, cold water chamber and play water cavity to low order setting in the feed water tank, the input of feed water tank and the input intercommunication of intake antrum, the output of feed water tank and the output intercommunication of going out the water cavity, intake antrum, cold water chamber and play water cavity all are fixed with level sensor and thermodetector, the output of intake antrum and the input intercommunication in cold water chamber, the output in cold water chamber and the input intercommunication of going out the water cavity, all be provided with the control valve between the input of cooling tube, the output of cooling tube, intake antrum and the cold water chamber and between cold water chamber and the play water cavity, lie in the other cooling fan who is used for cooling the water of cold water intracavity that is provided with of cold water chamber on the feed water tank.

Through adopting above-mentioned technical scheme, the intracavity of intaking keeps in the water that heaies up from the cooling tube inflow, cooling fan makes the water cooling of cold water intracavity, it provides the replenishment water of cooling for the cooling tube to go out the water cavity, the temperature in each cavity can not be because of the temperature is unified and random circulation influences the cooling control, level sensor and thermoscope make the intake antrum, the water level and the temperature of cold water cavity and play water intracavity can convenient the affirmation, and then the accessible control valve changes the connected state of three cavity, make things convenient for the transfer of water, the cooling water is convenient and the accuse temperature is accurate.

The present invention may be further configured in a preferred embodiment as: the inner bottom surfaces of the water inlet cavity and the cold water cavity are all in a quadrangular frustum pyramid shape, and the area of the bottom surface of the quadrangular frustum pyramid is smaller than that of the top surface of the quadrangular frustum pyramid.

Through adopting above-mentioned technical scheme, accessible action of gravity accelerates the transfer rate when the interior bottom slope of intake antrum and cold water chamber makes the water transfer, and the probability that reducible water is remained simultaneously, and it is more convenient to use.

The present invention may be further configured in a preferred embodiment as: the thermometer arranged in the cold water cavity is suspended in the center of the cold water cavity through a bracket.

By adopting the technical scheme, the temperature of the water body center is used as the reference for controlling the temperature of the water body, the possibility that the external temperature of the water body is reduced and the internal temperature is not changed or is changed less and is directly conveyed into the cooling pipe is low, and the temperature control effect is better.

The present invention may be further configured in a preferred embodiment as: the cooling fan is two in number and symmetrically arranged on two sides of the cold water cavity, and the cooling fans work alternately.

By adopting the technical scheme, the two cooling fans work alternately, so that the blowing direction of air cooling is continuously reversed, and water in the cold water cavity is not easy to cool unevenly due to unidirectional blowing.

The present invention may be further configured in a preferred embodiment as: the water supply tank is horizontally provided with a plurality of induced ducts in the cold water cavity, and the end parts of the induced ducts are positioned beside the cooling fan and the two ends of the induced ducts are opened.

By adopting the technical scheme, the induced draft pipe increases the contact area between the air for air cooling and the water body, and the cooling efficiency is improved.

The present invention may be further configured in a preferred embodiment as: the periphery of the vent pipe is coated with a heat dissipation coating layer.

Through adopting above-mentioned technical scheme, the radiating coating layer can strengthen the radiating ability of breather pipe heat radiation, and the cooling efficiency of waste gas is higher.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the temperature of the waste gas is reduced through water cooling, so that the waste gas with overhigh temperature is prevented from damaging adsorption and purification materials and influencing the adsorption and purification effects;

2. the water inlet cavity, the cold water cavity and the water outlet cavity which are relatively independent realize the separation of water bodies with different temperatures, the cooling temperature control is not easy to be inaccurate due to the mixing of the water bodies, and the water cooling effect is better.

Drawings

FIG. 1 is a cross-sectional view of a particular embodiment for isolating an internal structure of a pipe.

FIG. 2 is a sectional view of the internal structure of the intake chamber in accordance with an exemplary embodiment.

