CN219494388U - Heating, ventilation and energy saving equipment for building - Google Patents

Abstract

The utility model discloses heating ventilation energy-saving equipment for a building, wherein a heating ventilation fixing support assembly is connected to the outside of a circulating heating ventilation tank, a heating ventilation water supply assembly is arranged in the heating ventilation fixing support assembly, a support fixing assembly is arranged on the end face of the heating ventilation water supply assembly, a heating ventilation water tank assembly is arranged at the lower end of the heating ventilation water supply assembly, a heating ventilation maintenance protection bent pipe is arranged on the end face of the support fixing assembly, a heating ventilation lower water storage tank is arranged on the lower end face of the support fixing assembly, and a heating ventilation upper water storage tank is arranged on the upper end face of the support fixing assembly. The heating ventilation water supply cylinder is used for supplying water to the heating ventilation water supply cylinder, the heating ventilation water supply pipe is driven by the heating ventilation transmission motor to enter the heating ventilation lower water storage tank and the heating ventilation upper water storage tank for guiding the heating ventilation water supply pipe into the heating ventilation lower water storage tank, so that the whole body is insulated, the principle of the heating ventilation water supply cylinder is similar to that of a hot spring, the internal circulation heating is always performed through the water supply assembly, the cost is saved, and the manual repeated heating is not needed.

Description

Heating, ventilation and energy saving equipment for building

Technical Field

The utility model relates to energy-saving equipment, in particular to heating ventilation energy-saving equipment for buildings.

Background

The heating ventilation comprises three aspects of heating, ventilation and air conditioning, and is also a professional of advanced engineering technology talents and management talents for cultivating and working in the technical fields of building environment control, building energy conservation and building facility intelligence, and has the functions of air conditioning, heating, ventilation, building water supply and drainage, gas supply and other public facility systems, building heat energy supply systems and building energy conservation design, construction, debugging, operation management capability and building automation system scheme formulation capability. Heating ventilation is a component part of a building, dust in air enters equipment in the heating working process, and dust is adhered and accumulated to be inconvenient for fully heating the air, so that the heating efficiency is reduced and the air quality is reduced. Therefore, it is necessary to provide a heating, ventilation and energy saving device for building to solve the above technical problems.

The utility model discloses heating, ventilation and energy saving equipment for buildings, which is disclosed in the application number CN 202222084102.9. The utility model provides heating ventilation energy-saving equipment for a building. The heating ventilation energy-saving equipment for the building comprises a heating box, a filtering mechanism and a turbulent flow mechanism, wherein one end face of the heating box is vertically and fixedly connected with the filtering box, and a transverse pipe is transversely communicated between the other side face of the filtering box and one end face of the heating box; the filtering mechanism comprises a filter screen, and the filter screen is fixedly connected with the upper part of the inner cavity of the filtering box. According to the heating ventilation energy-saving equipment for the building, air flows enter the inner cavity of the heating box through the transverse pipe and are heated, then the air flows are heated, dust entering the interior of the equipment can be filtered through the filter screen, then the motor drives the transmission shaft to rotate, the vertical rod is driven to rotate, the brush plate is rotated, the surface of the filter screen can be brushed, dust on the surface of the filter screen is brushed off and collected, the air is heated more fully, the heating efficiency is improved, and the air quality is improved. However, the above patent has the following drawbacks in the actual use process:

although can adjust heating according to actual conditions and lead to, the saving performance has been improved, the air current is through heating in the middle of the inner chamber of violently managing the entering heating cabinet and use, the filter screen can get into the inside dust of equipment and filter, the rethread motor drives transmission shaft pivoted in-process, it makes the brush board rotatory to drive the montant rotation, can brush the surface of filter screen, brush the dust on filter screen surface and fall and collect, carry out more abundant heating to the air, the heating efficiency of improvement improves air quality, but can only carry out the conversion and the filtration to the air with heat energy when in actual use, go on through unnecessary power, can not energy-conserving these heating pipelines, and install fast, in order to solve above-mentioned problem, propose the heating energy-saving equipment for building hereby.

