CN104913509A - Method for manufacturing temperature-adjustable timed tap hot-water steam device - Google Patents

Abstract

The invention discloses a temperature-adjustable timed tap hot-water steam device. The temperature-adjustable timed tap hot-water steam device can be an A type temperature-adjustable timed tap hot-water steam device or a B type temperature-adjustable timed tap hot-water steam device or a C type temperature-adjustable timed tap hot-water steam device or a D type temperature-adjustable timed tap hot-water steam device or an E type temperature-adjustable timed tap hot-water steam device, and is characterized in that the A type temperature-adjustable timed tap hot-water steam device, the B type temperature-adjustable timed tap hot-water steam device, the C type temperature-adjustable timed tap hot-water steam device, the D type temperature-adjustable timed tap hot-water steam device and the E type temperature-adjustable timed tap hot-water steam device comprise shells, hot-water steam elements, tap water inlet pipes, hot-water using pipes, steam using pipes, switches, pressure regulating constant-temperature control boxes, digital voltmeters, temperature meters, timing indicators, indicator lamps, potentiometers, wiring terminals and hooks; the hot-water steam elements comprise belt tap water pipes, electric heating pipes and outer covering poured heat conductors. The temperature-adjustable timed tap hot-water steam device has the advantages that power sources and water sources can be switched on, voltages and temperatures can be regulated, then hot-water steam required by users can be generated after the temperature-adjustable timed tap hot-water steam device is preheated for 3 minutes, and accordingly the temperature-adjustable timed tap hot-water steam device can bring convenience for life.

Description

The manufacture method of temp. controllable timing hot water and steam device from the beginning

Technical field

The present invention relates to the manufacture method of hot water apparatus, particularly relate to the manufacture method of a kind of temp. controllable timing hot water and steam device from the beginning.

Technical background

Current discontinuous form hot water and steam device has flame to heat or electrically heated kettle, pot, bucket etc., and the hot water and steam device of uninterrupted shape has gas water heater, the former inconvenience at interruption two word, otherwise be exactly kettle, pot, bucket volume very large; Although the latter is uninterrupted but water yield is little, gas consumption amount is large.Little steam unit is that pot adds food steamer, and consumption fuel is many, and vapour pressure is low.

Summary of the invention

The object of this invention is to provide and a kind ofly incessantly cold water from the beginning can be become hot water and steam from the beginning and the adjustable temp. controllable timing hot water and steam device from the beginning of temperature, the life be convenient for people to.

The object of the present invention is achieved like this:

The manufacture method of a kind of temp. controllable timing hot water and steam device from the beginning, comprise can dry combustion method electrothermal tube, heating aluminium dish, iron pan, shell and various pipeline, elbow, feature is: the present invention by hot water and steam element, pressure-regulating temp-regulating timing box, shell, panel, link up with, enter cold water pipe and switch, hot-water outlet pipe and switch, go out steam pipe and switch, a few part of safety valve forms, hot water and steam device is except hot water and steam element difference from the beginning in different temp. controllable timings, and other parts are identical; Hot water and steam element has A1, B1, C1, D1, E1 five kinds, and temp. controllable timing from the beginning hot water and steam device also has A, B, C, D, E five kinds.Hot water and steam element A1 has an area of spiral stainless steel running water pipe by built-in ball plane, is welded on Internal and external cycle electrothermal tube, both wings have installing hole outsourcing iron-clad to form, the running water pipe of vertically drawing from plane middle and lower part and the running water pipe of vertically drawing from plane lower end middle plane are respectively by riffled tube, baffle plate, straight tube, threeway and enter running water pipe, hot-water outlet pipe, go out steam pipe is connected, and the electrothermal tube of drawing from plane top and the bottom and pressure-regulating temp-regulating timing box out-put supply are connected, hot water and steam element B1 by built-in ball cross section be narrow circumference screwed pipe shape stainless steel running water pipe, the electrothermal tube be welded in screwed pipe, both wings have the outsourcing iron-clad of installing hole to form, the running water pipe of drawing from screwed pipe upper and lower side is respectively by riffled tube, baffle plate, straight tube, threeway and enter running water pipe, hot-water outlet pipe, go out steam pipe is connected, the electrothermal tube of drawing from screwed pipe top and pressure-regulating temp-regulating timing box out-put supply are connected, hot water and steam element C1 by built-in ball cross section be circular screwed pipe shape stainless steel running water pipe, the electrothermal tube being welded in screwed pipe inside, both wings have the outsourcing iron-clad of installing hole to form, the running water pipe of drawing from screwed pipe upper and lower side respectively by riffled tube, baffle plate, straight tube respectively with enter running water pipe and hot-water outlet pipe, go out steam pipe and be connected, the electrothermal tube of drawing from screwed pipe top and pressure-regulating temp-regulating regularly box out-put supply are connected, hot water and steam element D1 by two ends be welded with the stainless steel tube of three-way pipe and electrothermal tube that is built-in, slightly long, that be evenly welded with the positioning disc with holes with axes normal be rolled into screwed pipe more up and down isoplanar be welded with two pieces of fixed iron pieces with holes and built-in ball is made, upper and lower three-way pipe side pipe by riffled tube, baffle plate, straight tube, threeway respectively with enter running water pipe, hot-water outlet pipe, go out steam pipe and be connected, in upper and lower three-way straight pipe, electrothermal tube and pressure-regulating temp-regulating timing box out-put supply are connected, it is circular that hot water and steam element E1 is placed with double-deck cross section inside and outside induction coil by middle level, screwed pipe shape can inhale magnet stainless steel waterpipe, built-inly inhale magnet stainless steel ball, power frequency or intermediate frequency power supply, high temp glass incubator is formed, the double-deck cross section of built-in ball is circular, screwed pipe shape running water pipe and induction coil are placed in high temp glass incubator, upper end is by top layer glass, shell installing hole, riffled tube, baffle plate, straight tube respectively with enter running water pipe, hot-water outlet pipe, go out steam pipe to be connected, induction coil connects with power frequency or intermediate frequency power supply, power frequency or intermediate frequency power supply are connected with pressure-regulating temp-regulating timing box out-put supply again, pressure-regulating temp-regulating timing box, built with reducing two-way thyristor regulating volt circuit band coldplate module successively, is equipped with the temp .-adjustable time circuit board be made up of NMOS tube, triode, photoelectrical coupler, thermistor, fixed temperature switch, time switch, Gear-shift switch, resistance, potentiometer.The timing of hot water and steam element, running water coldplate, pressure-regulating temp-regulating is in the enclosure box-packed, the panel of shell is equipped with voltage, temperature, time digital display meter and adjusting knob.

The present invention obtains through improvement from the basis of traditional electrical heating, heat-generating disc, gas water heater, and the present invention has following characteristics:

1. cold water heating water vapour speed is fast, amount foot;

2. need not water tank greatly, hot water and steam element area, volume are also little, also not bery heavy, a high position can be hung over or with support support in a high position;

3. temperature is predeterminable, adjustable height, can numerical monitor; Step-down silicon-controlled voltage regulation circuit output voltage is adjustable arbitrarily in permission voltage range successively.

Accompanying drawing explanation

Fig. 1 a is the schematic appearance of hot water and steam element A1a;

Fig. 1 b is the location diagram of stainless steel tube a1a in A1a, electrothermal tube a2a, a2b;

Fig. 1 c is ball a1b in A1, baffle plate a1c1, a1c2, riffled tube a1d1, a1d2, straight tube a1e1, a1e2, short and small copper pipe a1f structural representation;

Fig. 1 d is cast A1a heat conduction shell mould a3 structural representation;

Fig. 1 e is hot water and steam element A1, shell A2a, A2b, panel A2c, link up with A2d, enter running water pipe A3a, switch A3b, coldplate A3c, TYTWDSH, with hot-water line A4a, switch A4b, threeway A4c, with steam pipe A5a, switch A5b, safety valve A5c location diagram;

Fig. 2 a is hot water and steam element B1a schematic appearance;

Fig. 2 b is stainless steel tube b1a in B1, electrothermal tube b2a, b2b location diagram;

Fig. 2 c is ball b1b, baffle plate b1c1, b1c2, riffled tube b1d1, b1d2, straight tube b1e1, b1e2, short and small copper pipe b1f structural representation;

Fig. 2 d is cast hot water and steam element B1a heat conduction shell mould b3 and base arrangement schematic diagram;

Fig. 2 e is hot water and steam element B1, shell B2a, B2b, panel B2c, link up with B2d, enter running water pipe b3a, switch b3b, coldplate b3c, TYTWDSH, use hot-water line b4a, switch b4b, threeway B4c, use steam pipe b5a, switch b5b, safety valve b5c location diagram;

Fig. 3 a is hot water and steam element C1a schematic appearance;

Fig. 3 b is stainless steel waterpipe c1a in C1, electrothermal tube c2a1-c2a4 location diagram;

Fig. 3 c is ball c1b, baffle plate c1c1, c1c2, riffled tube c1d1, c1d2, straight tube c1e1, c1e2, short and small copper pipe c1f structural representation;

Fig. 3 d is cast hot water and steam element C1a heat conduction shell mould c3 structural representation;

