CN116892808B - Movable refrigeration house for freezing and quick-freezing - Google Patents

Abstract

The application relates to the refrigeration industry, in particular to a movable refrigeration house for freezing and quick-freezing. The application provides a frozen quick-frozen movable refrigeration house which comprises a bracket machine room integrated frame, an insulation box body, a refrigerating unit, a cold air pipeline, a wind power control mechanism, a wind direction rotating mechanism and the like; the heat insulation box body and the refrigerating unit are fixedly connected above the integrated frame of the bottom support machine room through bolts, two groups of cold air pipelines are connected between the heat insulation box body and the refrigerating unit in a penetrating way, and a wind power control mechanism and a wind direction rotating mechanism are arranged in the cold air pipelines. The integrated frame of the bottom support machine room can form the heat insulation box body and the refrigerator into a whole, and the whole work space is reserved, so that the stability and convenience of outdoor operation of the refrigeration equipment are fully guaranteed, the wind force can be circularly changed by arranging the wind force control system, the wind direction rotating mechanism can convey cold wind to all corners in the heat insulation box body, and the refrigeration speed in the heat insulation box body is accelerated.

Description

Movable refrigeration house for freezing and quick-freezing

Technical Field

The application relates to the refrigeration industry, in particular to a movable refrigeration house for freezing and quick-freezing.

Background

At present, the freezing and refrigerating industry mainly comprises a refrigeration house, a refrigeration transport vehicle depending on a chassis and a conventional refrigeration house;

although the freezer can achieve the quick-freezing effect, the freezer can not move in a fixed place, can only be used for storing a large amount of frozen foods and is used as a preservation base, the construction cost is high, the freezer is not easy to maintain and is easily influenced by external environment; the refrigerated transport vehicle can only rely on the chassis, uses the storage battery of the chassis, carries a proper refrigerator, thereby achieving the refrigeration effect, and can achieve the refrigeration temperature of about-30 ℃ and is generally used for distribution and transportation among cities; the refrigerator has small volume and low refrigerating speed, and is generally used for household use or placed in a market;

at present, the preservation temperature of many high-end food materials is relatively low, for example, tuna, and the food materials need to be preserved in an environment of 50 ℃ below zero, or the food materials are easy to rot and deteriorate;

the fan that current refrigerating system is connected can only blow towards one direction usually, and the goods in corner around are difficult to by the direct blowing of cold wind, consequently compare the goods that is blown by cold wind directly and accomplish the freezing longer time, and once the goods in front of fan highly has blocked the goods at rear, the goods at rear will be accomplished the time of freezing longer.

Therefore, the freezing quick-freezing movable refrigeration house which has low construction cost and easy maintenance, can enable the whole inside of the refrigeration house to reach ultra-low temperature quickly and can use commercial power for a long time is particularly needed.

Disclosure of Invention

In order to overcome the defects that the existing refrigeration storage equipment is high in construction cost, difficult to maintain, incapable of using commercial power for a long time and incapable of reaching ultralow temperature rapidly, the application has the following technical problems: the freezing quick-freezing movable refrigeration house is low in construction cost, easy to maintain, and capable of achieving ultralow temperature and using commercial power for a long time.

The utility model provides a freezing quick-freeze removes freezer, is including collet computer lab integral type frame, insulation box, refrigerating unit, cold air duct, wind-force control mechanism and wind direction rotary mechanism, bolt fixed connection insulation box and refrigerating unit are passed through to collet computer lab integral type frame top, link up between insulation box and the refrigerating unit and be connected with two sets of cold air duct, cold air duct inner space sets up wind-force control mechanism and wind direction rotary mechanism, wind-force control mechanism is including first power unit, bottom rail, extensible member, lower wind gap baffle, top rail, elastic component and wind gap baffle, power unit sets up one side at cold air duct, the power unit downside is connected with the bottom rail, the multiunit extensible member of lower rail lower extreme fixed connection, extensible member lower extreme and insulation box fixed connection, two sets of lower wind gap baffles of lower rail upside fixed connection, top rail upper end fixed connection multiunit elastic component and insulation box fixed connection, lower wind gap and air gap baffle all are seted up to the recess and run through to the lower rail.

