CN114543210A

CN114543210A - Novel heating and cooling exchange system of heating and ventilating air conditioner

Info

Publication number: CN114543210A
Application number: CN202210063846.4A
Authority: CN
Inventors: 李宜森; 孔冰; 高磊
Original assignee: Shandong Jin Zhicheng Construction Co ltd
Current assignee: Shandong Jin Zhicheng Construction Co ltd
Priority date: 2022-01-20
Filing date: 2022-01-20
Publication date: 2022-05-27

Abstract

The application provides a novel cold and hot exchange system of warm logical air conditioner, include: the heating system comprises a heat exchange box, lighting heating equipment connected with the heat exchange box and a heating box; a heat absorption clapboard is arranged inside the heat exchange box, and the heat absorption clapboard separates the heat exchange box into an upper hot water box communicated with lighting heating equipment and a lower hot water box communicated with the heating box; the water medium flow of the heating box passes through the heat exchange tank, and the hot gas of the upper hot gas box heats the water medium flowing through the heat exchange tank again and then enters the lower hot water box; still include cascade equipment, lower hot-water tank has cascade equipment through first pipe connection, and cascade equipment passes through the second pipeline and reinfuses the heat dissipation aqueous medium to the heating cabinet. It can be seen from the above description that, through daylighting heating equipment cooperation heating cabinet boosting, guarantee the temperature stability of the inside medium of flowing through of heat transfer jar, adopt cascade equipment to carry out high-efficient heat transfer, operating mode workshop temperature can be stable, has low-cost, efficient characteristic.

Description

Novel heating and cooling exchange system of heating and ventilating air conditioner

Technical Field

The application relates to the field of cold and heat exchange, in particular to a novel cold and heat exchange system of a heating ventilation air conditioner.

Background

With the rapid development of socioeconomic performance, the hvac has heating, ventilating, and air conditioning functions. The main functions of the heating, ventilating and air conditioning comprise: the heat exchanger can be classified according to different modes and can be divided into a dividing wall type, a mixed type and a heat accumulation type according to the operation process; the degree of compactness of the surface thereof can be classified into two types, compact and non-compact.

However, the heating ventilation air conditioner does not show a prominent effect when being applied to the fields of working condition workshops or large-scale activity spaces and the like, the temperature of the working condition workshops in a series of processing enterprises in winter is always kept low due to large area inside the working condition workshops, and workers need to wear thick and heavy warm clothes to protect against cold and perform working procedure operation at the same time; the temperature of the working condition workshop is kept higher and can not be always kept. The main reasons are that the power consumption required for root and heating is large, coal-fired heating does not accord with the national standard and causes the waste of non-renewable resources, and the underground water is deficient while the geothermal well is high in cost, so that the working condition environment cannot be improved.

Disclosure of Invention

The application provides a cold and hot exchange system of novel warm logical air conditioner for utilize solar energy to gather hot auxiliary heating, cooperation firing equipment makes and keeps medium temperature stable, the radiating effect preferred.

The utility model provides a novel heating and ventilation air conditioner's heat exchange system, this novel heating and ventilation air conditioner's heat exchange system includes: the heating system comprises a heat exchange box, lighting heating equipment connected with the heat exchange box and a heating box; wherein, the first and the second end of the pipe are connected with each other,

a heat absorption clapboard is arranged inside the heat exchange box, and the heat absorption clapboard separates the heat exchange box into an upper hot water box communicated with the daylighting heating equipment and a lower hot water box communicated with the heating box;

the water medium flow of the heating box passes through the heat exchange tank, and the hot gas of the upper hot gas box heats the water medium flowing through the heat exchange tank again and then enters the lower hot water box;

the heating box is characterized by further comprising a water curtain device, the lower hot water tank is connected with the water curtain device through a first pipeline, and the water curtain device feeds back a heat dissipation water medium to the heating box through a second pipeline.

In a specific possible embodiment, the daylighting heating apparatus is provided in plurality.