Fig. 3 e is for being hot water and steam element C1, shell C2a, C2b, panel C2c, linking up with C2d, entering running water pipe c3a, switch c3b, coldplate c3c, TYTWDSH, use hot-water line c4a, switch c4b, threeway C4c, use steam pipe c5a, switch c5b, safety valve c5c location diagram;

Fig. 4 a is hot water and steam element D1 schematic appearance;

Fig. 4 b is stainless steel tube d1a, electrothermal tube d2a1 in hot water and steam element D1, three-way pipe d1g, d1h, equidistant plectane d2a2 with holes, top shrouding d2a3 location diagram;

Fig. 4 c is ball d1b, baffle plate d1c1, d1c2, riffled tube d1d1, d1d2, straight tube d1e1, d1e1, d1e2, short and small copper pipe d1f structural representation;

Fig. 4 d is hot water and steam element D1, shell D2a, D2b, panel D2c, link up with D2d, enter running water pipe d3a, switch d3b, coldplate d3c, TYTWDSH, use hot-water line d4a, switch d4b, threeway D4c, use steam pipe d5a, switch D5b, safety valve d5c location diagram;

Fig. 5 a is hot water and steam element E1a schematic appearance;

Fig. 5 b is stainless steel tube e1a in hot water and steam element E1a, heat induced coil e2a location diagram;

Fig. 5 c is ball e1b, baffle plate e1c1, e1c2, riffled tube e1d1, e1d2, straight tube e1e1, e1e2, short and small copper pipe e1f structural representation;

Fig. 5 d1a is high temp glass incubator is gone to the bottom porcelain or aluminium matter glass locating groove e3a1a, e3a2a Facad structure schematic diagram;

Fig. 5 d1b is high temp glass incubator is gone to the bottom porcelain or aluminium matter glass locating groove e3a1a, e3a2a inverse layer structure schematic diagram;

Fig. 5 d2 is high temp glass incubator porcelain or draws aluminium matter band mutual vertical glass locating groove four pillar e3b1a-e3b4a structural representation;

Fig. 5 d3 is high temp glass incubator upper and lower bottom stainless steel glass locating groove e3a1b, e3a2b structural representation;

Fig. 5 d4 is high temp glass incubator four pillar stainless steel glass locator card grain e3b1b-e3b4b structural representation;

Fig. 5 d5 is that lead glass locating groove e3a1c, e3a2c structural representation is drawn in the upper and lower undercutting weldering of high temp glass incubator;

Fig. 5 d6 is high temp glass incubator stainless steel base e3c, porcelain backing plate e3d, stainless steel Porous Base e3e structural representation;

Fig. 5 d7 is hot water and steam element E1, shell E2a, E2b, panel E2c, link up with E2d, enter running water pipe e3a, switch e3b, coldplate e3c, TYTWDSH, use hot-water line e4a, switch e4b, threeway E4c, use steam pipe e5a, switch E5b, safety valve e5c location diagram;

Fig. 6 a1 is shell A2 mesochite structural representation;

Fig. 6 a2 is shell B2 mesochite structural representation;

Fig. 6 a3 is shell C2 mesochite structural representation;

Fig. 6 a4 is shell D2 mesochite structural representation;

Fig. 6 a5 is shell E2 mesochite structural representation;

Fig. 6 b1 is shell A2 back cover structure schematic diagram;

Fig. 6 b2 is shell B2 back cover structure schematic diagram;

Fig. 6 b3 is shell C2 back cover structure schematic diagram;

Fig. 6 b4 is shell D2 back cover structure schematic diagram;

Fig. 6 b5 is shell E2 back cover structure schematic diagram;

Fig. 6 c1 is shell A2 panel construction schematic diagram;

Fig. 6 c2 is shell B2 panel construction schematic diagram;

Fig. 6 c3 is shell C2 panel construction schematic diagram;

Fig. 6 c4 is shell D2 panel construction schematic diagram;

Fig. 6 c5 is shell E2 panel construction schematic diagram;

Fig. 6 d is porous angle bar shell C2 base structure schematic diagram;

Fig. 6 e is porous angle bar shell C2 panel construction schematic diagram;

Fig. 7 a is the main box TYTWDSH1 structural representation of pressure-regulating temp-regulating timing box;

Fig. 7 b is the front panel TYTWDSH2 structural representation of pressure-regulating temp-regulating timing box;

Fig. 7 c is the rear board TYTWDSH3 structural representation of pressure-regulating temp-regulating timing box;

Fig. 7 d is the module coldplate MKLQB structural representation of pressure-regulating temp-regulating timing box;

Fig. 8 a is reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL1 structural representation successively;

Fig. 8 b is reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL2 structural representation successively;

Fig. 8 c makes to reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL1 successively the local circuit structural representation that local amendment obtains reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL3 successively;

Fig. 8 d obtains reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL4 local circuit structural representation successively for doing local amendment to reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL2 successively;

Fig. 8 e is thermoregulation circuit TWDL structural representation;

Fig. 8 f is Industrial Frequency Transformer e2b structural representation;

Fig. 8 g connects load e2c electrical block diagram for paying limit by shift switch K3, TYTWDSH at Industrial Frequency Transformer e2b;

Fig. 8 h is polarity free capacitor C3 structural representation;

Fig. 8 i is IGBT AC voltage adjusting circuit structural representation in patent 2011101897839.

Detailed description of the invention

Contrast accompanying drawing below in conjunction with embodiment the present invention is described in further detail.

Embodiment 1:A type temp. controllable timing hot water and steam device preparation method from the beginning:

1. make two ends, bottom for circular, middle for rectangle, base plane semicircle center, outer end is drawn, inner Vertical dimension is drawn outward, have threaded interface, planar spiral stainless steel running water pipe a1a:a1a outwards draws from bottom semicircular center and internal vertical is bent upwards and is partly about 5 centimetres without screw thread, external screw thread part is had to be about 5 centimetres, the straight tube of a1a processed is 4 points of stainless steel tubes, and 6--12 rice is long;

2 make two bottoms be square circular two ends draw vertically upward can wiring can dry combustion method electrothermal tube a2a, a2b; A2a can be close to the inside of a1a, and a2b can be tightly placed in the outside of a1a, and terminals spacing is about the height of 5--10 centimetre of a2a, a2b two ends bent orthogonal upwards part about 5 centimetres,

3. make and can pour stainless shot a1b, the two ends of pouring out into can cross water with diameter band aperture and can not cross pearl stainless steel baffle plate a1c1, a1c2 in helix tube a1a, two ends can in riffled tube a1d1, a1d2 of block plate and slightly short 4 centimetres of built-in thick carefully straight tube a1e1, a1e2; A1b, a1c1, a1c2, a1d1, a1d2, a1e1, a1e2 are hot water element A1b;

4. make the mould of hot water and steam element A1a heat conduction shell a3: thick about 5 millimeters of a3 shell, decapacitation encases beyond a2a, a2b, a1a part, and long limit two side bottom also has band installing hole both wings, thick about 5 millimeters, band installing hole both wings or be availablely welded with iron plate with holes and replace;

5. a2a, a2b, a1a are placed on weldering connection in same plane, tack electrothermal tube four terminals hang in mould and balance rear injection molten iron with tightrope, cooling and mould unloading must hot water and steam element A1a, and A1a, A1b are combined into hot water element A1;

6. make shell A2, the mesochite A2a of A2 has inlet pipe hole, entrance hole, under have pore, the fore shell of A2 is panel A2c, and A2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover A2b of A2 has installing hole, hook hole, loads onto hot water and steam element A1a and hook A2d simultaneously, and adds glass fiber heat-insulation layer to A1a, fill appropriate ball a1b, load onto baffle plate a1c1 respectively at a1a two ends in a1a inside and outside back cover A2b, a1c2, and by riffled tube a1d1, a1d2 and straight tube a1e1, a1e2 is upper and enter running water pipe A3a, switch A3b connects, lower and threeway A4c, use hot-water line A4a, switch A4b connects, with steam pipe A5a respectively with A4c, safety valve A5c, switch A5b connects, and coldplate A3c is contained on A3a, and pressure regulation constant temperature timing circuit box TYTWDSH is contained on A3c, TYTWDSH out-put supply and electrothermal tube a2a, the terminals of a2b and the input of digital display voltmeter connect, and TYTWDSH input is connected with power supply by A2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on a3, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel A2c, cast iron, stainless steel tube, steel ball or to application cast aluminum, copper pipe, short and small copper pipe, iron ring replaces, pour into a mould iron or replace with the aluminium nitride sealed, graphite powder.

A type temp. controllable timing from the beginning hot water and steam device has just been carried out.

