CN214468888U - Vacuum superconductive energy-saving radiator - Google Patents

Abstract

The utility model discloses an energy-conserving radiator of vacuum superconducting, the on-line screen storage device comprises a base, the inside fixedly connected with heating pipe of base, the top surface of base and the top fixedly connected with multiunit fin that is located the heating pipe correspond the top fixedly connected with fixing base of fin, the inside fixedly connected with conveyer pipe of fixing base, the bottom surface of conveyer pipe and the top swing joint who is located the fin have the regulating pipe, the inside fixedly connected with lead screw of fin, the outside fixedly connected with multiunit driven fan of lead screw, the top surface of base and the bottom surface of fixing base just are located the equal fixedly connected with positioning seat in the outside of fin, the equal fixedly connected with backup pad in both sides on base bottom surface. According to the vacuum superconducting energy-saving heating radiator, the superconducting medium is heated through the heating pipe, the heating speed of water inside the radiating fin is increased, the vacuum superconducting energy-saving heating radiator has a hot steam guiding function, the radiating efficiency is improved, and the energy-saving effect is achieved.

Description

Vacuum superconductive energy-saving radiator

Technical Field

The utility model relates to a radiator technical field, more specifically say, it relates to vacuum superconductive energy-saving radiator.

Background

Superconductive radiators are different from radiators in the traditional sense. The slice does not use water, but injects superconducting material, the slice is in the vacuum state, it is low to have a start-up temperature, the conduction is fast (put the superconductive radiator in hot water, only need several seconds time just can all get up hot), the temperature is high (with heating superconductive radiator, whole surface can reach the high temperature more than 80 ℃), water conservation more than 80% (whole superconductive radiator does not have water, only need with boiler and pipeline fill water can), it is simple and convenient to have the installation, save time and economize material, it is corrosion-resistant, long service life, safety and reliability, energy-concerving and environment-protective advantages.

For example, the vacuum superconducting energy-saving radiator (application number: 200620135894.6) disclosed in the chinese patent document, although the effect of improving the thermal efficiency is solved, the problem that the guiding of the air flow is not solved, the mode of automatic rising of the steam has poor efficiency, the heating speed is slow, and it is inconvenient to change water and inject the superconducting medium liquid is not solved, so the vacuum superconducting energy-saving radiator is required.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a vacuum superconductive energy-saving radiator, it has the air current direction, and rate of heating is fast, consumes for a short time to be convenient for trade water and pour into the characteristics of superconductive medium liquid into.

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

the vacuum superconducting energy-saving heating radiator comprises a base, wherein a heating pipe is fixedly connected inside the base, a plurality of groups of radiating fins are fixedly connected to the surface of the top of the base and positioned at the top of the heating pipe, corresponding fixing seats are fixedly connected to the tops of the radiating fins, conveying pipes are fixedly connected inside the fixing seats, the surface of the bottom of the conveying pipe and positioned at the tops of the radiating fins are movably connected with adjusting pipes, supporting lead screws are fixedly connected inside the radiating fins, a plurality of groups of driven fans are fixedly connected to the outer sides of the supporting lead screws, positioning seats are fixedly connected to the surface of the top of the base and the surface of the bottom of the fixing seats and positioned at the outer sides of the radiating fins, and supporting plates are fixedly connected to two sides of the surface of the bottom of the base;

through the technical scheme, the cooling fins and the adjusting pipes are arranged, so that the effects of improving the heat efficiency and facilitating water replacement are achieved.

Furthermore, a superconducting medium box is fixedly connected inside the base and outside the heating pipe, the top of the superconducting medium box is tangent to the bottom of the radiating fin, and a sealing valve is fixedly connected to the right side surface of the base and on the right side of the superconducting medium box;

through the technical scheme, the superconducting medium box and the sealing valve are arranged, so that the effect of conveniently injecting superconducting medium liquid is achieved.

Furthermore, sealing flanges are fixedly connected to the two sides of the heating pipe and the two sides of the conveying pipe, and the sealing flanges are tangent to the two sides of the base and the two sides of the fixed seat;

through the technical scheme, the sealing flange is arranged, so that the sealing performance of the equipment is improved.

