CN209694870U - A kind of energy storage type is interior to recycle digester - Google Patents

Abstract

Circulation digester is related to a kind of cooking utensil in a kind of energy storage type of the utility model, purpose is the common digesting apparatus in order to overcome, the problem of steam can all be discharged when use, it includes boiling vessel and condenser, the condenser includes condenser shell and Duo Gen heat pipe, and the condensation chamber on top and the evaporation cavity of lower part are divided into condenser shell；More heat pipes are vertically fixed in condenser shell, and the condensation segment of heat pipe is respectively positioned in condensation chamber, evaporator section is respectively positioned in evaporation cavity；Boiling vessel includes boiling vessel shell, and condenser seal buckle is connected to together in the evaporation cavity of opening and condenser above boiling vessel shell with boiling vessel enclosure interior；The inner wall of evaporation cavity is fixed with multiple vapour-liquid deflectors, and multiple laterally staggered settings of vapour-liquid deflector form Z-shaped vapour-liquid runner.The utility model proposes a kind of not steam discharges, the new-type digester of energy heat accumulation, carry out energy storage using condensation heat.

Description

A kind of energy storage type is interior to recycle digester

Technical field

The utility model relates to a kind of cooking utensils, and in particular to a kind of digester of steam circulation.

Background technique

Steam can be all discharged in common cooking pot and industrial digesting apparatus, when use, and steam can take a large amount of heat out of, It thus will cause the loss of heat, be lost cooking material ingredient and giving forth fragrance, therefore generally existing energy consumption height, component damages, dirt The problems such as contaminating environment.

Utility model content

The purpose of this utility model is to overcome common digesting apparatus, the problem of steam can be all discharged in when use, mention Supply a kind of energy storage type is interior to recycle digester.

Digester, including boiling vessel are recycled in a kind of energy storage type of the utility model, which is characterized in that further include condensing Device, the condenser include condenser shell and Duo Gen heat pipe, and the condensation chamber on top and the steaming of lower part are divided into condenser shell It sends out chamber and condensation chamber and evaporation cavity is mutually isolated；More heat pipes are vertically fixed in condenser shell, the equal position of the condensation segment of heat pipe In condensation chamber, evaporator section is respectively positioned in evaporation cavity；

Condenser seal buckle is together in the opening above boiling vessel, and the inner cavity of the evaporation cavity of condenser and boiling vessel connects It is logical；

The inner wall of evaporation cavity is fixed with multiple vapour-liquid deflectors, and multiple laterally staggered settings of vapour-liquid deflector form Z-shaped Vapour-liquid runner；Steam flowed up along vapour-liquid runner and pass through heat pipe evaporator section take away heat formed condensate liquid, condensate liquid edge Vapour-liquid runner backs downward into boiling vessel and forms circulation.

The beneficial effects of the utility model are: propose a kind of not steam discharge, can heat accumulation new-type digester, circulation in steam, It is not vented, do not deaden when use, energy storage is carried out using condensation heat, to have energy-saving and environmental protection and hidden effect.It can be substantially Efficiency is improved, improves usage experience, promote cooking material quality and productivity, odorlessness pollution, the complete machine thermal efficiency is more than 90%, together Than energy conservation 40~80%, it is suitable for purposes, particularly suitable high-grade food materials, the medicinal materials such as diet, food medicine industry, military field logistics and adds Work.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of circulation digester in a kind of energy storage type of the utility model；

Fig. 2 is that recycle digester in a kind of energy storage type of the utility model does not include the schematic cross-sectional view of heat pipe；

Fig. 3 is the schematic cross-sectional view of circulation digester in a kind of energy storage type of the utility model；

Fig. 4 is the electrical structure schematic diagram of circulation digester in a kind of energy storage type of the utility model.

Specific embodiment

Specific embodiment one

Circulation digester cardinal principle is followed in the steam carried out by condenser in a kind of energy storage type of the utility model Ring is condensed back the steam that boiling vessel 1 generates in evaporation cavity 5, meanwhile, waste heat energy storage is absorbed by condensation chamber.

As shown in Figure 1, Figure 2 and Figure 3 comprising boiling vessel 1 and condenser.

Condenser is the component for eliminating steam and storage absorption thermal energy, and effect is to carry out circulation in steam, absorption condensation heat And store reuse.Condenser includes condenser shell 3 and Duo Gen heat pipe 4, be divided into condenser shell 3 top condensation chamber and The evaporation cavity 5 and condensation chamber and evaporation cavity 5 of lower part are mutually isolated, are only conducted heat by heat pipe 4.

