CN115930510A - Energy-saving freezer system - Google Patents

Abstract

The invention relates to the technical field of freezer equipment, in particular to an energy-saving freezer system which comprises a freezer body, wherein a plurality of fans are fixedly installed at the bottom of the inner side of the freezer body, and a fixing plate is fixedly connected at the middle position inside the freezer body. According to the energy-saving freezer system, the stop doors are rotatably connected inside the rotating groove through the damping shaft rods, the freezer door is opened and rotated, so that the stop doors are conveniently opened, and the storage mechanisms are conveniently taken out.

Description

Energy-saving freezer system

Technical Field

The invention relates to the technical field of freezer equipment, in particular to an energy-saving freezer system.

Background

The power consumption of the refrigerator is divided into rated power consumption and actual power consumption. The rated power consumption is the power consumed when the ice chest runs for 24H in a stable running state at the ambient temperature of 25 ℃. The actual power consumption refers to the power consumed by the refrigerator in actual use. The actual power consumption of the refrigerator is sometimes higher than the rated power consumption and sometimes lower than the rated power consumption, and the actual power consumption varies with different environments of the refrigerator, the quantity of stored food, the temperature control in the refrigerator, the door opening times and the time. Wherein, frequently opening the refrigerator door can make the power consumption of refrigerator-freezer obviously increase, if the refrigerator door number of times of opening is more, the air conditioning of refrigerator incasement is escaped outward, and warm humid air in the refrigerator-freezer takes advantage of the machine and goes into, can make the temperature rise of refrigerator incasement, and simultaneously, the humid air of entering incasement makes the evaporimeter surface frost acceleration easily, and the layer of frosting bodiness. The heat conductivity coefficient of the frost is much smaller than that of the evaporator material, which is not beneficial to heat conduction, so that the temperature in the refrigerator is slowly reduced, the working time of the compressor is prolonged, and the power consumption is increased. When the existing freezer is used, the freezer door needs to be opened no matter how many things are taken, so that the freezer door is frequently opened, and the energy consumption of the freezer is increased.

Disclosure of Invention

The invention aims to: in order to solve the problem that the energy consumption of the freezer is increased by frequently opening the freezer door, an energy-saving freezer system is provided.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides an energy-conserving refrigerator-freezer system, includes the refrigerator-freezer body, the inboard bottom installation of refrigerator-freezer body is fixed with a plurality of fans, the inside intermediate position department of refrigerator-freezer body has linked firmly the fixed plate, the intermediate position department of fixed plate one side has evenly linked firmly a plurality of division boards, a plurality of bleeder vents I have evenly been seted up on the fixed plate, the top of division board all is provided with the partition mechanism, the supporting two shutoff mechanisms that are provided with in the partition mechanism, the both sides of division board all are provided with storage mechanism, one side of refrigerator-freezer body articulates there is the refrigerator door, a plurality of rotation grooves have been seted up on the refrigerator door, the inside in rotation groove is connected with the shutter through the rotation of damping axostylus axostyle, and the shutter external profile is the same with the internal profile in rotation groove.

Further, the rotating groove is provided with a limiting notch at one end of the inner bottom surface and the inner top surface, the top and the bottom of one end of the stop door are fixedly connected with stop blocks, and the stop blocks are respectively in sliding connection with the limiting notches at the corresponding positions.

Further lie in, a plurality of bracing pieces have all been linked firmly to two inside walls of refrigerator-freezer body, separate the mechanism and include the backup pad, backup pad one side contacts with one side of fixed plate, and the backup pad both ends respectively with two inside wall contacts of refrigerator-freezer body, the both ends of backup pad have all been seted up and have been supported the groove, and support the groove respectively with the bracing piece sliding connection who corresponds position department, the hold up tank has all been seted up at the both ends of backup pad one side, the rectangle breach has all been seted up to the one end of bottom surface in the hold up tank, and the other end of bottom surface in the hold up tank has seted up bleeder vent two, two rotation holes have been seted up to the intermediate position department of hold up tank.

Further lie in, a plurality of inserting grooves have all been seted up to two inside walls of refrigerator-freezer body, the standing groove has all been seted up at the both ends of backup pad, and a inside wall of standing groove has seted up spacing hole, the inside sliding connection of standing groove has the inserted bar, compression spring one has been linked firmly between inserted bar one end and the inserting groove inside wall, and the inserted bar other end slides with the inserting groove that corresponds position department and pegs graft, one side of inserted bar has linked firmly the slurcam, and slurcam and the spacing hole sliding connection that corresponds position department.

