CN218598462U - Diversion pressurizing ring structure - Google Patents

Abstract

The utility model discloses a water conservancy diversion pressure boost ring constructs relates to big-height space air conditioner technical field, specifically is a water conservancy diversion pressure boost ring constructs, including protective housing and water conservancy diversion pressure boost ring body. This water conservancy diversion pressure boost ring structure, cooperation setting through protective housing and water conservancy diversion pressure boost ring body, the in-process that uses is because the setting of big-end-up's toper or cambered surface pressure boost ring is increased in water conservancy diversion pressure boost ring body center water conservancy diversion wind channel or big-end-up's, can carry out the pressure boost to the air current when the air current passes through, water conservancy diversion pressure boost ring body and its central water conservancy diversion wind channel surface are smooth setting, and the direct smooth transition form that all adopts of different sections in water conservancy diversion wind channel, the energy loss that can effectual reduction air current process production, and reduce the noise that the air current caused when passing through, and the shape of water conservancy diversion pressure boost ring body is unanimous with the inside shape of protective housing, the simple installation is swift, in addition the water conservancy diversion pressure boost ring body is made by the material that heat-transfer coefficient is little, can avoid the heat to scatter and disappear.

Description

Diversion pressurizing ring structure

Technical Field

The utility model relates to a tall and big space air conditioner technical field specifically is a water conservancy diversion pressure boost ring structure.

Background

At present, in the field of large and large spaces with wide spaces such as factories, stations, maintenance workshops and the like, the problems of air conditioning such as internal refrigeration, heating, ventilation and the like are always difficult to solve due to high floor height and wide space. The current common solution is to adopt a high and large space air conditioning system, the air conditioning system can be installed above the suspended ceiling in the subspace, is not limited by conditions such as ground equipment and personnel, can realize the regulation of the internal air state through remote air supply, and meets the use requirements of indoor personnel and machine equipment.

However, the air conditioning system has the problems that the resistance of an internal heat insulation layer is large, the heat insulation effect is poor, the installation process is complex, and when the height of a space is too high, the air conditioner in the tall and large space cannot realize remote air supply.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a water conservancy diversion pressure boost ring constructs has solved the problem of proposition in the above-mentioned background art.

(II) technical scheme

In order to achieve the above purpose, the utility model provides a following technical scheme: a flow guide pressurizing ring structure comprises a protective shell and a flow guide pressurizing ring body;

the flow-guiding pressure-increasing ring body is fixedly connected inside the protective shell, a pressure-increasing air channel is arranged in the center of the flow-guiding pressure-increasing ring body and is arranged along the vertical direction, and the surface of the pressure-increasing air channel is smooth and in a streamline arrangement;

two mounting panels of protective housing's inside fixedly connected with, the top butt of water conservancy diversion pressure boost ring body is at the mounting panel lower surface that is located the top, the bottom butt of water conservancy diversion pressure boost ring body is at the upper surface that is located the below mounting panel, the perpendicular side butt of water conservancy diversion pressure boost ring body is on the lateral wall of protective housing internal surface.

Preferably, the protective casing comprises a top rectangle and a bottom cone, and the two mounting plates are respectively and fixedly connected to the positions, which are lower than the top rectangle and the bottom cone, of the protective casing.

Preferably, the water conservancy diversion pressure boost ring body comprises for the little material of coefficient of heat transfer, the water conservancy diversion pressure boost ring body comprises top rectangle section and bottom toper section two parts, the top in the pressure boost wind channel at water conservancy diversion pressure boost ring body center is the cylinder hole, the below in cylinder hole is the cambered surface connecting hole, the bottom of cambered surface connecting hole is connected with the conical surface hole, the bottom in conical surface hole is equipped with the bottom cambered surface hole, the water conservancy diversion pressure boost ring body wholly is the thick form setting of middle part thickness in top and bottom thickness, the diameter of the circular shape face in cambered surface connecting hole bottom is greater than the circular shape diameter in bottom cambered surface hole bottom.

Preferably, the whole protective housing is cylindrical, and the two mounting plates are fixedly connected to the middle and the bottom of the inner surface of the protective housing respectively.