Disclosure of Invention

The utility model aims to provide heating, ventilation and energy-saving equipment for a building, which can solve the technical problems that the room temperature of a heating ventilation can be kept for a long time and the rest of heat energy can not be used, and is characterized in that a heating ventilation water feeding component is used for heating the whole water circulation of the heating ventilation and energy-saving equipment, a heating ventilation water feeding tank is used for storing the water tank, a heating ventilation water feeding cylinder is used for feeding water of the heating ventilation water tank, and a heating ventilation transmission motor is used for driving a heating ventilation water outlet pipe to enter a heating ventilation lower water storage tank and a heating ventilation upper water storage tank for guiding the heating ventilation water outlet pipe into the heating ventilation lower water storage tank and the heating ventilation upper water storage tank, so that the whole is kept warm, the principle is similar to that of a hot spring, and the internal circulation is always heated through the water feeding component, thereby saving the cost and not needing manual repeated heating.

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

the utility model provides a building is with warm energy-saving equipment that leads to, including circulation warm jar, warm fixed bolster subassembly, warm water subassembly that leads to, support fixed subassembly, warm water tank subassembly that leads to, warm maintenance protection return bend, warm lower part tank that leads to, warm upper portion tank that leads to, circulation warm jar external connection has warm fixed bolster subassembly that leads to, warm water subassembly that leads to has been placed inside the fixed bolster subassembly that leads to, warm water subassembly terminal surface that leads to has placed support fixed subassembly, warm water tank subassembly that leads to is placed to the warm water subassembly lower extreme that leads to, warm maintenance protection return bend has been placed to the support fixed subassembly terminal surface, warm lower part tank that leads to has been placed to support fixed subassembly terminal surface, warm upper portion tank that leads to has been placed to support fixed subassembly up end.

As a further scheme of the utility model: the heating ventilation fixing support assembly comprises a fixed transverse square tube, a fixed longitudinal square tube is connected to the end face of the fixed transverse square tube, a fixed vertical tube is connected to the end face of the fixed longitudinal square tube, a foot cup is connected to the lower end face of the fixed vertical tube, and a fixed internal support is connected to the end face of the fixed longitudinal square tube.

As still further aspects of the utility model: the heating ventilation water supply assembly comprises a heating ventilation water supply tank, the front end face of the heating ventilation water supply tank is connected with a heating ventilation front end fixing plate, the rear end face of the heating ventilation water supply tank is connected with a heating ventilation rear end fixing plate, the end face of the heating ventilation front end fixing plate is connected with a heating ventilation water taking cylinder, and the rear end face of the heating ventilation rear end fixing plate is connected with a heating ventilation transmission motor.

As still further aspects of the utility model: the water heating and ventilation device is characterized in that a water heating and ventilation cylinder overflow pipe is arranged on the lower end face of the water heating and ventilation cylinder, a water heating and ventilation device is arranged on the lower end face of the water heating and ventilation transmission motor, a water heating and ventilation pipe is arranged on the lower end of the water heating and ventilation device, and a water supply tank overflow pipe is connected to the lower end face of the water heating and ventilation upper tank.

As still further aspects of the utility model: the support fixed subassembly is including transversely placing the side's pipe, transversely place side's pipe end face and be connected with vertically place side's pipe, vertically place side's pipe end face and be connected with place the riser, it is connected with the transportation water pipe to place the riser end face, transversely place side's pipe end face and placed the fixed side's pipe of tank.

As still further aspects of the utility model: the heating and ventilation water tank assembly comprises a heating and ventilation water tank, wherein a water tank connecting hole is formed in the end face of the heating and ventilation water tank, a water pump is arranged on the front end face of the heating and ventilation water tank, a water ring type vacuum pump is connected to the end face of the heating and ventilation water tank, and a vacuum extraction connecting pipe is arranged on the upper end face of the water ring type vacuum pump.

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

in the utility model, the water is fed through the heating ventilation water feeding cylinder, the heating ventilation water feeding pipe is driven by the heating ventilation transmission motor to enter the heating ventilation lower water storage tank and the heating ventilation upper water storage tank for guiding the heating ventilation water feeding pipe, so that the whole body is insulated, the principle is similar to that of a hot spring, and the internal circulation heating is always carried out through the water feeding component, thereby saving the cost and avoiding the need of manual repeated heating.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic front view of the present utility model.

