CN117739591B

CN117739591B - Mobile light Fu Lengku

Info

Publication number: CN117739591B
Application number: CN202410186481.3A
Authority: CN
Inventors: 刘军安; 刘峰; 方永霜
Original assignee: Jinan Yuegong Refrigeration Equipment Co ltd
Current assignee: Jinan Yuegong Refrigeration Equipment Co ltd
Priority date: 2024-02-20
Filing date: 2024-02-20
Publication date: 2024-04-12
Anticipated expiration: 2044-02-20
Also published as: CN117739591A

Abstract

The invention discloses a movable photovoltaic refrigeration house, and relates to the technical field of refrigeration equipment; comprises a base, a cabinet body and a photovoltaic panel; the photovoltaic panel is arranged on the surface of the cabinet body, the supporting column is arranged on the cabinet body, and the supporting column is connected with the center position of the photovoltaic panel through the two-way hinging seat; an adjusting structure is connected between the cabinet body and the photovoltaic panel, the adjusting structure comprises a gear ring surrounding the supporting column and an annular track, the gear ring is fixedly arranged on the surface of the cabinet body, and the annular track is fixedly connected with the photovoltaic panel; the adjusting structure comprises a sliding seat which is slidably arranged on the gear ring, a transmission gear which is meshed with the gear ring is arranged in the sliding seat, a mounting plate is arranged on the sliding seat, the mounting plate is connected with a positioning plate through a lifting structure, and the positioning plate is slidably connected with the annular track. The direction that this device can be nimble adjustment photovoltaic board, furthest promotes the electric quantity of conversion, has improved the self-powered ability of portable freezer.

Description

Mobile light Fu Lengku

Technical Field

The invention relates to the technical field of refrigeration equipment, in particular to a movable photovoltaic refrigeration house.

Background

The refrigerator is a refrigerating device, is a box-shaped closed structure, is used for preserving related articles such as food, liquid, chemical industry, medicine, scientific experiments and the like at constant temperature and humidity by creating a low-temperature environment with huge temperature difference with outdoor temperature, and has the main difference of the size of an inner space. Some small movable refrigerators can be used for the transportation of articles or to provide some users without refrigerator resources, but temporarily with the need to use refrigerator equipment.

The size of portable freezer is the size that large-scale transport vehicle can transport generally, and in long-distance transportation, portable freezer can't connect fixed power, need use portable power source to supply power, therefore unavoidable existence power consumption is tension's problem, and partial portable freezer can set up the photovoltaic board, utilizes solar energy to turn into electric energy, and it is required to supply the power consumption of freezer. However, the existing movable type refrigeration house is basically in a standard rectangular shape, and the light Fu Banzhi is attached to the refrigeration house, so that the utilization rate of solar energy is low.

The movable refrigeration house is in the transportation, and the vehicle is possible to go to any direction, and the direction changes at any time, also has the problem that mounted position and installation angle change at random when fixed position uses, therefore the fixed or photovoltaic board that only can incline to one side can not effectual promotion solar energy utilization ratio, can't guarantee the normal power supply of refrigeration house in the transportation. Some support structures capable of driving the photovoltaic panels to rotate jointly exist in the existing photovoltaic equipment, but the structures need larger movable space around the photovoltaic panels, the surface space of the movable refrigeration house is insufficient, the shape of the movable refrigeration house is not regular square, if the movable refrigeration house rotates, the movable refrigeration house can collide with the adjacent photovoltaic panels or the surrounding environment, and therefore the conventional rotatable support cannot meet the installation requirement on the movable refrigeration house.