The preparation method of embodiment 2:B type temp. controllable timing hot water and steam device from the beginning

1. make two ends, cross section to bend down vertically upward for circular, middle respectively, have band external screw joint screwed pipe shape stainless steel running water pipe b1a for narrow rectangle, two ends, b1a straight tube processed is that 4 points of stainless steel tubes 6-12 meters are long, b1a or place vertically or traverse, two ends are drawn downwards vertically upward and are respectively 5 centimetres without screw thread part, external screw thread part is had to be respectively 5 centimetres, can yaw two or four U-shaped electrothermal tube in screwed pipe;

2. make stainless steel ball b1b, cross water only pearl baffle plate b1c1, b1c2, riffled tube b1d1, b1d2 and built-in short 4 centimetres of not tight not loose straight tube b1e1, b1e2, b1b, b1c1, b1c2, b1d1, b1d2, b1e1, b1e2 are combined into B1b;

3. make two ends bent orthogonal upwards can wiring can dry combustion method U-shaped electrothermal tube b2a1, b2a2, the length of U-shaped electrothermal tube equals screwed pipe height and adds 5--10 centimetre;

4. make the mould b3 of B1a heat conduction shell, thick about 5 millimeters of shell, except encirclement b1a, b2a1, b2a2, long limit two side bottom also has the both wings of band installing hole, thick about 5 millimeters and with screwed pipe center parallel;

5. U-shaped electrothermal tube b2a1, b2a2 are welded in parallel b1a inwall, tack electrothermal tube four terminals with tightrope, hang in mould and balance rear injection molten iron, cool to obtain hot water and steam element B1a; B1a, B1b are combined into B1;

6. make shell B2, the mesochite B2a of B2 has inlet pipe hole, entrance hole, under have pore, the fore shell of B2 is panel B2c, and B2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover B2b of B2 has installing hole, hook hole, loads onto hot water and steam element B1a and hook B2d simultaneously, and adds glass fiber heat-insulation layer to B1a, fill appropriate ball b1b, load onto baffle plate b1c1 respectively at b1a two ends in b1a inside and outside back cover B2b, b1c2, and by riffled tube b1d1, b1d2 and straight tube b1e1, b1e2 is upper and enter running water pipe B3a, switch B3b connects, lower and threeway B4c, use hot-water line B4a, switch B4b connects, with steam pipe B5a respectively with B4c, safety valve B5c, switch B5b connects, and coldplate B3c is contained on B3a, and pressure regulation constant temperature timing circuit box TYTWDSH is contained on B3c, TYTWDSH out-put supply and electrothermal tube b2a, the terminals of b2b and the input of digital display voltmeter connect, and TYTWDSH input is connected with power supply by B2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on b3, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel B2c, cast iron, stainless steel tube, steel ball or to application cast aluminum, copper pipe, short and small copper pipe, iron ring replaces, pour into a mould iron or replace with the aluminium nitride sealed, graphite powder.

The preparation method of embodiment 3.C type temp. controllable timing hot water and steam device from the beginning

1. make cross section for circular, two ends bend down respectively vertically upward, have band external screw joint stainless steel screwed pipe shape running water pipe c1a, c1a or place vertically or traverse; Two ends are respectively about 5 centimetres without screw thread part bent part up and down, are with external screw thread part to be respectively about 5 centimetres up and down;

2. make two ends bent orthogonal upwards U-shapeds can wiring can dry combustion method electrothermal tube c2a1--c2a4;

3. make and can pour the stainless shot c1b poured out in stainless steel tube, water can be crossed and can not cross pearl pipe end baffle plate c1c1, c1c2, riffled tube c1d1, c1d2 and built-in slightly short not tight not loose straight tube c1e1, c1e2; C1b, c1c1, c1c2, c1d1, c1d2, c1e1, c1e2 are combined into C1b;

The 4 mould c3 making cast hot water and steam element C1a heat conduction shells, thick about 5 millimeters of c3 also has the both wings being with installing hole, both wings and centerline parallel except surrounding outer two side bottoms of C1a, c2a1-c2a4;

5. electrothermal tube c2a1-c2a4 uniform vertical is attached to screwed pipe c2a inwall, weldering connection; Tack four electrothermal tube terminals with tightrope, hang in after the cooling of rear injection molten iron balanced by mould and can obtain hot water and steam element C1a; C1a, C1b are combined into C1, C1a or by inwall be welded with C2a1-C2a4 c1a, be built-inly close to two end band end sockets and 4 points of screwed pipe preheating water drum c1f, outside is welded with iron plate with holes, heat insulation glass silk is formed;

6. make shell C2, the mesochite C2a of C2 has inlet pipe hole, entrance hole, under have pore, the fore shell of C2 is panel C2c, and C2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover C2b of C2 has installing hole, hook hole, loads onto hot water and steam element C1a and hook C2d simultaneously, and adds glass fiber heat-insulation layer to C1a, fill appropriate ball c1b, load onto baffle plate c1c1 respectively at c1a two ends in c1a inside and outside back cover C2b, c1c2, and by riffled tube c1d1, c1d2 and straight tube c1e1, c1e2 is upper and enter running water pipe C3a, switch C3b connects, lower and threeway C4c, use hot-water line C4a, switch C4b connects, with steam pipe C5a respectively with C4c, safety valve C5c, switch C5b connects, and coldplate C3c is contained on C3a, and pressure regulation constant temperature timing circuit box TYTWDSH is contained on C3c, TYTWDSH out-put supply and electrothermal tube c2a, the terminals of c2b and the input of digital display voltmeter connect, and TYTWDSH input is connected with power supply by C2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on c3, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel C2c, cast iron, stainless steel tube, steel ball or to application cast aluminum, copper pipe, short and small copper pipe, iron ring replaces, pour into a mould iron or replace with the aluminium nitride sealed, graphite powder.

The preparation method of embodiment 4.D type hot water and steam device from the beginning:

1. choose the long 6 points of stainless steel tubes of 6--12 rice, the long external screw thread of two ends processing 5cm, respectively fills band female branch tee d1g, a d1h at two ends;

2. make long 6.1--12.1 rice, diameter 1.1 centimetres, 6--12 thousand watt can wiring can dry combustion method electrothermal tube d2a1;

3. making external diameter equals 6 points of bores, internal diameter equals 1.1 centimetres, thick 2 millimeters has 6 mistake water to cross the pad d2a2 in the hole of bead;

4. on d2a1, weld a d2a2 vertical with d2a1 every 15 cm, respectively there is the pad d2a3 that binds at d2a1 two ends; D2a1, d2a2, d2a3 are combined into d2a;

5. d2a is inserted d1a, justify align weldering joins and curves screwed pipe D1a, at the parallel link plate with holes of same face bonding two at the position up and down of screwed pipe D1a;

6. make stainless steel ball d1b, cross water only pearl baffle plate d1c1, d1c2, riffled tube d1d1, d1d2 and built-in short 4 centimetres of not tight not loose straight tube d1e1, d1e2, d1b, d1c1, d1c2, d1d1, d1d2, d1e1, d1e2 are combined into D1b; D1a, D1b are combined into hot water element D1;

7. make shell D2, the mesochite D2a of D2 has inlet pipe hole, entrance hole, under have pore, the fore shell of D2 is panel D2c, and D2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover D2b of D2 has installing hole, hook hole, loads onto hot water and steam element D1 and hook D2d simultaneously, and adds glass fiber heat-insulation layer to d1a, or in d1a, fill appropriate ball d1b, threeway side pipe in d1a two ends loads onto baffle plate d1c1 respectively inside and outside back cover D2b, d1c2, and by riffled tube d1d1, d1d2 and straight tube d1e1, d1e2 is upper and enter running water pipe D3a, switch D3b connects, lower and threeway D4c, use hot-water line D4a, switch D4b connects, with steam pipe D5a respectively with D4c, safety valve D5c, switch D5b connects, coldplate D3c is contained on D3a, and pressure regulation constant temperature timing circuit box TYTWDSH is contained on D3c, and TYTWDSH out-put supply connects with the terminals of electrothermal tube d2a and the input of digital display voltmeter, TYTWDSH input is connected with power supply by D2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on d1a, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel D2c.

D2a2 or can, the grains of sand are filled up in d1a when rolling, with be about 5cm with the tube head of electric heating pore and internal thread close d1a two ends, d1a, d2a, the grains of sand are rolled into screwed pipe D1a, take off tube head and load onto threeway, weldering connection three-way straight pipe and d2a1, d2a3, pour out the grains of sand, at the parallel link plate with holes of same face bonding two at the position up and down of screwed pipe D1a.

The preparation method of embodiment 5.E type temp. controllable timing hot water and steam device from the beginning:

1. make that cross section is circle, screwed pipe shape, bottom be communicated with two ends and draw vertically upward and can inhale magnet stainless steel screwed pipe e1a with the bilayer that external screw thread, screwed pipe are spaced apart 1-3 centimetre, its straight tube is two 6--12 rice, 4 points of steel pipes, to be coiled into after the different screwed pipe of two diameters bottom weldering connection more respectively, two ends are drawn vertically upward, draw part and be about 15 centimetres, spacing is interior screwed pipe diameter, draws part screw thread and is just making before screwed pipe, be about 5 centimetres; E1a or be coiled into for twice by four points of steel pipes, the different pipe moulds of two diameters;

2. make silk-covered copper wire induction coil e2a, the thickness 0.6-2.5 centimetre of e2a, diameter be inside and outside e1a screwed pipe diameter and half, height is highly equal with e1a, and the number of turn is determined by supply frequency and size of current, wire length about 15 centimetres;

3. e2a is as being operated in power frequency, selects welding transformer e2b to make power supply, and e2b parallel connection of primary windings has the polarity free capacitor C3 be made up of polar capacitor C3a+, C3b+, diode D3a, D3b, resistance R3a, R3b;