Optionally, first power unit is including fan, motor, semicircle gear, first rack, first gear and second rack, the fan sets up in cold wind pipeline and is close to one side of refrigerating unit, the motor sets up side and the insulation box fixed connection at cold wind pipeline, fixed connection semicircle gear on the output shaft of motor, semicircle gear side meshing is connected first rack, first rack still is provided with the tooth towards the side except with semicircle gear meshing's tooth top, first rack left side fixed connection bottom rail, first gear is connected in the tooth meshing of first rack top side, first gear rotates with the insulation box to be connected, second rack is connected in first gear opposite side meshing, second rack top fixed connection top rail.

Optionally, wind direction rotary mechanism is including second power mechanism, first stock, horizontal aerofoil, third stock and vertical aerofoil, first stock passes two sets of cold air duct and rotates with cold air duct and be connected, one side fixed connection horizontal aerofoil of fan is kept away from to first stock, the third stock rotates to be connected inside cold air duct, one side fixed connection vertical aerofoil of fan is kept away from to the third stock.

Optionally, the second power unit is including remote pole, first spacing frame, second spacing frame, third rack, second gear, third spacing frame, fourth spacing frame, second stock, fourth rack and third gear, the centre of a circle top of one side that the semicircle gear kept away from the motor is fixed to the remote pole, first spacing frame and third spacing frame and insulation can body fixed connection, sliding connection second spacing frame about in the first spacing frame, remote pole sliding connection passes the second spacing frame, second spacing frame top fixed connection third rack, third rack one side sliding connection has the backup pad that has offered the spout with insulation can body is fixed, third rack opposite side meshing connection second gear, second gear side fixed connection first stock, the fourth spacing frame of side sliding connection is controlled in the third spacing frame, the one end fixed connection second stock of motor is kept away from to the fourth spacing frame, on the fourth rack fixed connection fourth rack, fourth rack is connected to the fourth side, fourth rack fixed connection fourth rack.

Optionally, still be provided with fork truck groove and hoist and mount corner fitting, the fork truck groove is seted up in collet computer lab integral type frame bottom, hoist and mount corner fitting sets up at the top of insulation can body and refrigerating unit, hoist and mount corner fitting is fixed through pre-buried bolt.

Optionally, an electric heating system is further arranged in the door plate of the insulation box body to heat the periphery of the door plate.

Optionally, the double sealing structure of the door plate is further arranged, and the double sealing structure comprises an inner sealing strip and an outer sealing strip, wherein the inner sealing strip is fixed in a groove of the insulation box body, which is contacted with the door plate, and the outer sealing strip is fixed at the periphery of the door plate, which corresponds to the inner sealing strip.

Optionally, an ultra-long wave system is further arranged on the wall at the inner side surface and the top of the heat preservation box body, and the ultra-long wave system can emit ultra-long waves and conduct the ultra-long waves to the food core.

Optionally, a sliding plate and a pulley are further arranged in the refrigerating unit, a groove is formed in the bottom of the refrigerating unit, the sliding plate is connected in the groove in a sliding mode, a plurality of groups of pulleys are fixedly connected below the sliding plate, and the pulleys are connected with the bottom of the refrigerating unit in a sliding mode.

Optionally, the heat insulation box body adopts a brand new generation wet board making process, a high-quality heat insulation material is selected, the inner surface and the outer surface of the box body are all glass fiber reinforced plastic skins, ventilation grids are arranged on the periphery of the refrigerating unit, and the refrigerating unit can directly use commercial power for supplying energy.

