CN114296497B

CN114296497B - Energy consumption self-regulating temperature control device for freezing preservation

Info

Publication number: CN114296497B
Application number: CN202111673262.0A
Authority: CN
Inventors: 陈段明
Original assignee: Anhui Meluck Refrigeration Equipment Co ltd
Current assignee: Anhui Meluck Refrigeration Equipment Co ltd
Priority date: 2021-04-10
Filing date: 2021-04-10
Publication date: 2022-09-27
Anticipated expiration: 2041-04-10
Also published as: CN113093834B; CN113093834A; CN114296497A

Abstract

The invention discloses an energy consumption self-adjusting temperature control device for freezing preservation, which comprises an adjusting shell and is characterized in that: the energy consumption adjusting device comprises an adjusting shell, an air identification shell is arranged in the adjusting shell, the air identification shell is arranged in the air identification shell, an early warning mechanism is arranged in the adjusting shell, the energy consumption adjusting mechanism comprises an identification membrane, an adjusting ball is connected to a pipeline on the lower side of the identification membrane, an adjusting chamber is connected to the outer side of the adjusting ball in a sliding mode, a control chamber is connected to a pipeline on one side of the adjusting chamber, pressure cylinders are uniformly arranged on the outer side of the control chamber, and piston rods are connected to the inner portion of the pressure cylinders in a sliding mode.

Description

Energy consumption self-regulating temperature control device for freezing preservation

Technical Field

The invention relates to the technical field of freezing preservation, in particular to an energy consumption self-adjusting temperature control device for freezing preservation.

Background

The freezing preservation generally refers to a facility which uses some equipment for refrigeration, can be manually controlled and can keep stable and low temperature. The basic components of the system are a refrigeration system and an electric control device; a box body, accessory equipment and the like with certain heat insulation performance. The existing freezing and fresh-keeping temperature control device can not automatically adjust the refrigeration power according to the type of the material to be frozen and the deterioration condition of the material to be frozen, and the existing freezing and fresh-keeping temperature control device can not judge the air environment in the device and make corresponding processing measures, so that the design of the energy consumption self-adjusting temperature control device for freezing and fresh-keeping, which can automatically adjust the refrigeration power according to the type of the material to be frozen and the deterioration condition of the material to be frozen, can judge the air environment in the device and make corresponding processing measures, is necessary.

Disclosure of Invention

The invention aims to provide an energy consumption self-adjusting temperature control device for freezing preservation, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an energy consumption self-interacting temperature regulating device for freezing fresh-keeping, is including adjusting the shell, its characterized in that: the inside of adjusting the shell is provided with energy consumption adjustment mechanism, the inside of adjusting the shell is provided with the air identification shell, the inside of air identification shell is provided with air identification mechanism, the inside of adjusting the shell is provided with early warning mechanism.

According to the technical scheme, energy consumption adjustment mechanism includes the discernment membrane, the downside pipe connection of discernment membrane has the regulation ball, the outside sliding connection of regulation ball has the control room, one side pipe connection of control room has the control room, the outside of control room evenly is provided with the pressure cylinder, the inside sliding connection of pressure cylinder has the piston rod, the one end fixed mounting of piston rod has extension portion, the upside pipe connection of pressure cylinder has the temperature valve, the inside of temperature valve is provided with the temperature ball, the other end pipe connection of temperature valve is on the control room, one side pipe connection of temperature ball has the three-way valve, the left side pipe connection of three-way valve is on the control room.

According to the technical scheme, the inside of discernment membrane is provided with the stock solution chamber, the equal pipe connection in left and right sides in stock solution chamber has adjustable two-way valve, the inside of adjustable two-way valve is provided with the valve ball, valve ball pipe connection is on the discernment membrane, and the left side the lower extreme pipe connection of adjustable two-way valve is on adjusting the ball, the right side adjustable two-way valve pipe connection is in the upper end of three-way valve.

