CN210397755U - Novel energy-saving temperature control valve - Google Patents

Abstract

A novel energy-saving temperature control valve comprises a valve body, a water outlet hole formed in the left side of the valve body and a water inlet hole formed in the right side of the valve body, wherein a mounting seat communicated with the inner space of the valve body is arranged above the middle of the valve body, the mounting seat is in threaded connection with a valve rod seat, a valve rod is arranged in the valve rod seat, the upper end of the valve rod penetrates out of the valve rod seat upwards and is connected with a hand wheel, the lower end of the valve rod is connected with an opening and closing piece located in the valve body, and a left; a right heat shield which is symmetrical with the left heat shield is externally screwed at the right end of the valve body, and an annular left baffle is arranged on the outer wall of the right part of the left heat shield; the outer wall of the left part of the right heat shield is provided with an annular right baffle; and a heat insulation pipe sleeved outside the valve body is arranged between the left baffle and the right baffle. The utility model discloses a novel energy-conserving temperature-sensing valve can effectively avoid hydrothermal heat energy to run off, guarantees that heat energy is effectively utilized, plays energy-conserving effect.

Description

Novel energy-saving temperature control valve

Technical Field

The utility model relates to a temperature-sensing valve, especially a novel energy-conserving temperature-sensing valve.

Background

The temperature-sensing valve is the valve that the temperature change was realized to accessible flow control, hot water flow along with the temperature-sensing valve of flowing through is different, the difference also can appear in final temperature, but hot water when the temperature-sensing valve flows through, hot-water partly flow then can transmit to the valve body of temperature-sensing valve on, and the heat on the valve body then can directly be taken away by the outside air, lead to partly heat energy to be wasted, the effect of increasing heat that the hot water of the same flow can play is different, need newly-increased hot water just can compensate the heat energy that loses, there is heat energy can't be effectively utilized and lead to the condition that the water cost becomes high.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a novel energy-conserving temperature-sensing valve, it can effectively avoid hydrothermal heat energy to run off, guarantees that heat energy is effectively utilized, plays energy-conserving effect.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the utility model discloses a novel energy-conserving temperature-sensing valve, including the valve body, locate the left apopore of valve body and locate the inlet opening on valve body right side, valve body middle part top is equipped with the mount pad that link up mutually with the valve body inner space, and the mount pad spiro union has the valve rod seat, is equipped with the valve rod in the valve rod seat, and the valve rod upper end upwards wears out the valve rod seat and is connected with the hand wheel, and the valve rod lower extreme is connected with the opening and closing piece that is located the valve body, its characterized in that: a left heat shield is connected with the left end of the valve body in an external thread mode; a right heat shield which is symmetrical with the left heat shield is externally screwed at the right end of the valve body, and an annular left baffle is arranged on the outer wall of the right part of the left heat shield; the outer wall of the left part of the right heat shield is provided with an annular right baffle; a heat insulation pipe sleeved outside the valve body is arranged between the left baffle and the right baffle; the inner wall of the left end of the heat insulation pipe is attached to the outer wall of the right end of the left heat insulation cover, and the inner wall of the right end of the heat insulation pipe is attached to the outer wall of the left end of the right heat insulation cover; an auxiliary pipe communicated with the heat insulation pipe is arranged on the upper side of the middle part of the heat insulation pipe, and the auxiliary pipe is sleeved outside the mounting seat; the left side and the right side of the mounting seat are provided with U-shaped movable notches which are symmetrical to each other; the front side and the rear side of the outer side of the upper part of the movable notch are provided with clamping blocks which are symmetrical with each other, and the side wall of one side of the clamping block at the front side and the rear side, which is opposite to each other, is provided with a limiting groove; cover plates which are symmetrical to each other are covered on the left side and the right side above the auxiliary pipe, and the cover plates are C-shaped; a sealing plate extends downwards from one end of the cover plate, which is far away from the mounting seat, the sealing plate shields and seals the movable notch, and the front side edge and the rear side edge of the sealing plate are clamped in the limiting grooves; the inner wall of the left heat shield, the inner wall of the right heat shield, the inner wall of the auxiliary pipe, the inner wall of the cover plate, the outer wall of the valve body and the outer wall of the mounting seat are enclosed to form a heat insulation chamber; and a foam plate is filled in the heat insulation cavity.