In the figure, 1, a breather pipe; 11. a heat dissipation coating layer; 12. a temperature measuring box; 13. a temperature sensor; 2. an isolation pipe; 21. a thermal insulation layer; 3. a cooling tube; 31. a cooling water pump; 32. a water supply tank; 4. a cooling mechanism; 41. a water inlet cavity; 42. a cold water chamber; 43. a water outlet cavity; 44. a liquid level sensor; 45. a temperature detector; 46. a control valve; 47. a cooling fan; 48. and an induced draft pipe.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a by-product cooling device suitable for meat powder processing, including the breather pipe 1 that is used for acceping waste gas, the breather pipe 1 is the heliciform outward and encircles and be equipped with cooling tube 3. The breather pipe 1 overcoat is equipped with the spacer tube 2, and cooling tube 3 sets up between breather pipe 1 and spacer tube 2. The length of spacer tube 2 is less than the length of breather pipe 1, and the both ends of spacer tube 2 are the shape of returning and seal, and the input and the output of cooling tube 3 all extend outside spacer tube 2. The cooling pipe 3 is connected with a cooling water pump 31 for pumping water into the cooling pipe 3 and a water supply tank 32 for supplying water to the cooling pipe 3, and the water supply tank 32 is provided with a temperature reduction mechanism 4 for reducing the temperature of the water in the water supply tank 32 by a user. A temperature measuring box 12 is fixed in the vent pipe 1, the temperature measuring box 12 is made of a metal material with high heat conductivity and corrosion resistance, and a temperature sensor 13 is fixed in the temperature measuring box 12.

The heat of the exhaust gas is sequentially conducted to the water in the cooling pipe 3 through the snorkel 1 and the cooling pipe 3, and the water in the cooling pipe 3 absorbs the heat to lower the temperature of the exhaust gas. The water in the cooling water pump 31 drive cooling tube 3 constantly flows, and cooling mechanism 4 will follow the cooling of the intensification of cooling tube 3 department inflow, and then in the water after the cooling supplyed cooling tube 3 again, continuously to waste gas cooling to avoid the waste gas high temperature and influence the phenomenon emergence of follow-up purifying effect. The temperature sensor 13 is not in direct contact with the exhaust gas due to the isolation of the temperature measuring box 12, the heat conductivity coefficient of the temperature measuring box 12 is high, the service life of the temperature sensor 13 is long, and the temperature monitoring of the exhaust gas is not influenced. The user can determine the temperature of the exhaust gas from the temperature detected by the temperature sensor 13, and adjust the flow rate of the water in the cooling pipe 3 and the temperature of the water in the water supply tank 32 to be lowered according to the temperature of the exhaust gas. The cooling control of waste gas is accurate, both can the cooling waste gas, also can not excessively cool down to the comdenstion water in the breather pipe 1 appear. The isolation pipe 2 can avoid the user to touch the cooling pipe 3 or the vent pipe 1 by mistake, so that the possibility that the user is scalded is low, and the safety protection performance is good.

Referring to fig. 1, in order to further improve the safety protection, a heat insulation layer 21 supported by glass wool is fixed on the inner peripheral wall of the isolation tube 2, and the glass wool has a low thermal conductivity coefficient. The periphery of the isolation pipe 2 is not easy to have overhigh temperature due to the heat insulation layer 21 blocking heat, so that the possibility that a user is scalded when contacting the isolation pipe 2 is lower, and the use is safer.

Referring to fig. 1, in order to accelerate the cooling efficiency of the exhaust gas, a heat dissipation coating layer 11 made of nano carbon and other materials is coated on the periphery of the vent pipe 1, so that the heat radiation capability of the vent pipe 1 can be enhanced, and the cooling efficiency of the exhaust gas is higher.

