CN212746944U - Solar heat collection and utilization device - Google Patents

Abstract

The utility model discloses a solar heat collection and utilization device, which comprises a water collection tank; the bottom both ends of header tank respectively install a support column, the inside of support column is hollow water storage district, and this water storage district communicates with the header tank of top to the closing plate is still installed to the bottom of support column, installs a rotatable vertical axis on this closing plate. The solar energy is used without region limitation, can be directly developed and utilized, is convenient for collection, does not need to be mined and transported, reduces the consumption of fossil fuel, does not discharge atmospheric pollutants, and can greatly reduce the energy consumption.

Description

Solar heat collection and utilization device

Technical Field

The utility model relates to a solar energy utilization technical equipment field, concretely relates to solar energy collection utilizes device.

Background

The solar energy is the most inexhaustible energy in the prior art, and a plurality of technical devices which work by utilizing the solar energy appear, for example, a device which is commonly used in the prior art and used for collecting solar energy to heat hot water can perfectly utilize the solar energy in summer and autumn.

The solar device for heating hot water that has now sets up thermal-collecting tube and water tank more, and water passes through solar energy high energy radiant heating in the heat collector, but the inside rivers mobility of water tank is relatively poor in this kind of equipment of current, will lead to the efficiency of water heating not high, and the radiating area that the water body shines is also less in current equipment moreover, and heating efficiency is not high, and most water tank volume is limited moreover, and the water yield of storing is less.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a solar energy collection utilizes device to the not enough of prior art existence.

The technical scheme is as follows: the utility model provides a technical scheme that the problem adopted does: a solar heat collection and utilization device comprises a water collection tank; the water collecting tank is characterized in that two support columns are respectively installed at two ends of the bottom of the water collecting tank, a hollow water storage area is arranged in each support column and is communicated with the water collecting tank above the support column, a sealing plate is installed at the bottom of each support column, a rotatable vertical shaft is installed on each sealing plate, the vertical shaft penetrates through the sealing plate upwards and extends into the water storage area and is provided with a helical blade, and a transmission assembly is correspondingly installed at the lower end of each vertical shaft; the water collection tank side slant downwardly extending install a slope mesa, and the slope mesa is gone up then the embedded drainage thermal-collecting tube of installing, the drainage thermal-collecting tube set up for the S-shaped extension, the pipeline setting and the water collection tank parallel arrangement of drainage thermal-collecting tube, the upper end pipeline and the water collection tank intercommunication of drainage thermal-collecting tube, and the lower extreme pipeline both sides of drainage thermal-collecting tube respectively install the communicating pipe of a horizontal setting, the position that sets up of two communicating pipes corresponds with the position of two support columns, communicating pipe transversely install on the support column and be linked together with the water storage district in the support column.

Preferably, the transmission assembly comprises a transmission motor arranged on the outer side of the bottom of the support column, the transmission motor is transversely arranged, a transmission rod of the transmission motor extends into the lower part of the sealing plate, the transversely arranged transmission rod and the vertically arranged vertical shaft are correspondingly arranged, meshed bevel gears are arranged at the end parts of the transversely arranged transmission rod and the vertically arranged vertical shaft, and the spiral blades are correspondingly driven to rotate by the driving of the transmission motor and the transmission of the bevel gears.

Preferably, the diameter of the supporting column is set to be 5-10cm, and the height of the supporting column is set to be 80-100 cm; and the support column and the water collecting tank are arranged to be of a detachable installation structure.

Preferably, the bottom of the drainage heat collecting pipe is also connected with a water pipe joint.

Preferably, the inclined table top is of a plastic table top structure, the drainage heat collecting tube is of a glass tube structure, and a heat absorbing film is arranged inside the tube body.

Preferably, the lower end of the inclined table top is also provided with a support frame, and the support frame is flush with the lower end surface of the support column.

