CN104437680A - Temperature adjuster - Google Patents

Abstract

The invention discloses a temperature adjuster for constant-temperature regeneration of water treatment ion exchange resin. The temperature adjuster comprises a thermosensitive tube, a sliding valve and a hollow cylinder body which are arranged in a regeneration pond, wherein the sliding valve comprises a stopping sheet which is connected with the thermosensitive tube; the sliding valve is connected with a nozzle; the nozzle and the stopping sheet are positioned on the same horizontal line; a thermal medium conveying pipeline which is communicated with the regeneration pond is arranged below the cylinder body; a water inlet tube is communicated with one end of the cylinder body; a throttle valve is arranged on the water inlet tube; a valve needle is arranged below the throttle valve; a guide tube is communicated to the other end of the cylinder body; the guide tube is connected with the nozzle; an elastic membrane is arranged inside the cylinder body; a column rod is connected with the middle of the elastic membrane. By adopting the temperature adjuster, the problems that the production period is long and the cost is high when resin is regenerated as the temperature of regeneration water cannot keep constant in a conventional regeneration system are solved.

Description

A kind of thermoregulator

Technical field

The present invention relates to a kind of thermoregulator, particularly relate to a kind of thermoregulator for the regeneration of water treatment ion exchange resin constant temperature.

Background technology

At present, at general industrial circle, in the regenerative system of water treatment resin, the regeneration water in regenerated reactor is not constant temperature, water temperature is elevated with temperature Change, with regard to resin regeneration, recycled water temperature rise, the ion-exchange of resin is abundant, the exchange capacity of resin increases, the interchanger cycle water yield increases, thus extends the production cycle, increases production cost.Winter and summer water temperature difference more than 20 DEG C, with the regenerated liquid of same quantity, interchanger unit filter run volume difference more than 1/3rd, therefore finding a kind of suitable thermoregulator, becoming shocking problem to be solved for regulating the constant temperature of recycled water in regenerative system.

Summary of the invention

The object of the present invention is to provide a kind of thermoregulator, to solve in existing regenerative system, regeneration water cannot keep constant temperature, causes the problem that the production cycle of resin regeneration is long, cost is high.

To achieve these goals, the invention provides following technical scheme: a kind of thermoregulator, comprise the thermo-sensitive tube be arranged in regenerated reactor, the cylinder body of guiding valve and interior sky, described guiding valve comprises the stop tab connecting thermo-sensitive tube, described guiding valve is connected with nozzle, described nozzle and stop tab are positioned on same level line, the thermal medium conveyance conduit being communicated with regenerated reactor is provided with below described cylinder body, one end of described cylinder body is communicated with water inlet pipe, described water inlet pipe is provided with choke valve, the below of described choke valve is provided with needle, the other end of described cylinder body is communicated with conduit, described tubes connection nozzle, flexible sheet is provided with in described cylinder body, the middle part of described flexible sheet is connected with mast, described mast is connected with the gate controlling thermal medium and enter, the upper tube wall of described gate penetration heat medium transport pipeline, described mast is provided with two V shape leverage, described pair of V shape leverage comprises the first governor motion and is located at the second governor motion below the first governor motion, described first governor motion comprises the first latch, first fork-shaped location division, first bearing pin and the first pole being connected the first fork-shaped location division, described first latch is located in the first fork-shaped location division, and the first latch connects mast, described first pole and the first hinge, and the first bearing pin is located on cylinder wall, described first pole connects needle, described second governor motion comprises the second latch, second fork-shaped location division, second bearing pin and the second pole being connected the second fork-shaped location division, described second latch is located in the second fork-shaped location division, and the second latch connects mast, described second pole and the second hinge, and the second bearing pin is also located on cylinder wall, second pole is provided with counterweight.

The principle of this programme is such: regenerated reactor is by the energy supply of thermal medium conveyance conduit, ensure its temperature, during work, liquid enters system through choke valve and introduces nozzle, thermo-sensitive tube is placed in regenerated reactor, when the water temperature in regenerated reactor raises, thermal head temperature influence and produce movement, thus the stop tab relative nozzle in guiding valve is moved, and be moved horizontally to until touch nozzle, and simultaneously, liquid constantly flows in cylinder body, cause the pressure increase in cylinder body, improve the pressure acted on flexible sheet thus, flexible sheet generation deformation, therefore coupled mast declines, and drive the gate on thermal medium conveyance conduit to decline, thus control the inlet port size of thermal medium on thermal medium conveyance conduit, and then reduce the amount entering the thermal medium of regenerated reactor, this reduces the temperature of regenerated reactor, while declining with mast, the first fork-shaped location division on first governor motion moves down, first pole of the first governor motion is moved up, drive needle moves up, cover the hole of choke valve, thus the fluid flow of the system that enters is reduced, to make in system after pressure equilibrium, flexible sheet can automatically reply initial configuration, gate can reopen after declining, resume work, when the temperature in regenerated reactor reduces, each parts in adjuster will by above-mentioned contrary program behavior.Because two latches are located in two V shape leverage fork-shaped location division separately, make two latches can produce relative movement along respective fork-shaped location division respectively, therefore when flexible sheet produces elastic deformation, and when driving mast to move up and down, the flashboard be located on thermal medium conveyance conduit can move up and down, change the air capacity entering thermal medium conveyance conduit thus, after flexible sheet replys initial configuration, mast can along two fork-shaped location divisions of two V shape leverage rising and being returned to initial position, counterweight can be arranged on the diverse location of the second pole axis, with the pressure of regulating action on flexible sheet.