The application has the following advantages: through setting up the wind-force control system, can circulate and change the magnitude that the wind-force blows out, the wind-force becomes large just can blow cold wind to the distal end, the wind-force becomes small just can blow the cold wind to nearer, can make the whole internal body of insulation can reach the settlement temperature at the same time like this;

the wind direction rotating system can rotate the blown wind direction, so that cold wind can be blown to all corners in the heat preservation box body, and goods at all corners can be blown to the corners;

the heat preservation box adopts a brand new generation wet process to plate, selects high-quality heat preservation materials, further improves the heat preservation performance of the box plate through reasonable structural design, and meets the extremely-fast deep refrigeration requirement. Through practical tests, the refrigerating system is started under the condition of the ambient temperature of 35 ℃, the temperature in the compartment is reduced to minus 60 ℃ for only 1 hour and 47 minutes, and no condensate water appears on the outer surface of the compartment;

according to the application, the refrigerator car sealing structure is combined with the refrigerator sealing structure, the heat exchange of the rear door is reduced by utilizing the double sealing structure, the sealing performance and the heat preservation performance of the compartment body are further enhanced, and meanwhile, the electric heating system is designed at the periphery of the door plate, so that the smoothness of opening the rear door under the condition of deep cooling is ensured;

the electric heating system can emit ultra-long electric waves to accelerate heat exchange between the core molecules of the food material and external cold air molecules, so that quick freezing of the food material inside and outside is realized, and the freshness of the food material is maintained;

the heat-insulating box body and the refrigerating unit are designed into an organic whole, and independent working spaces of the heat-insulating box body and the refrigerating unit are reserved, so that the stability and convenience of outdoor operation of the refrigerating equipment are fully ensured;

the bottom of the application is provided with the special forklift slot, and the top is provided with the high-strength lifting corner fitting, so that the application is suitable for various outdoor dispatching modes and meets different use environments of customers.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present application.

Fig. 2 is a side view of the incubator of the present application.

FIG. 3 is a schematic view of the wind power control mechanism according to the present application.

FIG. 4 is a schematic view of the internal structure of the wind power control mechanism of the present application.

Fig. 5 is an enlarged view of the structure of fig. 4 a according to the present application.

Fig. 6 is an enlarged view of the structure of the wind direction rotating mechanism of the present application.

Fig. 7 is a rear view of the wind direction rotation mechanism of the present application.

Fig. 8 is a front view of a door panel of the incubator of the present application.

Fig. 9 is a schematic view of the internal structure of the insulation box of the present application.

Fig. 10 is a schematic view of the internal structure of the refrigerating unit of the present application.

The reference symbols in the drawings: 1: support computer lab integral type frame, 101: cold air duct, 102: fan, 103: motor, 104: semicircle gears, 105: first rack, 106: bottom rail, 107: telescoping member, 108: lower tuyere shield, 109: first gear, 110: second rack, 111: upper rail, 112: elastic member, 113: upper tuyere baffle, 201: a tele-lever, 202: first limit frame, 203: second limit frame, 204: third rack, 205: second gear, 206: first long bar, 207: transverse aerofoil, 208: third limit frame, 209: fourth limit frame, 210: second long bar, 211: fourth rack, 212: third gear, 213: third pole, 214: longitudinal aerofoil, 301: fork truck groove, 302: hoisting corner fitting, 4: electric heating system, 501: inner sealing strip, 502: outer sealing strip, 6: ultra-long wave system, 701: slide plate, 702: pulley, 801: insulation box, 802: a refrigerating unit.

Detailed Description

Embodiments of the present application will be described below with reference to the drawings.