Furthermore, the radiating fin is of a U-shaped structure, the inner side of the radiating fin is an arc surface, the bottom of the radiating fin is a hemispherical surface, a rotating shaft is movably connected to the outer side of the supporting screw rod and the inner side of the driven fan, and the rotating shaft is fixedly connected with the driven fan;

through the technical scheme, the rotating shaft is arranged, so that the effect of airflow guiding is achieved.

Furthermore, the positioning seat is fixedly connected with the radiating fin, and the positioning seat is made of heat insulation materials;

through the technical scheme, the effect of conveniently detaching the radiating fins and improving the safety is achieved.

Furthermore, the adjusting pipe is movably connected with the radiating fins, the bottom of the conveying pipe is provided with an opening corresponding to the adjusting pipe, the bottom of the adjusting pipe and the inner sides of the tops of the radiating fins are fixedly connected with a sealing plate, and the sealing plate is semicircular;

through the technical scheme, the sealing plate is arranged, so that the effect of heat dissipation sealing is achieved.

Furthermore, a gear is fixedly connected to the outer side of the adjusting pipe and the inner side of the fixing seat, an adjusting frame is movably connected to the inner side of the fixing seat and the outer side of the gear, a rack is fixedly connected to the inner side of the adjusting frame and the outer side of the gear, the rack is movably engaged with the gear, and a handle is fixedly connected to the right side of the adjusting frame and the left side of the fixing seat;

through the technical scheme, the gear is arranged, and the adjusting frame comprises the rack and the handle, so that the effects of facilitating water injection and air suction vacuum are achieved.

To sum up, the utility model discloses following beneficial effect has:

1. the base comprises the heating pipe and the radiating fins, the base is fixedly connected with the superconducting medium box, the superconducting medium box is fixedly connected with the sealing valve, the radiating fins are fixedly connected with the supporting screw rod, the supporting screw rod is movably connected with the rotating shaft, and the rotating shaft is fixedly connected with the driven fan, so that the effects of improving the heat efficiency and saving energy are achieved.

2. The fixing base comprises an adjusting frame, the adjusting frame is fixedly connected with a rack and a handle, a rack is movably meshed with a gear, the gear is fixedly connected with an adjusting pipe, the adjusting pipe and the radiating fins are fixedly connected with a sealing plate, the adjusting pipe is movably connected with the fixing base and the radiating fins, and the adjusting pipe is fixedly connected with the conveying pipe, so that the effects of facilitating air exhaust and injection are achieved.

Drawings

Fig. 1 is a schematic perspective view of the structure of the present invention;

FIG. 2 is a front view, sectional view of the structure of the present invention;

fig. 3 is a schematic diagram showing the top view structure of the adjusting frame according to the present invention.

In the figure: 1. a base; 2. heating a tube; 3. a heat sink; 4. a fixed seat; 5. a delivery pipe; 6. an adjusting tube; 7. a support screw rod; 8. a driven fan; 9. positioning seats; 10. a support plate; 11. a superconducting medium tank; 12. a sealing valve; 13. sealing the flange; 14. a rotating shaft; 15. a sealing plate; 16. a gear; 17. an adjusting bracket; 18. a rack; 19. a handle.

Detailed Description

Example (b):

the present invention will be described in further detail with reference to the accompanying fig. 1-3.

