CN219531238U - Connection structure of solar heat collection equipment - Google Patents

Abstract

The utility model discloses a connecting structure of solar heat collecting equipment, which relates to the technical field of solar equipment and comprises a base body and a heat collecting plate, wherein the heat collecting plate is embedded on the base body, a transmission seat is arranged in the base body, the base body and the transmission seat are of arc-shaped structures, and water outlets corresponding to positions are arranged on two sides of the bottoms of the base body and the transmission seat. According to the photovoltaic device provided by the utility model, the sliding structure of the plate and seat combination is adopted, the device control system on the device is in butt joint with the background terminal, and the heat collecting plate can be controlled in a targeted manner at different time ends and different weather by the time threshold, the motor threshold and the light threshold set in the background terminal, so that the heat collecting plate can move along the position of the light, the heat collecting plate and the light can always keep the optimal position, and the maximization of the power generation efficiency of the heat collecting plate is effectively ensured.

Description

Connection structure of solar heat collection equipment

Technical Field

The utility model relates to the technical field of solar equipment, in particular to a connecting structure of solar heat collection equipment.

Background

Solar energy is a renewable energy source, natural resources can be effectively recycled and utilized through energy conversion, the application of solar energy on the market at present is mainly embodied in the aspects of water heaters and photovoltaic power generation, and the water heaters are subjected to heat exchange mainly through heat exchange tubes on heat collection plates, so that the temperature of water bodies is changed.

The heat collecting plate is a light-to-heat process, heat exchange is realized by matching heat-conducting metal pipes on the heat collecting plate with heat-absorbing materials, the traditional heat collecting plate is generally installed on a fixed support, the support is required to be adjusted to a proper angle in order to ensure the optimal effect of illumination, and the sun follows the principle of east-west falling, so that the optimal angle between light rays and the heat collecting plate can only be ensured by the heat collecting plate borne by the fixed support, the frame body cannot move, and when the light rays deviate from the heat collecting plate, the heat collecting plate cannot be positioned at an optimal position with the light rays at any time, so that the optimal heat exchanging effect cannot be achieved.

Disclosure of Invention

The present utility model has been made in view of the above-mentioned problems occurring in the conventional heat collecting plates.

Therefore, the utility model aims to provide a connecting structure of solar heat collecting equipment, which solves the problem of position limitation in the use process of a heat collecting plate.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model provides a connection structure of solar collector, includes pedestal and heat collecting plate, the gomphosis of heat collecting plate is on the pedestal, the inside of pedestal is provided with the transmission seat, pedestal and transmission seat all are the arc structure, pedestal and transmission seat bottom both sides all are equipped with the outlet that the position corresponds, be equipped with the clearance between pedestal and the transmission seat, be equipped with the sliding tray on the arc terminal surface of pedestal, all be provided with the slide on the both sides wall of pedestal, be provided with first power line transmission mouth and controller on the one end lateral wall of pedestal, be provided with the second power line transmission mouth on the one end lateral wall of transmission seat, first power line transmission mouth corresponds with second power line transmission mouth position, be provided with the transmission connecting piece that removes the heat collecting plate on the gomphosis terminal surface, the transmission connecting piece comprises fixing base, connecting seat, motor and drive gear, the connecting seat gomphosis is in the clearance between pedestal and the transmission seat, the connecting seat passes through the sliding tray and is connected with the heat collecting plate, the fixing base is located the outside of pedestal both sides, be provided with first power line transmission mouth and controller on the one end through the support and the connecting seat, the motor runs through the fixing base and the transmission link, the transmission link is connected with the other end.

Preferably, the arc-shaped surface of the transmission seat is provided with a strip-shaped tooth socket and a line connection port, the strip-shaped tooth socket is positioned at two sides of the line connection port and is meshed with the transmission gear, a wire fixing buckle is arranged in the line connection port, and the wire fixing buckle is rotationally connected to the inner wall of the line connection port.

Further, the slide way is all with the clearance intercommunication between pedestal and the transmission seat with the sliding tray, the radian of slide way and sliding tray is the same, the both sides of sliding tray are provided with spacing spout, the connecting seat top is provided with the connection end, the connection end is integrated with the connecting seat and is constructed, the connection end is the same with the sliding tray size, and the gomphosis is connected, the connection end top is equipped with first line body through hole, the both sides of connection end are equipped with the spacing seat of spheroid, the spacing seat of spheroid is connected with spacing spout gomphosis.

Preferably, the connecting seat and the connecting end are hollow structures, a second wire body through hole is formed in the bottom of the connecting seat, a wire spool is arranged in the connecting seat, a return spring is arranged on the wire spool, the fixed end of the wire spool penetrates through the first wire body through hole and is connected with the electric power interface of the heat collecting plate through a wire body, and the winding end of the wire spool is sequentially connected with the second wire body through hole, the first electric power line transmission port and the second electric power transmission port in a penetrating mode.