Example 1

The utility model provides a freezing quick-freeze removes freezer, as shown in fig. 1-7, including collet computer lab integral type frame 1, heat preservation box 801, refrigerating unit 802, cold air duct 101, wind control mechanism and wind direction rotary mechanism, collet computer lab integral type frame 1 top is through bolt fixed connection heat preservation box 801 and refrigerating unit 802, link up between heat preservation box 801 and the refrigerating unit 802 has two sets of cold air duct 101, cold air duct 101 inner space sets up wind control mechanism and wind direction rotary mechanism, wind control mechanism is including first power unit, the bottom rail 106, the extensible member 107, lower tuyere baffle 108, the top rail 111, elastic component 112 and upper tuyere baffle 113, power unit sets up in one side of cold air duct 101, the power unit downside is connected with bottom rail 106, the multiunit extensible member 107 is fixedly connected to the lower rail 106, extensible member 107 lower extreme and heat preservation box 801 fixed connection, two sets of lower tuyere baffle 108 are fixedly connected to the upside of bottom rail 106, the power unit upside is connected with top rail 111, two sets of upper tuyere baffle 113 are fixedly connected to the lower rail 111, multiunit elastic component is fixedly connected to the upper rail 111, multiunit elastic component 108 and the upper and lower tuyere baffle 113 are connected to the upper groove, the multiunit is connected to the upper and lower tuyere baffle 113 is connected to the semicircular groove, the upper and lower tuyere baffle is connected to the semicircular hole is formed.

The first power mechanism comprises a fan 102, a motor 103, a semicircular gear 104, a first rack 105, a first gear 109 and a second rack 110, wherein the fan 102 is arranged on one side, close to a refrigerating unit 802, of a cold air pipeline 101, the motor 103 is arranged on the side face of the cold air pipeline 101 and fixedly connected with a heat insulation box 801, the semicircular gear 104 is fixedly connected to an output shaft of the motor 103, the side face of the semicircular gear 104 is meshed with the first rack 105, teeth facing the side face are further arranged above the teeth meshed with the semicircular gear 104, the left side of the first rack 105 is fixedly connected with a lower cross rod 106, the teeth on the side face of the upper side of the first rack 105 are meshed with the first gear 109, the first gear 109 is rotatably connected with the heat insulation box 801, the other side of the first gear 109 is meshed with the second rack 110, and the upper cross rod 111 is fixedly connected to the upper side of the second rack 110.

The wind direction rotating mechanism comprises a second power mechanism, a first long rod 206, a transverse air plate 207, a third long rod 213 and a longitudinal air plate 214, wherein the first long rod 206 penetrates through two groups of cold air pipelines 101 and is rotationally connected with the cold air pipelines 101, one side of the first long rod 206, which is far away from the fan 102, is fixedly connected with the transverse air plate 207, the third long rod 213 is rotationally connected inside the cold air pipelines 101, one side of the third long rod 213, which is far away from the fan 102, is fixedly connected with the longitudinal air plate 214, and two groups of notches are formed in the position, which is in contact with the transverse air plate 207, of the longitudinal air plate 214.

The second power mechanism comprises a remote rod 201, a first limiting frame 202, a second limiting frame 203, a third rack 204, a second gear 205, a third limiting frame 208, a fourth limiting frame 209, a second long rod 210, a fourth rack 211 and a third gear 212, wherein the remote rod 201 is fixed above the center of one side of the semicircular gear 104 away from the motor 103, the first limiting frame 202 and the third limiting frame are fixedly connected with a heat insulation box 801, the second limiting frame 203 is vertically and slidingly connected in the first limiting frame 202, the remote rod 201 is slidingly connected and penetrates through the second limiting frame 203, the third rack 204 is fixedly connected above the second limiting frame 203, one side of the third rack 204 is slidingly connected with a supporting plate which is fixedly connected with the heat insulation box 801 and provided with a sliding groove, the other side of the third rack 204 is meshed with the second gear 205, the side of the second gear 205 is fixedly connected with the first long rod 206, the left side and right sides of the third limiting frame 208 are slidingly connected with the fourth limiting frame 209, one end of the fourth limiting frame 209 away from the motor 103 is fixedly connected with the second long rod 210, the fourth rack 211 is fixedly connected with the fourth rack 212, and the fourth side of the fourth rack 211 is fixedly connected with the fourth long rod 212.