The outer wall of the left part of the valve body is provided with an annular left anti-extrusion plate, and the left side wall of the left anti-extrusion plate is attached to the right side inner wall of the left heat insulation cover; the valve body right part is equipped with one and is annular right side and prevents the stripper plate, prevents on the right side that stripper plate right side lateral wall and right side separate heat exchanger left side inner wall and laminate mutually.

Two sides of the upper end of the auxiliary pipe are provided with lower caulking grooves which are mutually symmetrical; the lower surface of the cover plate is provided with an upper caulking groove corresponding to the lower caulking groove in position; the upper caulking groove is internally provided with a positive pole magnetic block matched with the upper caulking groove, and the lower caulking groove is internally provided with a negative pole magnetic block attracted with the positive pole magnetic block.

The upper surface of the cover plate is provided with a handle.

The utility model has the advantages that:

compared with the prior art, adopt the utility model discloses the novel energy-conserving temperature-sensing valve of structure is when hot water with heat transfer to the valve body on, some heat on the valve body then can transmit to the mount pad in, and valve body and mount pad are all in thermal-insulated chamber, thermal-insulated intracavity packing has the cystosepiment, the cystosepiment then can die the heat lock on the valve body, die the heat lock on the mount pad, make the heat on valve body and the mount pad can't distribute to the external world, can only feed back again on the hot water in the valve body, make the hot water of some heat energy that runs off receive the heat energy that runs off once more again, make all heat energy can both obtain effective utilization, effectively avoid heat energy can't be leaded to the condition that the water cost uprise by effective utilization, play.

Drawings

FIG. 1 is a schematic structural view of the energy-saving thermostatic valve of the present invention;

fig. 2 is an enlarged view of a portion a of fig. 1.

Detailed Description

The invention is described in further detail below with reference to the following figures and detailed description:

referring to fig. 1 and 2, the utility model provides a novel energy-saving temperature control valve, which comprises a valve body 1, a water outlet 2 arranged on the left side of the valve body 1 and a water inlet 3 arranged on the right side of the valve body 1, wherein an installation seat 4 communicated with the internal space of the valve body 1 is arranged above the middle part of the valve body 1, the installation seat 4 is screwed with a valve rod seat 5, a valve rod 6 is arranged in the valve rod seat 5, the upper end of the valve rod 6 upwards penetrates out of the valve rod seat 5 and is connected with a hand wheel 7, the lower end of the valve rod 6 is connected with an opening and closing part 8 positioned in the valve body, and a left heat insulation cover; a right heat shield 10 which is symmetrical to the left heat shield 9 is externally screwed at the right end of the valve body 1, and an annular left baffle 11 is arranged on the outer wall of the right part of the left heat shield 9; the outer wall of the left part of the right heat shield 10 is provided with an annular right baffle plate 12; a heat insulation pipe 13 sleeved outside the valve body 1 is arranged between the left baffle plate 11 and the right baffle plate 12; the inner wall of the left end of the heat insulation pipe 13 is attached to the outer wall of the right end of the left heat insulation cover 9, and the inner wall of the right end of the heat insulation pipe 13 is attached to the outer wall of the left end of the right heat insulation cover 10; an auxiliary pipe 14 communicated with the heat insulation pipe 13 is arranged on the upper side of the middle part of the heat insulation pipe, and the auxiliary pipe 14 is sleeved outside the mounting seat 4; the left side and the right side of the mounting seat 4 are provided with U-shaped movable notches 15 which are symmetrical with each other; the front side and the rear side of the outer side of the upper part of the movable notch 15 are provided with clamping blocks 16 which are mutually symmetrical, and the side wall of one side of the clamping blocks 16 at the front side and the rear side, which is opposite to each other, is provided with a limiting groove 17; cover plates 18 which are symmetrical to each other are covered on the left side and the right side above the auxiliary pipe 14, and the cover plates 18 are C-shaped; a sealing plate 19 extends downwards from one end of the cover plate 18 far away from the mounting seat, the movable notch 15 is shielded and sealed by the sealing plate 19, and the front side edge and the rear side edge of the sealing plate 19 are clamped in the limiting grooves 17; the inner wall of the left heat shield 9, the inner wall of the right heat shield 10, the inner wall of the auxiliary pipe 14, the inner wall of the cover plate 18, the outer wall of the valve body 1 and the outer wall of the mounting seat enclose to form a heat insulation chamber 20; the insulating chamber 20 is filled with a foam board 2001.