The solar heat collection equipment control system is arranged in a controller, a light sensor is arranged on the controller, the motor and the light sensor are connected with the controller through lines, and the controller is remotely connected with a background terminal through a network;

preferably, the device control system comprises a network module, an information transmission module, a data conversion module and a device control module, wherein the network module realizes remote docking of the system and the background terminal by means of a network, the information transmission module transmits the converted light sensation signals and receives execution instructions sent by the background terminal, the data conversion module is used for converting analog signals, and the device control module adaptively controls the motor according to the execution instructions.

In the technical scheme, the utility model has the technical effects and advantages that:

the heat collecting plate adopts a plate and seat combined structure, meanwhile, the plates and the seats adopt a sliding mode, the heat collecting plate and the light rays always keep the optimal positions through the butt joint of the equipment control system on the equipment and the background terminal, the heat collecting plate can be controlled in a targeted mode at different time ends and different weather by the time threshold value, the motor threshold value and the light ray threshold value which are set in the background terminal, and the heat collecting plate can move along the positions of the light rays, so that the heat exchanging efficiency of the heat collecting plate is effectively maximized.

The seat body and the plate body adopt independent installation forms, and the circuit connection structure and the drainage structure are designed in the seat body and the plate body, so that the seat is more humanized, a photovoltaic plate can be installed besides the heat collecting plate, the power generation efficiency of the photovoltaic plate is enhanced according to the positions of light rays, and the multipurpose effect is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a diagram of the overall connection architecture of the present utility model;

FIG. 2 is a view showing a connection structure of the heat collecting plate according to the present utility model;

FIG. 3 is a schematic view of the internal structure of the seat of the present utility model;

FIG. 4 is a schematic view of a connecting seat according to the present utility model;

fig. 5 is an overall control flow chart of the present utility model.

Reference numerals illustrate:

1. a base; 2. a heat collecting plate; 3. a sliding groove; 4. a slideway; 5. a controller; 6. a fixing seat; 7. a water outlet; 8. a connecting seat; 9. a motor; 10. a transmission gear; 11. a transmission seat; 12. a strip-shaped tooth slot; 13. a line connection port; 14. fixing the wire buckle; 15. a connecting end; 16. a sphere limit seat; 17. and a wire spool.

Description of the embodiments

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

The embodiment of the utility model discloses a connecting structure of solar heat collection equipment.

The utility model provides a connecting structure of solar heat collecting equipment as shown in figures 1-5, which comprises a base body 1 and a heat collecting plate 2, wherein the heat collecting plate 2 is embedded on the base body 1, and the specific description of the base body and the heat collecting plate is as follows;

the transmission seat 11 is arranged in the seat body 1, the seat body 1 and the transmission seat 11 are of arc structures, water outlets 7 corresponding to positions are formed in two sides of the bottoms of the seat body 1 and the transmission seat 11, a gap is formed between the seat body 1 and the transmission seat 11, a sliding groove 3 is formed in the arc end face of the seat body 1, sliding ways 4 are formed in two side walls of the seat body 1, a first power line transmission port and a controller 5 are formed in one side wall of the seat body 1, a second power line transmission port is formed in one side wall of the transmission seat 11, and the first power line transmission port corresponds to the second power line transmission port in position;

the embedded end face of the heat collecting plate 2 is provided with a transmission connecting piece for moving the heat collecting plate 2, the transmission connecting piece is composed of a fixed seat 6, a connecting seat 8, a motor 9 and a transmission gear 10, the connecting seat 8 is embedded in a gap between the seat body 1 and the transmission seat 11, the connecting seat 8 is connected with the heat collecting plate 2 through a sliding groove 3, the fixed seat 6 is positioned outside slide ways 4 on two sides of the seat body 1, two sides of the fixed seat 6 are fixed with the connecting seat 8 through support penetrating slide ways 4, the transmission gear 10 is positioned between the connecting seat 8 and the slide ways 4, the motor 9 is fixed on the fixed seat 6, a transmission end of the motor 9 penetrates through the fixed seat 6 and the slide ways 4 and is connected with one end of the transmission gear 10, a transmission rod is arranged at the other end of the transmission gear 10, and the transmission rod is connected with the connecting seat 8 through a bearing;

the heat collecting plate 2 is internally provided with a heat collecting pipe, two ends of the heat collecting pipe are provided with an inlet and an outlet, and the heat collecting pipe is communicated with the solar water tank through connection of the inlet and the outlet by virtue of a hose;