Disclosure of Invention

The invention aims to provide a movable photovoltaic refrigeration house so as to solve the problems in the background art. The utility model provides a can carry out multi-direction inclination adjustment's photovoltaic freezer to photovoltaic board, can make the adaptability adjustment at any time according to the direction and the angle of current sun irradiation, maximize expansion illumination area, promote the electric quantity that can convert, effectively maintain the refrigeration effect of freezer.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the movable photovoltaic refrigeration house comprises a base, a cabinet body and a photovoltaic plate; the base is provided with a cabinet body, the surface of the cabinet body is provided with a photovoltaic panel, the cabinet body is provided with a support column, and the support column is connected with the center position of the photovoltaic panel through a two-way hinging seat; an adjusting structure is connected between the cabinet body and the photovoltaic panel, the adjusting structure comprises a gear ring surrounding the supporting column and an annular track, the gear ring is fixedly arranged on the surface of the cabinet body, and the annular track is fixedly connected with the photovoltaic panel; the adjusting structure comprises a sliding seat which is slidably arranged on the gear ring, a transmission gear which is meshed with the gear ring is arranged in the sliding seat, a mounting plate is arranged on the sliding seat, the mounting plate is connected with a positioning plate through a lifting structure, and the positioning plate is slidably connected with the annular track;

the mounting plate is provided with a primary driver, the primary driver is connected with a transmission gear, two ends of the positioning plate are respectively provided with a sliding ball, and the sliding balls are embedded into the annular track; the lifting structure comprises a bidirectional screw rod and a sliding rod which are parallel to each other, a supporting rod which is in X-shaped cross connection is arranged between the bidirectional screw rod and the sliding rod, a threaded cylinder which is in threaded connection with the bidirectional screw rod is arranged at one end of the supporting rod, and a sliding sleeve which is in sliding connection with the sliding rod is arranged at the other end of the supporting rod; the bidirectional screw is rotationally connected with the mounting plate, the sliding rod is fixedly connected with the positioning plate, and the mounting plate is provided with a secondary driver connected with the bidirectional screw;

a refrigerating system is arranged in the cabinet body and is used for refrigerating the interior of the cabinet body;

the surface of the cabinet body is provided with a limiting structure surrounding the adjusting structure, and the limiting structure is used for preventing the photovoltaic panel from rotating; the limiting structure comprises limiting rods and limiting grooves, wherein the limiting grooves pointing to the center positions of the photovoltaic plates are formed in the middle positions of the sides of the photovoltaic plates, the limiting rods are fixedly mounted on the surface of the cabinet body, and the limiting rods penetrate through the limiting grooves and are connected with the stop rods.

As a further scheme of the invention: the refrigerating system comprises a refrigerating inner machine arranged in the cabinet body and a refrigerating outer machine arranged outside the cabinet body, and the refrigerating inner machine is in circulating connection with the refrigerating outer machine.

As still further aspects of the invention: the cabinet is characterized in that an insulation layer is arranged in the cabinet body, a door plate is arranged on one side of the cabinet body, and a control panel is arranged on the cabinet body.

As still further aspects of the invention: and a plurality of groups of wheels are arranged on one surface of the base, which is far away from the cabinet body.

Compared with the prior art, the invention has the beneficial effects that:

by adopting the movable photovoltaic refrigeration house, the device uses the adjusting structure and the lifting structure which are arranged between the cabinet body and the photovoltaic panel, the support column is connected with the bidirectional hinging seat, the photovoltaic panel can not rotate relative to the position of the support column by matching with the limiting structure, and can incline in different directions, the adjusting structure transfers the lifting structure to one side of the backlight, the lifting structure lifts the side of the photovoltaic panel, so that the photovoltaic panel can incline to one side of sunlight and just faces the sunlight irradiation angle, the illumination is acquired to the maximum extent, and the electric quantity obtained by conversion is further improved;

adopt above-mentioned portable photovoltaic freezer, this device is not limited by the angle that the freezer was placed, can adjust the photovoltaic board under various angles, makes the photovoltaic board just to the sun, and the in-process of adjusting, the photovoltaic board itself does not take place to rotate, also can not take place to scratch with adjacent photovoltaic board or surrounding gas building, vehicle etc. for conventional mounting means, this device is showing has promoted the flexibility of operation, has improved energy conversion efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a mobile photovoltaic refrigerator.

Fig. 2 is a schematic structural view of a cross section of a cabinet in a mobile photovoltaic refrigerator.

Fig. 3 is a schematic structural view of the bottom of a photovoltaic panel in a mobile photovoltaic refrigerator.