FIG. 3 is a schematic view of a heating and ventilation water supply assembly according to the present utility model.

Fig. 4 is a schematic structural view of a warm air tank assembly according to the present utility model.

In the figure: 1. circulating heating and ventilation tank; 2. a heating and ventilation fixed bracket assembly; 21. fixing a transverse square tube; 22. fixing a longitudinal square tube; 23. fixing the vertical pipe; 24. fixing the inner bracket; 25. a foot cup; 3. a heating and ventilation water supply assembly; 31. heating and ventilation upper water tank; 32. a heating and ventilation front end fixing plate; 33. a heating and ventilation rear end fixing plate; 34. heating, ventilation and water beating air cylinders; 35. a heating and ventilation transmission motor; 36. a warm water outlet pipe; 37. a heating and ventilation water storage device; 38. an overflow pipe of the warm air cylinder; 39. an overflow pipe of the upper water tank; 4. a bracket fixing assembly; 41. horizontally placing square tubes; 42. longitudinally placing square tubes; 43. placing a vertical pipe; 44. the water storage pool is used for fixing square pipes; 45. a transport water pipe; 5. a heating ventilation water tank assembly; 51. a heating and ventilation water storage tank; 52. a water storage tank connecting hole; 53. a water pump; 54. a water ring vacuum pump; 55. vacuum pumping connecting pipe; 6. heating ventilation maintenance protection bent pipe; 7. heating and ventilation of the lower water storage pool; 8. heating and ventilation of the upper water storage pool.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the specific examples.

Referring to fig. 1-4, in an embodiment of the present utility model, a building heating and ventilation energy saving device includes a circulation heating and ventilation tank 1, a heating and ventilation fixing support assembly 2, a heating and ventilation water supply assembly 3, a support fixing assembly 4, a heating and ventilation water tank assembly 5, a heating and ventilation maintenance protection elbow 6, a heating and ventilation lower water storage tank 7, a heating and ventilation upper water storage tank 8, the circulation heating and ventilation tank 1 is externally connected with the heating and ventilation fixing support assembly 2, the heating and ventilation water supply assembly 3 is placed inside the heating and ventilation fixing support assembly 2, the support fixing assembly 4 is placed on the end face of the heating and ventilation water supply assembly 3, the heating and ventilation water tank assembly 5 is placed on the lower end face of the heating and ventilation water supply assembly 3, the heating and ventilation maintenance protection elbow 6 is placed on the end face of the support fixing assembly 4, the heating and ventilation lower water storage tank 7 is placed on the upper end face of the support fixing assembly 4, and the heating and ventilation upper water storage tank 8 is placed on the lower end face of the support fixing assembly 4.

The heating ventilation fixing support assembly 2 comprises a fixing transverse square tube 21, a fixing longitudinal square tube 22 is connected to the end face of the fixing transverse square tube 21, a fixing vertical tube 23 is connected to the end face of the fixing longitudinal square tube 22, a foot cup 25 is connected to the lower end face of the fixing vertical tube 23, and a fixing inner support 24 is connected to the end face of the fixing longitudinal square tube 22.

Specifically, after the fixed horizontal square tube 21 and the fixed vertical square tube 22 are welded, the upper part is welded by using a fixed vertical tube, and the square tube is welded by using a thickness of 60×60×5, so that the welding is firm, and the internal strength is increased.

The heating ventilation water supply assembly 3 comprises a heating ventilation water supply tank 31, a heating ventilation front end fixing plate 32 is connected to the front end face of the heating ventilation water supply tank 31, a heating ventilation rear end fixing plate 33 is connected to the rear end face of the heating ventilation water supply tank 31, a heating ventilation water supply cylinder 34 is connected to the end face of the heating ventilation front end fixing plate 32, and a heating ventilation transmission motor 35 is connected to the rear end face of the heating ventilation rear end fixing plate 33.

The lower end face of the heating ventilation water beating cylinder 34 is provided with a heating ventilation cylinder overflow pipe 38, the lower end face of the heating ventilation transmission motor 35 is provided with a heating ventilation water storage device 37, the lower end of the heating ventilation water storage device 37 is provided with a heating ventilation water outlet pipe 36, and the lower end face of the heating ventilation water inlet tank 31 is connected with a water inlet tank overflow pipe 39.