In a specific embodiment, each of the daylighting heating apparatuses comprises: the lighting device comprises a lighting cover assembled at a light receiving position and a light guide sleeve connected with the lighting cover; wherein the content of the first and second substances,

one end of the light guide sleeve, which is far away from the lighting cover, is communicated with the upper hot air box;

and an elastic lens group capable of focusing light rays is arranged in the light guide sleeve.

In a specific embodiment, the light guide sleeve is a horn-shaped sleeve body.

In a specific embodiment, said elastic lens group comprises: the elastic lens is horizontally arranged at the narrow throat part of the light guide sleeve, and liquid with similar optical performance is filled in the elastic lens;

the liquid storage device is characterized by further comprising a driving sleeve, a piston rod of the driving sleeve is connected with an electric telescopic mechanism, and the driving sleeve is communicated with the liquid.

In a specific possible embodiment, one end of the upper hot air box is communicated with the shell side of the heat exchange tank through a heat conduction pipe, and the other end of the upper hot air box is provided with a roots blower;

the outer wall of the lower hot water tank is provided with a heat dissipation layer, and the shell pass of the heat exchange tank is communicated with the heat dissipation layer through an exhaust pipe.

In a specific embodiment, the heating tank is communicated with the tube side of the heat exchange tank through a water supply pipe, and the tube side of the heat exchange tank is communicated with the lower hot water tank through a water conveying pipeline.

In a specific possible embodiment, the first pipeline is connected with the upper part of the water curtain device, and a first pump is arranged on the first pipeline.

In a specific possible embodiment, the lower part of the water curtain device is provided with a receiving groove, the receiving groove is connected with the second pipeline, and the second pipeline is provided with a second pump.

In a specific possible embodiment, the water curtain device is provided with a plurality of water curtain devices, and the plurality of water curtain devices and the heating box form a circulating water loop.

According to the invention, the daylighting heating equipment is matched with the heating box for auxiliary heating, so that the temperature of a medium flowing through the inside of the heat exchange tank is stable, and the water curtain equipment is adopted for efficient heat exchange, so that the temperature of a working condition workshop is stable, and the device has the characteristics of low cost and high efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a heat exchange system of a novel heating, ventilating and air conditioning system provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a daylighting heating apparatus provided in an embodiment of the present application;

fig. 3 is a schematic view of an internal structure of a heat exchange tank according to an embodiment of the present application.

Reference numerals:

a heat exchange box-10;

a lower hot water tank-11 and a heat dissipation layer-111;

upper hot gas box-12, Roots blower-121, and heat conducting pipe-122;

a heat absorbing partition-13;

lighting and heating equipment-14, a lighting cover-141, a light guide sleeve-142, an elastic lens-143, a driving sleeve-144 and an electric telescopic mechanism-145;

a heating box-15, a water supply pipe-151;

a heat exchange tank-16, a water pipeline-161, a waste gas pipe-162 and a pipe pass-163;

a first pump-17;

a second pump-18;

a water curtain device-20 and a receiving groove-21.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, the present application will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1, a heat exchange system of a novel heating, ventilating and air conditioning system provided by an embodiment of the present application includes a heat exchange box 10; the heat exchange box 10 serves as a heat supply main body in the embodiment of the present application, and is used for storing high-temperature media, such as water, oil, and the like. It should be specifically noted that in the embodiment of the present application, attention is paid to optimizing heating in winter, however, in hot summer, low-temperature water, condensed water, etc. can be stored in the heat exchange box 10, and only the lighting heating device 14 is covered in summer to cool down the large-scale workshop.

The heat exchange box 10 is connected with a lighting heating device 14, and the lighting heating device 14 is used for focusing external sunlight and then keeping a medium in the heat exchange box 10 at a high temperature. Specifically, a heat absorbing partition 13 is disposed inside the heat exchange box 10, and the heat absorbing partition 13 separates the heat exchange box 10 into an upper hot air box 12 communicated with a lighting and heating device 14. Therefore, the sunlight from the outside is focused by the lighting heating equipment 14, the heat is conducted to the upper hot air box 12, and the focused sunlight directly irradiates on the heat absorption partition plate 13, so that the temperature of the heat absorption partition plate 13 is increased, and the heat preservation and heating effects are further obtained.