Preferably, water conservancy diversion pressure boost ring body constitutes for the little material of coefficient of heat transfer, water conservancy diversion pressure boost ring body wholly is cylindrical, just the external diameter of water conservancy diversion pressure boost ring body is unanimous with protective housing's internal diameter, the two interference fit, the pressure boost wind channel at water conservancy diversion pressure boost ring body center sets up for the toper, the pressure boost wind channel surface at water conservancy diversion pressure boost ring body center is smooth, water conservancy diversion pressure boost ring body wholly is that upper portion thickness is little, the structure that lower part thickness is big, water conservancy diversion pressure boost ring body center pressure boost wind channel open-top's circular diameter is greater than its bottom open-ended circular diameter.

Preferably, the diversion pressure increasing ring body is made of a material with a small heat transfer coefficient, the diversion pressure increasing ring body is cylindrical as a whole, the outer diameter of the diversion pressure increasing ring body is consistent with the inner diameter of the protective shell, the diversion pressure increasing ring body and the protective shell are in interference fit, the top of a pressure increasing air channel at the center of the diversion pressure increasing ring body is a cylindrical hole, the bottom of the pressure increasing air channel is an arc pressure increasing ring, the arc pressure increasing ring is composed of an arc surface part with the top protruding upwards and an arc surface part with the bottom protruding downwards, the curvature radius of the arc surface part with the top protruding upwards is larger than that of the arc surface part with the bottom protruding downwards, and the pressure increasing air channel is in smooth transition integrally.

(III) advantageous effects

Compared with the prior art, the utility model provides a water conservancy diversion pressure boost loop constructs possesses following beneficial effect:

the guide supercharging ring structure is arranged by matching of a protective shell and a guide supercharging ring body, a heat exchanger is arranged at the top of the protective shell in the using process, a fan is arranged below the heat exchanger at the top of the protective shell, an air outlet of the fan is inserted into a supercharging air duct at the center of the guide supercharging ring body, after heat exchange is carried out by the heat exchanger, the fan drives air to form air flow and penetrate through the guide air duct at the center of the guide supercharging ring body, in the penetrating process, due to the arrangement of a conical or cambered surface supercharging ring with the upper part and the lower part of the guide air duct at the center of the guide supercharging ring body, the air flow can be supercharged when the air flow passes, the surfaces of the guide supercharging ring body and the guide air duct at the center of the guide supercharging ring body are all smoothly arranged, different sections of the guide air duct directly adopt smooth transition forms, the energy loss generated when the air flow passes can be effectively reduced, the noise caused when the air flow passes is reduced, the shape of the guide supercharging ring body is consistent with the shape inside of the protective shell, the installation process is simple, convenient and quick, in addition, the guide supercharging ring body is made of materials with small coefficient, the cold air flow and the heat exchange effect of avoiding the unnecessary heat loss under the heat preservation and the unnecessary heat preservation effect of the heat loss.

Drawings

Fig. 1 is a schematic structural view of the present invention in overall section;

fig. 2 is a schematic structural view of a sectional view of the diversion pressure-increasing ring body formed by a rectangle and a cone of the present invention;

FIG. 3 is a schematic cross-sectional view of the cylindrical diversion pressurizing ring body of the present invention;

fig. 4 is the structure schematic diagram of the cylindrical diversion pressure increasing ring body of the utility model in section.

In the figure: 1. a protective housing; 2. a flow guide pressurizing ring body.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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.

The first embodiment is as follows:

referring to fig. 1 and 2, the present invention provides a technical solution: a flow guide pressurizing ring structure comprises a protective shell 1 and a flow guide pressurizing ring body 2, wherein the protective shell 1 consists of a top rectangle and a bottom cone, and two mounting plates are fixedly connected to positions below the top rectangle and the bottom cone of the protective shell 1 respectively;

the guide pressurizing ring body 2 is fixedly connected inside the protective shell 1, a pressurizing air channel is arranged in the center of the guide pressurizing ring body 2 and is arranged along the vertical direction, and the surface of the pressurizing air channel is smooth and streamline;

two mounting panels of protective housing 1's inside fixedly connected with, the mounting panel lower surface that the top is lieing in to the top butt of water conservancy diversion pressure boost ring body 2, the bottom butt of water conservancy diversion pressure boost ring body 2 is lieing in the upper surface of below mounting panel, the perpendicular side butt of water conservancy diversion pressure boost ring body 2 is on the lateral wall of protective housing 1 internal surface, water conservancy diversion pressure boost ring body 2 comprises the little material of coefficient of heat transfer, water conservancy diversion pressure boost ring body 2 comprises top rectangle section and bottom toper section two parts, the top in the pressure boost wind channel at water conservancy diversion pressure boost ring body 2 center is the cylinder hole, the below in cylinder hole is the cambered surface connecting hole, the bottom of cambered surface connecting hole is connected with the conical surface hole, the bottom in conical surface hole is equipped with the bottom cambered surface hole, water conservancy diversion pressure boost ring body 2 wholly is the form setting that the thick middle part in top is thin and the bottom is thick, the diameter of the circular shape face in cambered surface connecting hole bottom is greater than the circular shape diameter in bottom cambered surface hole bottom.

