CN213870190U - Sled dress formula air compression station waste heat recovery device - Google Patents

Abstract

The utility model discloses a sled dress formula air compression station waste heat recovery device, including the air compression station body, be provided with waste heat recovery device on the air compression station body, waste heat recovery device is including fixing the first blast pipe on air compression station body lateral wall, first blast pipe communicates with each other with the inside of air compression station body and sets up, the other end fixed connection and the second blast pipe of first blast pipe, the other end fixedly connected with third blast pipe of second blast pipe, the aperture of first blast pipe and third blast pipe communicates with each other and is greater than the aperture of second blast pipe, the other end fixedly connected with spiral pipe of third blast pipe. The utility model relates to an air compression station technical field, easy operation, implementation are convenient, can form waste heat recovery device, retrieve the waste heat of the inside production of air compression station and recycle, have improved the utilization ratio of resource.

Description

Sled dress formula air compression station waste heat recovery device

Technical Field

The utility model relates to an air compression station technical field specifically is a sled dress formula air compression station waste heat recovery device.

Background

The air compression station is a compressed air station and consists of an air compressor, an air storage tank, air treatment and purification equipment and a cold dryer. The arrangement of the compressed air station in the plant is determined according to actual factors.

The in-process that the air compressor station was used, along with the continuous work of the inside air compressor machine of air compressor station, the air compressor machine can produce a large amount of heats and leave in the inside of air compressor station, and current air compressor station lacks waste heat recovery device, directly discharges the heat that the air compressor machine produced and does not collect the recycle, causes certain wasting of resources.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sled dress formula air compression station waste heat recovery device to solve the air compression station on the existing market that above-mentioned background art provided and lack waste heat recovery device, directly discharge the heat that the air compressor machine produced and do not collect and recycle, cause certain wasting of resources's problem.

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

the utility model provides a sled dress formula air compression station waste heat recovery device, includes the air compression station body, be provided with waste heat recovery device on the air compression station body, waste heat recovery device is including fixing the first blast pipe on air compression station body lateral wall, first blast pipe communicates with each other with the inside of air compression station body and sets up, the other end fixed connection and the second blast pipe of first blast pipe, the other end fixedly connected with third blast pipe of second blast pipe, the aperture of first blast pipe and third blast pipe communicates with each other and is greater than the aperture of second blast pipe, the other end fixedly connected with spiral gas pipe of third blast pipe, spiral gas pipe's outside is provided with the water tank, the water tank passes through the backup pad and fixes mutually with the lateral wall of air compression station body, be provided with inlet tube and outlet pipe on the water tank.

Preferably, the first exhaust pipe, the second exhaust pipe and the third exhaust pipe are provided with a waste heat recovery accelerating device, the accelerating device comprises a first rotating rod and a second rotating rod which are respectively fixed on the third exhaust pipe and the first exhaust pipe, the first rotating rod and the second rotating rod are connected through a transmission device, one end of the first rotating rod, which is positioned in the third exhaust pipe, is fixedly connected with a rotating fan blade, the inner wall of the first exhaust pipe is fixedly connected with an axial flow fan, the axial flow fan is rotatably connected with a third rotating rod, the third rotating rod is fixed with the side wall of the rotating vane in the axial flow fan, the other end of the third rotating rod is fixedly connected with a first bevel gear, the second dwang is located the inside one end fixedly connected with second awl tooth of first blast pipe, first awl tooth and second awl tooth intermeshing set up.

Preferably, transmission includes the belt pulley of fixing on the first dwang and the second dwang other end, two pass through belt drive on the belt pulley.

Preferably, a filter screen is fixedly connected to the inner wall of the first exhaust pipe communicated with the air compression station body.

Preferably, sealing rubber strips are embedded in the side walls, abutted against the first exhaust pipe, the second exhaust pipe and the third exhaust pipe, of the first exhaust pipe, the second exhaust pipe and the third exhaust pipe.

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

1. through the first blast pipe, the second blast pipe, the setting of parts such as third blast pipe and spiral trachea, through the first blast pipe, the water conservancy diversion effect of second blast pipe and third blast pipe, carry the inside heat that produces of air compression station body to spiral trachea's inside, the heat is when passing spiral trachea inside, heat the processing with the inside deposit water of water tank, the deposit water of water tank internal heating can carry out life or use in the industry, and easy operation, it is convenient to implement, can form waste heat recovery device and retrieve the waste heat of the inside production of air compression station and recycle, the utilization ratio of resource has been improved.

