CN215892811U - Solar energy thermal engineering remote control system - Google Patents

Abstract

The utility model discloses a solar photothermal engineering remote control system which comprises a shell, wherein a control equipment main body is arranged in the shell; the control equipment main body can generate a large amount of heat after long-time work, part of the heat is dissipated out of the shell through the ventilation openings on the two sides of the shell, water in the water tank flows into the water pipe through the connecting pipe, the heat absorption layer in the water pipe can absorb the large amount of heat generated by the control equipment main body, the heat is absorbed by the heat absorption layer and then is transferred into the water in the water pipe, the cooling layer in the water pipe can cool the water in the water pipe, and the cooled water can dissipate the heat of the control equipment main body again, so that the circulating heat dissipation of the control equipment main body can be realized; the device can prevent the control equipment main body from generating a large amount of heat for a long time and damaging parts in the shell, and the practicability of the device is improved.

Description

Solar energy thermal engineering remote control system

Technical Field

The utility model relates to the technical field of solar optothermal, in particular to a solar optothermal engineering remote control system.

Background

The solar water heater is a heating device for converting solar energy into heat energy, and heats water from low temperature to high temperature so as to meet the requirement of hot water in life and production of people.

The existing solar water heater is controlled by a remote control system, the remote control system of the solar water heater mainly comprises a shell and a control device main body, the shell plays a role in protecting the control device main body, but the existing remote control system of the solar water heater has poor heat dissipation effect, the control device main body easily generates a large amount of heat, and the heat cannot be scattered for a long time and can damage the inside parts.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defect that the control equipment of a solar water heater remote control system in the prior art is poor in heat dissipation, and provides a solar thermal engineering remote control system.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a solar thermal engineering remote control system comprises a shell, wherein a control equipment main body is arranged in the shell;

the casing internal fixation is provided with the fixed plate, the fixed setting of controlgear main part is in on the fixed plate, the outside water pipe that is the U-shaped of controlgear main part coils, be provided with heat-sink shell and cooling layer in the water pipe, the cooling layer is located in the heat-sink shell, the fixed water tank that is provided with in top of casing, run through the bottom of water tank have extend to the inside connecting pipe of casing, the connecting pipe is kept away from the one end of water tank with one side through connection of water pipe

Preferably, a damping mechanism is further arranged in the shell and is located at the bottom of the control device main body.

Preferably, damper is including seting up the recess of diapire in the casing, the fixed first cushion that is provided with in bottom of recess, the fixed two springs that are provided with on the first cushion, the fixed second cushion that is provided with in top of two springs, the top of second cushion with fixed plate fixed connection.

Preferably, the both sides of casing have seted up the vent, the detachable dust screen of installing of inside wall of vent.

Preferably, the two ends of the water pipe are fixedly arranged at the top end of the fixing plate, the two ends of the water pipe are of sealing structures, a fixing frame is fixedly arranged on one side of the water pipe, and one end, far away from the water pipe, of the fixing frame is fixedly connected with the inner top wall of the shell.

Preferably, two universal wheels are fixedly arranged at the bottom of the shell.

Compared with the prior art, the utility model has the beneficial effects that:

1. this device can realize the circulation heat dissipation to the controlgear main part through heat-absorbing layer, cooling layer and the water in the water pipe, prevents that controlgear main part work from producing a large amount of heats for a long time, causes the damage to spare part in the casing, has increased the practicality of device.

2. First cushion, second cushion and spring among this device realize the shock attenuation, when preventing that the casing from receiving great vibrations, cause the damage to the spare part of the inside, have further increased the practicality of device.

Drawings

FIG. 1 is a schematic structural diagram of a solar photothermal engineering remote control system provided by the utility model;

FIG. 2 is a schematic view of a partial structure of a solar photothermal engineering remote control system according to the present invention;

fig. 3 is a schematic structural view of a water pipe according to the present invention.

In the figure: 1. a housing; 2. a control apparatus main body; 3. a fixing plate; 4. a groove; 5. a spring; 6. a first elastic pad; 7. a second elastic pad; 8. a dust screen; 9. a water pipe; 10. a water tank; 11. a connecting pipe; 12. a universal wheel; 13. a heat absorbing layer; 14. a cooling layer; 15. a fixed mount; 16. and a vent.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a solar photothermal engineering remote control system comprises a shell 1, a control device main body 2 is placed in the shell 1, two sides of the shell 1 are provided with vents 16, the inner side wall of the vent 16 is detachably provided with a dust screen 8, a part of heat emitted by the control device main body 2 is emitted from the vent 16, the dust screen 8 prevents external dust from entering the shell 1 and damaging parts, two universal wheels 12 are fixedly arranged at the bottom of the shell 1, and the universal wheels 12 facilitate movement of the shell 1;