The heat pipe 4 is uniformly distributed on the section of condenser shell 3, and is vertically fixed in condenser shell 3, and heat pipe 4 condensation segment is respectively positioned in condensation chamber, evaporator section is respectively positioned in evaporation cavity 5.The inner vacuum of heat pipe 4, is filled with phase-change material, The both ends of adjacent heat pipe 4 connect into closed loop with U-bend two-by-two.

Inside heat pipe is to be pumped into negative pressure state, is filled with phase-change material, and the low boiling point of phase-change material is readily volatilized.Tube wall There is liquid-sucking core, is made of capillary-porous material.Heat pipe one end be evaporation ends, other end is condensation end, when heat pipe one end by When hot, phase-change material rapid vaporization in capillary, the steam after vaporization flows to other end under the power of thermal diffusion, and Cold end condensation releases heat, and condensed liquid flows back to evaporation ends by capillarity along porous material again, and so circulation is more than, Until heat pipe both ends, temperature is equal (stopping of steam thermal diffusion at this time).This circulation quickly carries out, and heat can be by a steady stream It constantly conducts and.

The inner wall of evaporation cavity 5 is fixed with multiple vapour-liquid deflectors 14, and multiple laterally staggered settings of vapour-liquid deflector 14 form Z The vapour-liquid runner of shape；The steam that boiling vessel 1 generates, which flows up along vapour-liquid runner and passes through the evaporator section of heat pipe 4, takes away heat shape At condensate liquid, condensate liquid along vapour-liquid runner flow downward back boiling vessel 1 formed circulation.

These gas-liquid deflectors 14 may be arranged to three layers of upper, middle and lower, is fixed in 5 inner wall of evaporation cavity and forms zigzag vapour-liquid stream Road, wherein 14 middle part of undermost gas-liquid deflector is recessed, edge is upwarped in dish, and forward and reverse can be changed the outfit, intermediate gas Liquid deflector 14 is half range size, and the center at edge is recessed, on the gas-liquid deflector 14 that lower section is fallen within convenient for condensing droplet.

The effect of evaporation cavity 5 is to absorb steam latent heat, water conservancy diversion condensate liquid, keep stable gas pressure in pot.The inside of evaporation cavity 5, The region that heat pipe 4 is located at the outer wall of the evaporator section in evaporation cavity 5, the surface of gas-liquid deflector 14 surrounds jointly constitutes evaporating area.

Boiling vessel 1 includes boiling vessel shell 16, and the lower part two sides of condenser shell 3 are installed multiple strand locks, are used for condensing Device seal buckle is fixed together in the opening of 16 top of boiling vessel shell by locking devices such as strand cables.And the evaporation cavity 5 of condenser It is connected to the inside of boiling vessel shell 16, forms interior circulation cooking zone.

Condenser and the sealing of boiling vessel 1 fasten.

Specific embodiment two

Present embodiment two and the difference of specific embodiment one are that as shown in Figures 2 and 3, condensation chamber is sky Gas condensation chamber 6, the top in the air setting chamber 6 is equipped with exhaust fan 7, side wall is equipped with air grid 8.

Air setting chamber 6 individually with the affixed composition condenser of evaporation cavity 5, forms air cooler.Air setting chamber 6 is located at condensing The upper section of device, for by forced-convection heat transfer, the afterheat of condensation heat derived from 4 spontaneous evaporation chamber 5 of heat pipe to be emptied.

The center of top of air setting chamber 6 can be provided with air outlet 31, and exhaust fan 7 is mounted at air outlet 31.Condenser shell The position that the outer wall of body 3 corresponds to air setting chamber 6 is surrounded with air grid 8, and air grid 8 is used as air inlet, and exhaust fan 7 is evacuated, Heat is discharged from air outlet 31.

Specific embodiment three

Present embodiment three and the difference of specific embodiment one be, as shown in Figure 1, Figure 2 and Figure 3, condensation chamber For water condensation chamber 9, which is sealing space, inside equipped with water guide pipeline 12, and the side wall of water condensation chamber 9 is equipped with heat exchange Water inlet 10 and heat exchange water out 11,12 one end of water guide pipeline be located at bottom in water condensation chamber 9, the other end pass through threeway respectively with Heat exchange water inlet 10 is connected to heat exchange water out 11.

The effect of water condensation chamber 9 is recovering condensing heat, participates in circulation in steam.Water condensation chamber 9 is individually constituted with evaporation cavity 5 Condenser forms water cooling unit, internal uniformly densely covered heat pipe 4.The outer wall of heat pipe 4 and the inner wall of condenser shell 3 constitute energy storage area, One end of water guide pipeline 12 is connect with heat exchange water inlet 10 and the water out 11 that exchanges heat respectively, the other end visit in water condensation chamber 9 most Lower.

