CN2454699Y - Family heating controlling apparatus - Google Patents

Abstract

The utility model relates to a family splitting heating controlling apparatus. Three connecting pipes of a three-way body 2 are respectively a water supplying branch pipe connecting pipe 5 of a radiator, a water supplying upright pipe connecting pipe 1 and a crossing pipe connecting pipe 7. The water supplying branch pipe connecting pipe 5 of the radiator is mutually communicated with the crossing pipe connecting pipe through a crossing branch pipe 6. A lock type proportion gate valve 3 is arranged at connecting portion; a valve plate 4 which can close a single pipe is arranged in the gate valve. An automatic constant temperature regulator 33 which can control the water discharge in the pipes is installed on the crossing pipe connecting pipe. The device is not required to turn the existing single pipe type heat supply into double pipe type, and is capable of realizing family splitting control heating and family splitting metering. The utility model has the functions of fund saving and comprehensive functions, and is capable of realizing forcible single family locking, etc.

Description

The individual heating control device

The utility model belongs to a kind of individual heating control device that uses on heat supply pipeline.

Now, the topmost problem that China's heating work exists is: can not realize the control heat supply of branch family, therefore cause and can't realize household measurement heat-supplying.The method that overcomes the above problems at present just makes the single hose heat supply into the double hose heater.And improved system also can occur high-rise overheated, the phenomenon that low layer is cold excessively, what most now buildings adopted is the single hose heating, as transforms then and need drop into a large amount of funds.Occurred now solving " the locking-type triple valve " of single tube control heating on the market, there are shortcomings such as function singleness, range of application be narrow in it.

The purpose of this utility model is a kind of individual heating control device of design, and it should not need to make existing single hose heat supply into double hose, can realize the control heat supply of branch family, thereby can realize household measurement heat-supplying.It should have saving fund, complete function, can realize that single household forces characteristics such as locking.

The utility model includes three-way body 2, three adapters of three-way body 2 are respectively that radiator water supply arm adapter 5, water supply standpipe are taken over 1, crossed over pipe adapter 7, radiator water supply arm adapter 5 is connected by crossing over arm 6 and crossing over pipe adapter 7, in radiator water supply arm adapter 5, be provided with locking-type ratio gate valve 3 with leap arm 6 junctions, be provided with the valve plate 4 that single pipeline can be closed in the locking-type ratio gate valve 3, the constant temperature automatic regulator 33 of discharge in the energy control valve is installed on crossing over pipe adapter 7.

The utility model can connect radiator, feed pipe and return pipe respectively with three adapters of three-way body 2 in application.When the user refuses to hand over heat time-consuming, can force locking locking-type ratio gate valve 3, behind the locking, its valve plate 4 makes radiator water supply arm take over 5 and closes, and makes leap arm 6 open-minded, room temperature is reduced, until the heat supply that stops this family; When locking-type ratio gate valve 3 not during locking, the user can according to circumstances pass through constant temperature automatic regulator 33, or rotation locking-type ratio gate valve 3 by valve plate 4 change radiator water supply arms take over 5 with the opening degree of crossing over arm 6, regulate maximum room temperature excursion.This device does not need to make existing single hose heat supply into double hose, can realize the control heat supply of branch family, as at each household hotlist being installed, can realize household measurement heat-supplying.It also has saving fund, complete function, can realize that single household forces advantages such as locking.

Fig. 1 is a structural representation of the present utility model, Fig. 2 is the A-A cutaway view Amplified image of Fig. 1, and Fig. 3 is the C-C cutaway view of Fig. 2, and Fig. 4 is the B-B cutaway view Amplified image of Fig. 1, Fig. 5 is the application drawing of the utility model in single riser systems, and Fig. 6 is the application drawing of the utility model in double stack system.

Embodiment one: present embodiment is by three-way body 2, locking-type ratio gate valve 3, constant temperature automatic regulator 33 is formed, three adapters of three-way body 2 are respectively that radiator water supply arm takes over 5, the water supply standpipe takes over 1, cross over pipe and take over 7, radiator water supply arm adapter 5 is connected by crossing over arm 6 and crossing over pipe adapter 7, in radiator water supply arm adapter 5, be provided with locking-type ratio gate valve 3 with leap arm 6 junctions, be provided with the valve plate 4 that single pipeline can be closed in the locking-type ratio gate valve 3, take over to be equipped with on 7 at the leap pipe and can control the constant temperature automatic regulator 33 of crossing over the in-pipe flow amount.

Embodiment two: present embodiment is installed in embodiment one described device in single standpipe heating system: the radiator arm that supplies water is taken over 5 and is connected with radiator water supply arm 31, the water supply standpipe is taken over 1 and is connected with water supply standpipe 30, crosses over pipe and takes over 7 and manage 35 and be connected with return branch of radiator 32 by crossing over.

