CN218001642U - Energy-saving quick-heating steel heating radiator - Google Patents

Abstract

The utility model relates to a heating ventilation equipment technical field, concretely relates to energy-conserving fast hot steel radiator, including a front water-through heating panel, a back water-through heating panel to and fix two upper three-way bodies and two lower three-way bodies of four angles between the front and back water-through heating panel, the middle interface of upper three-way body and lower three-way body is the level outwards, the upper inner chamber of two upper three-way bodies communicate with each other with the front plate cavity of front water-through heating panel, the upper inner chamber is equipped with the separation structure with the back plate cavity of back water-through heating panel; the lower cavities of the two lower tee bodies are communicated with the front plate cavity and the rear plate cavity. The utility model discloses change the flow direction structure of tee bend body in the traditional radiator, promote preceding heat supply temperature of steel radiator and heat radiant quantity, improve the thermal efficiency. The utility model discloses change few to steel radiator structure, but beneficial effect is obvious, realizes energy-conserving fast fever, has market spreading value.

Description

Energy-saving quick-heating steel radiator

Technical Field

The utility model relates to a warm equipment technical field that leads to, concretely relates to radiator.

Background

The heating plate is widely applied heating terminal equipment, and heat is radiated outwards through the surface of the heating plate by the heating medium circulating water in the heating plate to form a heating area. The types of the radiators are various, such as cast iron radiators, steel-aluminum composite radiators, steel plate radiators and the like, wherein the steel radiators are efficient in heating, energy-saving, environment-friendly, compact and fashionable in appearance, and the radiators are the most extensive types selected at home and abroad.

The steel radiator has four circulation holes, the upper and lower sides of the holes are symmetrically distributed, hot water is fed into one side of the upper part of the steel radiator, water is discharged from one side of the lower part of the steel radiator, and a heating medium water medium flows through the front and rear heat dissipation plates of the steel radiator from top to bottom to dissipate heat. The steel radiator also has six or eight circulation holes, and the more circulation holes are positioned at the bottom of the steel radiator. The steel radiator is generally installed on the wall body, this just leads to the fact the more heat radiation wall bodies of that side's heating panel that faces the wall body, though also can drive the zone temperature, but the thermal efficiency is low, causes the heat waste, and long-term baking wall body simultaneously can cause the wall body to discolour and the fracture.

Disclosure of Invention

The utility model discloses to the existing condition, provide an energy-conserving fast hot steel radiator, this radiator passes through the flow direction of tee bend body guide heat medium in the radiator for heat medium aqueous medium flows to preceding heating panel earlier, flows to the rear heating panel again, and the heat supply temperature and the heat radiation volume of heating panel before effectively improving improve, improve the thermal efficiency. The utility model discloses change few to steel radiator structure, but beneficial effect is obvious, realizes energy-conserving fast fever, has market spreading value.

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

an energy-saving quick-heating steel heating radiator comprises a front water-through heating panel, a rear water-through heating panel, two upper tee bodies and two lower tee bodies, wherein the two upper tee bodies and the two lower tee bodies are fixed at four corners between the front water-through heating panel and the rear water-through heating panel; the lower cavities of the two lower tee bodies are communicated with the front plate cavity and the rear plate cavity.

The scheme of the utility model can also be:

the blocking structure is a check valve core.

The check valve core is installed after the paint spraying process of the steel radiator.

The barrier structure is a barrier plate.

The blocking plate is directly sealed and welded or the blind hole of the tee body is processed.

The bottom of the steel radiator is not provided with a water inlet and return tee body.

The utility model discloses an energy-conserving fast hot steel radiator changes the flow direction structure of tee bend body in traditional radiator for leading to water heating panel before heat medium high-temperature water flows earlier, flows backward after the cooling and leads to water heating panel, promotes preceding heat supply temperature of steel radiator and heat radiant mass, improves the thermal efficiency. The utility model discloses change few to steel radiator structure, but beneficial effect is obvious, realizes energy-conserving fast fever, has market spreading value.

Drawings

Fig. 1 is a schematic view of a medium flow direction and a three-dimensional cross-sectional structure of a steel radiator in the first embodiment;

fig. 2 is a schematic perspective sectional view of a steel radiator in the first embodiment;

fig. 3 is a schematic perspective sectional view of a steel radiator in the second embodiment;

fig. 4 is a schematic sectional view of the tee body structure of the second embodiment.

Detailed Description

The preferred embodiments of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, in a first preferred embodiment, an energy-saving fast-heating steel radiator comprises a front water-through heat-dissipating plate 1, a rear water-through heat-dissipating plate 2, and two upper three-way bodies 3 and two lower three-way bodies 4 fixed at four corners between the front water-through heat-dissipating plate and the rear water-through heat-dissipating plate, wherein the middle interfaces of the upper three-way bodies 3 and the lower three-way bodies 4 are horizontally outward, upper inner cavities 30 of the two upper three-way bodies 3 are communicated with a front plate cavity 10 of the front water-through heat-dissipating plate 1, and barrier structures 5 are arranged on the upper inner cavities 30 and a rear plate cavity 20 of the rear water-through heat-dissipating plate 2; the lower cavities 40 of the two lower tee bodies 4 are communicated with the front plate cavity 10 and the rear plate cavity 20.