The worker starts the motor 103 to drive the semicircular gear 104 to rotate clockwise, the semicircular gear 104 drives the first rack 105 on the side to move upwards, the first rack 105 drives the lower cross rod 106 on the side to move upwards, the lower cross rod 106 drives the lower air port baffle 108 to move upwards, when the first rack 105 moves upwards, the first gear 109 is driven to rotate simultaneously, the first gear 109 drives the second rack 110 on the other side to move downwards, at the moment, the second rack 110 drives the upper cross rod 111 and the upper semicircular baffle to move downwards, the elastic piece 112 above the upper cross rod 111 stretches in the process of moving downwards, the inner diameter of the cold air pipeline 101 is gradually reduced in the process of moving the upper air port baffle 113 and the lower air port baffle 108 towards each other, so that wind blown by the fan 102 is concentrated to a place farther away, when teeth on the semicircular gear 104 rotate to be not meshed with the first rack 105, the lower cross rod 106 and the lower air port baffle 108 move downwards simultaneously, the first rack 105 continues to drive the first gear 109 to rotate when the first rack 109 drives the second gear 205 on the side to move downwards, the elastic piece 112 moves upwards, the upper cross rod 205 drives the second gear 205 on the side to move upwards, the upper cross rod 205 moves towards the upper cross rod 108 towards the place of the upper cross rod, and the upper cross rod 108 is enabled to move intermittently, and the cold air port is enabled to move towards the upper cross rod 108, and the upper cross rod is enabled to move towards the upper cross rod and the lower cross rod is enabled to move towards the lower cross rod and more intermittently.

When the motor 103 drives the semicircular gear 104 to rotate, the remote rod 201 on the semicircular gear 104 can do circular motion around the circle center of the semicircular gear 104, the remote rod 201 is in sliding connection with the second limiting frame 203 and the fourth limiting frame 209, the second limiting frame 203 can only do vertical motion in the first limiting frame 202, the fourth limiting frame 209 can only do horizontal motion in the third limiting frame 208, when the remote rod 201 does circular motion, the second limiting frame 203 can be driven to do reciprocating vertical motion and simultaneously drive the fourth limiting frame 209 to do reciprocating horizontal motion, when the second limiting frame 203 does reciprocating vertical motion, the third rack 204 drives the second gear 205 on the side to do reciprocating vertical motion, the second gear 205 drives the first long rod 206 on the side to do reciprocating semicircular motion, the first long rod 206 drives the transverse 207 to do up-and-down reciprocating flaring motion, the blown cold air can swing up and down, when the remote rod 201 does circular motion, the second limiting frame 203 can drive the second rack 210 to do reciprocating vertical motion and simultaneously drive the second long rod 210 to do the transverse motion, and the fourth rack 212 drives the fourth long rod 212 to do the transverse motion, and the fourth rack 211 can drive the fourth long rod 212 to do the transverse motion, and the long rod 212 can do the transverse motion.

Example 2

The application further provides a forklift slot 301 and a lifting corner fitting 302, wherein the forklift slot 301 is arranged at the bottom of the integrated frame 1 of the bottom bracket machine room, the lifting corner fitting 302 is arranged at the top of the heat insulation box 801 and the refrigerating unit 802, and the lifting corner fitting 302 is fixed through pre-buried bolts, so that the application can adapt to various dispatching modes and meet the use environments of different customers.

The application is also provided with an electric heating system 4, wherein the electric heating system 4 is arranged in the door plate of the heat insulation box body 801, so as to provide heating for the periphery of the door plate and ensure the smoothness of opening the door plate under the condition of deep cooling.

The application also provides a door plate double sealing structure, which comprises an inner sealing strip 501 and an outer sealing strip 502, wherein the inner sealing strip 501 is fixed in a groove of the heat insulation box 801 contacted with a door plate, the outer sealing strip 502 is fixed at the periphery of the door plate at a position corresponding to the inner sealing strip 501, and the inner sealing strip 501 contacts with the outer sealing strip 502 after the door plate is closed, so that the sealing performance and the heat insulation performance of the box are further enhanced.