Further lie in, shutoff mechanism includes L template two, the inside of L template two is provided with the shielding plate, L template two and shielding plate all with the hold up tank sliding connection who corresponds position department, rectangular channel one has been seted up to the bottom of two one sides of L template, rectangular channel two has been seted up to the bottom of shielding plate one side, the interior top surface of rectangular channel one and rectangular channel two has all linked firmly the pinion rack, the bottom meshing of pinion rack has gear three, and the inside of gear three cup joints and is fixed with round bar three, three one end of round bar rotates with the inside wall of hold up tank to be connected, and the one end of round bar three cup joints and is fixed with the round wheel, the round wheel contacts with the inside wall that corresponds position department rotation hole, the one end of L template two is provided with the rectangular pole, and the bottom of rectangular pole links firmly with the interior bottom surface of hold up tank, the arc hole has been seted up on the rectangular pole, the one end of L template two has linked firmly flexible board two, and two one end of cold-resistant flexible board pass the rectangular hole and correspond the cold-resistant breach sliding connection of position department.

The two ends of the bottom of the rectangular rod are provided with guide shells, one side of each guide shell is in contact with one side of the fixed plate, the top of each guide shell is fixedly connected with the bottom of the corresponding support plate, and two side edges of one end of each cold-resistant flexible plate are respectively in sliding connection with the inner side wall of the corresponding position guide shell.

The storage mechanism further comprises a lifting 21274plate, the bottoms of the two ends of the lifting 21274plate are fixedly connected with fixed blocks, side plates are arranged on the two sides of the lifting 21274plate, the bottoms of the two ends of each side plate are rotatably connected with the fixed blocks through shaft rods, and a first cold-resistant flexible plate is arranged at the top of each side plate.

The device is characterized in that the two side arms of the v-21274plate are respectively provided with a containing groove, the middle position inside the containing groove is rotatably connected with two first round rods, the outer side wall of one end of each first round rod is fixedly connected with a first gear in a sleeved mode, the two first gears are meshed, the two ends inside the containing groove are respectively rotatably connected with a second round rod, the outer side wall of one end of each second round rod is fixedly connected with a second gear in a sleeved mode, the second gear is meshed with the first gear at the corresponding position, the outer side wall of the other end of each second round rod is fixedly connected with a rotating wheel in a sleeved mode, one end of the v-21274plate is provided with a twisting shell, the inner part of the twisting shell is fixedly connected with a fixed rod in a sleeved mode, one end of the fixed rod penetrates through the side wall of the v-21274plate and is fixedly connected with one end of the first round rod at the corresponding position, one side of the twisting shell is fixedly connected with a rubber pad, one end of the rubber pad is in an extruding contact with one end of the v-21274plate, one end of the side plate is provided with a limiting groove, the outer side wall of the rotating wheel is fixedly connected with a second rotating seat, and a notch of the limiting block is connected with a limiting block, and a limiting block is connected with one end of the limiting block.

Further lie in, spout two has been seted up to the intermediate position department at curb plate top, spout one has been seted up to the bottom of two inside walls of spout, and spout one and the spacing groove intercommunication of corresponding position department, the inside sliding connection of spout two has the movable plate, and the movable plate top links firmly with the bottom that corresponds the cold-resistant flexible board of position department, the bottom of movable plate one side has linked firmly L template one, a L template horizontal segment and a spout sliding connection, and a L template vertical segment and the spacing groove sliding connection of corresponding position department, a plurality of compression spring two have been linked firmly between the interior top surface of a L template horizontal segment top and spout one.

The invention has the beneficial effects that:

1. the energy-saving freezer system is characterized in that a stop door is rotatably connected inside the rotating groove through a damping shaft rod, and a freezer door is opened and rotated, so that a plurality of stop doors are conveniently opened, and a plurality of storage mechanisms are conveniently taken out;

2. the storage mechanisms are arranged on the two sides of the partition plate, and the twisting shell is rotated upwards, so that the first cold-resistant flexible plate moves upwards and is in extrusion contact with the round wheel, the storage mechanisms are pulled to move, the second cold-resistant flexible plate on the storage mechanisms is moved to rub the round wheel for a moment to rotate, and the shielding plate and the second cold-resistant flexible plate move, so that the storage mechanisms are integrally taken out, and when the storage mechanisms are not placed in the refrigerator body or no object is placed in the storage mechanisms, and the storage mechanisms need to be placed in the refrigerator body again, no cold air is conveyed into the corresponding spaces of the storage mechanisms, so that the space area required for refrigerating when the refrigerator body is used is reduced, the refrigerating time required when the energy-saving refrigerator system is used is reduced, and the energy consumption of the energy-saving refrigerator system is reduced;