4. make high temp glass incubator e3, go to the bottom on being support frame and installing hole glass locating groove e3a1a, e3a2a in porcelain or aluminium matter band hollow of the preparation method of e3 can use mold pressing firing ceramics or casting manufacture respectively, in upper and lower tail band hollow, support frame and installing hole stainless steel glass locating groove e3a1b, e3a2b can be cut into required form spot welding manufacture again with stainless steel square tube, flat U-lag, eight can closely insert four band mutual vertical glass locating groove square tube posts the spot welding of horseshoe clamp kerve wedge in the drawings eight angles shade part; On to go to the bottom in aluminium matter band hollow support frame glass locating groove e3a1c, e3a2c can cut out with drawing aluminium section bar e3a1c1 and go unnecessary part the weldering of argon arc aluminium and punching make again; Four mutual vertical glass locating grooves of band and locating hole column e3b1a-e3b4a directly can be tailored with drawing aluminium section bar e3b1a1; Be with mutual vertical glass locating groove and locating hole four column e3b1b-e3b4b can cut spot welding with stainless steel square tube and horseshoe clamp kerve to make; Upper and lower tail band hole porcelain plate e3c1a, e3c2a are moldable to be fired or replaces with high temp glass; Stainless steel base plate e3d with holes can make in punching press; In band installing hole, band hollow support frame base e3c first can cut with stainless steel square tube, flat tube, punch, again argon arc welding make; One piece of large high temp glass will be cut into integer block by with the much the same size of incubator size, and other accessory sizes are determined by this size; Buy the latch that matches with jack or screw and whole assembling parts is become incubator e3;

5. make and can pour the magnet the inhaled steel ball e1b poured out in screwed pipe, cross baffle plate e1c1, e1c2 of water only steel ball, riffled tube e1d1, e1d2 and built-in short 4 centimetres of tight not loose straight tube e1e1, e1e2; E1b, e1c1, e1c2, e1d1, e1d2, e1e1, e1e2, e2a, e2b, e3 are hot water element E1b; E1a, E1b are combined into E1;

6. make shell E2, the mesochite E2a of E2 has inlet pipe hole, entrance hole, under have pore, the fore shell of E2 is panel E2c, and E2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover E2b of E2 has installing hole, hook hole, loads onto hot water and steam element E1a inside and outside back cover E2b simultaneously and hook E2d, E1a put into high temperature glass silk incubator, fills appropriate ball e1b, load onto baffle plate e1c1 respectively at e1a two ends in e1a, e1c2, and by riffled tube e1d1, e1d2 and straight tube e1e1, e1e2 one end with enter running water pipe E3a, switch E3b connects, the other end and threeway E4c, use hot-water line E4a, switch E4b connects, with steam pipe E5a respectively with E4c, safety valve E5c, switch E5b connects, coldplate E3c is contained on E3a, pressure regulation constant temperature timing circuit box TYTWDSH is contained on E3c, TYTWDSH out-put supply and power frequency or the terminals of intermediate frequency power supply e2b and the input of digital display voltmeter connect, TYTWDSH input is connected with power supply by D2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on e3, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel E2c, e3 or replace with glass fiber, e2a or replace with screwed pipe shape electrothermal tube e2d, the e3 that stainless steel and high temp glass are made or removed to e2a, iron-clad electric hot plate e2c is placed between e3c and e3d, e1a is placed on e2c, e2c is connected on Industrial Frequency Transformer e2b by shift switch K3, TYTWDSH and pays limit, the thermoregulation circuit TWDL of pressure regulation constant temperature timing circuit box TYTWDSH inside or do not connect,

7. be arranged on the input of the output termination transformer e2b of the pressure regulation temperature control box TYTWDSH on E3c, the input of the output termination induction coil e2a of e2b, e2b or with in patent 2006100187795 intermediate frequency power supply replace; Stainless steel tube vertical turn place stainless steel bend is turned, stainless steel tube and elbow or replace with plating galvanized pipe and elbow.

Embodiment 1-5 all has following circuit:

Reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL1 is by bidirectional triode thyristor BCR1-BCR6 successively, current-limiting resistance R1a-R6a, load resistance R1b-R6b, potentiometer W1, electric capacity C1a, C1b, photoelectrical coupler PC817a1, PC817b1, time switch K1a, shift switch K2a, fixed temperature K switch t1a-Kt4a is formed, BCR1 anode, BCR6 anode, the common port of R6a and C1a one end connects power firestreak by fuse BX1, BCR2 anode, the public termination BCR1 negative electrode of R1b one end, BCR3 anode, the public termination BCR2 negative electrode of R2b one end, BCR4 anode, the public termination BCR3 negative electrode of R3b one end, BCR5 anode, the public termination BCR4 negative electrode of R4b one end, R5b one end, the public termination BCR5 negative electrode of C1b one end, R1b-R5b, C1a, another termination power ground of C1b, R1a-R5a one end separately connects the control pole of BCR1-BCR5 respectively, the common port of the respective other end connects BCR6 negative electrode by R6b, the public termination R6a other end of W1 one end and sliding end, BCR6 controls the input that pole meets time switch K1a, the stiff end of the output termination shift switch K2a of K1a, the sliding end of shift switch K2a connects the colelctor electrode of phototriode in the input of fixed temperature K switch t1a-Kt4a and PC817a1 respectively, the common port of the emitter stage of phototriode in PC817b1, phototriode emitter stage in the common port of Kt1a-Kt4a output and PC81a1, the public termination W1 other end of phototriode colelctor electrode in PC817b1, the emitter stage of two phototriodes all can seal in together polar orientation diode again.

Step-down thyristor regulating volt circuit YCJYSXKKGTYDL2 is by bidirectional triode thyristor BCR7-BCR17 successively, current-limiting resistance R7a-R17a, load resistance R7b-R17b, potentiometer W2, photoelectrical coupler PC817a2, PC817b2, time switch K1b, shift switch K2b, fixed temperature K switch t1b-Kt4b is formed, BCR7 anode, BCR8 negative electrode, C2a one end common port connects power firestreak by fuse, BCR9 anode, BCR10 negative electrode, the public termination BCR7 negative electrode of R78b one end, the common port of BCR8 anode, BCR11 anode, BCR12 negative electrode, the public termination BCR9 negative electrode of R910b one end, the common port of BCR10 anode, BCR13 anode, BCR14 negative electrode, the public termination BCR11 negative electrode of R1112b one end, the common port of BCR12 anode, BCR15 anode, BCR16 negative electrode, the public termination BCR13 negative electrode of R1314b one end, the common port of BCR14 anode, BCR15 negative electrode, public termination R1516b one end of BCR16 anode, the common port of C2b one end, R78b, R910b, R1112b, R1314b, R1516b, C2a, the public termination power ground of the other end of C2b, R7a, R9a, R11a, R13a, R15a separately one end meets BCR7 respectively, BCR9, BCR11, BCR13, BCR15 controls pole, and the common port of the respective other end connects BCR17 negative electrode by resistance R17b, resistance R8a, R10a, R12a, R14a, R16a one end separately meets BCR8 respectively, BCR10, BCR12, BCR14, BCR16 controls pole, the public termination BCR17 anode of the respective other end, the common port of resistance R17a one end, another termination W2 one end of R17a and sliding end common port, BCR17 controls the input that pole meets time switch K1b, the stiff end of the output termination shift switch K2b of K1b, the sliding end of shift switch K2b connects the colelctor electrode of phototriode in the input of fixed temperature K switch t1b-Kt4b and PC817a2 respectively, the common port of the emitter stage of phototriode in PC817b2, the emitter stage of phototriode in the common port of Kt1b-Kt4b output and PC817a2, the public termination W2 other end of the colelctor electrode of phototriode in PC817b2, two phototriodes all can seal in a same polarity direction diode again,

Reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL3 is by bidirectional triode thyristor BCR1-BCR6 successively, BCR6a, current-limiting resistance R1a-R6a, R6a1, load resistance R1b-R6b, potentiometer W1, W1a, electric capacity C1a, C1b, C1c, photoelectrical coupler PC817a1, PC817b1, time switch K1a, shift switch K2a, fixed temperature K switch t1a-Kt4a is formed, BCR1 anode, BCR6a anode, the common port of R6a1 and C1a one end connects power firestreak by fuse BX1, BCR6 anode, R6a one end, the public termination BCR6a negative electrode in C1c one end, the common port of another termination W1a one end of R6a1 and sliding end, another termination BCR6a of W1a controls pole, BCR2 anode, the public termination BCR1 negative electrode of R1b one end, BCR3 anode, the public termination BCR2 negative electrode of R2b one end, BCR4 anode, the public termination BCR3 negative electrode of R3b one end, BCR5 anode, the public termination BCR4 negative electrode of R4b one end, R5b one end, the public termination BCR5 negative electrode of C1b one end, R1b-R5b, C1a, C1b, another termination power ground of C1c, R1a-R5a one end separately connects the control pole of BCR1-BCR5 respectively, the common port of the respective other end connects BCR6 negative electrode by R6b, the public termination R6a other end of W1 one end and sliding end, BCR6 controls the input that pole meets time switch K1a, the stiff end of the output termination shift switch K2a of K1a, the sliding end of shift switch K2a connects the colelctor electrode of phototriode in the input of fixed temperature K switch t1a-Kt4a and PC817a1 respectively, the common port of the emitter stage of phototriode in PC817b1, phototriode emitter stage in the common port of Kt1a-Kt4a output and PC81a1, the public termination W1 other end of phototriode colelctor electrode in PC817b1, the emitter stage of two phototriodes all can seal in together polar orientation diode again, R1a-R5a or seal in anti-parallel diodes, or seal in bilateral diode, R1b-R5b or replace with electric capacity,