A vacuum superconducting energy-saving radiator is shown in figure 1-2 and comprises a base 1, a heating pipe 2 is fixedly connected inside the base 1, a plurality of groups of radiating fins 3 are fixedly connected on the top surface of the base 1 and positioned on the top of the heating pipe 2, a fixed seat 4 is fixedly connected on the top of the corresponding radiating fin 3, a conveying pipe 5 is fixedly connected inside the fixed seat 4 and used for injecting water and exhausting air for the radiating fins 3, an adjusting pipe 6 is movably connected on the bottom surface of the conveying pipe 5 and positioned on the top of the radiating fin 3, a supporting screw 7 is fixedly connected inside the radiating fin 3, a plurality of groups of driven fans 8 are fixedly connected on the outer side of the supporting screw 7, airflow in the radiating fin 3 is utilized to rotate to accelerate airflow movement, positioning seats 9 are fixedly connected on the top surface of the base 1 and the bottom surface of the fixed seat 4 and positioned on the outer side of the radiating fin 3, supporting plates 10 are fixedly connected on two sides of the bottom surface of the base 1, for equipment support; through the technical scheme, the radiating fins 3 and the adjusting pipes 6 are arranged, so that the effects of improving the heat efficiency and facilitating water replacement are achieved.

A superconducting medium box 11 is fixedly connected inside the base 1 and positioned on the outer side of the heating pipe 2 and used for storing superconducting medium liquid, the top of the superconducting medium box 11 is tangent to the bottom of the radiating fin 3, and a sealing valve 12 is fixedly connected on the right side surface of the base 1 and positioned on the right side of the superconducting medium box 11; through the technical scheme, the superconducting medium box 11 and the sealing valve 12 are arranged, so that the effect of conveniently injecting superconducting medium liquid is achieved.

Sealing flanges 13 are fixedly connected to the two sides of the heating pipe 2 and the conveying pipe 5, so that the stability of the heating pipe 2 and the conveying pipe 5 is improved, and the sealing flanges 13 are tangent to the two sides of the base 1 and the two sides of the fixed seat 4; through the technical scheme, the sealing flange 13 is arranged, so that the sealing performance of the equipment is improved.

The radiating fins 3 are of a U-shaped structure, so that the heat efficiency is improved, the hot steam utilization rate is improved, the inner sides of the radiating fins 3 are cambered surfaces, the bottoms of the radiating fins 3 are hemispherical surfaces, the outer sides of the supporting screw rods 7 and the inner sides of the driven fans 8 are movably connected with the rotating shaft 14, and the rotating shaft 14 is fixedly connected with the driven fans 8; through the technical scheme, the rotating shaft 14 is arranged, so that the effect of guiding the airflow is achieved.

The positioning seat 9 is fixedly connected with the radiating fin 3, the radiating fin 3 is directly disassembled and assembled through the positioning seat 9, and the positioning seat 9 is made of a heat insulation material, so that the safety of equipment is improved; through the technical scheme, the effect of conveniently detaching the radiating fins 3 and improving the safety is achieved.

The adjusting pipe 6 is movably connected with the radiating fins 3, the bottom of the conveying pipe 5 is provided with an opening corresponding to the adjusting pipe 6, the bottom of the adjusting pipe 6 and the inner side of the top of the radiating fins 3 are fixedly connected with sealing plates 15, the sealing plates 15 are semicircular, and the two groups of sealing plates 15 form a sealing structure; through the technical scheme, the sealing plate 15 is arranged, so that the heat dissipation sealing effect is achieved.

As shown in fig. 3, a gear 16 is fixedly connected to the outside of the adjusting tube 6 and inside the fixing base 4, an adjusting frame 17 is movably connected to the inside of the fixing base 4 and outside of the gear 16, a rack 18 is fixedly connected to the inside of the adjusting frame 17 and outside of the gear 16, the rack 18 is movably engaged with the gear 16, a handle 19 is fixedly connected to the right side of the adjusting frame 17 and left side of the fixing base 4, the adjusting frame 17 is pulled by the handle 19, the rack 18 drives the gear 16 to rotate, and thus the adjusting tube 6 rotates, and the sealing plate 15 at the bottom of the adjusting tube 6 is opened; through the technical scheme, the gear 16 is arranged, and the adjusting frame 17 comprises the rack 18 and the handle 19, so that the effects of facilitating water injection and vacuum pumping are achieved.