it should be noted that, a time threshold and a motor threshold are set in the background terminal, the time threshold is the standard time of sunrise and sunset in four seasons, specifically referring to fig. 5, the motor threshold is the motor rotation mode and rotation rate, the rotation rate is a fixed value, and for the motor rotation mode, in order to better match the trend of the sun (east-west), the time/min is used as the standard;

when the heat collecting plate is installed and used, for example, in rainy days and cloudy days, the light threshold value is used as a standard value, if the light threshold value is lower than the standard value, the background terminal stops controlling the motor 9, and when the light sensor detects light again, the background terminal calculates the difference value between the current time and the initial time to obtain the running times of the motor 9, so that the motor 9 is controlled;

when the heat collecting plate 2 is installed, the motor 9 is controlled through the equipment control system according to the standard of a background terminal, the driving connecting piece is controlled through the motor 9, the heat collecting plate 2 is driven to move in an arc shape on the seat body 1 through gear meshing transmission, sunlight irradiation is ensured to correspond to the position of the heat collecting plate 2, and the maximization of heat collection is realized;

in order to ensure the consistency of the transmission structure of the heat collecting plate, as shown in fig. 1, the slideway 4 and the sliding groove 3 are communicated with the gap between the seat body 1 and the transmission seat 11, the radian of the slideway 4 is the same as that of the sliding groove 3, and the two sides of the sliding groove 3 are provided with limiting sliding grooves;

specifically, as the heat collecting plate 2 moves in an arc shape according to the seat body 1, when the motor drives the transmission connecting piece to move, the heat collecting plate 2 and the transmission connecting piece can be ensured to correspond to each other under the condition that the radian is the same, namely the running track is the same;

in order to ensure the stability of the power line in the process of moving the plate body when the plate body is used as a photovoltaic plate, as shown in fig. 3, a strip-shaped tooth socket 12 and a line connecting port 13 are arranged on the arc-shaped surface of the transmission seat 11, the strip-shaped tooth socket 12 is positioned on two sides of the line connecting port 13 and is meshed with the transmission gear 10, a line fixing buckle 14 is arranged in the line connecting port 13, and the line fixing buckle 14 is rotatably connected to the inner wall of the line connecting port 13;

further, the fixing wire buckle can fix the external connection part of the circuit, and the wire spool with the return spring in the connecting seat 8 can ensure free extension and retraction of the wire body, and meanwhile, the external connection part is fixed, so that the circuit of the connection part of external power equipment cannot be influenced in the moving process of the photovoltaic panel 2;

in order to ensure the stability in the sliding process and the stability of the connection of the transmission gear and the bar-shaped tooth slot, as shown in fig. 2-3, a connecting end head 15 is arranged at the top of the connecting seat 8, the connecting end head 15 and the connecting seat 8 are of an integrated structure, the connecting end head 15 and the sliding groove 3 are the same in size and are connected in a jogged mode, a first wire through hole is arranged at the top of the connecting end head 15, sphere limiting seats 16 are arranged at two sides of the connecting end head 15, and the sphere limiting seats 16 are connected in a jogged mode with the limiting sliding grooves;

further stated, the whole of the connecting seat 8 is limited by the embedding of the sphere limiting seat 16 and the limiting chute, and the heat collecting plate 2 moves along the moving track of the connecting seat 8, so that the connection stability of the transmission gears 10 at the two sides of the connecting seat 8 and the movement stability of the heat collecting plate 2 are effectively ensured;

in order to install the photovoltaic panel, in the process of moving the panel body, as shown in fig. 3-4, the connecting seat 8 and the connecting end 15 are hollow structures, a second wire through hole is formed in the bottom of the connecting seat 8, a wire spool 17 is arranged in the connecting seat 8, a return spring is arranged on the wire spool 17, the fixed end of the wire spool 17 penetrates through the first wire through hole through a wire body to be connected with a power interface of the photovoltaic panel, and the winding end of the wire spool 17 is sequentially connected with the second wire through hole, the first power line transmission port and the second power transmission port in a penetrating manner;

specifically, in the moving process of the photovoltaic panel, the wire spool 17 with the return spring can freely stretch and retract the wire body under the action of the return spring, and the wire fixing buckle 14 is matched, so that the electric power transmission cannot be influenced in the moving process of the photovoltaic panel;

finally, in order to realize the intellectualization of control, as shown in fig. 5, the intelligent control system comprises a device control system, wherein the device control system is installed in a controller 5, a light sensor is arranged on the controller 5, a motor 9 and the light sensor are connected with the controller 5 through lines, the controller 5 is remotely connected with a background terminal through a network, the device control system comprises a network module, an information transmission module, a data conversion module and a device control module, the network module realizes the remote butt joint of the system and the background terminal by means of the network, the information transmission module transmits a light sensing signal after conversion and receives an execution instruction sent by the background terminal, the data conversion module is used for converting between analog signals, and the device control module adaptively controls the motor according to the execution instruction;

furthermore, the remote butt joint with the background terminal is realized through the equipment control system, the remote control is realized, meanwhile, the background terminal is limited by a time threshold, a motor threshold and a light threshold, and the heat collecting plate 2 can correspondingly control at any time and in the weather, so that the intellectualization is enhanced.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (6)