The application is also provided with an ultra-long wave system 6, the ultra-long wave system 6 is arranged on the wall at the side surface and the top of the inner side surface of the heat preservation box 801, the ultra-long wave system 6 can emit ultra-long waves and transmit the ultra-long waves to the core part of the food material, so that the heat exchange between the core part molecules of the food material and external cold air molecules is quickened, the quick freezing of the food material from inside to outside is realized, and the freshness of the food material is maintained.

The refrigerator set 802 is also internally provided with a sliding plate 701 and a pulley 702, the bottom of the refrigerator set 802 is provided with a groove, the sliding plate 701 is connected in the groove in a sliding way, a plurality of groups of pulleys 702 are fixedly connected below the sliding plate 701, the pulleys 702 are connected with the bottom of the refrigerator set 802 in a sliding way, and a worker can scratch the sliding plate 701 in the refrigerator set 802 from the groove at the bottom, so that the installation and the overhaul of refrigeration equipment are facilitated.

The heat preservation box 801 adopts a brand new generation wet process to plate, and is made of high-quality heat preservation materials, the inner surface and the outer surface of the box are all glass fiber reinforced plastic skins, ventilation grids are arranged around the refrigerating unit 802, and the refrigerating unit 802 can directly use commercial power to supply energy.

It should be understood that this example is only illustrative of the application and is not intended to limit the scope of the application. Furthermore, it should be understood that various changes and modifications can be made by one skilled in the art after reading the teachings of the present application, and such equivalents are intended to fall within the scope of the application as defined in the appended claims.

Claims (7)

1. A frozen quick-frozen movable refrigeration house is characterized in that: including collet computer lab integral type frame (1), heat preservation box (801), refrigerating unit (802), cold air duct (101), wind force control mechanism and wind direction rotary mechanism, collet computer lab integral type frame (1) top is through bolt fixed connection heat preservation box (801) and refrigerating unit (802), link up between heat preservation box (801) and refrigerating unit (802) and be connected with two sets of cold air duct (101), cold air duct (101) inner space sets up wind force control mechanism and wind direction rotary mechanism, wind force control mechanism is including first power unit, bottom rail (106), extensible member (107), lower wind gap baffle (108), top rail (111), elastic component (112) and wind gap baffle (113), power unit sets up in one side of cold air duct (101), power unit downside is connected with bottom rail (106), bottom rail (106) lower extreme fixed connection multiunit extensible member (107), the lower extreme of extensible member (107) and refrigerating box (801) fixed connection, two sets of lower side fixed connection bottom rail (106), top rail (111) fixed connection top rail (111), the elastic piece (112) is fixedly connected with the heat insulation box body (801), the lower air port baffle (108) and the upper air port baffle (113) are in sliding connection and penetrate through the cold air pipeline (101), and semicircular grooves are formed in the middle of the lower air port baffle (108) and the middle of the upper air port baffle (113);

the first power mechanism comprises a fan (102), a motor (103), a semicircular gear (104), a first rack (105), a first gear (109) and a second rack (110), wherein the fan (102) is arranged on one side, close to a refrigerating unit (802), in a cold air pipeline (101), the motor (103) is arranged on the side face of the cold air pipeline (101) and fixedly connected with a heat insulation box (801), the semicircular gear (104) is fixedly connected to an output shaft of the motor (103), the side face of the semicircular gear (104) is in meshed connection with the first rack (105), teeth facing the side face are further arranged above the teeth except for the teeth meshed with the semicircular gear (104), the left side of the first rack (105) is fixedly connected with a lower cross rod (106), the teeth meshed with the side face of the first rack (105) are connected with the first gear (109), the other side face of the first gear (109) is in meshed connection with the heat insulation box (801), and the other side face of the first gear (109) is connected with the second rack (110), and the upper cross rod (111) is fixedly connected with the second rack (110);