3. the support groove is connected with the support rod in a sliding manner, the support rod and the support groove are matched for use, so that the support plate is supported and fixed conveniently, the push plate is pushed to move, and the insertion rod is driven to move by the push plate, so that the insertion rod is separated from the insertion groove, the separation mechanism and the plugging mechanism are convenient to disassemble, maintain and replace, and the practicability of the energy-saving freezer system is improved;

4. side plates are arranged on two sides of the mould plate, and the shell is downwards twisted, so that the fixed rod, the round rod I, the gear II, the round rod II and the rotating wheel downwards rotate, and the rotating wheel downwards rotates to enable the connecting rod to downwards deflect, so that the rotating rod, the rotating seat II and the limiting block downwards move, the side plates rotate, and two sides of the turned mould plate are displayed, so that refrigerated articles in the mould plate can conveniently come out, and the use is more convenient;

5. be provided with cold-resistant flexbile plate one through the top at the curb plate, and twist round the shell through upwards rotating, thereby make cold-resistant flexbile plate one and round wheel extrusion contact, again through the inside that will store the mechanism propulsion refrigerator-freezer body, thereby make the round wheel rotate, and then make shielding plate and cold-resistant flexbile plate two reset, cold-resistant flexbile plate two after resetting is convenient for show bleeder vent one, thereby be convenient for air conditioning to pass bleeder vent one and remove to the position department of storing the mechanism, and shielding plate after resetting is convenient for show bleeder vent two, thereby make air conditioning pass storage tank and bleeder vent two and remove to the position department of storing the mechanism, and then accelerated the cooling rate of storage mechanism position department space temperature, make the inside cold-stored article of storage mechanism frozen fast, the time that article cold-stored required consumption has been reduced, power consumption when this energy-saving refrigerator-freezer system uses has been reduced.

Drawings

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

FIGS. 1-2 are schematic views of the overall structure of the present invention;

FIG. 3 is a schematic view of the position relationship between the fixing plate and the partition plate according to the present invention;

FIG. 4 is a schematic diagram showing the positional relationship between the partition means and the plugging means in the present invention;

FIG. 5 is a schematic view of the partitioning mechanism according to the present invention;

FIG. 6 is a schematic view of the storage mechanism of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 at A;

FIG. 8 is an enlarged view of a portion of FIG. 6 at B;

fig. 9 is a schematic structural view of the plugging mechanism in the invention.

In the figure: 100. a freezer body; 101. inserting grooves; 110. a refrigerator door; 111. a rotating groove; 112. a limiting notch; 120. a door; 121. a stopper; 130. a fixing plate; 131. a first air hole; 140. a partition plate; 150. a support bar; 160. a fan; 200. a separation mechanism; 210. a support plate; 211. a storage tank; 212. a rectangular notch; 213. a support groove; 214. rotating the hole; 215. a second air hole; 216. a placement groove; 217. a limiting hole; 220. a plug-in rod; 230. a first compression spring; 240. a push plate; 300. a storage mechanism; 310. \ 21274; 311. a storage groove; 320. a fixed block; 330. a side plate; 331. a limiting groove; 332. a first sliding chute; 333. a second chute; 340. an L-shaped plate I; 341. a second compression spring; 342. moving the plate; 343. a first cold-resistant flexible plate; 350. a first round rod; 351. a first gear; 360. a second round bar; 361. a rotating wheel; 362. a second gear; 363. a connecting rod; 370. twisting the shell; 371. fixing the rod; 372. a rubber pad; 380. a limiting block; 381. a second rotating seat; 390. rotating the rod; 391. a connecting gap; 400. a plugging mechanism; 410. a rectangular bar; 411. an arc-shaped hole; 420. a guide housing; 430. a second cold-resistant flexible plate; 440. an L-shaped plate II; 441. a first rectangular groove; 450. a toothed plate; 460. a third round bar; 461. a round wheel; 462. a third gear; 470. a shielding plate; 471. and a second rectangular groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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. 1-9, an energy-saving freezer system includes a freezer body 100, a plurality of fans 160 are mounted and fixed at the bottom of the inner side of the freezer body 100, a fixing plate 130 is fixedly connected to the middle position of the inner side of the freezer body 100, a plurality of partition plates 140 are uniformly fixedly connected to the middle position of one side of the fixing plate 130, a plurality of vent holes one 131 are uniformly formed in the fixing plate 130, a partition mechanism 200 is disposed on the top of each partition plate 140, two blocking mechanisms 400 are disposed on the partition mechanism 200 in a matching manner, storage mechanisms 300 are disposed on both sides of each partition plate 140, a freezer door 110 is hinged to one side of the freezer body 100, a plurality of rotating grooves 111 are formed in the freezer door 110, a stop door 120 is rotatably connected to the inside of each rotating groove 111 through a damping shaft, the outer contour of the stop door 120 is identical to the inner contour of the rotating grooves 111, when the storage mechanisms 300 are used, articles can be conveniently stored and placed by using the storage mechanisms 300, and the freezer body 100 and the fans 160 in cooperation, the storage mechanisms 300 can be conveniently stored and the articles stored therein, when the plurality of storage mechanisms 300 need to be taken out, the storage mechanisms 300, the storage mechanism 300 can be conveniently opened, and the energy-saving freezer door 300 can be conveniently taken out, when the storage mechanism is taken out, the storage mechanism 300 is opened, the energy-saving freezer door 300 is opened, and the energy-saving door 300 can be conveniently, and the energy-saving door 300 can be taken out, and the energy-saving door 300 can be conveniently taken out, when the energy-saving door 300 is taken out, and the energy-saving freezer system can be conveniently, and the energy-saving door 300 is taken out, when the energy-out, the energy-saving door 300 can be taken out is taken out, and the energy-saving door 300 is taken out, the energy-saving freezer system can be conveniently, the storage mechanism 300 and the plugging mechanism 400 are matched for use, so that the air holes 131 are plugged conveniently, the storage mechanism 300 is required to be taken out or the cold storage articles are not stored in the storage mechanism 300, the space around the storage mechanism 300 is not provided with cold air to be conveyed, the whole refrigerating space area of the freezer body 100 is reduced, the power consumption of the energy-saving freezer system is reduced, and the energy-saving freezer system is more energy-saving.