Example two:

referring to fig. 1 and 3, the present invention provides a technical solution: a flow guide pressurizing ring structure comprises a protective shell 1 and a flow guide pressurizing ring body 2, wherein the protective shell 1 is integrally cylindrical, and two mounting plates are fixedly connected to the middle and the bottom of the inner surface of the protective shell 1 respectively;

the guide pressurizing ring body 2 is fixedly connected inside the protective shell 1, a pressurizing air channel is arranged in the center of the guide pressurizing ring body 2, the pressurizing air channel is arranged in the vertical direction, and the surface of the pressurizing air channel is smooth and streamline;

two mounting panels of inside fixedly connected with of protective housing 1, the mounting panel lower surface that the top butt of water conservancy diversion pressure boost ring body 2 is being located the top, the bottom butt of water conservancy diversion pressure boost ring body 2 is being located the upper surface of below mounting panel, the perpendicular side butt of water conservancy diversion pressure boost ring body 2 is on the lateral wall of protective housing 1 internal surface, water conservancy diversion pressure boost ring body 2 constitutes for the little material of coefficient of heat transfer, water conservancy diversion pressure boost ring body 2 wholly is cylindrical, and the external diameter of water conservancy diversion pressure boost ring body 2 is unanimous with the internal diameter of protective housing 1, the two interference fit, the pressure boost wind channel at water conservancy diversion pressure boost ring body 2 center is the toper setting, the pressure boost wind channel surface at water conservancy diversion pressure boost ring body 2 center is smooth, water conservancy diversion pressure boost ring body 2 wholly is for upper portion thickness little, lower part thickness is big structure, the circular diameter of pressure boost wind channel open-top in water conservancy diversion pressure boost ring body 2 center is greater than its bottom open-ended circular diameter.

Example three:

referring to fig. 1 and 4, the present invention provides a technical solution: a flow guide pressurizing ring structure comprises a protective shell 1 and a flow guide pressurizing ring body 2, wherein the protective shell 1 is integrally cylindrical, and two mounting plates are fixedly connected to the middle and the bottom of the inner surface of the protective shell 1 respectively;

the guide pressurizing ring body 2 is fixedly connected inside the protective shell 1, a pressurizing air channel is arranged in the center of the guide pressurizing ring body 2 and is arranged along the vertical direction, and the surface of the pressurizing air channel is smooth and streamline;

two mounting panels of protective housing 1's inside fixedly connected with, the mounting panel lower surface that is located the top is being propped in the top of water conservancy diversion pressure boost ring body 2, and the upper surface that is located the below mounting panel is being propped in the bottom of water conservancy diversion pressure boost ring body 2, and the perpendicular side butt of water conservancy diversion pressure boost ring body 2 is on the lateral wall of protective housing 1 internal surface.

To sum up, the utility model discloses, cooperation setting through protective housing 1 and water conservancy diversion pressure boost ring body 2, the top at the in-process protective housing 1 that uses is equipped with the heat exchanger, protective housing 1's top is located the below of heat exchanger and is equipped with the fan, the air outlet of fan is pegged graft in the pressure boost wind channel at water conservancy diversion pressure boost ring body 2 center, the heat exchanger carries out after the heat exchange, the fan drives the air and forms the air current and passes in the water conservancy diversion wind channel at water conservancy diversion pressure boost ring body 2 center, in-process because the setting of big-end-up toper or cambered surface pressure boost ring in water conservancy diversion pressure boost ring body 2 center water conservancy diversion wind channel of water conservancy diversion, can carry out the pressure boost to the air current when the air current process, water conservancy diversion pressure boost ring body 2 and its central water conservancy diversion wind channel surface are smooth setting, and the different sections in water conservancy diversion wind channel directly all adopt level and smooth transition form, can effectually reduce the energy loss that the air current produces when passing through, and reduce the noise that the air current caused when passing through, and the shape of water conservancy diversion pressure boost ring body 2 is unanimous with the inside shape of shell 1, the simple and convenient swift installation, in addition, because water conservancy diversion pressure boost ring body 2 is made by the material that the heat conduction coefficient is little material, under the refrigeration state, can effectively prevent to reduce the contact with the casing, the heat transfer of the casing, avoid the condensation, the condensation of the heat preservation of the temperature difference of the condensation, avoid the condensation, the heat loss of the heat exchange of the heat loss of the heat of the outer side of the heat of the condensation, the heat of the heat preservation outside.