Fig. 4 is a schematic structural diagram of the cooperation of the adjusting structure and the lifting structure in the mobile photovoltaic refrigeration house.

In the figure: 1. a photovoltaic panel; 2. a limit structure; 21. a limit groove; 22. a limit rod; 23. a stop lever; 3. a cabinet body; 31. a door panel; 32. a control panel; 33. a heat preservation layer; 4. a base; 41. a wheel; 5. a refrigeration system; 51. a refrigerating outer machine; 52. a refrigerating inner machine; 6. a support column; 7. an adjustment structure; 71. a gear ring; 72. a mounting plate; 73. a sliding ball; 74. a positioning plate; 75. an endless track; 76. a sliding seat; 77. a transmission gear; 78. a primary driver; 8. a lifting structure; 81. a sliding sleeve; 82. a slide bar; 83. a support rod; 84. a thread cylinder; 85. a bidirectional screw; 86. a secondary driver; 9. and a two-way hinging seat.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a mobile photovoltaic refrigerator includes a base 4, a cabinet 3 and a photovoltaic panel 1; the base 4 is provided with a cabinet body 3, the surface of the cabinet body 3 is provided with a photovoltaic panel 1, the cabinet body 3 is provided with a support column 6, and the support column 6 is connected with the center position of the photovoltaic panel 1 through a bidirectional hinging seat 9; an adjusting structure 7 is connected between the cabinet body 3 and the photovoltaic panel 1, the adjusting structure 7 comprises a gear ring 71 surrounding the supporting column 6 and an annular track 75, the gear ring 71 is fixedly arranged on the surface of the cabinet body 3, and the annular track 75 is fixedly connected with the photovoltaic panel 1; the adjusting structure 7 comprises a sliding seat 76 which is slidably arranged on the gear ring 71, a transmission gear 77 which is meshed with the gear ring 71 is arranged in the sliding seat 76, a mounting plate 72 is arranged on the sliding seat 76, the mounting plate 72 is connected with a positioning plate 74 through a lifting structure 8, and the positioning plate 74 is slidably connected with an annular track 75;

the mounting plate 72 is provided with a primary driver 78, the primary driver 78 is connected with a transmission gear 77, two ends of the positioning plate 74 are respectively provided with a sliding ball 73, and the sliding balls 73 are embedded into the annular track 75; the lifting structure 8 comprises a bidirectional screw rod 85 and a sliding rod 82 which are parallel to each other, a supporting rod 83 which is in X-shaped cross connection is arranged between the bidirectional screw rod 85 and the sliding rod 82, a threaded cylinder 84 which is in threaded connection with the bidirectional screw rod 85 is arranged at one end of the supporting rod 83, and a sliding sleeve 81 which is in sliding connection with the sliding rod 82 is arranged at the other end of the supporting rod; the bidirectional screw rod 85 is rotatably connected with the mounting plate 72, the sliding rod 82 is fixedly connected with the positioning plate 74, and the mounting plate 72 is provided with a secondary driver 86 connected with the bidirectional screw rod 85;

a refrigerating system 5 is arranged in the cabinet body 3, and the refrigerating system 5 is used for refrigerating the interior of the cabinet body 3;

the surface of the cabinet body 3 is provided with a limiting structure 2 surrounding an adjusting structure 7, and the limiting structure 2 is used for preventing the photovoltaic panel 1 from rotating; the limiting structure 2 comprises limiting rods 22 and limiting grooves 21, the middle positions of the edges of the photovoltaic panel 1 are provided with limiting grooves 21 pointing to the central position of the photovoltaic panel 1, the limiting rods 22 are fixedly arranged on the surface of the cabinet body 3, and the limiting rods 22 penetrate through the limiting grooves 21 and are connected with stop rods 23.