Embodiment three: present embodiment is installed in embodiment one described device in two standpipe heating systems: the radiator arm that supplies water is taken over 5 and is connected with radiator water supply arm 31, the water supply standpipe is taken over 1 and is connected with water supply standpipe 30, cross over pipe and take over 7 and be connected with next family radiator water supply arm 31 by crossing over pipe 35, radiator return pipe 32 is connected with return riser 34.

Embodiment four: present embodiment and embodiment one are different be constant temperature automatic regulator 33 it include driven baffler 9, two-way jump ring 13, control panel 14, eccentric wheel 15, impeller 17, temperature-sensing element 26.Cavity 29 is located at radiator water supply arm and takes over the top that a side of 5 is positioned at locking-type ratio gate valve 3, its inside is taken over 5 with radiator water supply arm and is connected, impeller 17 is installed on the rear portion of the axle 16 that is positioned at cavity 29, eccentric wheel 15 is installed on axle 16 middle parts of cavity 29 outsides, driven baffler 9 right sides withstand on a side of eccentric wheel 15, the left side of driven baffler 9 is inserted the leap pipe and is taken in 7, is provided with compression spring 8 between the outer wall of driven baffler 9 right side risers and leap pipe adapter 7.Control panel 14 is installed in the front end of axle 16, has a jump ring groove 12 in the front of control panel 14.Two-way jump ring 13 is installed in the front of control panel 14 by axle, and two-way jump ring about 13 respectively has the claw 13-1 and the claw 13-2 that stretch to control panel, and claw 13-1 and claw 13-2 can snap in respectively in the jump ring groove 12.Temperature-sensing element 26 is installed on the temperature-sensing element support 22, hits the end that spring wheel support 21 is connected temperature-sensing element 26, hits spring wheel support 21 and is provided with and hits spring wheel 19, hit spring take turns that 19 front ends are provided with can be with the compression spring 20 of its top to two-way jump ring 13.

Driven baffler 9 can be done laterally intermittently to move back and forth under the acting in conjunction of spring 8 and eccentric wheel 15, when moving to left dead point 10, hinders water and flows into and cross over pipe, and it is open-minded to cross over pipeline portions; It is open-minded comprehensively to cross over pipeline when moving to right dead point 11.Eccentric wheel 15 closely is connected with impeller 17 by axle 16, has the rule of being synchronized with the movement, can drive eccentric wheel 15 under the effect of impeller 17 water flow impact pressure in pipeline rotates, but intermittent movement is done in the restriction that is subjected to two-way jump ring 13, and two-way jump ring 13 works by the jump ring groove 12 on the control panel 14.When two-way jump ring 13 rotates counterclockwise around axle, when its claw 13-2 snapped in jump ring groove 12, driven baffler 9 was positioned at 10 places, left dead point, crossed over pipe flow minimum, radiator flow maximum, and room temperature raises.Room temperature rising temperature-sensing element 26 extends left, and spring wheel support 21 is hit in drive, hit spring wheel 19 under the effect of hitting spring wheel support 21 and rocker inner spring 20 to left movement, and force two-way jump ring 13 to clockwise rotate around axle, reaching in limited time until temperature, claw 13-2 breaks away from jump ring groove 12, this moment, impeller 17 was unrestricted, under the effect of water flow impact pressure, drive cam 15 and rotate 180 degree, two-way jump ring 13 clockwise rotates under the effect of support inner spring 20, its claw 13-1 snaps in the jump ring groove 12, and driven baffler 9 moves to 11 places, right dead point under the acting in conjunction of spring 8 and cam 15, and crossing over the pipe flow increases, the corresponding minimizing of radiator flow, room temperature reduces.Room temperature is reduced to lower limit, and temperature-sensing element 26 is shunk to the right, constantly repeats said process and makes that room temperature is constant to be controlled between the upper and lower limit.

Embodiment five: present embodiment and embodiment four are different, and to be seesaw 18 forced to move be installed in the right side of two-way jump ring 13 by axle, and seesaw 18 left ends forced to move are pressed on the two-way jump ring 13 of claw 13-2 below.Its objective is under radiator forced blocking state, indoor temperature is lower than control range, temperature-sensing element 26 shrinks to the right, drive is hit spring wheel 19 and is rolled across two-way jump ring 13 and move before seesaw 18 forced to move, when room temperature continues to reduce, hit the right-hand member that spring wheel 19 withstands on seesaw forced to move, seesaw forced to move is rotated counterclockwise, and prize two-way jump ring 13 it is clockwise rotated, then claw 13-2 breaks away from jump ring groove 12, claw 13-1 snaps in jump ring groove 12, and driven baffler 9 moves to place, right dead point, and the adapter 7 of leap pipe is open-minded.This moment, the heating tube resistance coefficient reduced comprehensively.Other composition is identical with embodiment four with annexation.