The lighting heating device 14 is provided in plurality; in connection with what is shown in fig. 2, each daylighting heating apparatus 14 comprises: a lighting cover 141 mounted on the light receiving portion, and a light guide sleeve 142 connected to the lighting cover 141; wherein, one end of the light guide sleeve 142 far away from the lighting shade 141 is communicated with the upper hot air box 12; an elastic lens group capable of focusing light is arranged inside the light guide sleeve 142. The light guide sleeve 142 is a horn-shaped sleeve body. The elastic lens group comprises: the elastic lens 143 is horizontally arranged at the narrow throat of the light guide sleeve 142, and liquid with similar optical performance is filled in the elastic lens 143; and the device also comprises a driving sleeve 144, a piston rod of the driving sleeve 144 is connected with an electric telescopic mechanism 145, and the driving sleeve 144 is communicated with liquid.

As can be seen from the above description, the light-collecting cover 141 is a spherical cover body, so that sunlight at multiple angles can be collected, the sunlight enters the light guide sleeve 142 through the light-collecting cover 141, the elastic lens 143 inside the light guide sleeve 142 collects the sunlight after zooming, and the liquid inside the elastic lens 143 is glycerin or olive oil, so that the light-transmitting cover has a good light-transmitting performance. After sunlight is gathered, the light guide sleeve 142 in the shape of a horn is directly irradiated into the upper hot air box 12, so that a large amount of high-temperature gas is gathered in the upper hot air box 12, and the high-temperature gas plays a great auxiliary role in the heat preservation and heating processes.

With continued reference to fig. 1, the interior of the heat exchange box 10 is further isolated by a heat absorbing partition 13 from a lower hot water tank 11, and the lower hot water tank 11 is supplied with a constant temperature medium through a heating tank 15, for example, a constant temperature water is introduced into the interior of the lower hot water tank 11 after the water medium passes through the heating tank 15. In the process that the constant temperature water gets into hot water tank 11 down, the embodiment of this application adopts high temperature gas to heat the constant temperature water again.

Specifically, the heating device further comprises a heat exchange tank 16, the aqueous medium of the heating box 15 passes through the heat exchange tank 16, and the hot gas of the upper hot gas box 12 heats the aqueous medium flowing through the heat exchange tank 16 again and then enters the lower hot water box 11. When high-temperature gas in the upper hot gas box 12 enters the heat exchange tank 16 to heat the constant-temperature water, one end of the upper hot gas box 12 is communicated with the shell side of the heat exchange tank 16 through a heat conducting pipe 122, and the other end of the upper hot gas box 12 is provided with a roots blower 121; the outer wall of the lower hot water tank 11 is provided with a heat dissipation layer 111, and the shell pass of the heat exchange tank 16 is communicated with the heat dissipation layer 111 through a ventilation pipe 162.

As shown in connection with fig. 3, the heating tank 15 communicates with the tube side 163 of the heat exchange tank 16 through the water supply pipe 151, and the tube side 163 of the heat exchange tank 16 communicates with the lower hot water tank 11 through the water delivery pipe 161. The constant temperature water heated by the heating box 15 enters the plurality of tube passes 163 through the front water chamber of the heat exchange tank 16, and the high temperature gas at this time is in the shell pass of the heat exchange tank 16, so that the constant temperature water in the tube passes 163 is heated. The heated medium enters the lower hot water tank 11 through the rear water chamber. Meanwhile, the exhaust gas after heat exchange in the shell pass enters the heat dissipation layer 111 again to form a heat preservation effect.