The cabinet body 3 of the device is provided with a refrigerating system 5 for refrigerating the interior, the bottom is provided with a base 4 for supporting the cabinet body 3 to move, and the upper part is provided with a photovoltaic panel 1 for realizing photoelectric conversion and providing electric energy for the refrigerating system 5. Between the cabinet body 3 and the photovoltaic panel 1, a support column 6 and a bidirectional hinging seat 9 are connected, and the bidirectional hinging seat 9 enables the photovoltaic panel 1 to incline to different directions, but cannot rotate. Because adjust structure 7 can do annular removal between the cabinet body 3 and photovoltaic board 1, consequently in order to avoid photovoltaic board 1 to produce too big moment of torsion because of being driven by the external force of adjust structure 7, this device has still set up limit structure 2 at the edge, and limit structure 2 is used for restricting the position of photovoltaic board 1, when allowing photovoltaic board 1 to incline to all directions, prevents that photovoltaic board 1 from taking place to rotate. Photosensitive elements can be arranged on each side of the cabinet body 3 for matching and judging the sun direction.

The adjusting structure 7 is used for transferring the lifting structure 8, and can enable the sliding seat 76 to move on the gear ring 71 through rotation of the transmission gear 77, so that the position of the lifting structure 8 is changed, the position of the supporting photovoltaic panel 1 is changed, and the photovoltaic panel 1 can incline in different directions. The annular track 75 cooperates with the locating plate 74 for realizing sliding connection between the lifting structure 8 and the photovoltaic panel 1, and because the locating plate 74 and the mounting plate 72 are of strip-shaped structures, under the cooperation of the support column 6 and the adjusting structure 7, three points which are in triangular cooperation can be always kept between the photovoltaic panel 1 and the cabinet 3 for fixed connection, and the position stability of the photovoltaic panel 1 is ensured.

The primary driver 78 is used for driving the transmission gear 77 to rotate, so as to realize movement of the sliding seat 76, the primary driver 78 is generally a motor, other driving types can be used, and the sliding ball 73 is embedded into the annular track 75, so that the positioning plate 74 can move annularly, and meanwhile, the connection with the annular track 75 is maintained. The engagement of the sliding ball 73 and the annular track 75 may be achieved by other types of sliding rail and slider engagement structures. After the photovoltaic panel 1 is inclined, the corresponding positions of the annular rail 75 and the gear ring 71 are offset to a certain extent, but the normal matching can be maintained by the slight inclination of the lifting structure 8, and the deformation of the part can not cause the conflict of the internal structure. The bidirectional screw rod 85 and the sliding rod 82 are parallel to each other, the bidirectional screw rod 85 rotates, and the threaded cylinder 84 cannot rotate due to the limited position of the threaded cylinder 84, so that the two threaded cylinders 84 can synchronously approach or depart from each other, the crossing angle of the two support rods 83 is changed, the height of the bidirectional screw rod is adjusted, and the lifting of the positioning plate 74 is realized. The lifting structure 8 of the device is not limited to the above-described structure, and other structures with telescopic effects, such as a scissor structure matched with a hydraulic rod, a structure matched with a screw rod and a screw sleeve, or a structure directly matched with the hydraulic rod, can be used to meet the requirements of the device. The secondary driver 86 can drive the bidirectional screw rod 85 to rotate, so as to further realize the deformation of the lifting structure 8, and the secondary driver 86 is generally a motor, and other driving modes can be used.

The limiting structure 2 uses the limiting rod 22 with fixed position, the limiting rod 22 passes through the limiting groove 21, and the inclination of the photovoltaic panel 1 is not affected because the limiting groove 21 has a certain length, and when the photovoltaic panel 1 tries to twist under the action of external force, the limiting rod 22 can prevent the torsion, keep the stability of the photovoltaic panel 1, and the stop lever 23 is used for blocking the photovoltaic panel 1 and preventing the photovoltaic panel 1 from being turned over by external force such as strong wind. The limit structure 2 does not need to be installed on each side of the photovoltaic panel 1, and the stability of the photovoltaic panel 1 can be maintained only by at least one limit structure 2. The stop lever 22 may be replaced with a telescopic lever for reasons of road height limitation during transportation.

This device can change the direction of photovoltaic board 1 slope at any time as required, makes photovoltaic board 1 face the sun all the time, and furthest acquires solar energy, improves power supply ability, and in this device's the regulation in-process of device simultaneously, photovoltaic board 1 only inclines in the installation scope of self, and the removal that can lead to photovoltaic board 1 and other equipment or building conflict around does not take place to rotate etc. fully satisfies the mobile freezer and carries out photoelectric conversion's user demand in the limited space maximize.