The above, only be the embodiment of the preferred 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, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (6)

1. A water conservancy diversion pressure boost ring structure which characterized in that: comprises a protective shell (1) and a diversion pressurizing ring body (2);

the flow guide pressurizing ring body (2) is fixedly connected inside the protective shell (1), a pressurizing air channel is arranged in the center of the flow guide pressurizing ring body (2), the pressurizing air channel is arranged in the vertical direction, and the surface of the pressurizing air channel is smooth and in streamline arrangement;

the utility model discloses a safety protection device, including protective housing (1), the inside fixedly connected with of protective housing (1) two mounting panels, the top butt of water conservancy diversion pressure boost ring body (2) is at the mounting panel lower surface that is located the top, the bottom butt of water conservancy diversion pressure boost ring body (2) is at the upper surface that is located the below mounting panel, the perpendicular side butt of water conservancy diversion pressure boost ring body (2) is on the lateral wall of protective housing (1) internal surface.

2. The flow directing plenum ring structure of claim 1, wherein: the protective housing (1) is composed of a top rectangle and a bottom cone, and the mounting plates are fixedly connected to positions, which are lower than the top rectangle and the bottom cone, of the protective housing (1) respectively.

3. The flow directing and pressure increasing ring structure of claim 2, wherein: the flow guide pressurizing ring is characterized in that the flow guide pressurizing ring body (2) is made of a material with a small heat transfer coefficient, the flow guide pressurizing ring body (2) is composed of a top rectangular section and a bottom conical section, the top of a pressurizing air duct at the center of the flow guide pressurizing ring body (2) is a cylindrical hole, an arc surface connecting hole is formed below the cylindrical hole, a conical surface hole is connected to the bottom of the arc surface connecting hole, a bottom arc surface hole is formed in the bottom of the conical surface hole, the flow guide pressurizing ring body (2) is integrally arranged in a mode that the top is thick, the middle is thin and the bottom is thick, and the diameter of the circular surface at the bottom of the arc surface connecting hole is larger than that of the bottom of the arc surface hole.

4. The flow directing and pressurization ring structure of claim 1, wherein: the whole protective housing (1) is cylindrical, and the two mounting plates are fixedly connected to the middle and the bottom of the inner surface of the protective housing (1) respectively.

5. The flow directing and pressurization ring structure of claim 4, wherein: the utility model discloses a pressure boost ring, including water conservancy diversion pressure boost ring body (2), water conservancy diversion pressure boost ring body (2) is the circular diameter of bottom opening, and water conservancy diversion pressure boost ring body (2) is the little material of coefficient of heat transfer and constitutes, water conservancy diversion pressure boost ring body (2) wholly is cylindrical, just the external diameter of water conservancy diversion pressure boost ring body (2) is unanimous with the internal diameter of protecting sheathing (1), the two interference fit, the pressure boost wind channel at water conservancy diversion pressure boost ring body (2) center sets up for the toper, the pressure boost wind channel surface at water conservancy diversion pressure boost ring body (2) center is smooth, water conservancy diversion pressure boost ring body (2) wholly is little for upper portion thickness, the structure that lower part thickness is big, water conservancy diversion pressure boost ring body (2) center pressure boost wind channel open-top's circular diameter is greater than its bottom opening circular diameter.

6. The flow directing plenum ring structure of claim 4, wherein: the flow guide pressurizing ring is characterized in that the flow guide pressurizing ring body (2) is made of a material with a small heat transfer coefficient, the flow guide pressurizing ring body (2) is cylindrical as a whole, the outer diameter of the flow guide pressurizing ring body (2) is consistent with the inner diameter of the protective shell (1), the flow guide pressurizing ring body and the protective shell are in interference fit, the top of a pressurizing air duct at the center of the flow guide pressurizing ring body (2) is a cylindrical hole, the bottom of the pressurizing air duct is provided with an arc pressurizing ring, the arc pressurizing ring is composed of an arc surface part with the top protruding upwards and an arc surface part with the bottom protruding downwards, the curvature radius of the arc surface part with the top protruding upwards is larger than that of the arc surface part with the bottom protruding downwards, and the pressurizing air duct is in smooth transition integrally.

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