In addition, the heating device also comprises a water curtain device 20, the lower hot water tank 11 is connected with the water curtain device 20 through a first pipeline, and the water curtain device 20 feeds back the heat dissipation water medium to the heating tank 15 through a second pipeline.

The first pipeline is connected with the upper part of the water curtain device 20, and a first pump 17 is arranged on the first pipeline.

The lower part of the water curtain device 20 is provided with a receiving groove 21, the receiving groove 21 is connected with a second pipeline, and the second pipeline is provided with a second pump 18.

The water curtain device 20 is provided in plurality, and the plurality of water curtain devices 20 and the heating tank 15 constitute a circulating water circuit.

As can be seen from the above description, after the high-temperature medium passing through the heat exchange tank 16 enters the lower hot water tank 11, the high-temperature medium inside the lower hot water tank 11 is pumped by the first pump 17 to flow downward above the water curtain device 20, the negative pressure fan blows out heat, the dissipated medium enters the receiving groove 21 to be collected, and the second pump 18 feeds the collected medium back to the heating tank 15 to continue the heating cycle. The whole set of circulating heat dissipation effect is coherent, and a higher heat dissipation effect is ensured in the continuous working process. During circulation in summer, the lighting shade 141 is covered, the heating box 15 is closed, and the condensed water is circulated in the shell pass of the heat exchange tank 16 to complete the low-temperature medium.

In the invention, the daylighting heating equipment 14 is matched with the heating box 15 for auxiliary heating, so that the temperature of a medium flowing through the heat exchange tank 16 is ensured to be stable, and the water curtain equipment 20 is adopted for high-efficiency heat exchange, so that the temperature of a working condition workshop is stable, and the device has the characteristics of low cost and high efficiency.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a novel heating and ventilation air conditioner's cold and heat exchange system which characterized in that includes: the heating system comprises a heat exchange box, lighting heating equipment connected with the heat exchange box and a heating box; wherein the content of the first and second substances,

2. A heat exchange system for a novel heating ventilating air conditioner as claimed in claim 1, characterized in that a plurality of lighting heating devices are provided.

3. A novel heating, ventilating and air-conditioning heat and heat exchanging system according to claim 2, wherein each of the daylighting heating apparatuses comprises: the lighting device comprises a lighting cover assembled at a light receiving position and a light guide sleeve connected with the lighting cover; wherein the content of the first and second substances,

an elastic lens group capable of focusing light is arranged inside the light guide sleeve.

4. The heat exchange system of a novel heating, ventilating and air conditioning as claimed in claim 3, wherein the light guide sleeve is a trumpet-shaped sleeve body.

5. The heat and heat exchange system of the novel heating, ventilating and air conditioning system as claimed in claim 4, wherein the elastic lens group comprises: the elastic lens is horizontally arranged at the narrow throat of the light guide sleeve, and liquid with similar optical performance is filled in the elastic lens;

6. The heat exchange system of the novel heating, ventilating and air conditioning as claimed in claim 1, wherein one end of the upper heat box is communicated with the shell side of the heat exchange tank through a heat conduction pipe, and the other end of the upper heat box is provided with a roots blower;

7. A heat and cold exchanging system of a novel heating ventilating and air conditioning as claimed in claim 6, wherein the heating box is communicated with the tube side of the heat exchanging tank through a water supply pipe, and the tube side of the heat exchanging tank is communicated with the lower hot water tank through a water conveying pipeline.

8. The system as claimed in claim 7, wherein the first pipe is connected to the upper part of the water curtain device, and the first pipe is provided with a first pump.

9. A new type heating, ventilating and air conditioning heat and heat exchanging system as claimed in claim 8, wherein the lower part of the water curtain device is provided with a receiving groove, the receiving groove is connected with the second pipeline, and the second pipeline is provided with a second pump.

10. A heat and cold exchanging system of a novel heating ventilating and air conditioning as claimed in claim 9, wherein the water curtain device is provided in plurality, and the plurality of water curtain devices and the heating box construct a circulating water loop.