According to the technical scheme, the air recognition mechanism comprises an air ventilation shell, air ventilation shell pipes are connected to two sides of the inside of the air recognition shell, a triangular block is connected to the inside of the air ventilation shell in a sliding mode, the initial positions of the triangular block on the two sides are different, air holes are formed in the two sides of the triangular block, a resistance ball is arranged at the bottom of the triangular block, a rotating ball is arranged in the middle of the inside of the triangular block, an air bag is connected to a pipe on one side of the air ventilation shell, a tension ball is arranged on the upper side of the air bag and connected to the rotating ball through a pipe, a sensing ball is elastically connected to the lower side of the air bag, a friction part is connected to a pipe on one side of the sensing ball, a rotating wheel is arranged on the outer side of the friction part, control balls are connected to the upper side and the lower side of the rotating wheel in a sliding mode, the friction factor of the control balls on the upper side is smaller than that of the control balls on the lower side, and a flexible film is arranged on the outer side of the control balls, the outside of flexible membrane is provided with the runner shell, the right side of runner shell is provided with high-voltage switch, the left side of runner is provided with low-voltage switch, one side pipe connection of low-voltage switch has the disinfection membrane, the outside of disinfection membrane is provided with the pressure secretion shell.

According to the technical scheme, the breathable membrane is fixedly mounted inside the air bag, the sodium hydroxide solution is arranged inside the breathable membrane, the density ball is arranged inside the sodium hydroxide solution, one side of the density ball is connected with the piston in a transmission mode, the air pressure chamber is connected to the outer side of the piston in a sliding mode, the four-way valve is connected to one side of the air pressure chamber in a pipeline mode, the rotating needle is arranged inside the four-way valve, the pneumatic rotating disc is arranged in the middle of the rotating needle, the high-pressure chamber is connected to the left side of the four-way valve in a pipeline mode, the oxygen eliminating membrane is connected to the upper side of the four-way valve in a pipeline mode, the nitrogen membrane is connected to the upper side of the four-way valve in a pipeline mode, and the right side of the four-way valve is connected to the disinfecting membrane in a pipeline mode.

According to the technical scheme, the early warning mechanism comprises an early warning shell, an inner bearing of the early warning shell is connected with a vibration shell, a deformation membrane is arranged inside the vibration shell, a poking needle is uniformly arranged outside the early warning shell, one end of the poking needle is fixed on the deformation membrane, an impact chamber is uniformly arranged outside the vibration shell, an air-tight rod is slidably connected to one end of the impact chamber, an impact rod is slidably connected to the other end of the impact chamber, a pressure spark plug is arranged inside the impact chamber, and a pressure air inlet is formed inside the impact chamber.

According to the technical scheme, the vibration shell pipe is connected to the control room, the vibration rods are uniformly arranged on the outer side of the vibration shell, and the plastic extension film is arranged at one end of each vibration rod.

According to the technical scheme, a rotary drum is arranged on the lower side of the rotary wheel, a sealing plate is elastically connected to the outer side of the rotary drum, a rotary fan is arranged inside the rotary drum, a rotary shaft is arranged on the upper side of the rotary fan, pressure switches are evenly arranged on the outer side of the rotary shaft, and a throwing rope is arranged inside the pressure switches.

According to the above technical scheme, the extension part is made of an elastic material.

According to the technical scheme, the tension ball is made of elastic materials.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

(1) the energy consumption adjusting mechanism is arranged, so that the refrigeration power can be automatically adjusted according to the type of the material to be refrigerated and the deterioration condition of the material to be refrigerated;

(2) the air recognition mechanism is arranged, so that the automatic judgment of the air quality in the refrigerating device can be realized, and different treatment measures can be taken according to different air qualities;

(3) through being provided with early warning mechanism and making the device can prevent that the material that will freeze from freezing in the inside of device, be difficult to take out, can also guarantee that the device is inside can not get into some and easily lead to rotten bugs.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram of a power consumption adjusting mechanism of the present invention;

FIG. 2 is a schematic view of the air identification mechanism of the present invention;

FIG. 3 is a schematic structural diagram of the warning mechanism of the present invention;