Step-down thyristor regulating volt circuit YCJYSXKKGTYDL4 is by bidirectional triode thyristor BCR7-BCR17 successively, BCR17a, current-limiting resistance R7a-R17a, R17a1, load resistance R7b-R17b, potentiometer W2, W2a, photoelectrical coupler PC817a2, PC817b2, time switch K1b, shift switch K2b, fixed temperature K switch t1b-Kt4b is formed, BCR7 anode, BCR8 negative electrode, C2a common port connects power firestreak by fuse, BCR9 anode, BCR10 negative electrode, the public termination BCR7 negative electrode of R78b one end, the common port of BCR8 anode, BCR11 anode, BCR12 negative electrode, the public termination BCR9 negative electrode of R910b one end, the common port of BCR10 anode, BCR13 anode, BCR14 negative electrode, the public termination BCR11 negative electrode of R1112b one end, the common port of BCR12 anode, BCR15 anode, BCR16 negative electrode, the public termination BCR13 negative electrode of R1314b one end, the common port of BCR14 anode, BCR15 negative electrode, public termination R1516b one end of BCR16 anode, the common port of C2b one end, R7a, R9a, R11a, R13a, R15a separately one end meets BCR7 respectively, BCR9, BCR11, BCR13, BCR15 controls pole, and the common port of the respective other end connects BCR17 negative electrode by resistance R17b, resistance R8a, R10a, R12a, R14a, R16a one end separately meets BCR8 respectively, BCR10, BCR12, BCR14, BCR16 controls pole, the public termination BCR17a anode of the respective other end, the common port of resistance R17a1 one end, BCR17 anode, R17a one end, the public termination BCR17a negative electrode of C2c one end, the common port of another termination W2a one end of R17a1 and sliding end, another termination BC17a of W2a controls pole, R78b, R910b, R1112b, R1314b, R1516b, C2a, C2b, C2c, the public termination power ground of the other end, another termination W2 one end of R17a and sliding end common port, BCR17 controls the input that pole meets time switch K1b, the stiff end of the output termination shift switch K2b of K1b, the sliding end of shift switch K2b connects the colelctor electrode of phototriode in the input of fixed temperature K switch t1b-Kt4b and PC817a2 respectively, the common port of the emitter stage of phototriode in PC817b2, the emitter stage of phototriode in the common port of Kt1b-Kt4b output and PC817a2, the public termination W2 other end of the colelctor electrode of phototriode in PC817b2, two phototriodes all can seal in a same polarity direction diode again, R7a-R16a or seal in anti-parallel diodes, or seal in bilateral diode, R78b, R910b, R1314b, R1516b or replace with electric capacity,

Reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL is encapsulated in TYTWDSH in module coldplate MKLQB1 successively, by latch on TYTWDSH panel, binding post connects thermoregulation circuit TWDL with MKLQB1 outside, and TWDL is by transformer B1, 1A rectifier bridge, the objective C1+ of polarity electricity, C2+, diode D1, D2, voltage-stabiliser tube ZW, Voltage stabilizing module 7805, 7812, current-limiting resistance R1c, R2c, R3c, R4c, FET NMOS1, triode BG1, BG2, light emitting diode D3, photoelectrical coupler PC817a, P817Cb, potentiometer W3-W5, thermistor Rt is formed, and the former limit of B1 connects 220 power supplys, and pay limit 12V and connect 1A rectifier bridge module input, rectifier bridge module positive pole connects 7812 inputs, C1+ positive pole, D1 negative electrode common port, 7812 export termination C2+ positive pole, D1 anode, D2 negative electrode, 7805 inputs, R1c one end, NMOS1 drains, the common port of R3c one end, 7805 export termination D2 anode, digital display voltmeter positive pole, the common port of W5 one end and sliding end, another termination of W5 connects digital display temperature meter positive pole, the common port of R4c one end, R1c another termination W3 one end and sliding end, another termination NMOS1 of W3 controls pole, Rt one end, the common port of voltage-stabiliser tube ZW negative electrode, the common port of NMOS1 source electrode and voltage-stabiliser tube ZW anode connects potentiometer W4 one end by R2c, the W4 other end, Rt other end common end grounding, R3c other end sending and receiving optical diode D3 anode, D3 negative electrode connects the anode of light emitting diode in PC817a, in PC817a, the negative electrode of light emitting diode connects the anode of light emitting diode in PC817b, in PC817b, the negative electrode of light emitting diode connects BG2 emitter stage pole, BG2 base stage connects BG1 emitter stage, and BG1 base stage connects W4 sliding end, 7812 and 7805 earth terminals, C1+ and C2+ negative pole, rectifier bridge earth terminal, digital display voltmeter and thermometer negative pole, the R4c other end, the Rt other end, BG1 colelctor electrode, the public termination direct current ground of BG2 colelctor electrode.

Pressure-regulating temp-regulating timing circuit TYTWDSDL is contained on the wiring board in pressure regulation constant temp. box TYTWDSH, is connected with external circuit by latch, binding post on panel.TYTWDSH is drawn by aluminium alloy and forms, outside is level and smooth up and down, there is radiator shutter both sides, inner section is rectangle, level and smooth up and down, both sides have multistagely to slide cloudy guide rail for slide positive guide rail and wiring board of module coldplate MKLQB, both sides, MKLQB cross section have can in the cloudy guide rail of TYTWDSH inner both sides sun slide on rails and ventilation passageway, center of inside is a rectangular channel, both sides all draw close a segment distance toward center line up and down, communicate with centre gangway, the rectangular channel that shape is identical, controllable silicon or IGBT regulating circuit are just encapsulated in these three passages, pressure-regulating temp-regulating timing circuit is then welded on the wiring board that is inserted on the inner cloudy guide rail of TYTWDSH, on the front and back panel of TYTWDSH, on the cooled blade of both sides, bottom is all equipped with installing hole and can installs instrument, fan, potentiometer, latch, binding post, shift switch, indicator lamp etc., TYTWDSH can independently use.Step-down thyristor regulating volt circuit YCJYSXKKGTYDL can replace with IGBT AC voltage adjusting circuit in patent 2011101897839 successively, and in step-down thyristor regulating volt circuit YCJYSXKKGTYDL, H1, H2 two control circuit and H1, H2 in IGBT AC voltage adjusting circuit two control circuits of accessing of interface of interface access are identical successively.

H3, H4 successively in step-down thyristor regulating volt circuit YCJYSXKKGTYDL1--YCJYSXKKGTYDL4 two tie point with in TWDL H3, H4 two tie points corresponding.

Claims (6)

1. a manufacture method for temp. controllable timing hot water and steam device from the beginning, is characterized in that: it is A type temp. controllable timing hot water and steam device preparation method from the beginning:

(1) make two ends, bottom for circular, middle for rectangle, base plane semicircle center, outer end is drawn, inner Vertical dimension is drawn outward, have threaded interface, planar spiral stainless steel running water pipe a1a:a1a outwards draws from bottom semicircular center and internal vertical is bent upwards and is partly about 5 centimetres without screw thread, external screw thread part is had to be about 5 centimetres, the straight tube of a1a processed is 4 points of stainless steel tubes, and 6--12 rice is long;

(2) make two bottoms be square circular two ends draw vertically upward can wiring can dry combustion method electrothermal tube a2a, a2b; A2a can be close to the inside of a1a, and a2b can be tightly placed in the outside of a1a, and terminals spacing is about the height of 5--10 centimetre of a2a, a2b two ends bent orthogonal upwards part about 5 centimetres,

(3) make and can pour stainless shot a1b, the two ends of pouring out into can cross water with diameter band aperture and can not cross pearl stainless steel baffle plate a1c1, a1c2 in helix tube a1a, two ends can in riffled tube a1d1, a1d2 of block plate and slightly short 4 centimetres of built-in thick carefully straight tube a1e1, a1e2; A1b, a1c1, a1c2, a1d1, a1d2, a1e1, a1e2 are hot water element A1b;

(4) make the mould of hot water and steam element A1a heat conduction shell a3: thick about 5 millimeters of a3 shell, decapacitation encases beyond a2a, a2b, a1a part, and long limit two side bottom also has band installing hole both wings, thick about 5 millimeters, band installing hole both wings or be availablely welded with iron plate with holes and replace;

(5) a2a, a2b, a1a to be placed in same plane weldering connection, to tack electrothermal tube four terminals hang in mould and balance rear injection molten iron with tightrope, cooling and mould unloading must hot water and steam element A1a, and A1a, A1b are combined into hot water element A1;

(6) make shell A2, the mesochite A2a of A2 has inlet pipe hole, entrance hole, under have pore, the fore shell of A2 is panel A2c, and A2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover A2b of A2 has installing hole, hook hole, loads onto hot water and steam element A1a and hook A2d simultaneously, and adds glass fiber heat-insulation layer to A1a, fill appropriate ball a1b, load onto baffle plate a1c1 respectively at a1a two ends in a1a inside and outside back cover A2b, a1c2, and by riffled tube a1d1, a1d2 and straight tube a1e1, a1e2 is upper and enter running water pipe A3a, switch A3b connects, lower and threeway A4c, use hot-water line A4a, switch A4b connects, with steam pipe A5a respectively with A4c, safety valve A5c, switch A5b connects, and coldplate A3c is contained on A3a, and pressure regulation constant temperature timing circuit box TYTWDSH is contained on A3c, TYTWDSH out-put supply and electrothermal tube a2a, the terminals of a2b and the input of digital display voltmeter connect, and TYTWDSH input is connected with power supply by A2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on a3, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel A2c, cast iron, stainless steel tube, steel ball or to application cast aluminum, copper pipe, short and small copper pipe, iron ring replaces, pour into a mould iron or replace with the aluminium nitride sealed, graphite powder.