Water in water condensation chamber 9 carries out heat with the external world by heat exchange and exchanges to recycle thermal energy for storing thermal energy.

Water guide pipeline 12 can be a root canal road, and alternately heat-exchanging water flows in and out, or two root canal roads, It is connect respectively with heat exchange water inlet 10 and heat exchange water out 11, it is synchronous to carry out flowing in and out for heat-exchanging water.

Specific embodiment four

Present embodiment four and the difference of specific embodiment one are that as shown in Figures 2 and 3, condensation chamber includes Air setting chamber 6 and water condensation chamber 9, and air setting chamber 6 is located at the top of water condensation chamber 9, condensation chamber in this specific embodiment It is to be bonded by air setting chamber 6 and water condensation chamber 9.

6 inner top of air setting chamber is equipped with exhaust fan 7, side wall is equipped with air grid 8；

Condensation chamber is water condensation chamber 9, which is sealing space, inside equipped with water guide pipeline 12, water condensation chamber 9 Side wall be equipped with heat exchange water inlet 10 and heat exchange water out 11,12 one end of water guide pipeline is located at bottom, the other end in water condensation chamber 9 It is connected to respectively with heat exchange water inlet 10 and heat exchange water out 11 by threeway.

The effect of water condensation chamber 9 is recovering condensing heat, participates in circulation in steam.Water condensation chamber 9 is individually constituted with evaporation cavity 5 Condenser forms water cooling unit, internal uniformly densely covered heat pipe 4.The outer wall of heat pipe 4 and the inner wall of condenser shell 3 constitute energy storage area, One end of water guide pipeline 12 is connect with heat exchange water inlet 10 and the water out 11 that exchanges heat respectively, the other end visit in water condensation chamber 9 most Lower.

Water in water condensation chamber 9 carries out heat with the external world by heat exchange and exchanges to recycle thermal energy for storing thermal energy.

Water guide pipeline 12 can be a root canal road, and alternately heat-exchanging water flows in and out, or two root canal roads, It is connect respectively with heat exchange water inlet 10 and heat exchange water out 11, it is synchronous to carry out flowing in and out for heat-exchanging water.

In present embodiment, heat pipe 4 is connected after 29 3 pieces of upper perforated plate 27, partition 28, lower perforated plate tube sheets, whole to be inserted into In condenser shell 3 and fixed with condenser shell 3, formation 3 is relatively independent, and the functive being integrally connected is respectively as follows: sky Gas condensation chamber 6, water condensation chamber 9 and evaporation cavity 5.

Wherein, air setting chamber 6 is located at the upper section of condenser, by heat pipe series connection and 28 structure of affixed upper perforated plate 27 and partition At it includes a part of 4 condensation segment of heat pipe, exhaust fan 7, air grid 8 and air outlets.The center of top of air setting chamber 6 can be opened There is air outlet, exhaust fan 7 is mounted at air outlet.The outer wall of condenser shell 3 corresponds to the position ring winding of air setting chamber 6 It is equipped with air grid 8.

The effect of air setting chamber 6 is that the tube bank spontaneous evaporation chamber 5 that more heat pipes 4 are constituted is led by forced-convection heat transfer The afterheat emptying of the condensation heat after the water cooled solidifying heat absorption of chamber 9 out.

Water condensation chamber 9 is located at below air setting chamber 6, belongs to the middle section of condenser, by heat pipe series connection partition 28 under Tube sheet 29 and with the affixed composition of condenser shell 3,

The effect of water condensation chamber 9 is recovering condensing heat, participates in circulation in steam.

Evaporation cavity 5 is located at below water condensation chamber 9, belongs to the lower section of condensation chamber, is consolidated by lower perforated plate 29 and condenser shell 3 Composition is connect, inside includes the endotherm section and water conservancy diversion module of heat pipe 4.

Heat pipe 4 is uniformly clouded in condenser to be arranged at " bucket " shape platoon, and the condensation segment of heat pipe 4 is located at air setting In chamber 6 and water condensation chamber 9, and the end system of the evaporator section of heat pipe 4 is at L-shaped.

Specific embodiment five

Present embodiment five and the difference of specific embodiment two or four are, as shown in figure 3, air setting chamber 6 In the outer wall of heat pipe 4 be fixed with radiating fin 13.

Radiating fin 13 is augmentation of heat transfer component, and expanded joint is on the outer wall of heat pipe 4.

Specific embodiment six

Present embodiment six and the difference of specific embodiment three or four are, as shown in figure 3, in water condensation chamber 9 Heat pipe 4 be coil pipe.For extending phase-change material stroke, keep heat dissipation more abundant.