Has the advantages that: compared with the prior art, the utility model, have following advantage:

(1) the outer side of the water collecting tank in the device is provided with the inclined table top which is mainly used for installing the drainage heat collecting tube, the drainage heat collecting tube is arranged on the inclined table top in an S-shaped extending mode, after the water in the water tank is filled, one part of water is dispersed in the drainage heat collecting tube, the drainage heat collecting tube absorbs solar energy and heats water in the tube body, and therefore the water can be more easily absorbed and heated after being dispersed; the solar energy in the device has no region limitation, can be directly developed and utilized, is convenient to collect, does not need to be exploited and transported, reduces the consumption of fossil fuel, does not discharge atmospheric pollutants, and can greatly reduce the energy consumption;

(2) the supporting columns arranged at the lower end of the water collecting tank in the device are of a hollow structure, and a water storage area is arranged in the supporting columns, so that the water quantity of the whole device can be correspondingly increased, a large amount of water can be stored in the two supporting columns, and the hollow supporting columns are arranged to facilitate water circulation and installation of a transmission assembly;

(3) through the header tank in this device, drainage thermal-collecting tube and support column form the circulation path of water, and the power of water circulation then comes from driving motor, driving motor transversely sets up, through setting up two helical gears and vertical axis transmission installation, helical blade is installed again to the upper end of vertical axis, thereby can drive helical blade rotatory, promote rivers upwards to flow into the header tank from the water storage district of support column, flow into the drainage thermal-collecting tube from the header tank again, it heaies up under solar irradiation to flow into drainage thermal-collecting tube normal water, the rethread intercommunication duct flow gets back to in the water storage district of support column, after the circulation many times like this, the bulk temperature of water rises very fast, solar energy absorption efficiency and water intensification efficiency have been increased.

Drawings

FIG. 1 is a view of the structure of the present invention;

fig. 2 is a top view of the present invention.

Detailed Description

The present invention will be further clarified by the following embodiments with reference to the attached drawings, which are implemented on the premise of the technical solution of the present invention, and it should be understood that these embodiments are only used for illustrating the present invention and are not used for limiting the scope of the present invention.

As shown in fig. 1 and 2, a solar heat collection and utilization device includes a water collection tank 1; two ends of the bottom of the water collecting tank 1 are respectively provided with a supporting column 2, the inside of each supporting column 2 is a hollow water storage area 21, each water storage area 21 is communicated with the water collecting tank 1 above the corresponding supporting column 2, the bottom of each supporting column 2 is also provided with a sealing plate 22, a rotatable vertical shaft 23 is arranged on each sealing plate 22, each vertical shaft 23 upwards penetrates through each sealing plate 22 to extend into each water storage area 21 and is provided with a helical blade 24, and the lower end of each vertical shaft 23 is correspondingly provided with a transmission component; an inclined table top 3 is installed in the downward extension of water collection tank 1 side slant, and then embedded drainage thermal-collecting tube 4 of installing on the inclined table top 3, drainage thermal-collecting tube 4 extends the setting for the S-shaped, drainage thermal-collecting tube 4 'S pipeline setting and water collection tank 1 parallel arrangement, drainage thermal-collecting tube 4' S upper end pipeline and water collection tank 1 intercommunication, and drainage thermal-collecting tube 4 'S lower extreme pipeline both sides respectively install the communicating pipe 5 of a horizontal setting, two communicating pipe 5 set up the position and correspond with two support column 2' S position, communicating pipe 5 transversely install on support column 2 and be linked together with the water storage area 21 in the support column 2.

The transmission assembly comprises a transmission motor 6 arranged on the outer side of the bottom of the support column 2, the transmission motor 6 is transversely placed, a transmission rod of the transmission assembly extends into the lower part of the sealing plate 22, the transmission rod transversely arranged and a vertical shaft 23 vertically arranged are correspondingly arranged, the end parts of the transmission rod and the vertical shaft are provided with meshed bevel gears 7, and the spiral blades 24 are driven to rotate correspondingly through the driving of the transmission motor 6 and the transmission of the bevel gears 7.

The diameter of the support column 2 is set to be 5-10cm, and the height of the support column 2 is set to be 80-100 cm; the support column 2 and the water collecting tank 1 are arranged to be of a detachable installation structure; the bottom of the drainage heat collecting pipe 4 is also connected with a water pipe joint 8; the inclined table-board 3 is of a plastic table-board structure, the drainage heat collecting tube 4 is of a glass tube structure, and a heat absorbing film is arranged inside the tube body; the lower end of the inclined table top is also provided with a support frame which is arranged flush with the lower end surface of the support column 2.