2. a manufacture method for temp. controllable timing hot water and steam device from the beginning, is characterized in that: it is the preparation method of Type B temp. controllable timing hot water and steam device from the beginning:

(1) make two ends, cross section to bend down vertically upward for circular, middle respectively, have band external screw joint screwed pipe shape stainless steel running water pipe b1a for narrow rectangle, two ends, b1a straight tube processed is that 4 points of stainless steel tubes 6-12 meters are long, b1a or place vertically or traverse, two ends are drawn downwards vertically upward and are respectively 5 centimetres without screw thread part, external screw thread part is had to be respectively 5 centimetres, can yaw two or four U-shaped electrothermal tube in screwed pipe;

(2) make stainless steel ball b1b, cross water only pearl baffle plate b1c1, b1c2, riffled tube b1d1, b1d2 and built-in short 4 centimetres of not tight not loose straight tube b1e1, b1e2, b1b, b1c1, b1c2, b1d1, b1d2, b1e1, b1e2 are combined into B1b;

(3) make two ends bent orthogonal upwards can wiring can dry combustion method U-shaped electrothermal tube b2a1, b2a2, the length of U-shaped electrothermal tube equals screwed pipe height and adds 5--10 centimetre;

(4) make the mould b3 of B1a heat conduction shell, thick about 5 millimeters of shell, except encirclement b1a, b2a1, b2a2, long limit two side bottom also has the both wings of band installing hole, thick about 5 millimeters and with screwed pipe center parallel;

(5) U-shaped electrothermal tube b2a1, b2a2 are welded in parallel b1a inwall, tack electrothermal tube four terminals with tightrope, hang in mould and balance rear injection molten iron, cool to obtain hot water and steam element B1a; B1a, B1b are combined into B1;

(6) make shell B2, the mesochite B2a of B2 has inlet pipe hole, entrance hole, under have pore, the fore shell of B2 is panel B2c, and B2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover B2b of B2 has installing hole, hook hole, loads onto hot water and steam element B1a and hook B2d simultaneously, and adds glass fiber heat-insulation layer to B1a, fill appropriate ball b1b, load onto baffle plate b1c1 respectively at b1a two ends in b1a inside and outside back cover B2b, b1c2, and by riffled tube b1d1, b1d2 and straight tube b1e1, b1e2 is upper and enter running water pipe B3a, switch B3b connects, lower and threeway B4c, use hot-water line B4a, switch B4b connects, with steam pipe B5a respectively with B4c, safety valve B5c, switch B5b connects, and coldplate B3c is contained on B3a, and pressure regulation constant temperature timing circuit box TYTWDSH is contained on B3c, TYTWDSH out-put supply and electrothermal tube b2a, the terminals of b2b and the input of digital display voltmeter connect, and TYTWDSH input is connected with power supply by B2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on b3, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel B2c, cast iron, stainless steel tube, steel ball or to application cast aluminum, copper pipe, short and small copper pipe, iron ring replaces, pour into a mould iron or replace with the aluminium nitride sealed, graphite powder.

3. a manufacture method for temp. controllable timing hot water and steam device from the beginning, is characterized in that: it is the preparation method of C type temp. controllable timing hot water and steam device from the beginning:

(1) make cross section for circular, two ends bend down respectively vertically upward, have band external screw joint stainless steel screwed pipe shape running water pipe c1a, c1a or place vertically or traverse; Two ends are respectively about 5 centimetres without screw thread part bent part up and down, are with external screw thread part to be respectively about 5 centimetres up and down;

(2) make two ends bent orthogonal upwards U-shapeds can wiring can dry combustion method electrothermal tube c2a1--c2a4;

(3) making can pour the stainless shot c1b poured out in stainless steel tube, can cross water and can not cross pearl pipe end baffle plate c1c1, c1c2, riffled tube c1d1, c1d2 and built-in slightly short tight not loose straight tube c1e1, c1e2; C1b, c1c1, c1c2, c1d1, c1d2, c1e1, c1e2 are combined into C1b;

(4) make the mould c3 of cast hot water and steam element C1a heat conduction shell, thick about 5 millimeters of c3 also has the both wings being with installing hole, both wings and centerline parallel except surrounding outer two side bottoms of C1a, c2a1-c2a4;

(5) electrothermal tube c2a1-c2a4 uniform vertical is attached to screwed pipe c2a inwall, weldering connection; Tack four electrothermal tube terminals with tightrope, hang in after the cooling of rear injection molten iron balanced by mould and can obtain hot water and steam element C1a; C1a, C1b are combined into C1, C1a or by inwall be welded with C2a1-C2a4 c1a, be built-inly close to two end band end sockets and 4 points of screwed pipe preheating water drum c1f, outside is welded with iron plate with holes, heat insulation glass silk is formed;

(6) make shell C2, the mesochite C2a of C2 has inlet pipe hole, entrance hole, under have pore, the fore shell of C2 is panel C2c, and C2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover C2b of C2 has installing hole, hook hole, loads onto hot water and steam element C1a and hook C2d simultaneously, and adds glass fiber heat-insulation layer to C1a, fill appropriate ball c1b, load onto baffle plate c1c1 respectively at c1a two ends in c1a inside and outside back cover C2b, c1c2, and by riffled tube c1d1, c1d2 and straight tube c1e1, c1e2 is upper and enter running water pipe C3a, switch C3b connects, lower and threeway C4c, use hot-water line C4a, switch C4b connects, with steam pipe C5a respectively with C4c, safety valve C5c, switch C5b connects, and coldplate C3c is contained on C3a, and pressure regulation constant temperature timing circuit box TYTWDSH is contained on C3c, TYTWDSH out-put supply and electrothermal tube c2a, the terminals of c2b and the input of digital display voltmeter connect, and TYTWDSH input is connected with power supply by C2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on c3, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel C2c, cast iron, stainless steel tube, steel ball or to application cast aluminum, copper pipe, short and small copper pipe, iron ring replaces, pour into a mould iron or replace with the aluminium nitride sealed, graphite powder.

4. a manufacture method for temp. controllable timing hot water and steam device from the beginning, is characterized in that: it is the preparation method of D type hot water and steam device from the beginning:

(1) choose the long 6 points of stainless steel tubes of 6--12 rice, the long external screw thread of two ends processing 5cm, respectively fills band female branch tee d1g, a d1h at two ends;

(2) make long 6.1--12.1 rice, diameter 1.1 centimetres, 6--12 thousand watt can wiring can dry combustion method electrothermal tube d2a1;

(3) making external diameter equals 6 points of bores, internal diameter equals 1.1 centimetres, thick 2 millimeters has 6 mistake water to cross the pad d2a2 in the hole of bead;

(4) on d2a1, weld a d2a2 vertical with d2a1 every 15 cm, respectively there is the pad d2a3 that binds at d2a1 two ends; D2a1, d2a2, d2a3 are combined into d2a;

(5) d2a is inserted d1a, justify align weldering joins and curves screwed pipe D1a, at the parallel link plate with holes of same face bonding two at the position up and down of screwed pipe D1a;

(6) make stainless steel ball d1b, cross water only pearl baffle plate d1c1, d1c2, riffled tube d1d1, d1d2 and built-in short 4 centimetres of not tight not loose straight tube d1e1, d1e2, d1b, d1c1, d1c2, d1d1, d1d2, d1e1, d1e2 are combined into D1b; D1a, D1b are combined into hot water element D1;

(7) make shell D2, the mesochite D2a of D2 has inlet pipe hole, entrance hole, under have pore, the fore shell of D2 is panel D2c, and D2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover D2b of D2 has installing hole, hook hole, loads onto hot water and steam element D1 and hook D2d simultaneously, and adds glass fiber heat-insulation layer to d1a, or in d1a, fill appropriate ball d1b, threeway side pipe in d1a two ends loads onto baffle plate d1c1 respectively inside and outside back cover D2b, d1c2, and by riffled tube d1d1, d1d2 and straight tube d1e1, d1e2 is upper and enter running water pipe D3a, switch D3b connects, lower and threeway D4c, use hot-water line D4a, switch D4b connects, with steam pipe D5a respectively with D4c, safety valve D5c, switch D5b connects, coldplate D3c is contained on D3a, and pressure regulation constant temperature timing circuit box TYTWDSH is contained on D3c, and TYTWDSH out-put supply connects with the terminals of electrothermal tube d2a and the input of digital display voltmeter, TYTWDSH input is connected with power supply by D2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on d1a, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel D2c,

D2a2 or can, the grains of sand are filled up in d1a when rolling, with be about 5cm with the tube head of electric heating pore and internal thread close d1a two ends, d1a, d2a, the grains of sand are rolled into screwed pipe D1a, take off tube head and load onto threeway, weldering connection three-way straight pipe and d2a1, d2a3, pour out the grains of sand, at the parallel link plate with holes of same face bonding two at the position up and down of screwed pipe D1a.