The invention has the advantages that: this thermoregulator, by controlling thermal medium conveyance conduit to the thermal medium amount in regenerated reactor to balance its temperature, makes the water termostat in regenerated reactor, and then shortens the production cycle of resin regeneration, has saved cost.

Preferably, described first fork-shaped location division and the second fork-shaped location division include chute, described first latch and the second latch are located in respective chute respectively, make two latches can produce relative movement along respective fork-shaped location division respectively, therefore when flexible sheet produces elastic deformation, mast can be driven to move up and down.

Preferably, described guiding valve is communicated with outlet pipe, in systems in which in liquid flow process, the liquid in guiding valve can flow out from outlet pipe.

Preferably, the cross sectional shape of described gate is circular, can match, ensure its good seal with the cross sectional shape of circular pipe.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of thermoregulator embodiment of the present invention;

Fig. 2 is the schematic diagram of the first governor motion in a kind of thermoregulator embodiment of the present invention.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation:

Reference numeral in Figure of description comprises: regenerated reactor 1, thermo-sensitive tube 2, guiding valve 3, the cylinder body 4 of interior sky, outlet pipe 5, nozzle 6, thermal medium conveyance conduit 7, water inlet pipe 8, choke valve 9, conduit 10, flexible sheet 11, mast 12, gate 13, the second latch 14, second fork-shaped location division 15, second bearing pin 16, second pole 17, counterweight 18, stop tab 19, first latch 20, first fork-shaped location division 21, first bearing pin 22, first pole 23, needle 24.

As shown in Figure 1, a kind of thermoregulator, comprise the thermo-sensitive tube 2 be arranged in regenerated reactor 1, the cylinder body 4 of guiding valve 3 and interior sky, guiding valve 3 comprises the stop tab 19 connecting thermo-sensitive tube 2, guiding valve 3 is communicated with outlet pipe 5, guiding valve 3 is connected with nozzle 6, nozzle 6 and stop tab 19 are positioned on same level line, the thermal medium conveyance conduit 7 being communicated with regenerated reactor 1 is provided with below cylinder body 4, one end of cylinder body 4 is communicated with water inlet pipe 8, water inlet pipe 8 is provided with choke valve 9, the below of described choke valve 9 is provided with needle 24, the other end of cylinder body 4 is communicated with conduit 10, conduit 10 connects nozzle 6, flexible sheet 11 is provided with in cylinder body 4, the middle part of flexible sheet 11 is connected with mast 12, mast 12 is connected with the gate 13 controlling thermal medium and enter, the cross sectional shape of gate 13 is circular, the upper tube wall of gate 13 penetration heat medium transport pipeline 7, mast 12 is provided with two V shape leverage, described pair of V shape leverage comprises the first governor motion and is located at the second governor motion below the first governor motion, described second governor motion comprises the second latch 14, second fork-shaped location division 15, second bearing pin 16 and the second pole 17 being connected the second fork-shaped location division 15, described second latch 14 is located in the second fork-shaped location division 15, and the second latch 14 connects mast 12, described second pole 17 and the second bearing pin 16 hinged, and the second bearing pin 16 is also located on cylinder body 4 wall, second pole 17 is provided with counterweight 18.

As shown in Figure 2, first governor motion comprises the first latch 20, first fork-shaped location division 21, first bearing pin 22 and the first pole 23 being connected the first fork-shaped location division 21, described first latch 20 is located in the first fork-shaped location division 21, and the first latch 20 connects mast 12, described first pole 23 and the first bearing pin 22 hinged, and the first bearing pin 22 is located on cylinder body 4 wall, described first pole 23 connects needle 24.