Different from the traditional steel heating radiator, the upper three-way body 3 is provided with the separation structure 5, so that the water inlet guide of the heating radiator is changed, as shown in the attached drawing 1, a water inlet valve 6 at the upper part of the left side of the steel heating radiator is used for water inlet, the upper three-way body 3 guides a heat medium water medium to the front water-passing heating panel 1, and a front plate cavity 10 in the front water-passing heating panel 1 consists of an upper horizontal water flowing groove 12, a lower horizontal water flowing groove 12 and a plurality of lower water flowing grooves 11 which are communicated up and down. A continuous heat dissipation concave plate 13 is arranged between the front water-through heat dissipation plate 1 and the rear water-through heat dissipation plate 2. The heat medium aqueous medium is guided by a plurality of water channels of the front water-through heat radiation plate 1, the heat medium aqueous medium uniformly conducts heat to the whole front water-through heat radiation plate 1 and radiates heat outwards, and the continuous heat radiation concave plate 13 can further improve the heat conduction capability, so that the temperature of the heat medium aqueous medium is reduced when the heat medium flows to the lower part of the heating radiator compared with the temperature when the heat medium just flows into the heating radiator. The heat medium water medium flowing downwards flows to the rear water heating radiation plate 2 to realize further heat storage and radiation, and simultaneously part of the heat medium water medium flows out of the heating radiator through a water return valve 60. Go up tee bend 3 under the effect of separation structure 5, realize the difference in temperature of leading to water heating panel 1 before with the water heating panel 2 that leads to behind, further, promote preceding heat supply temperature of steel radiator and heat radiant quantity, improve the thermal efficiency.

The upper tee body 3 is arranged at the left end and the right end of the radiator and is provided with a separation structure 5.

As shown in fig. 2, the blocking structure 5 of the upper tee body 3 is a check valve core 50. The check valve core 50 is installed after the paint spraying process of the steel radiator. The non-return valve core 50 is adopted to realize one-way flow, and when the back water-through heat dissipation plate 2 and the front water-through heat dissipation plate 1 have pressure difference, the pressure difference can be automatically adjusted.

The bottom of the steel heating radiator is provided with a water inlet and return tee body, namely the steel heating radiator is provided with three tee bodies at four corners, two upper tee bodies 3 and two lower tee bodies 4 which are symmetrically distributed.

In a second preferred embodiment shown in fig. 3 and 4, the structure is substantially the same as in the first embodiment, and the barrier structure is different.

An energy-saving quick-heating steel radiator comprises a front water-through heat radiation plate 1, a rear water-through heat radiation plate 2, two upper tee bodies 3 and two lower tee bodies 4 which are fixed at four corners between the front water-through heat radiation plate and the rear water-through heat radiation plate, wherein the middle interfaces of the upper tee bodies 3 and the lower tee bodies 4 face outwards horizontally, upper inner cavities 30 of the two upper tee bodies 3 are communicated with a front plate cavity 10 of the front water-through heat radiation plate 1, and blocking structures 5 are arranged on the upper inner cavities 30 and a rear plate cavity 20 of the rear water-through heat radiation plate 2; the lower cavities 40 of the two lower tee bodies 4 are communicated with the front plate cavity 10 and the rear plate cavity 20.

The blocking structure 5 on the upper tee body 3 is a blocking plate 51 which directly blocks the lower rear flow to form a flow passage similar to an elbow. The baffle plate 51 is directly sealed and welded or the blind hole of the tee body is processed.

The utility model discloses an energy-conserving fast hot steel radiator changes the flow direction structure of tee bend body in traditional radiator for leading to water heating panel before heat medium high-temperature water flows earlier, flows backward after the cooling and leads to water heating panel, promotes preceding heat supply temperature of steel radiator and heat radiant mass, improves the thermal efficiency. The utility model discloses change few to steel radiator structure, but beneficial effect is obvious, realizes energy-conserving fast fever, has market spreading value.

Claims (6)

1. The utility model provides an energy-conserving fast hot steel radiator, leads to water heating panel (1) before one, leads to water heating panel (2) after one to and fix around leading to water two of four angles between the heating panel go up tee bend body (3) and two tee bend bodies (4) down, go up tee bend body (3) and the equal level of middle interface of tee bend body (4) down outwards, its characterized in that: the upper inner cavities (30) of the two upper tee bodies (3) are communicated with the front plate cavity (10) of the front water-through heat dissipation plate (1), and the upper inner cavities (30) and the rear plate cavity (20) of the rear water-through heat dissipation plate (2) are provided with blocking structures (5); the lower cavities (40) of the two lower tee bodies (4) are communicated with the front plate cavity (10) and the rear plate cavity (20).

2. An energy-saving quick-heating steel radiator according to claim 1, characterized in that: the blocking structure (5) is a check valve core (50).

3. An energy-saving quick-heating steel radiator according to claim 1, characterized in that: the barrier structure (5) is a barrier plate (51).

4. An energy-saving fast-heating steel radiator according to claim 1, characterized in that: the bottom of the steel radiator is not provided with a water inlet and return tee body.

5. An energy-saving quick-heating steel radiator according to claim 2, characterized in that: the check valve core (50) is installed after the paint spraying process of the steel radiator.

6. An energy-saving quick-heating steel radiator according to claim 3, characterized in that: the blocking plate (51) is directly sealed and welded or is used for processing the blind hole of the tee body.

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