The working principle is as follows: when the device is used, a user connects the heating pipe 2 with the heater, the heating pipe 2 heats the superconducting medium box 11, the superconducting medium box 11 heats the radiating fin 3, water in the radiating fin 3 is heated to generate steam, the steam moves upwards to drive the driven fan 8 on the outer side of the support screw 7 to rotate, the steam in the radiating fin 3 approaches to the inner side of the radiating fin 3, the heating speed of the radiating fin 3 is increased, the energy-saving and quick-heating effects are achieved, when the radiating fin 3 needs to be injected with water, the handle 19 is pulled, the handle 19 drives the adjusting frame 17 to move, the rack 18 on the inner side of the adjusting frame 17 drives the gear 16 on the outer side of the adjusting pipe 6 to rotate, the sealing plate 15 at the bottom of the adjusting pipe 6 is overlapped, the radiating fin 3 is injected with water, the connecting conveying pipe 5 can also extract air, and the inside of the radiating fin 3 can achieve the quick-vacuum effect conveniently, convenient to use, comparatively practical.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (7)

1. Vacuum superconductive energy-saving radiator includes base (1), its characterized in that: the heating pipe (2) is fixedly connected inside the base (1), a plurality of groups of radiating fins (3) are fixedly connected on the top surface of the base (1) and positioned at the top of the heating pipe (2), the top of the corresponding radiating fin (3) is fixedly connected with a fixed seat (4), the interior of the fixed seat (4) is fixedly connected with a conveying pipe (5), the bottom surface of the conveying pipe (5) and the top of the radiating fin (3) are movably connected with an adjusting pipe (6), a support screw rod (7) is fixedly connected inside the radiating fin (3), a plurality of groups of driven fans (8) are fixedly connected on the outer side of the support screw rod (7), the top surface of the base (1) and the bottom surface of the fixed seat (4) and the outer side of the radiating fin (3) are fixedly connected with a positioning seat (9), the two sides of the bottom surface of the base (1) are fixedly connected with supporting plates (10).

2. The vacuum superconducting energy-saving radiator according to claim 1, characterized in that: the heating pipe is characterized in that a superconducting medium box (11) is fixedly connected to the inner portion of the base (1) and located on the outer side of the heating pipe (2), the top of the superconducting medium box (11) is tangent to the bottom of the radiating fin (3), and a sealing valve (12) is fixedly connected to the right side surface of the base (1) and located on the right side of the superconducting medium box (11).

3. The vacuum superconducting energy-saving radiator according to claim 1, characterized in that: the heating pipe (2) and the both sides of conveyer pipe (5) are equal fixedly connected with sealing flange (13), sealing flange (13) are tangent with the both sides of base (1) and fixing base (4).

4. The vacuum superconducting energy-saving radiator according to claim 1, characterized in that: the cooling fin (3) is of a U-shaped structure, the inner side of the cooling fin (3) is an arc surface, the bottom of the cooling fin (3) is a hemispherical surface, the outer side of the supporting screw rod (7) is movably connected with a rotating shaft (14) on the inner side of the driven fan (8), and the rotating shaft (14) is fixedly connected with the driven fan (8).

5. The vacuum superconducting energy-saving radiator according to claim 1, characterized in that: the positioning seat (9) is fixedly connected with the radiating fin (3), and the positioning seat (9) is made of heat insulation materials.

6. The vacuum superconducting energy-saving radiator according to claim 1, characterized in that: the adjusting pipe (6) is movably connected with the radiating fins (3), the bottom of the conveying pipe (5) is provided with openings corresponding to the adjusting pipe (6), the bottom of the adjusting pipe (6) and the inner sides of the tops of the radiating fins (3) are fixedly connected with the sealing plate (15), and the sealing plate (15) is semicircular.

7. The vacuum superconducting energy-saving radiator according to claim 1, characterized in that: the outside of control tube (6) just is located inside fixedly connected with gear (16) of fixing base (4), the outside swing joint that the inside of fixing base (4) just is located gear (16) has alignment jig (17), the inboard of alignment jig (17) just is located outside fixedly connected with rack (18) of gear (16), rack (18) and gear (16) are the swing joint, the right side of alignment jig (17) just is located left side fixedly connected with handle (19) of fixing base (4).

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