Specifically, the heating ventilation water supply cylinder 34 is used for supplying water, the heating ventilation transmission motor 35 is used for driving the heating ventilation water outlet pipe 36 to enter the heating ventilation lower water storage tank 7 and the heating ventilation upper water storage tank 8 for guiding the heating ventilation lower water storage tank 7 and the heating ventilation upper water storage tank 8, so that the whole body is insulated, the principle is similar to that of hot springs, and the internal circulation heating is always performed through the water supply assembly, so that the cost is saved, and the repeated heating of manpower is not needed.

The support fixed assembly 4 comprises a transverse square tube 41, a longitudinal square tube 42 is connected to the end face of the transverse square tube 41, a vertical tube 43 is connected to the end face of the longitudinal square tube 42, a transportation water pipe 45 is connected to the end face of the vertical tube 43, and a water storage tank fixed square tube 44 is arranged on the end face of the transverse square tube 41.

Specifically, the square tube 41 is welded to the square tube 42 by being placed horizontally and the square tube is used for the purpose of: can destroy the casting structure of the steel ingot, refine the crystal grains of the steel, and eliminate the defect of microstructure, thereby compacting the steel structure and improving the mechanical property. This improvement is mainly manifested in the rolling direction so that the steel is no longer isotropic to some extent; bubbles, cracks and looseness formed during casting can also be welded under the action of high temperature and pressure. The forming speed is high, the yield is high, the coating is not damaged, and various section forms can be made to adapt to the requirements of using conditions; the cold rolling can lead the steel to generate great plastic deformation, thereby improving the yield point of the steel.

The heating ventilation water tank assembly 5 comprises a heating ventilation water tank 51, a water tank connecting hole 52 is formed in the end face of the heating ventilation water tank 51, a water pump 53 is arranged on the front end face of the heating ventilation water tank 51, a water ring type vacuum pump 54 is connected to the end face of the heating ventilation water tank 51, and a vacuum extraction connecting pipe 55 is arranged on the upper end face of the water ring type vacuum pump 54.

Specifically, the water is pumped through the water ring vacuum pump 54, which has the advantages that: simple structure, low requirement on manufacturing precision and easy processing. The structure is compact, the rotation speed of the pump is high, and the pump can be directly connected with the motor generally without a speed reducing device. Therefore, a large amount of exhaust gas can be obtained with a small structural size, and the occupied area is small. The compressed gas is substantially isothermal, i.e. the process temperature of the compressed gas varies little. Because the pump cavity is not provided with a metal friction surface, the pump cavity is not required to be lubricated, and the abrasion is small. The sealing between the rotating member and the fixed member may be accomplished directly by a water seal. The air suction is uniform, the work is stable and reliable, the operation is simple, and the maintenance is convenient.