FIG. 4 is a schematic view of the internal structure of the drum of the present invention;

in the figure: 1. an adjustment housing; 2. an energy consumption adjusting mechanism; 21. an identification film; 22. a liquid storage cavity; 23. an adjustable two-way valve; 24. a valve ball; 25. a three-way valve; 26. adjusting the ball; 27. an extension part; 28. a pressure cylinder; 29. a control room; 210. a temperature valve; 3. an air identification shell; 31. ventilating the shell; 32. a resistance ball; 33. a tension ball; 34. an air bag; 35. a sensing ball; 36. a friction portion; 37. a rotating wheel; 38. a control ball; 39. a high voltage switch; 310. a low voltage switch; 311. a disinfecting membrane; 312. a gas permeable membrane; 313. a density ball; 314. an air pressure chamber; 315. a four-way valve; 316. rotating the needle; 317. a pneumatic turntable; 4. an early warning mechanism; 41. poking the needle; 42. deformation membrane; 43. vibrating the shell; 44. early warning shell; 45. an airtight rod; 46. an impingement chamber; 47. an impact bar; 48. a vibration rod; 49. a plastic tensile film; 410. a rotating drum; 411. a closing plate; 412. rotating the fan; 413. a rotating shaft; 414. rope throwing; 415. and (6) a pressure switch.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides an energy consumption self-interacting temperature regulating device for freezing fresh-keeping, is including adjusting shell 1, its characterized in that: an energy consumption adjusting mechanism 2 is arranged inside the adjusting shell 1, an air identification shell 3 is arranged inside the adjusting shell 1, an air identification mechanism is arranged inside the air identification shell 3, and an early warning mechanism 4 is arranged inside the adjusting shell 1; make through being provided with energy consumption adjustment mechanism and can realize according to the kind of material that will freeze and the rotten condition automatically regulated refrigeration power of material that will freeze, through being provided with air identification mechanism, make and to realize judging the inside air quality of cold storage plant automatically, and make different treatment to different air quality, make the device can prevent that the material that will freeze from freezing in the inside of device through being provided with early warning mechanism, be difficult to take out, can also guarantee that the device is inside can not get into some worms that lead to rotting easily.

The energy consumption adjusting mechanism 2 comprises an identification membrane 21, a lower pipeline of the identification membrane 21 is connected with an adjusting ball 26, the outer side of the adjusting ball 26 is connected with an adjusting chamber in a sliding manner, a pipeline on one side of the adjusting chamber is connected with a control chamber 29, the outer side of the control chamber 29 is uniformly provided with a pressure cylinder 28, the inner part of the pressure cylinder 28 is connected with a piston rod in a sliding manner, one end of the piston rod is fixedly provided with an extension part 27, an upper pipeline of the pressure cylinder 28 is connected with a temperature valve 210, a temperature ball is arranged inside the temperature valve 210, the other end of the temperature valve 210 is connected onto the control chamber 29 in a pipeline manner, one side of the temperature ball is connected with a three-way valve 25, and the left pipeline of the three-way valve 25 is connected onto the adjusting chamber; the identification film can automatically judge the type of the material to be refrigerated, the bag is divided into meat such as fish, pork and the like according to different hardness, the identification film has certain acting force on the object to be refrigerated, the identification film can be sunken inwards under the action of the acting force, the sunken degree is determined according to the hardness of the material to be refrigerated, a pressure signal output by the identification film can be transmitted into the adjusting ball, the density of the adjusting ball is changed, the adjusting ball can move leftwards or rightwards, so that the pressure in the control chamber is increased or reduced, the piston rod in the pressure cylinder is moved, the diameter of the extension part at the outer side is driven to change, when the temperature reaches a certain temperature, the temperature ball sinks due to cold, the temperature valve is opened, the pressures on the upper side and the lower side of the pressure cylinder are the pressures in the control chamber, the piston rod moves when the control chamber cannot be controlled, and the sensitivity of the temperature ball to the temperature is changed due to the adjustment of the adjusting ball, the beneficial effect of this step does: when the material is refrigerated, the type of the material is judged through the identification ball, when the deformation degree of the identification ball is larger and the output hydraulic pressure is more, the material to be refrigerated is judged to be fish, the density of the adjustment ball is increased and the adjustment ball moves rightwards, the liquid pressure in the control chamber is driven to be smaller, the cold air inlet is further reduced, the sensitivity of the temperature ball to the temperature is increased when the adjustment ball moves rightwards, namely the cold air outlet is cut off when the material is refrigerated to a higher temperature, the cold air is not continuously refrigerated, when the deformation degree of the identification ball is smaller and the output hydraulic pressure is less, the material needing to be refrigerated is judged to be meat at the moment, the material is easy to deteriorate, the density of the adjustment ball is reduced and the material moves leftwards, the internal pressure of the control chamber is further increased, the sensitivity of the temperature ball to the temperature is reduced when the adjustment ball moves leftwards, and the cold temperature is required to be refrigerated to a lower temperature, the pressure of the two sides of the piston rod can be consistent to avoid meat deterioration, the type of the material to be refrigerated can be automatically judged through the steps, the refrigerating power and the refrigerating temperature are adjusted, and therefore the material is guaranteed to be refrigerated well while energy consumption is saved.