Referring to fig. 2, the temperature lowering mechanism 4 includes an inlet chamber 41, a cold water chamber 42, and an outlet chamber 43, which are sequentially disposed in the water supply tank 32 from top to bottom, and an input end of the water supply tank 32 is disposed at a top end of the water supply tank 32 and communicates with an input end of the inlet chamber 41. The output end of the water inlet cavity 41 is arranged at the bottom end of the water inlet cavity 41 and is communicated with the input end of the cold water cavity 42, the output end of the cold water cavity 42 is arranged at the bottom end of the cold water cavity 42 and is communicated with the input end of the water outlet cavity 43, the output end of the water outlet cavity 43 is arranged at the bottom end of the water outlet cavity 43 and is communicated with the output end of the water supply tank 32, and the output end of the water supply tank 32 is connected with the cooling water pump 31. Control valves 46 are arranged at the input end of the cooling pipe 3, the output end of the cooling pipe 3, between the water inlet cavity 41 and the cold water cavity 42 and between the cold water cavity 42 and the water outlet cavity 43, liquid level sensors 44 and thermometers 45 are fixedly arranged in the water inlet cavity 41, the cold water cavity 42 and the water outlet cavity 43, and a cooling fan 47 is arranged beside the cold water cavity 42 on the water supply tank 32.

The water in the cooling pipe 3 enters the water inlet cavity 41 and is accumulated in the water inlet cavity 41, at this time, the air blown out by the cooling fan 47 reduces the temperature of the water in the cold water cavity 42, the water in the water outlet cavity 43 is the water which is already cooled, the water in the water outlet cavity 43 flows to the cooling pipe 3 under the driving of the cooling water pump 31, and the temperature of the water in each cavity cannot influence the cooling control due to non-uniform temperature and random circulation. The user accessible level sensor 44 and thermoscope 45 confirm water level and temperature in intake chamber 41, cold water chamber 42 and the play water chamber 43, and then shift the water in the cold water chamber 42 to a play water chamber 43 after the temperature regulation finishes in cold water chamber 42, and then shift the water in the intake chamber 41 into the water in the cold water chamber 42 and cool off, convenient to use and accuse temperature are accurate.

Referring to fig. 2, in order to accelerate the transfer speed of the water between the chambers, the inner bottom surfaces of the water inlet chamber 41 and the cold water chamber 42 are both in a quadrangular frustum pyramid shape, and the area of the bottom surface of the quadrangular frustum pyramid is smaller than that of the top surface of the quadrangular frustum pyramid. The inclination of the inner bottom surfaces of the water inlet cavity 41 and the cold water cavity 42 can accelerate the transfer speed through the action of gravity when the water body is transferred, and meanwhile, the probability of water body residue can be reduced, and the use is more convenient.

Referring to fig. 2, for the control accuracy of water cooling, the thermometer 45 disposed in the cold water cavity 42 is suspended at the center of the cold water cavity 42 through the bracket, the temperature of the water body is controlled based on the temperature at the center of the water body, the possibility that the water body is directly conveyed into the cooling pipe 3 without or with little change in the external temperature is reduced, and the temperature control effect is better.

Referring to fig. 2, the number of the cooling fans 47 is two and symmetrically disposed at both sides of the cold water chamber 42, and the two cooling fans 47 are alternately operated. A plurality of induced air pipes 48 are horizontally arranged at the position of the cold water cavity 42 of the water supply tank 32 in a penetrating way, and the axes of the induced air pipes 48 are parallel to the connecting line of the two cooling fans 47. The draft tube 48 horizontally penetrates the water supply tank 32, and both ends of the draft tube 48 are respectively close to the corresponding cooling fans 47 and are open. The two cooling fans 47 work alternately, so that the wind direction of the air cooling is continuously reversed, and the water in the cold water cavity 42 is not easy to be cooled unevenly due to unidirectional air blowing. The induced draft pipe 48 increases the contact area between the air for air cooling and the water body, and the cooling efficiency is improved.