The inner bottom surface and the inner top surface of the rotating groove 111 are both provided with a limit notch 112, the top and the bottom of one end of the stop door 120 are both fixedly connected with a stop block 121, and the stop blocks 121 are respectively connected with the limit notches 112 at corresponding positions in a sliding way, when the refrigerator door 110 rotates by using the stop blocks 121 and the limit notches 112 in a matching way, a plurality of stop doors 120 can be rotated and opened, two inner side walls of the refrigerator body 100 are both fixedly connected with a plurality of support bars 150, the separating mechanism 200 comprises a support plate 210, one side of the support plate 210 is contacted with one side of the fixing plate 130, and two ends of the support plate 210 are respectively contacted with two inner side walls of the refrigerator body 100, two ends of the support plate 210 are both provided with support grooves 213, and the support grooves 213 are respectively connected with the support bars 150 at corresponding positions in a sliding way, two ends of one side of the support plate 210 are both provided with storage grooves 211, one end of the inner bottom surface of the storage groove 211 is both provided with a rectangular notch 212, and the other end of the bottom surface in the storage tank 211 is provided with two air holes 215, two rotating holes 214 are arranged at the middle position of the storage tank 211, the support rod 150 and the support groove 213 are used cooperatively to support and fix the support plate 210, two inner side walls of the freezer body 100 are both provided with a plurality of inserting grooves 101, two ends of the support plate 210 are both provided with placing grooves 216, one inner side wall of each placing groove 216 is provided with a limit hole 217, an inserting rod 220 is slidably connected inside the placing groove 216, a compression spring 230 is fixedly connected between one end of each inserting rod 220 and one inner side wall of each inserting groove 101, the other end of each inserting rod 220 is slidably inserted into the corresponding inserting groove 101, one side of each inserting rod 220 is fixedly connected with a push plate 240, the push plate 240 is slidably connected with the limit hole 217 at the corresponding position, the push plate 240 is pushed to move, the inserting rod 220 is driven to move by the push plate 240, therefore, the inserting rod 220 is separated from the inserting groove 101, the separation mechanism 200 and the plugging mechanism 400 are convenient to disassemble, maintain and replace, and the practicability of the energy-saving freezer system is improved.