2. Through first awl tooth, second awl tooth, the setting of parts such as rotating flabellum, when the inside waste heat transmission third exhaust pipe of air compression station body, promote under the effect of the inside atmospheric pressure of third exhaust pipe, rotate through the rotating flabellum on the first dwang, further second awl tooth that drives on the second dwang through transmission begins to rotate, under the intermeshing transmission of first awl tooth and second awl tooth, make the third dwang rotate, under the rotation of third dwang, make the inside rotating flabellum of axial fan begin to rotate, inhale the inside waste heat that produces of air compression station body with higher speed under the effect of atmospheric pressure, waste heat recovery's efficiency has been improved.

Drawings

Fig. 1 is a schematic view of the overall appearance structure of a skid-mounted air compression station waste heat recovery device provided by the present invention;

fig. 2 is a schematic side view of the waste heat recovery device of the skid-mounted air compression station according to the present invention;

fig. 3 is a schematic view of an internal structure of a waste heat recovery device of a skid-mounted air compression station waste heat recovery device provided by the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 1;

fig. 5 is an enlarged view at B in fig. 3.

In the figure: 1. an air compression station body; 2. a first exhaust pipe; 3. a second exhaust pipe; 4. a third exhaust pipe; 5. a water tank; 6. a helical gas pipe; 7. a water inlet pipe; 8. a water outlet pipe; 9. a first rotating lever; 10. a second rotating lever; 11. rotating the fan blades; 12. an axial flow fan; 13. a third rotating rod; 14. a first bevel gear; 15. a second taper tooth; 16. a belt pulley; 17. a belt; 18. and a support plate.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-5, a skid-mounted air compression station waste heat recovery device comprises an air compression station body 1, the air compression station body 1 is provided with a waste heat recovery device, the waste heat recovery device comprises a first exhaust pipe 2 fixed on the side wall of the air compression station body 1, the first exhaust pipe 2 is communicated with the inside of the air compression station body 1, the inner wall of the first exhaust pipe 2 communicated with the air compression station body 1 is fixedly connected with a filter screen, mainly for filtering, so as to avoid directly discharging dust inside the air compression station body 1 into the air, the other end of the first exhaust pipe 2 is fixedly connected with a second exhaust pipe 3, the other end of the second exhaust pipe 3 is fixedly connected with a third exhaust pipe 4, sealing rubber strips are embedded on the side walls of the first exhaust pipe 2, the second exhaust pipe 3 and the third exhaust pipe 4, mainly for improving the sealing performance and reducing the heat loss in the waste heat transmission process, the apertures of the first exhaust pipe 2 and the third exhaust pipe 4 are communicated and larger than the aperture of the second exhaust pipe 3, the other end of the third exhaust pipe 4 is fixedly connected with a spiral air pipe 6, a water tank 5 is arranged outside the spiral air pipe 6, the water tank 5 is fixed with the side wall of the air compression station body 1 through a support plate 18, the water tank 5 is provided with a water inlet pipe 7 and a water outlet pipe 8, the first exhaust pipe 2, the second exhaust pipe 3 and the third exhaust pipe 4 are provided with a waste heat recovery accelerating device, the accelerating device comprises a first rotating rod 9 and a second rotating rod 10 which are respectively fixed on the third exhaust pipe 4 and the first exhaust pipe 2, the first rotating rod 9 and the second rotating rod 10 are connected through a transmission device, the transmission device comprises belt pulleys 16 fixed on the other ends of the first rotating rod 9 and the second rotating rod 10, the two belt pulleys 16 are transmitted through a belt 17, and the transmission between the first rotating rod 9 and the second rotating rod 10 is mainly facilitated, first dwang 9 is located the inside one end fixedly connected with of third blast pipe 4 and rotates flabellum 11, fixedly connected with axial fan 12 on the inner wall of first blast pipe 2, it is connected with third dwang 13 to rotate on the axial fan 12, third dwang 13 is fixed mutually with the inside lateral wall that rotates the vane of axial fan 12, the first awl tooth 14 of the other end fixedly connected with of third dwang 13, second dwang 10 is located the inside one end fixedly connected with second awl tooth 15 of first blast pipe 2, first awl tooth 14 sets up with second awl tooth 15 intermeshing, can make the inside rotation vane of axial fan 12 rotate, under the effect of atmospheric pressure, inhale the inside waste heat that produces of pneumatics station body 1 with higher speed, waste heat recovery's efficiency has been improved.