A liquid storage cavity 22 is formed in the identification film 21, the left side and the right side of the liquid storage cavity 22 are connected with an adjustable two-way valve 23 through pipelines, a valve ball 24 is arranged in the adjustable two-way valve 23, the valve ball 24 is connected to the identification film 21 through a pipeline, the lower end of the left adjustable two-way valve 23 is connected to an adjusting ball 26 through a pipeline, and the right adjustable two-way valve 23 is connected to the upper end of a three-way valve 25 through a pipeline; the identification film can rotate when identifying the refrigeration material, and then the surface friction factor of the refrigeration material is judged, it is known that meat is in the process of deterioration, the surface can gradually secrete mucus to cause the friction factor on the surface to rise, and fish can produce a layer of mucus on the surface, so as to protect the fish from being corroded, and the mucus can be oxidized in the air, when the mucus is oxidized, the fish can easily rot, the centrifugal ball can throw out different amounts of liquid at different rotating speeds, and the pressure signal at the transmission part of the identification film can control two adjustable two-way valves to change the flowing direction, and the beneficial effects of the step are as follows: when the material is the fish, the identification film transmits a certain pressure signal to further cause the left adjustable two-way valve to open the channel from top to bottom and the right adjustable two-way valve to stop the channel from top to bottom, at the moment, as the mucus on the surface of the fish disappears, more liquid is gradually thrown out of the liquid storage cavity to cause the density of the adjusting ball to increase and move leftwards, further the internal pressure of the control chamber is larger, further the cold air inlet is increased, and the left movement of the adjusting ball can cause the sensitivity of the temperature ball to the temperature to decrease, so that when the temperature needs to be refrigerated to a cooler temperature, the phenomenon that the mucus on the surface of the fish begins to rot after being exhausted is avoided, when the material is the meat, the identification film transmits a certain pressure signal to further cause the left adjustable two-way valve to open the channel from top to bottom and the right adjustable two-way valve to stop the channel from top to bottom, at the moment, the meat gradually tends to deteriorate, the rotating speed of the identification film is lower and lower, less liquid is thrown out, less liquid is introduced into the adjusting chamber, pressure on the left side of the adjusting chamber is reduced, density of the liquid in the adjusting chamber is increased, buoyancy of the adjusting ball is increased, the adjusting ball moves leftwards, refrigerating force is increased, meat deterioration and decay are avoided, the purposes that different deterioration signals transmitted by different materials are automatically judged, the refrigerating force is adjusted automatically according to different deterioration signals, and the energy consumption required by refrigeration is reduced while the time of maintaining normal quality of the materials is prolonged are achieved.