The plugging mechanism 400 comprises an L-shaped plate II 440, a baffle plate 470 is arranged inside the L-shaped plate II 440, the L-shaped plate II 440 and the baffle plate 470 are both in sliding connection with the storage groove 211 at corresponding positions, a rectangular groove I441 is arranged at the bottom of one side of the L-shaped plate II 440, a rectangular groove II 471 is arranged at the bottom of one side of the baffle plate 470, toothed plates 450 are fixedly connected to the inner top surfaces of the rectangular groove I441 and the rectangular groove II 471, a gear III 462 is meshed to the bottom of the toothed plates 450, a round rod III 460 is fixedly sleeved inside the gear III 462, one end of the round rod III 460 is rotatably connected to the inner side wall of the storage groove 211, a round wheel 461 is fixedly sleeved at one end of the round rod III 460, the round wheel 461 is in contact with the inner side wall of the rotating hole 214 at the corresponding position, a rectangular rod 410 is arranged at one end of the L-shaped plate II 440, the bottom of the rectangular rod 410 is fixedly connected to the inner bottom surface of the storage groove 211, an arc-shaped hole 411 is arranged at one end of the rectangular rod 410, a cold-resistant plate II 430 is fixedly connected to one end of the L-shaped plate 440, one end of the second cold-resistant flexible plate 430 penetrates through the arc-shaped hole 411 to be slidably connected with the rectangular notch 212 at the corresponding position, the second L-shaped plate 440 and the baffle plate 470 move by rotating the round wheel 461, the rotating round wheel 461 drives the round rod third 460 and the gear third 462 to rotate, the gear third 462 is meshed with the toothed plate 450, the second L-shaped plate 440 and the baffle plate 470 are sealed by shielding the second vent hole 215 after moving, the second L-shaped plate 440 moves to push the second cold-resistant flexible plate 430 to move, the moving direction of the second cold-resistant flexible plate 430 is limited by the arc-shaped hole 411, the first vent hole 131 is sealed by the second cold-resistant flexible plate 430 after moving, the guide shells 420 are arranged at two ends of the bottom of the rectangular rod 410, one side of the guide shells 420 is in contact with one side of the fixing plate 130, and the top of the guide shells 420 is fixedly connected with the bottom of the supporting plate 210, two sides of one end of the second cold-resistant flexible plate 430 are respectively in sliding connection with the inner side wall of the guide shell 420 at the corresponding position, and the second cold-resistant flexible plate 430 is convenient to limit by utilizing the matching use of the two guide shells 420.

The storage mechanism 300 comprises a v-21274plate 310, the bottoms of two ends of the v-21274plate 310 are fixedly connected with a fixed block 320, two sides of the v-21274plate 310 are respectively provided with a side plate 330, the bottoms of two ends of the side plate 330 are respectively rotatably connected with the fixed block 320 through a shaft rod, the top of the side plate 330 is provided with a first cold-resistant flexible plate 343, two side arms of the v-21274310 are respectively provided with a containing groove 311, the middle position inside the containing groove 311 is rotatably connected with two first circular rods 350, the outer side wall of one end of the first circular rod 350 is fixedly sleeved with a first gear 351, the first two gears are meshed with each other, two ends inside the containing groove 311 are respectively rotatably connected with a second circular rod 360, the outer side wall of one end of the second circular rod 360 is fixedly sleeved with a second gear 362, the second gear 362 is meshed with the first gear 351 at a corresponding position, the outer side wall of the other end of the second circular rod 360 is fixedly sleeved with a rotating wheel 361, one end of the rotating shell 370 is fixedly connected with a rotating chute 381 fixedly connected with a rotating rod 380 of a rotating chute 380 which is fixedly connected with a rotating block 380 through a rotating chute 391, one end of a rotating rod which is fixedly connected with a rotating block 380 and a rotating chute 380 which is connected with a rotating block 380 which is fixedly connected with one end of a rotating chute 380 which is fixedly connected with a rotating block 380 of a rotating chute 380 which is arranged at a rotating chute 380 and a rotating block 380 which is fixedly connected with a rotating block 380 which is arranged at a connecting rod 74310, the first sliding groove 332 is communicated with a limiting groove 331 at a corresponding position, a moving plate 342 is connected inside the second sliding groove 333 in a sliding manner, the top of the moving plate 342 is fixedly connected with the bottom of a cold-resistant flexible plate 343 at the corresponding position, an L-shaped plate 340 is fixedly connected with the bottom of one side of the moving plate 342, a horizontal section of the L-shaped plate 340 is connected with the first sliding groove 332 in a sliding manner, a vertical section of the L-shaped plate 340 is connected with the limiting groove 331 at the corresponding position in a sliding manner, a plurality of compression springs 341 are fixedly connected between the top of the horizontal section of the L-shaped plate 340 and the inner top surface of the first sliding groove 332, the fixed rod 371, the round rod 350 and the gear 351 are rotated by rotating the twisting shell 370 upwards, the gear 351 is meshed with the gear two 362, the round rod two 360 and the rotating wheel 361 are rotated upwards, the connecting rod 363 is deflected upwards, and the rotating rod 390, the rotating seat two 381 and the limiting block 380 are moved upwards, the first L-shaped plate 340 is pushed to move upwards by the aid of the limit block 380 which moves upwards, so that the moving plate 342 and the first cold-resistant flexible plate 343 move upwards, the first cold-resistant flexible plate 343 is in extrusion contact with the circular wheel 461, the circular wheel 461 is convenient to rotate, the first L-shaped plate 340, the moving plate 342 and the first cold-resistant flexible plate 343 are convenient to reset by the aid of the second compression spring 341, and then the fixed rod 371, the first circular rod 350, the first gear 351, the second gear 362, the second circular rod 360 and the rotating wheel 361 are rotated downwards by downwards twisting the shell 370, the connecting rod 363 is deflected downwards by the rotating wheel 361 which rotates downwards, so that the rotating rod 390, the second rotating seat 381 and the limit block 380 move downwards, the side plate 330 rotates, and two sides of the rectangular plate 310 are displayed by the two rotated side plates 330, so that refrigerated goods inside the rectangular plate 74310 can come out conveniently, the use is more convenient.