In the utility model, in the using process of the skid-mounted air compression station, along with the operation of the air compressor inside the air compression station body 1, a large amount of energy heat can be generated inside the air compression station body 1, along with the continuous increase of the internal heat energy, people generated on the air compressor can enter the inside of the first exhaust pipe 2, through the flow guiding effect of the first exhaust pipe 2, the second exhaust pipe 3 and the third exhaust pipe 4, the heat generated inside the air compression station body 1 is conveyed to the inside of the spiral air pipe 6, when the heat passes through the first exhaust pipe 2, the second exhaust pipe 3 and the third exhaust pipe 4, because the apertures of the first exhaust pipe 2 and the third exhaust pipe 4 are communicated and are larger than the aperture of the second exhaust pipe 3, when the heat passes through the first exhaust pipe 2 and the second exhaust pipe 3, the heat passes through the obstacle, the air pressure near the port above the leeward side of the obstacle is relatively low, thereby generating the adsorption effect and leading to the flow of air, under the action of a Venturi principle, the circulation of heat is accelerated, when the heat passes through the interior of the spiral air pipe 6, the stored water in the water tank 5 is heated, the stored water heated in the water tank 5 can be used in life or industry, the operation is simple, the implementation is convenient and fast, a waste heat recovery device can be formed, the waste heat generated in the air compression station can be recovered and reused, and the utilization rate of resources is improved;

when the inside waste heat transmission third blast pipe 4 of air compression station body 1 is inside, under the effect through the inside atmospheric pressure of third blast pipe 4, promote the rotation flabellum 11 on the first dwang 9 and rotate, under the transmission of belt 17, drive second dwang 10 and rotate, further drive second bevel gear 15 on the second dwang 10 and begin to rotate, under the intermeshing transmission of first bevel gear 14 and second bevel gear 15, make third dwang 13 rotate, under the rotation of third dwang 13, make the inside rotation vane of axial fan 12 begin to rotate, under the effect of atmospheric pressure, inhale waste heat with higher speed that the inside production of air compression station body 1 is inside, waste heat recovery's efficiency has been improved.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The skid-mounted air compression station waste heat recovery device comprises an air compression station body (1) and is characterized in that the air compression station body (1) is provided with a waste heat recovery device, the waste heat recovery device comprises a first exhaust pipe (2) fixed on the side wall of the air compression station body (1), the first exhaust pipe (2) is communicated with the inside of the air compression station body (1), the other end of the first exhaust pipe (2) is fixedly connected with a second exhaust pipe (3), the other end of the second exhaust pipe (3) is fixedly connected with a third exhaust pipe (4), the apertures of the first exhaust pipe (2) and the third exhaust pipe (4) are communicated and are larger than that of the second exhaust pipe (3), the other end of the third exhaust pipe (4) is fixedly connected with a spiral air pipe (6), a water tank (5) is arranged outside the spiral air pipe (6), the water tank (5) is fixed with the side wall of the air compression station body (1) through a support plate (18), and a water inlet pipe (7) and a water outlet pipe (8) are arranged on the water tank (5).

2. The skid-mounted waste heat recovery device for the air compression station according to claim 1, wherein a waste heat recovery accelerating device is arranged on the first exhaust pipe (2), the second exhaust pipe (3) and the third exhaust pipe (4), the accelerating device comprises a first rotating rod (9) and a second rotating rod (10) which are respectively fixed on the third exhaust pipe (4) and the first exhaust pipe (2), the first rotating rod (9) and the second rotating rod (10) are connected through a transmission device, one end of the first rotating rod (9) located inside the third exhaust pipe (4) is fixedly connected with a rotating fan blade (11), an axial flow fan (12) is fixedly connected on the inner wall of the first exhaust pipe (2), a third rotating rod (13) is rotatably connected on the axial flow fan (12), and the third rotating rod (13) is fixed with the side wall of the rotating vane inside the axial flow fan (12), the other end fixedly connected with first awl tooth (14) of third dwang (13), second dwang (10) are located the inside one end fixedly connected with second awl tooth (15) of first blast pipe (2), first awl tooth (14) set up with second awl tooth (15) intermeshing.

3. The skid-mounted air compression station waste heat recovery device is characterized in that the transmission device comprises belt pulleys (16) fixed to the other ends of the first rotating rod (9) and the second rotating rod (10), and the two belt pulleys (16) are transmitted through a belt (17).

4. The skid-mounted air compression station waste heat recovery device is characterized in that a filter screen is fixedly connected to the inner wall of the first exhaust pipe (2) communicated with the air compression station body (1).

5. The skid-mounted air compression station waste heat recovery device is characterized in that sealing rubber strips are embedded in the side walls of the first exhaust pipe (2), the second exhaust pipe (3) and the third exhaust pipe (4) which are abutted to each other.

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