The outer wall of the left part of the valve body 1 is provided with an annular left anti-extrusion plate 21, and the left side wall of the left anti-extrusion plate 21 is attached to the right side inner wall of the left heat insulation cover 9; the valve body 1 right part is equipped with one and is annular right side and prevents the stripper plate 22, and the right side is prevented the stripper plate 22 right side lateral wall and is separated heat exchanger 10 left side inner wall and laminate mutually on the right side.

Two sides of the upper end of the auxiliary pipe 14 are provided with lower caulking grooves 23 which are mutually symmetrical; the lower surface of the cover plate 18 is provided with an upper caulking groove 24 corresponding to the lower caulking groove 23; the upper caulking groove 24 is internally provided with a positive pole magnetic block 25 matched with the upper caulking groove, and the lower caulking groove 23 is internally provided with a negative pole magnetic block 26 attracted with the positive pole magnetic block.

The upper surface of the cover plate 18 is provided with a handle 27.

The utility model discloses a use method as follows:

when hot water transmits heat to the valve body 1, a part of heat on the valve body 1 can be transmitted to the mounting seat 4, the valve body 1 and the mounting seat 4 are both positioned in the heat insulation cavity 20, the foam board 2001 is filled in the heat insulation cavity 20, the foam board 2001 can lock the heat on the valve body 1, the heat on the mounting seat 4 is locked on the mounting seat 4, the heat on the valve body 1 and the mounting seat 4 cannot be dissipated to the outside, the heat can only be fed back to the hot water in the valve body 1 again, the hot water losing a part of heat energy can receive the lost heat energy again, all the heat energy can be effectively utilized, the condition that the water cost is increased due to the fact that the heat energy cannot be effectively utilized is effectively avoided, and the energy-saving effect is achieved.

When the foam board 2001 in the heat insulation chamber 20 needs to be replaced, a worker can detach the left heat insulation cover 9 and the right heat insulation cover 10 at first, because the left heat insulation cover 9 and the right heat insulation cover 10 are respectively screwed at the left end and the right end of the valve body 1, when the left heat insulation cover 9 and the right heat insulation cover 10 need to be detached, the left heat insulation cover 9 and the right heat insulation cover 10 can be detached from the left end and the right end of the valve body 1 only by rotating the left heat insulation cover 9 leftwards and rotating the right heat insulation cover 10 rightwards, the cover plate 18 can be lifted upwards, one end part of the cover plate 18 is connected with the sealing plate 19, when the cover plate 18 moves upwards, the sealing plate 19 moves upwards along with the sealing plate 19, at the moment, the sealing plate 19 does not move upwards along the track of the limiting groove 17 on the fixture block 16, and is not limited by the limiting groove 17 of the fixture block 16 any more, at the moment, the separation between the cover plate 18 and the auxiliary, even if the heat insulation pipe 13 is not detached, the worker can operate the foam board originally located in the heat insulation chamber 20, when the previous foam board 2001 needs to be installed again, the sealing board 19 can be installed while sequentially installing the left heat insulation cover 9, the right heat insulation cover 10, the cover plate 18 and other components again, the detaching structure is beneficial to replacing the foam board, replacing work after other components are damaged is facilitated, and the situation that the heat insulation device is difficult to repair or replace due to the fact that the structure is too complex is effectively avoided.

The outer wall of the left part of the valve body 1 is provided with a left anti-extrusion plate 21 which is annular, the left anti-extrusion plate 21 left side wall is attached to the inner wall of the left heat shield 9 right side, the right part of the valve body 1 is provided with a right anti-extrusion plate 22 which is annular, the right anti-extrusion plate 22 right side wall is attached to the inner wall of the right heat shield 10 left side, the left anti-extrusion plate 21 and the right anti-extrusion plate 22 exist to effectively avoid the situation that the left heat shield 9 and the right heat shield 10 are screwed on the valve body 1, and the foam plate 2001 is extruded to the screwing position to cause the clamping.