The air recognition mechanism comprises an air ventilation shell 31, the air ventilation shell 31 is connected to two sides of the inside of the air recognition shell 3 through pipelines, a triangular block is connected to the inside of the air ventilation shell 31 in a sliding mode, the initial positions of the triangular blocks on the two sides are different, air holes are formed in two sides of the triangular block, a resistance ball 32 is arranged at the bottom of the triangular block, a rotating ball is arranged in the middle of the inside of the triangular block, an air bag 34 is connected to one side of the air ventilation shell 31 through a pipeline, a tension ball 33 is arranged on the upper side of the air bag 34, the tension ball 33 is connected to the rotating ball through a pipeline, a sensing ball 35 is elastically connected to the lower side of the air bag 34, a friction portion 36 is connected to one side of the sensing ball 35 through a pipeline, a rotating wheel 37 is arranged on the outer side of the friction portion 36, control balls 38 are connected to the upper side and the lower side of the rotating wheel 37 in a sliding mode, the friction factor of the upper control ball 38 is smaller than that of the lower control ball 38, a flexible membrane is arranged on the outer side of the flexible membrane, and a rotating wheel shell is arranged on the outer side of the flexible membrane, the right side of the rotating wheel shell is provided with a high-voltage switch 39, the left side of the rotating wheel is provided with a low-voltage switch 310, a pipeline on one side of the low-voltage switch 310 is connected with a disinfection membrane 311, and the outer side of the disinfection membrane 311 is provided with a pressure secretion shell; the air in the outside freezer is led out by the leading-in opposite side shell of ventilating of one side, and can this operation of periodic execution, and when aerifing, the tension bag expands gradually, internal pressure when the tension bag is less than a definite value, the resistance ball is overcome to the control triangle-shaped piece and certain angle is rotated, shell of ventilating of both sides ends, the inside a definite amount of freezer inside air that is full of gasbag this moment, the whole produced buoyancy of gasbag changes and leads to for internal air contains impurity promptly, the produced buoyancy of gasbag changes and can transmits to in the sense ball, sense ball transmits pressure signal to the friction portion, the different control external pressure of rotational speed of friction portion produces different differences, the beneficial effect of this step does: filling a certain amount of air in the refrigerating chamber into an air bag, judging the type and content of impurities in the air bag through the change of buoyancy of the air bag, transmitting a sensing ball with the change of the buoyancy into a friction part, changing the friction force of the friction part on an outer rotating wheel, further controlling the throwing of different numbers of control balls, judging that the refrigerated substances in the air bag are rotten when no control ball is thrown out, generating gases such as ammonia gas, methane and the like, and reducing the buoyancy borne by the air bag, opening a right low-pressure switch at the moment, controlling a disinfection film to expand, discharging an outer disinfectant from a pressure secretion hole, judging that the air in the air bag is normal at the moment when one control ball is thrown out, not operating the device, judging that the air in the refrigerating chamber contains gasified blood water when two control balls are thrown out, controlling the right high-pressure switch to open to extrude a freshener at the moment, avoid the lateral blood fishy smell too heavy, influence people's desire for purchase or appetite, and the buoyancy that the gasbag received is bigger, and the speed of crowded freshener is just faster, and the beneficial effect of this step is: the air quality in the refrigerating chamber is judged through the throwing-out condition of the control ball, and when the internal air contains methane or bloody smell, the disinfectant or the freshener is sprayed out in time, and the speed of spraying the medicine is related to the buoyancy change of the air bag.

A breathable film 312 is fixedly installed inside the air bag 34, a sodium hydroxide solution is arranged inside the breathable film 312, a density ball 313 is arranged inside the sodium hydroxide solution, a piston is connected to one side of the density ball 313 in a transmission manner, an air pressure chamber 314 is connected to the outer side of the piston in a sliding manner, a four-way valve 315 is connected to one side of the air pressure chamber 314 through a pipeline, a rotating needle 316 is arranged inside the four-way valve 315, a pneumatic rotating disc 317 is arranged in the middle of the rotating needle 316, a high-pressure chamber is connected to the left side pipeline of the four-way valve 315, an oxygen-eliminating film is connected to the upper side pipeline of the four-way valve 315, a nitrogen film is connected to the upper side pipeline of the four-way valve 315, and the right side pipeline of the four-way valve 315 is connected to the disinfecting film 311; inside sodium hydroxide solution of ventilated membrane can react and then density of inside sodium hydroxide solution change when and then with external carbon dioxide, and then the buoyancy that leads to the floating ball to receive produces the change, the buoyancy that the floating ball received changes and can transmit the atmospheric pressure room in, drive the piston and remove, and then drive the inside atmospheric pressure of atmospheric pressure room and produce the change, the atmospheric pressure of atmospheric pressure room inside this moment can transmit pneumatic turntable on, and corresponding gas pressure can drive pneumatic turntable and rotate corresponding angle, drive the minute hand promptly and rotate different angles, the beneficial effect of this step is: through the density change of sodium hydroxide solution in the gasbag, sodium hydroxide solution density in the gasbag increases to a definite value and no longer lasts the increase, judge to save in the enclosure space when cold-stored this moment, the rotary needle rotates certain angle, the pressure of letting in the hyperbaric chamber in the control oxygen elimination membrane, drive blowout deoxidization liquid, sodium hydroxide solution density in the gasbag increases to a definite value and still lasts the increase again, judge cold-stored this moment and be in and think open mode and lasted one end time, the turned angle who changes the needle at this moment increases, control hyperbaric chamber and nitrogen membrane intercommunication, transmit the nitrogen membrane with inside high pressure. Controlling the nitrogen film to expand to discharge nitrogen, so that the interior of the refrigerating chamber is filled with nitrogen, the material is prevented from being damaged when a user opens the refrigerator door, when the nitrogen is filled, the density and the solubility of the sodium hydroxide solution are still changed, the substances refrigerated inside at the moment are judged to be rotten, carbon dioxide is generated in the process of decay, at the moment, the rotating needle rotates a certain angle to stop the oxygen eliminating membrane and the nitrogen membrane channel, and is communicated with the disinfection membrane to transmit the internal high pressure into the disinfection membrane, control the internal high pressure of the disinfection membrane to quickly press out the disinfectant in the pressure secretion hole, the method can realize that the concentration of the oxygen in the interior is indirectly judged through the concentration of the carbon dioxide, and a certain oxygen scavenger is extruded according to the concentration of the oxygen, meanwhile, whether the refrigerating chamber is sealed or not, namely whether the refrigerated substances inside the refrigerating chamber are rotten or not, and corresponding treatment measures such as introducing nitrogen or extruding a disinfectant can be taken.