The working principle of the utility model is as follows: after welding through fixed horizontal side pipe 21 and fixed vertical side pipe 22, the upper portion uses fixed riser to weld, the side pipe uses 60 x 5 thickness to weld, the welding is firm, make internal strength increase, carry out its water supply through warm the air cylinder 34 of taking water into, drive warm through drive motor 35 and put forth water outlet pipe 36 and get into warm lower part reservoir 7 and warm upper portion reservoir 8 of leading-in it, make whole keep warm, its principle is similar to hot spring, always carry out the heating to the inner loop through the water supply subassembly, thereby save the cost, do not need artifical repetitive heating, place side pipe 41 and vertically place side pipe 42 and weld, the purpose that its use side pipe lies in: can destroy the casting structure of the steel ingot, refine the crystal grains of the steel, and eliminate the defect of microstructure, thereby compacting the steel structure and improving the mechanical property. This improvement is mainly manifested in the rolling direction so that the steel is no longer isotropic to some extent; bubbles, cracks and looseness formed during casting can also be welded under the action of high temperature and pressure. The forming speed is high, the yield is high, the coating is not damaged, and various section forms can be made to adapt to the requirements of using conditions; the cold rolling can make the steel produce very big plastic deformation to improve the yield point of steel, draw water to its inside through water ring vacuum pump 54, its advantage lies in: simple structure, low requirement on manufacturing precision and easy processing. The structure is compact, the rotation speed of the pump is high, and the pump can be directly connected with the motor generally without a speed reducing device. Therefore, a large amount of exhaust gas can be obtained with a small structural size, and the occupied area is small. The compressed gas is substantially isothermal, i.e. the process temperature of the compressed gas varies little. Because the pump cavity is not provided with a metal friction surface, the pump cavity is not required to be lubricated, and the abrasion is small. The sealing between the rotating member and the fixed member may be accomplished directly by a water seal. The air suction is uniform, the work is stable and reliable, the operation is simple, and the maintenance is convenient.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides a building is with warm energy-saving equipment that leads to, including circulation warm jar (1), warm fixed bolster subassembly (2), warm water subassembly (3) of leading to, support fixed subassembly (4), warm water tank subassembly (5) of leading to, warm maintenance protection return bend (6), warm lower part tank (7) of leading to, warm upper portion tank (8), its characterized in that: the utility model discloses a warm tank assembly (5) that leads to, warm fixed bolster subassembly (2) that leads to of circulation, warm tank assembly (4) that leads to, warm tank assembly (5) that leads to are placed to warm tank assembly (3) lower extreme, warm maintenance elbow (6) that leads to have been placed to support fixed bolster (4) terminal surface, warm lower part reservoir (7) that leads to have been placed to support fixed bolster subassembly (4) lower terminal surface, warm upper portion reservoir (8) that leads to have been placed to support fixed bolster subassembly (4) up end.

2. The heating, ventilation and energy saving equipment for building according to claim 1, wherein: the heating ventilation fixing support assembly (2) comprises a fixing transverse square tube (21), a fixing longitudinal square tube (22) is connected to the end face of the fixing transverse square tube (21), a fixing vertical tube (23) is connected to the end face of the fixing longitudinal square tube (22), a foot cup (25) is connected to the lower end face of the fixing vertical tube (23), and a fixing internal support (24) is connected to the end face of the fixing longitudinal square tube (22).

3. The heating, ventilation and energy saving equipment for building according to claim 1, wherein: the heating ventilation water supply assembly (3) comprises a heating ventilation water supply tank (31), a heating ventilation front end fixing plate (32) is connected to the front end face of the heating ventilation water supply tank (31), a heating ventilation rear end fixing plate (33) is connected to the rear end face of the heating ventilation water supply tank (31), a heating ventilation water inlet cylinder (34) is connected to the end face of the heating ventilation front end fixing plate (32), and a heating ventilation transmission motor (35) is connected to the rear end face of the heating ventilation rear end fixing plate (33).

4. A heating, ventilation and energy saving device for building according to claim 3, characterized in that: the water heating and ventilation device is characterized in that a water heating and ventilation cylinder overflow pipe (38) is arranged on the lower end face of the water heating and ventilation cylinder (34), a water heating and ventilation device (37) is arranged on the lower end face of the water heating and ventilation device (35), a water heating and ventilation pipe (36) is arranged at the lower end of the water heating and ventilation device (37), and an upper water tank overflow pipe (39) is connected with the lower end face of the water heating and ventilation upper water tank (31).

5. The heating, ventilation and energy saving equipment for building according to claim 1, wherein: the support fixed assembly (4) comprises a transverse square tube (41), the end face of the transverse square tube (41) is connected with a longitudinal square tube (42), the end face of the longitudinal square tube (42) is connected with a vertical tube (43), the end face of the vertical tube (43) is connected with a transportation water pipe (45), and the end face of the transverse square tube (41) is provided with a water storage tank fixed square tube (44).

6. The heating, ventilation and energy saving equipment for building according to claim 1, wherein: the heating ventilation water tank assembly (5) comprises a heating ventilation water tank (51), a water tank connecting hole (52) is formed in the end face of the heating ventilation water tank (51), a water pump (53) is arranged on the front end face of the heating ventilation water tank (51), a water ring type vacuum pump (54) is connected to the end face of the heating ventilation water tank (51), and a vacuum extraction connecting pipe (55) is arranged on the upper end face of the water ring type vacuum pump (54).