The working principle is as follows: when the energy-saving freezer system is used, the freezer body 100 is placed at a proper position, the storage mechanisms 300 are used for conveniently storing and placing refrigerated articles, the freezer body 100 is used for conveniently freezing the plurality of storage mechanisms 300 and the refrigerated articles in the storage mechanisms 300, when the plurality of storage mechanisms 300 in the freezer body 100 need to be taken out, the freezer door 110 is opened and rotated, the plurality of shutters 120 are opened, the plurality of storage mechanisms 300 are taken out conveniently, when one or two storage mechanisms 300 corresponding to one shutter 120 need to be taken out, the corresponding shutters 120 are opened, the storage mechanisms 300 are taken out conveniently, when the energy-saving freezer system is used, the storage mechanisms 300 corresponding to the shutters 120 can be taken out by opening the shutters 120, the cold storage of other storage mechanisms 300 cannot be influenced by taking out and opening the storage mechanisms 300 corresponding to the shutters 120, the escape amount of cold air is reduced, and the power consumption of the energy-saving freezer system is reduced;

when all the refrigerated articles in the storage mechanism 300 need to be taken out, the twisting shell 370 is rotated upwards, so that the fixed rod 371, the first round rod 350 and the first gear 351 rotate, the first gear 351 is meshed with the second gear 362, the second round rod 360 and the rotating wheel 361 rotate upwards, the rotating wheel 361 rotates upwards, the connecting rod 363 deflects upwards, the rotating rod 390, the rotating seat 381 and the limiting block 380 move upwards, the limiting block 380 moving upwards pushes the first L-shaped plate 340 to move upwards, the moving plate 342 and the first cold-resistant flexible plate 343 move upwards, the first cold-resistant flexible plate 343 is in pressing contact with the round wheel 461 and moves by pulling the storage mechanism 300, the first cold-resistant flexible plate 343 on the mobile storage mechanism 300 can rub the round wheel 461 to rotate, the round rod three 460 and the gear three 462 are driven by the rotating round wheel 461 to rotate, and the third gear 462 is engaged with the toothed plate 450, so that the second L-shaped plate 440 and the baffle 470 move, the second vent 215 is shielded and sealed by the baffle 470 after moving, the second L-shaped plate 440 moves to push the second cold-resistant flexible plate 430 to move, the moving direction of the second cold-resistant flexible plate 430 is limited by the arc-shaped hole 411 and the guide shell 420, the first vent 131 is shielded and sealed by the second cold-resistant flexible plate 430 after moving, and when the storage mechanism 300 is taken out integrally and is not placed in the freezer body 100, the first vent 131 and the second vent 215 corresponding to the storage mechanism 300 are sealed, so that no cold air is conveyed into the space corresponding to the storage mechanism 300, or no articles are placed in the storage mechanism 300, and the storage mechanism 300 needs to be placed in the freezer body 100 again, the first cold-resistant flexible plate 343 is reset by rotating the twisting shell 370, the reset first cold-resistant flexible plate 343 does not contact with the round wheel 461, so that the shielding plate 470 and the second cold-resistant flexible plate 430 are not moved when the storage mechanism 300 is reset, and further no cold air is conveyed into the space corresponding to the storage mechanism 300, so that the whole refrigerating space area of the refrigerator body 100 is reduced, and the power consumption of the energy-saving refrigerator system is reduced;