The implementation principle of the embodiment is as follows: waste gas heat in the breather pipe 1 is absorbed by the water in the cooling tube 3 and wraps up and is carried away, the water of intensification gets into the water intake chamber 41 and gathers, go out the water reflux that the cooling in the water cavity 43 finishes to the cooling tube 3 in, the water in the cold water cavity 42 is cooled off through the wind that cooling fan 47 blew off, the water cooling in the cold water cavity 42 finishes and arranges into water cavity 43 back as far as possible, the water in the water intake chamber 41 shifts to in the cold water cavity 42, cooling water pump 31 drives the water and removes, the water-cooling structure that has circulation circuit is accomplished through above-mentioned operation, the effectual of cooling waste gas, and accessible temperature sensor 13 real time monitoring exhaust gas temperature, high durability and convenient use.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. Byproduct cooling device suitable for meat powder processing, its characterized in that: including breather pipe (1) that is used for acceping waste gas, breather pipe (1) is the heliciform outward and encircles and is equipped with cooling tube (3), breather pipe (1) overcoat is equipped with isolation tube (2), cooling tube (3) set up between breather pipe (1) and isolation tube (2), cooling tube (3) are connected with and are used for cooling water pump (31) to cooling tube (3) internal pumping and are used for water supply tank (32) for cooling tube (3) water supply, be provided with cooling mechanism (4) that are used for reducing water supply tank (32) temperature on water supply tank (32), breather pipe (1) internal fixation has temperature measurement box (12) that the material that adopts the coefficient of heat conductivity to be high to make, temperature measurement box (12) internal fixation has temperature sensor (13).

2. A by-product cooling arrangement suitable for meat grinding according to claim 1, characterized in that: and a heat insulation layer (21) made of glass wool is fixed on the inner peripheral wall of the isolation pipe (2).

3. A by-product cooling arrangement suitable for meat grinding according to claim 1, characterized in that: the cooling mechanism (4) comprises a water inlet cavity (41), a cold water cavity (42) and a water outlet cavity (43) which are sequentially arranged in a water supply tank (32) from high to low, the input end of the water supply tank (32) is communicated with the input end of the water inlet cavity (41), the output end of the water supply tank (32) is communicated with the output end of the water outlet cavity (43), a liquid level sensor (44) and a temperature detector (45) are fixed in the water inlet cavity (41), the cold water cavity (42) and the water outlet cavity (43), the output end of the water inlet cavity (41) is communicated with the input end of the cold water cavity (42), the output end of the cold water cavity (42) is communicated with the input end of the water outlet cavity (43), the input end of the cooling pipe (3), the output end of the cooling pipe (3), the water inlet cavity (41) and the cold water cavity (42) and the water outlet cavity (43) are provided with control valves, and a cooling fan (47) used for cooling water in the cold water cavity (42) is arranged beside the cold water cavity (42) on the water supply tank (32).

4. A by-product cooling arrangement suitable for meat grinding according to claim 3, characterized in that: the inner bottom surfaces of the water inlet cavity (41) and the cold water cavity (42) are all arranged in a quadrangular frustum pyramid shape, and the area of the bottom surface of the quadrangular frustum pyramid is smaller than that of the top surface of the quadrangular frustum pyramid.

5. A by-product cooling arrangement suitable for meat grinding according to claim 3, characterized in that: the thermometer (45) arranged in the cold water cavity (42) is suspended in the center of the cold water cavity (42) through a bracket.

6. A by-product cooling arrangement suitable for meat grinding according to claim 3, characterized in that: the number of the cooling fans (47) is two, the cooling fans are symmetrically arranged on two sides of the cold water cavity (42), and the cooling fans (47) work alternately.

7. A by-product cooling arrangement suitable for meat grinding according to claim 6, characterized in that: the water supply tank (32) is horizontally provided with a plurality of air guiding pipes (48) in the cold water cavity (42), the end parts of the air guiding pipes (48) are positioned beside the cooling fan (47), and the two ends of the air guiding pipes (48) are opened.

8. A by-product cooling arrangement suitable for meat grinding according to claim 1, characterized in that: the periphery of the air pipe (1) is coated with a heat dissipation coating layer (11).

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