1. The connecting structure of the solar heat collecting device is characterized by comprising a base body (1), a heat collecting plate (2) and a device control system, wherein the heat collecting plate (2) is embedded on the base body (1);

the novel power transmission device is characterized in that a transmission seat (11) is arranged inside the seat body (1), the seat body (1) and the transmission seat (11) are of arc structures, water outlets (7) corresponding to the positions are formed in two sides of the bottoms of the seat body (1) and the transmission seat (11), a gap is formed between the seat body (1) and the transmission seat (11), sliding grooves (3) are formed in the arc-shaped end faces of the seat body (1), sliding ways (4) are formed in two side walls of the seat body (1), a first power line transmission port and a controller (5) are formed in one side wall of the seat body (1), a second power line transmission port is formed in one side wall of the transmission seat (11), and the first power line transmission port corresponds to the second power line transmission port in position;

the heat collecting plate (2) is provided with a transmission connecting piece for moving the heat collecting plate (2) on the embedded end face, the transmission connecting piece is composed of a fixed seat (6), a connecting seat (8), a motor (9) and a transmission gear (10), the connecting seat (8) is embedded in a gap between the seat body (1) and the transmission seat (11), the connecting seat (8) is connected with the heat collecting plate (2) through a sliding groove (3), the fixed seat (6) is positioned outside sliding ways (4) on two sides of the seat body (1), two sides of the fixed seat (6) penetrate through the sliding ways (4) through a support and are fixed with the connecting seat (8), the transmission gear (10) is positioned between the connecting seat (8) and the sliding ways (4), the motor (9) is fixed on the fixed seat (6), the transmission end of the motor (9) penetrates through the fixed seat (6) and the sliding ways (4), and is connected with one end of the transmission gear (10), and the other end of the transmission gear (10) is provided with a transmission rod, and the transmission rod is connected with the connecting seat (8) through a bearing.

2. The connection structure of a solar heat collecting device according to claim 1, wherein the slide way (4) and the sliding groove (3) are communicated with a gap between the base body (1) and the transmission seat (11), the radian of the slide way (4) is the same as that of the sliding groove (3), and limiting sliding grooves are arranged on two sides of the sliding groove (3).

3. The connection structure of a solar heat collecting device according to claim 1, wherein a bar-shaped tooth slot (12) and a circuit connection port (13) are arranged on the arc-shaped surface of the transmission seat (11), the bar-shaped tooth slot (12) is positioned at two sides of the circuit connection port (13) and is meshed with the transmission gear (10), a wire fixing buckle (14) is arranged in the circuit connection port (13), and the wire fixing buckle (14) is rotatably connected to the inner wall of the circuit connection port (13).

4. The connection structure of solar heat collection equipment according to claim 2, wherein a connection end (15) is arranged at the top of the connection seat (8), the connection end (15) and the connection seat (8) are of an integrated structure, the connection end (15) and the sliding groove (3) are identical in size and are connected in a jogged mode, a first wire body through hole is formed in the top of the connection end (15), ball limiting seats (16) are arranged on two sides of the connection end (15), and the ball limiting seats (16) are connected with limiting sliding grooves in a jogged mode.

5. The connection structure of a solar heat collecting device according to claim 4, wherein the connection base (8) and the connection end (15) are hollow structures, a second wire body through hole is formed in the bottom of the connection base (8), a wire spool (17) is arranged in the connection base (8), a return spring is arranged on the wire spool (17), a fixed end of the wire spool (17) penetrates through the first wire body through hole to be connected with a power interface of the heat collecting plate (2) through a wire body, and a winding end of the wire spool (17) is sequentially connected with the second wire body through hole, the first power line transmission port and the second power transmission port in a penetrating mode.

6. The connection structure of solar heat collection equipment according to claim 1, wherein the equipment control system is installed in a controller (5), a light sensor is arranged on the controller (5), the motor (9) and the light sensor are connected with the controller (5) through lines, and the controller (5) is remotely connected with a background terminal through a network;

the equipment control system comprises a network module, an information transmission module, a data conversion module and an equipment control module;

the network module realizes remote butt joint of the system and the background terminal by means of a network;

the information transmission module transmits the converted light sensation signals and receives execution instructions sent by the background terminal;

the data conversion module is used for converting between analog signals;

and the equipment control module adaptively controls the motor according to the execution instruction.