when more refrigerated articles in the storage mechanism 300 are inconvenient to take out, the shell 370 is turned downwards, so that the fixed rod 371, the first round rod 350, the first gear 351, the second gear 362, the second round rod 360 and the rotating wheel 361 rotate downwards, the connecting rod 363 deflects downwards, the rotating rod 390, the second rotating seat 381 and the limiting block 380 move downwards, the side plates 330 rotate, and the two rotated side plates 330 display two sides of the 21274shaped plate 310, so that the refrigerated articles in the 21274shaped plate 310 can be conveniently taken out, the use is more convenient, and when the separation mechanism 200 and the blocking mechanism 400 need to be detached, maintained and replaced, the pushing plate 240 is pushed to move, the plugging rod 220 is driven to move by the pushing plate 240, so that the plugging rod 220 is separated from the plugging groove 101, and the detachment, maintenance and replacement of the separation mechanism 200 and the blocking mechanism 400 are facilitated, and the practicability of the energy-saving freezer system is improved;

when the storage mechanism 300 needs to be placed inside the refrigerator body 100 again, and articles needing to be refrigerated are placed inside the storage mechanism 300, the twisting shell 370 is rotated upwards, so that the fixing rod 371, the first round rod 350, the first gear 351, the second gear 362, the second round rod 360 and the rotating wheel 361 rotate upwards, the connecting rod 363 deflects upwards by the rotating wheel 361 rotating upwards, the first L-shaped plate 340 is pushed by the limiting block 380 moving upwards to move upwards, the moving plate 342 and the first cold-resistant flexible plate 343 move upwards, the first cold-resistant flexible plate 343 is in extrusion contact with the round wheel 461, the storage mechanism 300 is pushed into the refrigerator body 100, the round wheel 461 rotates, the shielding plate 470 and the second cold-resistant flexible plate 430 reset, the second cold-resistant flexible plate 430 is convenient to expose the air hole 131, cold air can move to the storage mechanism 300 through the air hole 131, the shielding plate 470 is convenient to expose the cold air hole 215, the cold air hole 215 can move to the storage mechanism 300, the power consumption of the refrigerated article can be reduced quickly, and the energy-saving refrigeration system can be used for reducing the consumption of the refrigerated articles.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (9)

1. The utility model provides an energy-conserving refrigerator-freezer system, includes refrigerator-freezer body (100), its characterized in that, the inboard bottom installation of refrigerator-freezer body (100) is fixed with a plurality of fans (160), the inside intermediate position department of refrigerator-freezer body (100) has linked firmly fixed plate (130), the intermediate position department of fixed plate (130) one side has evenly linked firmly a plurality of division boards (140), a plurality of bleeder vents (131) have evenly been seted up on fixed plate (130), the top of division board (140) all is provided with separates mechanism (200), it is provided with two shutoff mechanisms (400) to form a complete set on separating mechanism (200), the both sides of division board (140) all are provided with storage mechanism (300), one side of refrigerator-freezer body (100) articulates there is refrigerator door (110), a plurality of rotation grooves (111) have been seted up on refrigerator door (110), the inside in rotation groove (111) is connected with shutter (120) through the rotation of damping axostylus axostyle, and shutter (120) external profile is the same with the internal profile in rotation groove (111).

2. The energy-saving freezer system according to claim 1, wherein one end of the inner bottom surface and one end of the inner top surface of the rotary groove (111) are both opened with a limit notch (112), the top and the bottom of one end of the door (120) are both fixedly connected with a stop block (121), and the stop blocks (121) are respectively connected with the limit notches (112) at corresponding positions in a sliding manner.

3. The energy-saving freezer system according to claim 1, wherein the two inner side walls of the freezer body (100) are fixedly connected with a plurality of support bars (150), the separating mechanism (200) comprises a support plate (210), one side of the support plate (210) is in contact with one side of the fixing plate (130), two ends of the support plate (210) are in contact with two inner side walls of the freezer body (100) respectively, two ends of the support plate (210) are provided with support grooves (213), the support grooves (213) are in sliding connection with the support bars (150) at corresponding positions respectively, two ends of one side of the support plate (210) are provided with storage grooves (211), one ends of the inner bottom surfaces of the storage grooves (211) are provided with rectangular notches (212), the other ends of the inner bottom surfaces of the storage grooves (211) are provided with two vent holes (215), and two rotation holes (214) are formed at the middle positions of the storage grooves (211).

4. The energy-saving freezer system of claim 3, wherein a plurality of insertion grooves (101) are formed in both inner side walls of the freezer body (100), the placement grooves (216) are formed in both ends of the support plate (210), a limiting hole (217) is formed in one inner side wall of each placement groove (216), an insertion rod (220) is slidably connected to the inside of each placement groove (216), a first compression spring (230) is fixedly connected between one end of each insertion rod (220) and one inner side wall of each insertion groove (101), the other end of each insertion rod (220) is slidably inserted into the corresponding insertion groove (101), a push plate (240) is fixedly connected to one side of each insertion rod (220), and each push plate (240) is slidably connected with the corresponding limiting hole (217).