The outer side of the water collecting tank in the device is provided with the inclined table top which is mainly used for installing the drainage heat collecting tube, the drainage heat collecting tube is arranged on the inclined table top in an S-shaped extending mode, after the water in the water tank is filled, one part of water is dispersed in the drainage heat collecting tube, the drainage heat collecting tube absorbs solar energy and heats water in the tube body, and therefore the water can be more easily absorbed and heated after being dispersed; the solar energy is used without region limitation, can be directly developed and utilized, is convenient for collection, does not need to be mined and transported, reduces the consumption of fossil fuel, does not discharge atmospheric pollutants, and can greatly reduce the energy consumption.

The support column of header tank lower extreme installation sets up to hollow structure in this device, and inside sets up to the water storage district, can correspondingly increase the water yield of whole device like this, can store a lot of water in two support columns more, sets up hollow support column moreover and does benefit to hydrologic cycle and installation drive assembly.

Through the header tank in this device, drainage thermal-collecting tube and support column form the circulation path of water, and the power of water circulation then comes from driving motor, driving motor transversely sets up, through setting up two helical gears and vertical axis transmission installation, helical blade is installed again to the upper end of vertical axis, thereby can drive helical blade rotatory, promote rivers upwards to flow into the header tank from the water storage district of support column, flow into the drainage thermal-collecting tube from the header tank again, it heaies up under solar irradiation to flow into drainage thermal-collecting tube normal water, the rethread intercommunication duct flow gets back to in the water storage district of support column, after the circulation many times like this, the bulk temperature of water rises very fast, solar energy absorption efficiency and water intensification efficiency have been increased.

The above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the invention and the appended claims, and all equivalent changes and modifications made according to the claims should be included in the scope of the present invention.

Claims (6)

1. A solar heat collection and utilization device is characterized in that: comprises a water collecting tank (1); the water collecting tank is characterized in that two supporting columns (2) are respectively installed at two ends of the bottom of the water collecting tank (1), a hollow water storage area (21) is arranged inside each supporting column (2), the water storage area (21) is communicated with the water collecting tank (1) above the supporting column, a sealing plate (22) is further installed at the bottom of each supporting column (2), a rotatable vertical shaft (23) is installed on each sealing plate (22), each vertical shaft (23) upwards penetrates through each sealing plate (22) to extend into the water storage area (21) and is provided with a helical blade (24), and a transmission assembly is correspondingly installed at the lower end of each vertical shaft (23); header tank (1) side slant downwardly extending install a slope mesa (3), and slope mesa (3) go up then the embedded drainage thermal-collecting tube (4) of installing, drainage thermal-collecting tube (4) extend the setting for the S-shaped, the pipeline setting and header tank (1) parallel arrangement of drainage thermal-collecting tube (4), the upper end pipeline and header tank (1) intercommunication of drainage thermal-collecting tube (4), and the lower extreme pipeline both sides of drainage thermal-collecting tube (4) respectively install a communicating pipe (5) that transversely set up, the position that sets up of two communicating pipes (5) corresponds with the position of two support columns (2), communicating pipe (5) transversely install on support column (2) and are linked together with water storage district (21) in support column (2).

2. A solar heat collection and utilization device according to claim 1, wherein: the transmission assembly comprises a transmission motor (6) arranged on the outer side of the bottom of the support column (2), the transmission motor (6) is transversely placed, a transmission rod of the transmission motor extends into the lower portion of the sealing plate (22), the transversely arranged transmission rod and a vertical shaft (23) of the vertical arrangement correspond to each other, the end portions of the transmission rod and the vertical shaft are provided with meshed bevel gears (7), and the transmission motor (6) and the transmission shaft of the bevel gears (7) correspondingly drive the spiral blades (24) to rotate.

3. A solar heat collection and utilization device according to claim 1, wherein: the diameter of the supporting column (2) is set to be 5-10cm, and the height of the supporting column (2) is set to be 80-100 cm; and the support column (2) and the water collecting tank (1) are arranged to be of a detachable installation structure.

4. A solar heat collection and utilization device according to claim 1, wherein: the bottom of the drainage heat collecting pipe (4) is also connected with a water pipe joint (8).

5. A solar heat collection and utilization device according to claim 1, wherein: the inclined table top (3) is of a plastic table top structure, the drainage heat collecting tube (4) is of a glass tube structure, and a heat absorbing film is arranged inside the tube body.

6. A solar heat collection and utilization device according to claim 1, wherein: the lower end of the inclined table top is also provided with a support frame which is arranged flush with the lower end surface of the support column (2).

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