the wind direction rotating mechanism comprises a second power mechanism, a first long rod (206), a transverse air plate (207), a third long rod (213) and a longitudinal air plate (214), wherein the first long rod (206) penetrates through two groups of cold air pipelines (101) and is rotationally connected with the cold air pipelines (101), one side, far away from the fan (102), of the first long rod (206) is fixedly connected with the transverse air plate (207), the third long rod (213) is rotationally connected inside the cold air pipelines (101), and one side, far away from the fan (102), of the third long rod (213) is fixedly connected with the longitudinal air plate (214);

the second power mechanism comprises a remote rod (201), a first limiting frame (202), a second limiting frame (203), a third rack (204), a second gear (205), a third limiting frame (208), a fourth limiting frame (209), a second long rod (210), a fourth rack (211) and a third gear (212), wherein the remote rod (201) is fixed above the center of one side, far away from the motor (103), of the semicircular gear (104), the first limiting frame (202) and the third limiting frame are fixedly connected with a thermal insulation box body (801), the first limiting frame (202) is internally and vertically connected with the second limiting frame (203) in a sliding manner, the remote rod (201) is in sliding connection with and penetrates through the second limiting frame (203), the third rack (204) is fixedly connected above the second limiting frame (203), one side of the third rack (204) is fixedly connected with a supporting plate which is fixedly connected with the thermal insulation box body (801) and is provided with a sliding groove, the other side of the third rack (204) is in meshed connection with the second gear (205), the second gear (205) is fixedly connected with the fourth limiting frame (208) in a sliding manner, the top end of the fourth limiting frame (209) is connected with the inside the fourth limiting frame (209), one end of the fourth limiting frame (209) far away from the motor (103) is fixedly connected with a second long rod (210), a fourth rack (211) is fixedly connected to the second long rod (210), a third gear (212) is connected to the side face of the fourth rack (211) in a meshed mode, and a third long rod (213) is fixedly connected to the upper portion of the third gear (212).

2. The movable freezer for freezing and quick freezing according to claim 1, wherein: still be provided with fork truck groove (301) and hoist and mount corner fitting (302), fork truck groove (301) are seted up in collet computer lab integral type frame (1) bottom, hoist and mount corner fitting (302) set up at the top of insulation can body (801) and refrigerating unit (802), hoist and mount corner fitting (302) are fixed through pre-buried bolt.

3. The mobile freezer for quick freezing and freezing according to claim 2, wherein: the electric heating system (4) is further arranged in the door plate of the heat preservation box body (801), and the electric heating system (4) is used for heating the periphery of the door plate.

4. A frozen quick-frozen mobile freezer according to claim 3, characterized in that: the double-sealing structure of the door plate is further arranged, and comprises an inner sealing strip (501) and an outer sealing strip (502), wherein the inner sealing strip (501) is fixed in a groove of the insulation box body (801) in contact with the door plate, and the outer sealing strip (502) is fixed at the periphery of the door plate at the position corresponding to the inner sealing strip (501).

5. The movable freezer for freezing and quick freezing according to claim 4, wherein: the solar heat insulation box is characterized by further comprising an ultra-long wave system (6), wherein the ultra-long wave system (6) is arranged on the wall of the inner side face and the top of the heat insulation box body (801), and the ultra-long wave system (6) can emit ultra-long waves and conduct the ultra-long waves to the core part of the food material.

6. The movable freezer for freezing and quick freezing according to claim 5, wherein: still be provided with slide (701) and pulley (702) in refrigerating unit (802), the recess has been seted up to refrigerating unit (802) bottom, sliding connection slide (701) in the recess, multiunit pulley (702) are fixed connection below slide (701), pulley (702) and refrigerating unit (802) bottom sliding connection.

7. The movable freezer for freezing and quick freezing according to claim 6, wherein: the heat preservation box body (801) adopts a brand new generation wet method plate making process, high-quality heat preservation materials are selected, the inner surface and the outer surface of the box body are all glass fiber reinforced plastic skins, ventilation grids are arranged around the refrigerating unit (802), and the refrigerating unit (802) can directly use commercial power to supply energy.