a fixed plate 3 is fixedly arranged in a shell 1, a control device main body 2 is fixedly arranged on the fixed plate 3, a U-shaped water pipe 9 is coiled outside the control device main body 2, in order to fix the water pipe 9, two ends of the water pipe 9 are fixedly arranged at the top end of the fixed plate 3, two ends of the water pipe 9 are sealed by sealing plugs, one side of the water pipe 9 is fixedly provided with a fixed frame 15, one end of the fixed frame 15 far away from the water pipe 9 is fixedly connected with the inner top wall of the shell 1, the fixed frame 15 further strengthens the fixation of the water pipe 9, a heat absorption layer 13 and a cooling layer 14 are arranged in the water pipe 9, the cooling layer 14 is positioned in the heat absorption layer 13, the top end of the shell 1 is fixedly provided with a water tank 10, a connecting pipe 11 extending into the shell 1 penetrates through the bottom of the water tank 10, one end of the connecting pipe 11 far away from the water tank 10 is connected with one side of the water pipe 9 in a penetrating way, and the water pipe 9 is filled through the water tank 10, the heat absorption layer 13 in the water pipe 9 can absorb the heat emitted by the control equipment main body 2, the heat is absorbed and then transmitted to the water in the water pipe 9, and the water absorbing the heat is cooled by the cooling layer 14, so that the circulating heat dissipation of the control equipment main body 2 can be realized.

Wherein, still be provided with damper in the casing 1, damper is located the bottom of controlgear main part 2, damper is including seting up the recess 4 of diapire in casing 1, the fixed first cushion 6 that is provided with in bottom of recess 4, the fixed two springs 5 that are provided with on the first cushion 6, the fixed second cushion 7 that is provided with in top of two springs 5, the top and the 3 fixed connection of fixed plate of second cushion 7, when casing 1 receives vibrations, first cushion 6 and the second cushion 7 can some vibrations power of separation, reach absorbing effect, spring 5 can slope, can offset with the vibrations power, further realize the antidetonation.

The working principle of the utility model is as follows: the control equipment main body 2 can generate a large amount of heat after long-time work, a part of heat is dissipated out of the shell 1 through the ventilation openings 16 on the two sides of the shell 1, water in the water tank 10 flows into the water pipe 9 through the connecting pipe 11, the heat absorption layer 13 in the water pipe 9 can absorb a large amount of heat generated by the control equipment main body 2, the heat is absorbed by the heat absorption layer 13 and then is transferred into the water in the water pipe 9, the cooling layer 14 in the water pipe 9 can cool the water in the water pipe 9, the cooled water can dissipate the heat of the control equipment main body 2 again, and then the circulating heat dissipation of the control equipment main body 2 can be realized;

the dust screen 8 detachably mounted on the inner side wall of the ventilation opening 16 prevents external dust from entering the shell 1 and damaging parts, and the dust screen 8 can be replaced by detachably mounting the dust screen 8 to prevent the dust on the dust screen 8 from entering the shell 1;

when the shell 1 is vibrated, the first elastic cushion 6 and the second elastic cushion 7 can obstruct some vibration force to achieve the effect of shock absorption, and the spring 5 can be inclined to offset the vibration force, so that shock resistance is further achieved.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the designated device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. A solar thermal engineering remote control system comprises a shell (1), and is characterized in that a control equipment main body (2) is placed in the shell (1);

casing (1) internal fixation is provided with fixed plate (3), controlgear main part (2) are fixed to be set up on fixed plate (3), controlgear main part (2) outside coils has water pipe (9) that are the U-shaped, be provided with heat-absorbing layer (13) and cooling layer (14) in water pipe (9), cooling layer (14) are located in heat-absorbing layer (13), the fixed water tank (10) that is provided with in top of casing (1), the bottom of water tank (10) is run through and is extended to connecting pipe (11) inside casing (1), connecting pipe (11) are kept away from the one end of water tank (10) with one side through connection of water pipe (9).

2. The solar optothermal engineering remote control system of claim 1, wherein a shock absorption mechanism is further disposed in the housing (1), and the shock absorption mechanism is located at the bottom of the control device body (2).

3. The solar photothermal engineering remote control system according to claim 2, wherein the damping mechanism comprises a groove (4) formed in the inner bottom wall of the housing (1), a first elastic pad (6) is fixedly arranged at the bottom of the groove (4), two springs (5) are fixedly arranged on the first elastic pad (6), a second elastic pad (7) is fixedly arranged at the top ends of the two springs (5), and the top end of the second elastic pad (7) is fixedly connected with the fixing plate (3).

4. The solar optothermal engineering remote control system of claim 1, wherein ventilation openings (16) are formed in two sides of the housing (1), and a dust screen (8) is detachably mounted on the inner side walls of the ventilation openings (16).

5. The solar optothermal engineering remote control system of claim 1, wherein two ends of the water pipe (9) are fixedly arranged at the top end of the fixing plate (3), two ends of the water pipe (9) are sealed structures, a fixing frame (15) is fixedly arranged on one side of the water pipe (9), and one end, far away from the water pipe (9), of the fixing frame (15) is fixedly connected with the inner top wall of the shell (1).

6. The solar optothermal engineering remote control system of claim 1, wherein two universal wheels (12) are fixedly arranged at the bottom of the housing (1).

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