5. a manufacture method for temp. controllable timing hot water and steam device from the beginning, is characterized in that: it is the preparation method of E type temp. controllable timing hot water and steam device from the beginning:

(1) make that cross section is circle, screwed pipe shape, bottom be communicated with two ends and draw vertically upward and can inhale magnet stainless steel screwed pipe e1a with the bilayer that external screw thread, screwed pipe are spaced apart 1-3 centimetre, its straight tube is two 6--12 rice, 4 points of steel pipes, to be coiled into after the different screwed pipe of two diameters bottom weldering connection more respectively, two ends are drawn vertically upward, draw part and be about 15 centimetres, spacing is interior screwed pipe diameter, draws part screw thread and is just making before screwed pipe, be about 5 centimetres; E1a or be coiled into for twice by four points of steel pipes, the different pipe moulds of two diameters;

(2) make silk-covered copper wire induction coil e2a, the thickness 0.6-2.5 centimetre of e2a, diameter be inside and outside e1a screwed pipe diameter and half, height is highly equal with e1a, and the number of turn is determined by supply frequency and size of current, wire length about 15 centimetres;

(3) e2a is as being operated in power frequency, selects welding transformer e2b to make power supply, and e2b parallel connection of primary windings has the polarity free capacitor C3 be made up of polar capacitor C3a+, C3b+, diode D3a, D3b, resistance R3a, R3b;

(4) high temp glass incubator e3 is made, go to the bottom on being support frame and installing hole glass locating groove e3a1a, e3a2a in porcelain or aluminium matter band hollow of the preparation method of e3 can use mold pressing firing ceramics or casting manufacture respectively, in upper and lower tail band hollow, support frame and installing hole stainless steel glass locating groove e3a1b, e3a2b can be cut into required form spot welding manufacture again with stainless steel square tube, flat U-lag, eight can closely insert four band mutual vertical glass locating groove square tube posts the spot welding of horseshoe clamp kerve wedge in the drawings eight angles shade part; On to go to the bottom in aluminium matter band hollow support frame glass locating groove e3a1c, e3a2c can cut out with drawing aluminium section bar e3a1c1 and go unnecessary part the weldering of argon arc aluminium and punching make again; Four mutual vertical glass locating grooves of band and locating hole column e3b1a-e3b4a directly can be tailored with drawing aluminium section bar e3b1a1; Be with mutual vertical glass locating groove and locating hole four column e3b1b-e3b4b can cut spot welding with stainless steel square tube and horseshoe clamp kerve to make; Upper and lower tail band hole porcelain plate e3c1a, e3c2a are moldable to be fired or replaces with high temp glass; Stainless steel base plate e3d with holes can make in punching press; In band installing hole, band hollow support frame base e3c first can cut with stainless steel square tube, flat tube, punch, again argon arc welding make; One piece of large high temp glass will be cut into integer block by with the much the same size of incubator size, and other accessory sizes are determined by this size; Buy the latch that matches with jack or screw and whole assembling parts is become incubator e3;

(5) make can pour the magnet the inhaled steel ball e1b poured out in screwed pipe, cross baffle plate e1c1, e1c2 of water only steel ball, riffled tube e1d1, e1d2 and built-in short 4 centimetres of tight not loose straight tube e1e1, e1e2; E1b, e1c1, e1c2, e1d1, e1d2, e1e1, e1e2, e2a, e2b, e3 are hot water element E1b; E1a, E1b are combined into E1;

(6) make shell E2, the mesochite E2a of E2 has inlet pipe hole, entrance hole, under have pore, the fore shell of E2 is panel E2c, and E2c has instrument, potentiometer, latch, switch, indicator lamp installing hole, the back cover E2b of E2 has installing hole, hook hole, loads onto hot water and steam element E1a inside and outside back cover E2b simultaneously and hook E2d, E1a put into high temperature glass silk incubator, fills appropriate ball e1b, load onto baffle plate e1c1 respectively at e1a two ends in e1a, e1c2, and by riffled tube e1d1, e1d2 and straight tube e1e1, e1e2 one end with enter running water pipe E3a, switch E3b connects, the other end and threeway E4c, use hot-water line E4a, switch E4b connects, with steam pipe E5a respectively with E4c, safety valve E5c, switch E5b connects, coldplate E3c is contained on E3a, pressure regulation constant temperature timing circuit box TYTWDSH is contained on E3c, TYTWDSH out-put supply and power frequency or the terminals of intermediate frequency power supply e2b and the input of digital display voltmeter connect, TYTWDSH input is connected with power supply by D2a cable-through hole, thermometer observing and controlling end, fixed temperature K switch t1--Kt4, thermistor Rt is pasted onto on e3, Rt, Kt1--Kt4, W1-W5, time switch K1, Gear-shift switch K2 terminals are all connected with TYTWDSH internal circuit by latch, voltmeter, thermometer, time switch, Gear-shift switch, potentiometer, indicator lamp, binding post is installed on panel E2c, e3 or replace with glass fiber, e2a or replace with screwed pipe shape electrothermal tube e2d, the e3 that stainless steel and high temp glass are made or removed to e2a, iron-clad electric hot plate e2c is placed between e3c and e3d, e1a is placed on e2c, e2c is connected on Industrial Frequency Transformer e2b by shift switch K3, TYTWDSH and pays limit, the thermoregulation circuit TWDL of pressure regulation constant temperature timing circuit box TYTWDSH inside or do not connect,

(7) be arranged on the input of the output termination transformer e2b of the pressure regulation temperature control box TYTWDSH on E3c, the input of the output termination induction coil e2a of e2b, e2b or with in patent 2006100187795 intermediate frequency power supply replace; Stainless steel tube vertical turn place stainless steel bend is turned, stainless steel tube and elbow or replace with plating galvanized pipe and elbow.

6. the manufacture method of the temp. controllable timing hot water and steam device from the beginning according to claim 1-5, is characterized in that: reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL1 is by bidirectional triode thyristor BCR1-BCR6 successively, current-limiting resistance R1a-R6a, load resistance R1b-R6b, potentiometer W1, electric capacity C1a, C1b, photoelectrical coupler PC817a1, PC817b1, time switch K1a, shift switch K2a, fixed temperature K switch t1a-Kt4a is formed, BCR1 anode, BCR6 anode, the common port of R6a and C1a one end connects power firestreak by fuse BX1, BCR2 anode, the public termination BCR1 negative electrode of R1b one end, BCR3 anode, the public termination BCR2 negative electrode of R2b one end, BCR4 anode, the public termination BCR3 negative electrode of R3b one end, BCR5 anode, the public termination BCR4 negative electrode of R4b one end, R5b one end, the public termination BCR5 negative electrode of C1b one end, R1b-R5b, C1a, another termination power ground of C1b, R1a-R5a one end separately connects the control pole of BCR1-BCR5 respectively, the common port of the respective other end connects BCR6 negative electrode by R6b, the public termination R6a other end of W1 one end and sliding end, BCR6 controls the input that pole meets time switch K1a, the stiff end of the output termination shift switch K2a of K1a, the sliding end of shift switch K2a connects the colelctor electrode of phototriode in the input of fixed temperature K switch t1a-Kt4a and PC817a1 respectively, the common port of the emitter stage of phototriode in PC817b1, phototriode emitter stage in the common port of Kt1a-Kt4a output and PC81a1, the public termination W1 other end of phototriode colelctor electrode in PC817b1, the emitter stage of two phototriodes all can seal in together polar orientation diode again,

Step-down thyristor regulating volt circuit YCJYSXKKGTYDL2 is by bidirectional triode thyristor BCR7-BCR17 successively, current-limiting resistance R7a-R17a, load resistance R7b-R17b, potentiometer W2, photoelectrical coupler PC817a2, PC817b2, time switch K1b, shift switch K2b, fixed temperature K switch t1b-Kt4b is formed, BCR7 anode, BCR8 negative electrode, C2a one end common port connects power firestreak by fuse, BCR9 anode, BCR10 negative electrode, the public termination BCR7 negative electrode of R78b one end, the common port of BCR8 anode, BCR11 anode, BCR12 negative electrode, the public termination BCR9 negative electrode of R910b one end, the common port of BCR10 anode, BCR13 anode, BCR14 negative electrode, the public termination BCR11 negative electrode of R1112b one end, the common port of BCR12 anode, BCR15 anode, BCR16 negative electrode, the public termination BCR13 negative electrode of R1314b one end, the common port of BCR14 anode, BCR15 negative electrode, public termination R1516b one end of BCR16 anode, the common port of C2b one end, R78b, R910b, R1112b, R1314b, R1516b, C2a, the public termination power ground of the other end of C2b, R7a, R9a, R11a, R13a, R15a separately one end meets BCR7 respectively, BCR9, BCR11, BCR13, BCR15 controls pole, and the common port of the respective other end connects BCR17 negative electrode by resistance R17b, resistance R8a, R10a, R12a, R14a, R16a one end separately meets BCR8 respectively, BCR10, BCR12, BCR14, BCR16 controls pole, the public termination BCR17 anode of the respective other end, the common port of resistance R17a one end, another termination W2 one end of R17a and sliding end common port, BCR17 controls the input that pole meets time switch K1b, the stiff end of the output termination shift switch K2b of K1b, the sliding end of shift switch K2b connects the colelctor electrode of phototriode in the input of fixed temperature K switch t1b-Kt4b and PC817a2 respectively, the common port of the emitter stage of phototriode in PC817b2, the emitter stage of phototriode in the common port of Kt1b-Kt4b output and PC817a2, the public termination W2 other end of the colelctor electrode of phototriode in PC817b2, two phototriodes all can seal in a same polarity direction diode again,

Reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL3 is by bidirectional triode thyristor BCR1-BCR6 successively, BCR6a, current-limiting resistance R1a-R6a, R6a1, load resistance R1b-R6b, potentiometer W1, W1a, electric capacity C1a, C1b, C1c, photoelectrical coupler PC817a1, PC817b1, time switch K1a, shift switch K2a, fixed temperature K switch t1a-Kt4a is formed, BCR1 anode, BCR6a anode, the common port of R6a1 and C1a one end connects power firestreak by fuse BX1, BCR6 anode, R6a one end, the public termination BCR6a negative electrode in C1c one end, the common port of another termination W1a one end of R6a1 and sliding end, another termination BCR6a of W1a controls pole, BCR2 anode, the public termination BCR1 negative electrode of R1b one end, BCR3 anode, the public termination BCR2 negative electrode of R2b one end, BCR4 anode, the public termination BCR3 negative electrode of R3b one end, BCR5 anode, the public termination BCR4 negative electrode of R4b one end, R5b one end, the public termination BCR5 negative electrode of C1b one end, R1b-R5b, C1a, C1b, another termination power ground of C1c, R1a-R5a one end separately connects the control pole of BCR1-BCR5 respectively, the common port of the respective other end connects BCR6 negative electrode by R6b, the public termination R6a other end of W1 one end and sliding end, BCR6 controls the input that pole meets time switch K1a, the stiff end of the output termination shift switch K2a of K1a, the sliding end of shift switch K2a connects the colelctor electrode of phototriode in the input of fixed temperature K switch t1a-Kt4a and PC817a1 respectively, the common port of the emitter stage of phototriode in PC817b1, phototriode emitter stage in the common port of Kt1a-Kt4a output and PC81a1, the public termination W1 other end of phototriode colelctor electrode in PC817b1, the emitter stage of two phototriodes all can seal in together polar orientation diode again, R1a-R5a or seal in anti-parallel diodes, or seal in bilateral diode, R1b-R5b or replace with electric capacity,

Step-down thyristor regulating volt circuit YCJYSXKKGTYDL4 is by bidirectional triode thyristor BCR7-BCR17 successively, BCR17a, current-limiting resistance R7a-R17a, R17a1, load resistance R7b-R17b, potentiometer W2, W2a, photoelectrical coupler PC817a2, PC817b2, time switch K1b, shift switch K2b, fixed temperature K switch t1b-Kt4b is formed, BCR7 anode, BCR8 negative electrode, C2a common port connects power firestreak by fuse, BCR9 anode, BCR10 negative electrode, the public termination BCR7 negative electrode of R78b one end, the common port of BCR8 anode, BCR11 anode, BCR12 negative electrode, the public termination BCR9 negative electrode of R910b one end, the common port of BCR10 anode, BCR13 anode, BCR14 negative electrode, the public termination BCR11 negative electrode of R1112b one end, the common port of BCR12 anode, BCR15 anode, BCR16 negative electrode, the public termination BCR13 negative electrode of R1314b one end, the common port of BCR14 anode, BCR15 negative electrode, public termination R1516b one end of BCR16 anode, the common port of C2b one end, R7a, R9a, R11a, R13a, R15a separately one end meets BCR7 respectively, BCR9, BCR11, BCR13, BCR15 controls pole, and the common port of the respective other end connects BCR17 negative electrode by resistance R17b, resistance R8a, R10a, R12a, R14a, R16a one end separately meets BCR8 respectively, BCR10, BCR12, BCR14, BCR16 controls pole, the public termination BCR17a anode of the respective other end, the common port of resistance R17a1 one end, BCR17 anode, R17a one end, the public termination BCR17a negative electrode of C2c one end, the common port of another termination W2a one end of R17a1 and sliding end, another termination BC17a of W2a controls pole, R78b, R910b, R1112b, R1314b, R1516b, C2a, C2b, C2c, the public termination power ground of the other end, another termination W2 one end of R17a and sliding end common port, BCR17 controls the input that pole meets time switch K1b, the stiff end of the output termination shift switch K2b of K1b, the sliding end of shift switch K2b connects the colelctor electrode of phototriode in the input of fixed temperature K switch t1b-Kt4b and PC817a2 respectively, the common port of the emitter stage of phototriode in PC817b2, the emitter stage of phototriode in the common port of Kt1b-Kt4b output and PC817a2, the public termination W2 other end of the colelctor electrode of phototriode in PC817b2, two phototriodes all can seal in a same polarity direction diode again, R7a-R16a or seal in anti-parallel diodes, or seal in bilateral diode, R78b, R910b, R1314b, R1516b or replace with electric capacity,

Reducing two-way thyristor regulating volt circuit YCJYSXKKGTYDL is encapsulated in TYTWDSH in module coldplate MKLQB1 successively, by latch on TYTWDSH panel, binding post connects thermoregulation circuit TWDL with MKLQB1 outside, and TWDL is by transformer B1, 1A rectifier bridge, the objective C1+ of polarity electricity, C2+, diode D1, D2, voltage-stabiliser tube ZW, Voltage stabilizing module 7805, 7812, current-limiting resistance R1c, R2c, R3c, R4c, FET NMOS1, triode BG1, BG2, light emitting diode D3, photoelectrical coupler PC817a, P817Cb, potentiometer W3-W5, thermistor Rt is formed, and the former limit of B1 connects 220 power supplys, and pay limit 12V and connect 1A rectifier bridge module input, rectifier bridge module positive pole connects 7812 inputs, C1+ positive pole, D1 negative electrode common port, 7812 export termination C2+ positive pole, D1 anode, D2 negative electrode, 7805 inputs, R1c one end, NMOS1 drains, the common port of R3c one end, 7805 export termination D2 anode, digital display voltmeter positive pole, the common port of W5 one end and sliding end, another termination of W5 connects digital display temperature meter positive pole, the common port of R4c one end, R1c another termination W3 one end and sliding end, another termination NMOS1 of W3 controls pole, Rt one end, the common port of voltage-stabiliser tube ZW negative electrode, the common port of NMOS1 source electrode and voltage-stabiliser tube ZW anode connects potentiometer W4 one end by R2c, the W4 other end, Rt other end common end grounding, R3c other end sending and receiving optical diode D3 anode, D3 negative electrode connects the anode of light emitting diode in PC817a, in PC817a, the negative electrode of light emitting diode connects the anode of light emitting diode in PC817b, in PC817b, the negative electrode of light emitting diode connects BG2 emitter stage pole, BG2 base stage connects BG1 emitter stage, and BG1 base stage connects W4 sliding end, 7812 and 7805 earth terminals, C1+ and C2+ negative pole, rectifier bridge earth terminal, digital display voltmeter and thermometer negative pole, the R4c other end, the Rt other end, BG1 colelctor electrode, the public termination direct current ground of BG2 colelctor electrode,

Pressure-regulating temp-regulating timing circuit TYTWDSDL is contained on the wiring board in pressure regulation constant temp. box TYTWDSH, is connected with external circuit by latch, binding post on panel, TYTWDSH is drawn by aluminium alloy and forms, outside is level and smooth up and down, there is radiator shutter both sides, inner section is rectangle, level and smooth up and down, both sides have multistagely to slide cloudy guide rail for slide positive guide rail and wiring board of module coldplate MKLQB, both sides, MKLQB cross section have can in the cloudy guide rail of TYTWDSH inner both sides sun slide on rails and ventilation passageway, center of inside is a rectangular channel, both sides all draw close a segment distance toward center line up and down, communicate with centre gangway, the rectangular channel that shape is identical, controllable silicon or IGBT regulating circuit are just encapsulated in these three passages, pressure-regulating temp-regulating timing circuit is then welded on the wiring board that is inserted on the inner cloudy guide rail of TYTWDSH, on the front and back panel of TYTWDSH, on the cooled blade of both sides, bottom is all equipped with installing hole and can installs instrument, fan, potentiometer, latch, binding post, shift switch, indicator lamp etc., TYTWDSH can independently use, step-down thyristor regulating volt circuit YCJYSXKKGTYDL can replace with IGBT AC voltage adjusting circuit in patent 2011101897839 successively, and in step-down thyristor regulating volt circuit YCJYSXKKGTYDL, H1, H2 two control circuit and H1, H2 in IGBT AC voltage adjusting circuit two control circuits of accessing of interface of interface access are identical successively,

H3, H4 successively in step-down thyristor regulating volt circuit YCJYSXKKGTYDL1--YCJYSXKKGTYDL4 two tie point with in TWDL H3, H4 two tie points corresponding.