Embodiment six: what present embodiment and embodiment five were different is that slideway 25 is connected with housing 37, chute 36 is arranged on temperature-sensing element support 22, chute 36 slip that matches with slideway 25, lock-bit screw 27 spirals are connected on the temperature-sensing element support 22 of chute 36 tops, and lock-bit screw 27 lower ends withstand on the slideway 25 and then with chute 36 and slideway 25 and lock.Rotate lock-bit screw 27 in use, temperature-sensing element support 22 can slide on slideway 25 at this moment.Promote temperature-sensing element support 22 and make it mobile, thereby change the distance between temperature-sensing element stiff end and two-way jump ring axis, screw screw 27 then, temperature-sensing element support 22 can't be slided, temperature was set and was finished this moment.

Embodiment seven: what present embodiment and embodiment six were different is to be provided with slide sign 24 on temperature-sensing element support 22, is provided with temperature chi 23 on lock-bit slideway 25.Slide sign 24 indicated temperature are design temperature.Its objective is the temperature control temperature setting range of being convenient to according to required.Other composition is identical with embodiment six with annexation.

Claims (7)

1, the individual heating control device, it includes three-way body (2), three adapters of three-way body (2) are respectively that radiator water supply arm is taken over (5), the water supply standpipe is taken over (1), cross over pipe and take over (7), it is characterized in that radiator water supply arm adapter (5) is connected by crossing over arm (6) and crossing over pipe adapter (7), take over (5) at radiator water supply arm and upward be provided with locking-type ratio gate valve (3) with leap arm (6) junction, be provided with the valve plate (4) that single pipeline can be closed in the locking-type ratio gate valve (3), the constant temperature automatic regulator (33) of discharge in the energy control valve is installed on crossing over pipe adapter (7).

2, individual heating control device according to claim 1, it is characterized in that the radiator arm that supplies water is taken over (5) and is connected with radiator water supply arm (31), the water supply standpipe is taken over (1) and is connected with water supply standpipe (30), crosses over pipe adapter (7) and is connected with return branch of radiator (32) by crossing over pipe (35).

3, individual heating control device according to claim 1, it is characterized in that the radiator arm that supplies water is taken over (5) and is connected with radiator water supply arm (31), the water supply standpipe is taken over (1) and is connected with water supply standpipe (30), cross over pipe adapter (7) and be connected with next family radiator water supply arm (31) by crossing over pipe (35), radiator return pipe (32) is connected with return riser (34).

4, individual heating control device according to claim 1, it includes driven baffler (9) to it is characterized in that constant temperature automatic regulator (33), two-way jump ring (13), control panel (14), eccentric wheel (15), impeller (17), temperature-sensing element (26), cavity (29) is located at radiator water supply arm and takes over the top that a side of (5) is positioned at locking-type ratio gate valve (3), its inside is taken over (5) with radiator water supply arm and is connected, impeller (17) is installed on the rear portion of the axle (16) that is positioned at cavity (29), eccentric wheel (15) is installed on outside axle (16) middle part of cavity (29), driven baffler (9) right side withstands on a side of eccentric wheel (15), the left side of driven baffler pipe (9) is inserted and is crossed in the pipe adapter (7), be provided with compression spring (8) between the outer wall of driven baffler (9) right side riser and leap pipe adapter (7), control panel (14) is installed in the front end of axle card (16), have a jump ring groove (12) in the front of control panel (14), two-way jump ring (13) is installed in the front of control panel (14) by axle, a claw (13-1) and a claw (13-2) that stretches to control panel is respectively arranged about two-way jump ring (13), claw (13-1) and claw (13-2) can snap in respectively in the jump ring groove (12), temperature-sensing element (26) is installed on the temperature-sensing element support (22), hit the end that spring wheel support (21) is connected temperature-sensing element (26), hit spring wheel support (21) and be provided with and hit spring wheel (19), hitting that spring wheel (19) front end is provided with can be with the compression spring (20) of its top to two-way jump ring (13).

5, individual heating control device according to claim 4 is characterized in that seesaw forced to move (18) is installed in the right side of two-way jump ring (13) by axle, and seesaw forced to move (18) left end is pressed on the two-way jump ring (13) of claw (13-2) below.

6, according to claim 4,5 described individual heating control device, it is characterized in that slideway (25) is connected with housing (37), chute (36) is arranged on temperature-sensing element support (22), chute (36) slip that matches with slideway (25), lock-bit screw (27) spiral is connected on the temperature-sensing element support (22) of chute (36) top, and lock-bit screw (27) lower end withstands on slideway (25) and upward and then with chute (36) and slideway (25) locks.

7, according to the described individual heating control device of right claim 6, it is characterized in that on temperature-sensing element support (22), being provided with slide sign (24), on lock-bit slideway (25), be provided with temperature chi 23, the indicated temperature of slide sign (24) is a design temperature.

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