As another embodiment of the present invention, referring to fig. 1 and 2, the refrigerating system 5 includes an inner refrigerating machine 52 installed inside the cabinet 3 and an outer refrigerating machine 51 installed outside the cabinet 3, and the inner refrigerating machine 52 is circularly connected with the outer refrigerating machine 51. The refrigerating inner machine 52 is circularly connected with the refrigerating outer machine 51 to take away the internal heat and discharge the heat from the refrigerating outer machine 51, so that the inside of the cabinet body 3 obtains a low-temperature environment.

Referring to fig. 1 and 2, an insulation layer 33 is installed inside the cabinet 3, a door panel 31 is installed on one side of the cabinet 3, and a control panel 32 is installed on the cabinet 3. The heat exchange of the inner heat preservation layer 33 can be reduced, a better heat preservation effect is achieved, the door plate 31 is used for the entrance and exit of workers and objects to be preserved, and the control panel 32 is used for operating and adjusting parameters such as the inner temperature.

Referring to fig. 1 and 2, a plurality of sets of wheels 41 are mounted on a surface of the base 4 away from the cabinet 3. The wheels 41 provide the device with a function of enabling flexible movement in a short distance.

The working principle of the invention is as follows:

the photovoltaic board 1 is installed on the cabinet body 3 of this device, install support column 6 on the cabinet body 3, the central point that support column 6 connects photovoltaic board 1 through two-way articulated seat 9 puts, install the ring gear 71 that encircles support column 6 on the cabinet body 3 simultaneously, annular track 75 is also installed to photovoltaic board 1 back, the lifting structure 8 of installing between ring gear 71 and annular track 75 can take place annular removal, after lifting structure 8 changes self position, raise one side of photovoltaic board 1, can make photovoltaic board 1 to different angle slope, make this device receive the restriction of the position that self was located, make photovoltaic board 1 just sun all the time, the maximized acquires solar energy, improve the electric quantity of conversion, keep the steady power supply of freezer. The adjustment process of the inclination angle of the photovoltaic panel 1 can not cause the photovoltaic panel 1 to rotate, so that the situation that the edge of the square photovoltaic panel 1 collides with surrounding buildings, vehicles or other photovoltaic panels 1 can not occur, the device is more flexible and convenient to use, and the unique use requirement of a refrigeration house is fully met.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The movable photovoltaic refrigeration house comprises a base, a cabinet body and a photovoltaic plate; the photovoltaic power generation device is characterized in that a cabinet body is arranged on the base, a photovoltaic panel is arranged on the surface of the cabinet body, a support column is arranged on the cabinet body, and the support column is connected with the central position of the photovoltaic panel through a two-way hinging seat; an adjusting structure is connected between the cabinet body and the photovoltaic panel, the adjusting structure comprises a gear ring surrounding the supporting column and an annular track, the gear ring is fixedly arranged on the surface of the cabinet body, and the annular track is fixedly connected with the photovoltaic panel; the adjusting structure comprises a sliding seat which is slidably arranged on the gear ring, a transmission gear which is meshed with the gear ring is arranged in the sliding seat, a mounting plate is arranged on the sliding seat, the mounting plate is connected with a positioning plate through a lifting structure, and the positioning plate is slidably connected with the annular track;

2. The mobile photovoltaic refrigeration house according to claim 1, wherein the refrigeration system comprises a refrigeration inner machine installed inside the cabinet body and a refrigeration outer machine installed outside the cabinet body, and the refrigeration inner machine is in cyclic connection with the refrigeration outer machine.

3. The mobile photovoltaic refrigerator of claim 1, wherein an insulation layer is installed inside the cabinet body, a door plate is installed on one side of the cabinet body, and a control panel is installed on the cabinet body.

4. The mobile photovoltaic freezer of claim 1, wherein the base has a plurality of sets of wheels mounted on a side thereof remote from the cabinet.