5. The energy-saving freezer system according to claim 1, wherein the plugging mechanism (400) comprises a second L-shaped plate (440), a baffle (470) is disposed inside the second L-shaped plate (440), both the second L-shaped plate (440) and the baffle (470) are slidably connected with the storage tank (211) at the corresponding position, a first rectangular groove (441) is disposed at the bottom of one side of the second L-shaped plate (440), a second rectangular groove (471) is disposed at the bottom of one side of the baffle (470), the inner top surfaces of the first rectangular groove (441) and the second rectangular groove (471) are fixedly connected with a toothed plate (450), the bottom of the toothed plate (450) is engaged with a third gear (462), a third circular rod (460) is fixedly sleeved inside the third gear (462), one end of the third circular rod (460) is rotatably connected with the inner side wall of the storage tank (211), one end of the third circular rod (460) is fixedly sleeved with a circular wheel (461), the inner side wall of the circular wheel (461) is in contact with the rotation hole (214) at the corresponding position, one end of the second L-shaped plate (440) is fixedly connected with a cold-resistant plate (411), and the storage tank (410) is fixedly connected with the second L-shaped plate (410), and one end of the second cold-resistant flexible plate (430) penetrates through the arc-shaped hole (411) and is in sliding connection with the rectangular notch (212) at the corresponding position.

6. The energy-saving freezer system of claim 5, wherein the rectangular rod (410) is provided with a guide housing (420) at both ends of the bottom, one side of the guide housing (420) contacts with one side of the fixing plate (130), the top of the guide housing (420) is fixedly connected with the bottom of the support plate (210), and both sides of one end of the second cold-resistant flexible plate (430) are slidably connected with the inner side wall of the guide housing (420) at the corresponding position.

7. The energy saving ice chest system according to claim 1, wherein the storage mechanism (300) comprises a v-21274 (310), the bottoms of both ends of the v-21274 (310) are fixedly connected with fixing blocks (320), both sides of the v-21274 (310) are provided with side plates (330), the bottoms of both ends of the side plates (330) are rotatably connected with the fixing blocks (320) through shaft rods, and the tops of the side plates (330) are provided with first cold-resistant flexible plates (343).

8. The energy-saving freezer system according to claim 7, wherein the two side arms of the rectangular plate (310) are respectively provided with a receiving groove (311), the middle position inside the receiving groove (311) is rotatably connected with two first round bars (350), the outer side wall of one end of each first round bar (350) is fixedly sleeved with a first gear (351), the two first gears (351) are meshed, the two ends inside the receiving groove (311) are respectively rotatably connected with a second round bar (360), the outer side wall of one end of each second round bar (360) is fixedly sleeved with a second gear (362), the second gear (362) is meshed with the first gear (351) at the corresponding position, the outer side wall of the other end of each second round bar (360) is fixedly sleeved with a rotating wheel (361), one end of the rectangular plate (310) is provided with a twisting shell (370), the inner part of the twisting shell (370) is fixedly sleeved with a fixing rod (371), one end of the fixing rod (371) penetrates through the side wall of the rectangular plate (310) and is fixedly connected with one end of the first round bar (350), one end of the rotating plate (381) is fixedly connected with a rubber pad (361), and one end of the rotating wheel (372) of the rotating plate (371) is fixedly connected with a rubber pad (361) of the rotating plate (371), and the inside of rotating seat two (381) is connected with dwang (390) through the axostylus axostyle rotation, connecting gap (391) have been seted up to the one end of dwang (390), and inside being connected with the one end rotation of connecting rod (363) through the axostylus axostyle of connecting gap (391), the one end of rotating seat two (381) has linked firmly stopper (380), and stopper (380) and spacing groove (331) sliding connection of corresponding position department.

9. The energy-saving freezer system according to claim 8, wherein a second sliding groove (333) is formed in the middle of the top of the side plate (330), a first sliding groove (332) is formed in the bottom of an inner side wall of the second sliding groove (333), the first sliding groove (332) is communicated with the limiting groove (331) in the corresponding position, a moving plate (342) is slidably connected inside the second sliding groove (333), the top of the moving plate (342) is fixedly connected with the bottom of the first cold-resistant flexible plate (343) in the corresponding position, a first L-shaped plate (340) is fixedly connected to the bottom of one side of the moving plate (342), the horizontal section of the first L-shaped plate (340) is slidably connected with the first sliding groove (332), the vertical section of the first L-shaped plate (340) is slidably connected with the limiting groove (331) in the corresponding position, and a plurality of second compression springs (341) are fixedly connected between the top of the horizontal section of the first L-shaped plate (340) and the inner top surface of the first sliding groove (332).

Images