The two sides of the upper end of the auxiliary pipe 14 are provided with lower caulking grooves 23 which are symmetrical to each other, the lower surface of the cover plate 18 is provided with upper caulking grooves 24 corresponding to the positions of the lower caulking grooves 23, the upper caulking grooves 24 are internally provided with positive pole magnetic blocks 25 matched with the upper caulking grooves, the lower caulking grooves 23 are internally provided with negative pole magnetic blocks 26 attracted with the positive pole magnetic blocks 25, the attraction between the positive pole magnetic blocks 25 and the negative pole magnetic blocks 26 can enable the cover plate 18 to cover the pipe orifice at the upper end of the auxiliary pipe 14 firmly, the sealing performance of the heat insulation cavity 20 is guaranteed, and the situation that gas flows into the heat insulation cavity.

The upper surface of the cover plate 18 is provided with a handle 27, and the existence of the handle 27 is beneficial to lifting the cover plate 18 by workers, so that the cover plate 18 can be conveniently dismounted.

Claims (4)

1. The utility model provides a novel energy-conserving temperature-sensing valve, includes the valve body, locates the left apopore of valve body and locates the inlet opening on valve body right side, and valve body middle part top is equipped with the mount pad that link up mutually with the valve body inner space, and the mount pad spiro union has the valve rod seat, is equipped with the valve rod in the valve rod seat, and the valve rod upper end upwards wears out the valve rod seat and is connected with the hand wheel, and the valve rod lower extreme is connected with the piece that opens and shuts that is located the valve body: a left heat shield is connected with the left end of the valve body in an external thread mode; a right heat shield which is symmetrical with the left heat shield is externally screwed at the right end of the valve body, and an annular left baffle is arranged on the outer wall of the right part of the left heat shield; the outer wall of the left part of the right heat shield is provided with an annular right baffle; a heat insulation pipe sleeved outside the valve body is arranged between the left baffle and the right baffle; the inner wall of the left end of the heat insulation pipe is attached to the outer wall of the right end of the left heat insulation cover, and the inner wall of the right end of the heat insulation pipe is attached to the outer wall of the left end of the right heat insulation cover; an auxiliary pipe communicated with the heat insulation pipe is arranged on the upper side of the middle part of the heat insulation pipe, and the auxiliary pipe is sleeved outside the mounting seat; the left side and the right side of the mounting seat are provided with U-shaped movable notches which are symmetrical to each other; the front side and the rear side of the outer side of the upper part of the movable notch are provided with clamping blocks which are symmetrical with each other, and the side wall of one side of the clamping block at the front side and the rear side, which is opposite to each other, is provided with a limiting groove; cover plates which are symmetrical to each other are covered on the left side and the right side above the auxiliary pipe, and the cover plates are C-shaped; a sealing plate extends downwards from one end of the cover plate, which is far away from the mounting seat, the sealing plate shields and seals the movable notch, and the front side edge and the rear side edge of the sealing plate are clamped in the limiting grooves; the inner wall of the left heat shield, the inner wall of the right heat shield, the inner wall of the auxiliary pipe, the inner wall of the cover plate, the outer wall of the valve body and the outer wall of the mounting seat are enclosed to form a heat insulation chamber; and a foam plate is filled in the heat insulation cavity.

2. The novel energy-saving temperature control valve as claimed in claim 1, wherein: the outer wall of the left part of the valve body is provided with an annular left anti-extrusion plate, and the left side wall of the left anti-extrusion plate is attached to the right side inner wall of the left heat insulation cover; the valve body right part is equipped with one and is annular right side and prevents the stripper plate, prevents on the right side that stripper plate right side lateral wall and right side separate heat exchanger left side inner wall and laminate mutually.

3. The novel energy-saving temperature control valve as claimed in claim 1, wherein: two sides of the upper end of the auxiliary pipe are provided with lower caulking grooves which are mutually symmetrical; the lower surface of the cover plate is provided with an upper caulking groove corresponding to the lower caulking groove in position; the upper caulking groove is internally provided with a positive pole magnetic block matched with the upper caulking groove, and the lower caulking groove is internally provided with a negative pole magnetic block attracted with the positive pole magnetic block.

4. The novel energy-saving temperature control valve as claimed in claim 1, wherein: the upper surface of the cover plate is provided with a handle.

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