In the present embodiment, regenerated reactor 1 is by thermal medium conveyance conduit 7 energy supply, ensure its temperature, during work, liquid enters system through choke valve 9 and introduces nozzle 6, thermo-sensitive tube 2 is placed in regenerated reactor 1, when the water temperature in regenerated reactor 1 raises, thermal head 2 temperature influence and produce movement, thus stop tab 19 relative nozzle 6 in guiding valve 3 is moved, and be moved horizontally to until touch nozzle 6, and simultaneously, liquid constantly flows in cylinder body 4, cause the pressure increase in cylinder body 4, improve the pressure acted on flexible sheet 11 thus, there is deformation in flexible sheet 11, therefore coupled mast 12 declines, and drive the gate 13 on thermal medium conveyance conduit 7 to decline, thus control the inlet port size of thermal medium on thermal medium conveyance conduit 7, and then reduce the amount entering the thermal medium of regenerated reactor 1, this reduces the temperature of regenerated reactor 1, while declining with mast 12, the first fork-shaped location division 14 on first governor motion moves down, first pole 23 of the first governor motion is moved up, needle 24 is driven to move up, cover the hole of choke valve 9, thus the fluid flow of the system that enters is reduced, to make in system after pressure equilibrium, flexible sheet 11 can automatically reply initial configuration, gate 13 can reopen after declining, resume work, when the temperature in regenerated reactor 1 reduces, each parts in adjuster will by above-mentioned contrary program behavior.Because latch 14 is located in the fork-shaped location division 15 of governor motion, make latch 14 can produce relative movement along fork-shaped location division 15, therefore when flexible sheet 11 produces elastic deformation, and when driving mast 12 to move up and down, the flashboard 13 be located on thermal medium conveyance conduit 7 can move up and down, change the air capacity entering thermal medium conveyance conduit 7 thus, after flexible sheet 11 replys initial configuration, mast 12 can rise along fork-shaped location division 15 and be returned to initial position, counterweight 18 can be arranged on the diverse location of pole 17 axis, with the pressure of regulating action on flexible sheet 11.

First fork-shaped location division 21 and the second fork-shaped location division 15 include chute, described first latch 20 and the second latch 14 are located in respective chute respectively, make two latches 14 can produce relative movement along respective fork-shaped location division 15 respectively, therefore when flexible sheet 11 produces elastic deformation, mast 12 can be driven to move up and down, guiding valve 3 is communicated with outlet pipe 5, in systems in which in liquid flow process, liquid in guiding valve 3 can flow out from outlet pipe 5, the cross sectional shape of gate 13 is circular, can match with the cross sectional shape of circular pipe, ensure its good seal, this thermoregulator balances its temperature by controlling thermal medium conveyance conduit 7 to the thermal medium amount in regenerated reactor 1, make the water termostat in regenerated reactor 1, and then shorten the production cycle of resin regeneration, save cost.

Above-described is only the preferred embodiment of the present invention; should be understood that; for a person skilled in the art; under the prerequisite not departing from structure of the present invention; some distortion and improvement can also be made; these also should be considered as protection scope of the present invention, and these all can not affect effect of the invention process and practical applicability.

Claims (4)

1. a thermoregulator, it is characterized in that, comprise the thermo-sensitive tube be arranged in regenerated reactor, the cylinder body of guiding valve and interior sky, described guiding valve comprises the stop tab connecting thermo-sensitive tube, described guiding valve is connected with nozzle, described nozzle and stop tab are positioned on same level line, the thermal medium conveyance conduit being communicated with regenerated reactor is provided with below described cylinder body, one end of described cylinder body is communicated with water inlet pipe, described water inlet pipe is provided with choke valve, the below of described choke valve is provided with needle, the other end of described cylinder body is communicated with conduit, described tubes connection nozzle, flexible sheet is provided with in described cylinder body, the middle part of described flexible sheet is connected with mast, described mast is connected with the gate controlling thermal medium and enter, the upper tube wall of described gate penetration heat medium transport pipeline, described mast is provided with two V shape leverage, described pair of V shape leverage comprises the first governor motion and is located at the second governor motion below the first governor motion, described first governor motion comprises the first latch, first fork-shaped location division, first bearing pin and the first pole being connected the first fork-shaped location division, described first latch is located in the first fork-shaped location division, and the first latch connects mast, described first pole and the first hinge, and the first bearing pin is located on cylinder wall, described first pole connects needle, described second governor motion comprises the second latch, second fork-shaped location division, second bearing pin and the second pole being connected the second fork-shaped location division, described second latch is located in the second fork-shaped location division, and the second latch connects mast, described second pole and the second hinge, and the second bearing pin is also located on cylinder wall, second pole is provided with counterweight.

2. a kind of thermoregulator as claimed in claim 1, is characterized in that, described first fork-shaped location division and the second fork-shaped location division include chute, and described first latch and the second latch are located in respective chute respectively.

3. a kind of thermoregulator as claimed in claim 1, is characterized in that, described guiding valve is communicated with outlet pipe.

4. a kind of thermoregulator as claimed in claim 1, is characterized in that, the cross sectional shape of described gate is circular.