The early warning mechanism 4 comprises an early warning shell 44, an inner bearing of the early warning shell 44 is connected with a vibration shell 43, a deformation membrane 42 is arranged inside the vibration shell 43, toggle pins 41 are uniformly arranged on the outer side of the early warning shell 44, one ends of the toggle pins 41 are fixed on the deformation membrane 42, an impact chamber 46 is uniformly arranged on the outer side of the vibration shell 43, one end of the impact chamber 46 is slidably connected with an airtight rod 45, the other end of the impact chamber 46 is slidably connected with an impact rod 47, a pressure spark plug is arranged inside the impact chamber 46, and a pressure air inlet is arranged inside the impact chamber 46; the poking needle can judge whether the frozen materials refrigerated inside are bonded together, when the frozen materials tend to be bonded together with external substances, the poking needle drives the internal deformation film to deform so as to drive the interior of the vibration shell to generate uneven mass distribution, at the moment, the vibration shell can generate eccentric vibration in the rotating process so as to drive the poking needle to generate eccentric vibration, in the poking process, the frozen materials are driven to vibrate so as to be separated from the external materials, when the frozen materials are bonded together with the external materials, the force borne by the poking needle is increased, and further the deformation bag is driven to generate larger deformation, so that the airtight rod seals the impact chamber, meanwhile, the internal air pressure of the impact chamber is increased, the pressure air inlet is driven to open and discharge combustible gas, and meanwhile, the pressure spark plug is squeezed to generate sparks, and deflagration is generated inside during impact, and then produce violent impact force, drive the impact rod and hit the material that freezes together, make it separate, and the more the impact force of the material that freezes in uniform time is bigger, the beneficial effect of this step is: judging whether the frozen material is adhered to the outside material and the inside of the refrigerating chamber by shifting the needle, when the deformation film only generates a certain amount of deformation, the frozen material is judged to have a certain bonding trend at the moment, the poking needle is controlled to generate vibration in the poking process, further driving the frozen material to separate from the external material, judging that the external material is bonded together when the deformation film generates larger deformation, controlling the explosion in the impact chamber, and then strong impact force is generated to separate the materials which are bonded together, the more the materials which are bonded together at the same time are cut, the larger the impact force is, the method can automatically judge the bonding condition of the frozen materials, and separate the materials by adopting a vibration or strong impact mode under the bonding conditions with different vibrations, so as to avoid the bonding of the frozen materials.

The vibration shell 43 is connected to the control room 29 through a pipeline, vibration rods 48 are uniformly arranged on the outer side of the vibration shell 43, and one end of each vibration rod 48 is provided with a plastic extension film 49; in the process that the frozen material is gradually frozen and hardened, the deviation of the toggle needle is gradually increased, namely when the frozen material is to be frozen, the deformation membrane can generate tiny deformation, the condition of uneven mass distribution is generated in the vibration chamber, further eccentric vibration is generated, the vibration rod is driven to vibrate, the external plastic extension membrane is driven to vibrate, the frozen material is hit, the frozen material is pressed to a certain degree, the Q elasticity of the meat can still be ensured in the freezing process of the frozen material, the vibration shell pipe is connected to the control chamber, when the pressure in the vibration shell is increased, the pressure in the control chamber is controlled to be reduced, further the opening size of the cold air inlet is reduced, the discharge speed of the cold air is reduced, the phenomenon that the frozen material is over-frozen due to the overlarge discharge speed of the cold air after the frozen material is frozen and is bonded with the external material or the inner wall of the refrigerating chamber is avoided, and the interior of the vibration chamber is connected with the plastic extension membrane, when the pressure in the vibration chamber is gradually increased, the outside of the plastic extension film can be gradually sharp, the frozen material can be pierced along with the vibration of the vibration rod, the ice on the surface of the frozen material is pierced, and the beneficial effects of the step are as follows: the freezing condition of the material is judged by the poking needle, when the freezing stratification of the material is increased, the internal pressure of the control chamber is controlled to be reduced, the cold air outlet is controlled to be reduced, the discharge rate of cold air is slowed down, the frozen material is prevented from being over-frozen, and when the frozen material is completely frozen, the plastic extending film is used for pressing the frozen material, so that the meat quality of the frozen material is prevented from being too stiff, after the frozen material is completely frozen, the outer side of the plastic extending film is controlled to generate sharp pricks, the surface of the frozen material is pricked in real time, ice on the surface of the frozen material is removed, the freezing material is pressed in the freezing process of the material block, so that the meat quality is prevented from being too stiff in the freezing process, the cold air outlet can be controlled to be reduced, the output speed of cold air is reduced, the frozen material is prevented from being over-frozen, and the surface of the frozen material can be pricked after the frozen material is completely frozen, ice is removed from the surface of the frozen material.

A rotary drum 410 is arranged on the lower side of the rotating wheel 37, a closing plate 411 is elastically connected to the outer side of the rotary drum 410, a rotary fan 412 is arranged inside the rotary drum 410, a rotary shaft 413 is arranged on the upper side of the rotary fan 412, pressure switches 415 are uniformly arranged on the outer side of the rotary shaft 413, and throwing ropes 414 are arranged inside the pressure switches 415; after the runner throws away two control balls, can further judge the reason that leads to the inside buoyancy of gasbag to reduce sharply through the rotary drum, elastic connection can overcome elasticity and throw away when the closed plate of rotary drum reaches a definite value at the pivoted rotational speed, leads to the walk-in inside not being in the enclosure space, and when the rotational speed risees once more, pressure switch can open, emits the rope of throwing away of inside, and the recreation effect of this step is: the buoyancy of the air bag is reduced to judge whether insects exist in the refrigerating chamber, when the sealing plate is thrown out, judging that the interior of the refrigerating chamber is fed with small winged insects such as mosquitoes, etc., rotating the fan to generate rotary wind power to blow out the small winged insects, when the pressure switch is turned on, the bigger flying insects such as saprophytic flies are judged to enter, the bigger flying insects cannot be blown out by the wind power generated by rotating the fan at the moment, the throwing rope is thrown out at the moment, is used for striking larger flying insects which are sent back to the direction without throwing ropes, namely the outer side of the refrigerating chamber to fly out after being struck, the method can realize that the types of the winged insects entering the refrigerating chamber are judged through the buoyancy change of the air bag, the small winged insects are blown out by using rotary wind power, and the large winged insects are whipped out of the refrigerating chamber by using rope throwing, so that the winged insects are prevented from polluting refrigerating materials.

The extension part 27 is made of elastic material; the extension part can be freely extended to control the discharge rate of the cold air.

The tension ball 33 is made of elastic material; the tension ball can judge the expansion degree of the air bag, expands when the air bag is expanded, and can automatically recover when the air bag recovers.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an energy consumption self-interacting temperature regulating device for freezing fresh-keeping, is including adjusting shell (1), its characterized in that: an energy consumption adjusting mechanism (2) is arranged inside the adjusting shell (1), an air recognition shell (3) is arranged inside the adjusting shell (1), an air recognition mechanism is arranged inside the air recognition shell (3), and an early warning mechanism (4) is arranged inside the adjusting shell (1);

the energy consumption adjusting mechanism (2) comprises an identification film (21), a lower side pipeline of the identification film (21) is connected with an adjusting ball (26), the outer side of the adjusting ball (26) is connected with an adjusting chamber in a sliding mode, one side pipeline of the adjusting chamber is connected with a control chamber (29), the outer side of the control chamber (29) is uniformly provided with a pressure cylinder (28), the inside of the pressure cylinder (28) is connected with a piston rod in a sliding mode, one end of the piston rod is fixedly provided with an extension part (27), an upper side pipeline of the pressure cylinder (28) is connected with a temperature valve (210), a temperature ball is arranged inside the temperature valve (210), the other end pipeline of the temperature valve (210) is connected onto the control chamber (29), one side pipeline of the temperature ball is connected with a three-way valve (25), and the left side pipeline of the three-way valve (25) is connected onto the adjusting chamber;

a liquid storage cavity (22) is formed in the identification film (21), the left side and the right side of the liquid storage cavity (22) are connected with an adjustable two-way valve (23) through pipelines, a valve ball (24) is arranged in the adjustable two-way valve (23), the valve ball (24) is connected to the identification film (21) through a pipeline, the lower end of the adjustable two-way valve (23) on the left side is connected to an adjusting ball (26) through a pipeline, and the adjustable two-way valve (23) on the right side is connected to the upper end of a three-way valve (25) through a pipeline;

the air recognition mechanism comprises an air ventilation shell (31), the air ventilation shell (31) is connected with two sides of the air recognition shell (3) through pipelines, the inner sliding connection of the air ventilation shell (31) is provided with three corner blocks, two sides of the three corner blocks are different in initial positions, air holes are formed in two sides of the three corner blocks, a resistance ball (32) is arranged at the bottom of each three corner block, a rotating ball is arranged in the middle of the inner portion of each three corner block, one side of the air ventilation shell (31) is connected with an air bag (34) through a pipeline, a tension ball (33) is arranged on the upper side of the air bag (34), the lower side of the air bag (34) is elastically connected with a sensing ball (35), one side of the sensing ball (35) is connected with a friction portion (36) through a pipeline, a rotating wheel (37) is arranged on the outer side of the friction portion (36), and a control ball (38) is connected with the upper side and the lower side of the rotating wheel (37) in a sliding manner, the friction factor of the upper control ball (38) is smaller than that of the lower control ball (38), a flexible membrane is arranged on the outer side of the control ball (38), a runner shell is arranged on the outer side of the flexible membrane, a high-voltage switch (39) is arranged on the right side of the runner shell, a low-voltage switch (310) is arranged on the left side of the runner shell, a disinfection membrane (311) is connected to a pipeline on one side of the low-voltage switch (310), and a pressure secretion shell is arranged on the outer side of the disinfection membrane (311);

a breathable membrane (312) is fixedly installed in the air bag (34), a sodium hydroxide solution is arranged in the breathable membrane (312), a density ball (313) is arranged in the sodium hydroxide solution, a piston is connected to one side of the density ball (313) in a transmission manner, an air pressure chamber (314) is connected to the outer side of the piston in a sliding manner, a four-way valve (315) is connected to one side of the air pressure chamber (314) through a pipeline, a rotating needle (316) is arranged in the four-way valve (315), a pneumatic rotating disc (317) is arranged in the middle of the rotating needle (316), a high-pressure chamber is connected to the left side pipeline of the four-way valve (315), an oxygen elimination membrane is connected to the upper side pipeline of the four-way valve (315), a nitrogen membrane is connected to the upper side pipeline of the four-way valve (315), and the right side pipeline of the four-way valve (315) is connected to the disinfection membrane (311);

a rotating drum (410) is arranged on the lower side of the rotating wheel (37), a closing plate (411) is elastically connected to the outer side of the rotating drum (410), a rotating fan (412) is arranged inside the rotating drum (410), a rotating shaft (413) is arranged on the upper side of the rotating fan (412), pressure switches (415) are uniformly arranged on the outer side of the rotating shaft (413), and a throwing rope (414) is arranged inside the pressure switches (415).

2. The self-regulating temperature control device for energy consumption of fresh-keeping refrigerator according to claim 1, wherein: the extension part (27) is made of elastic material.

3. The self-regulating temperature control device for energy consumption of fresh-keeping refrigerator according to claim 1, wherein: the tension ball (33) is made of elastic material.