Specific embodiment seven

Present embodiment seven and the difference of one to four one of them of specific embodiment are, such as Fig. 2 and Fig. 3 institute Show, drain pipe 15 is equipped in evaporation cavity 5, and drain pipe 15 is set to bottom along the radial arrangement and drain tube inlet of evaporation cavity 5 It on vapour-liquid deflector 14, is connected to vapour-liquid runner, drain pipe outlet is located at outside evaporation cavity 5.

Drain pipe 15 passes through 3 radial direction of condenser shell and is fixed in 3 outer wall lower part of condenser shell and the gas-liquid with bottom 14 grafting of deflector, the condensate liquid that gas-liquid deflector 14 is accepted are discharged to the outside by drain pipe 15, for when distilling production Output products (distilled water etc.).

Specific embodiment eight

Present embodiment eight and the difference of specific embodiment one be, as shown in Figures 2 and 3,

Boiling vessel 1 includes boiling vessel shell 16, steaming tray 17, saucepan 18, heater 19；

Steaming tray 17 is set in the inner cavity of boiling vessel shell 16 and fixes with boiling vessel shell 16, and saucepan 18 is set in steaming tray 17 Outer wall and boiling vessel shell 16 inner wall between, heater 19 is located at the lower section of saucepan 18.

Boiling vessel 1 is integrally located under condenser, is connected by twisting lock with condenser, internal run-through, counterpart connection.

Boiling vessel 1 includes boiling vessel shell 16, steaming tray 17, saucepan 18 and heater 19.The outer diameter of steaming tray 17 is less than saucepan 18, bottom surface is permeable expanded metals.Steaming tray 17 is the utensil for steaming thing, and saucepan 18 is the utensil of heated Stewed Dish, they form boiling External member can both stack use, can also be used separately, and the upper edge of steaming tray 17 and 16 inner wall of boiling vessel shell overlaps, overlap joint Place's setting labyrinth ring 30.

5 internal run-through of inner cavity and evaporation cavity of boiling vessel 1, and collectively constitute interior circulation cooking zone.It is arranged under saucepan 18 Having heaters 19, the heater 19 can select electromagnetic heater, electromagnetic heater electrical power source, by modulator 33 into Row switch and adjusting.

Specific embodiment nine

Present embodiment nine and the difference of specific embodiment eight be, as shown in Figure 1, Figure 2 and Figure 3,

The outer wall of circulation digester is equipped with modulator 33 in energy storage type, and the lower section of heater 19 is equipped with saucepan elevating mechanism；

Saucepan elevating mechanism includes axis motor 23, bracket 24, two toothed racks 25 and two driving gears 26；

Two toothed racks 25 are vertically fixed on the inner wall of boiling vessel shell 16 and are symmetry axis in axis using the axis of boiling vessel 1 It is symmetrical arranged；Axis motor 23 is laterally set at the axis of boiling vessel 1, and the power output shaft at 23 both ends of axis motor is respectively connected with One driving gear, 26, two driving gears 26 are meshed with ipsilateral rack gear 25 respectively；Each driving gear 26 passes through card The devices such as hoop enable it engage always with the holding of rack gear 25, prevent driving gear 26 from falling off.Above-mentioned axis motor 23 can be selected 23HD54001Y-T210 axis stepper motor.

Bracket 24 is fixed on the upper surface of axis motor 23, and heater 19 is fixed on the top of bracket 24, saucepan 18 in On heater 19, axis motor 23 be able to drive bracket 24 up and down motion, enable saucepan 18 that bracket 24 is followed to move together；

The bracket lifting signal input part electrical connection of the bracket lifting signal output end and axis motor 23 of modulator 33.

Above-mentioned modulator 33 can select PMS150 single-chip microcontroller and corresponding matched switch etc..

The present apparatus can implement separation boiling, low temperature boiling by saucepan elevating mechanism, improve productivity and product quality. Make steaming tray 17 and saucepan 18 that can both stack use, can also act and be used separately with lifter.

Thermal insulating disc is equipped between heater 19 and saucepan elevating mechanism, for heat to be isolated.

Saucepan elevating mechanism is located under saucepan 18, controls the height and position of saucepan 18.When upper act, steaming tray 17 and saucepan 18 Overlapping is approached to apply, steaming tray 17 and cooking material and saucepan 18 separate when decline, make 18 liquid level of saucepan reduce and with cooking material point From realization boiling alternating first boils and steams technique afterwards.

Supersonic generator 32 is also provided under saucepan 18, supersonic generator 32 is to generate ultrasonic wave by electromagnetic force Power device, its effect be by into steaming tray 17 and saucepan 18 apply intensified by ultrasonic wave cooking material diffusion, separation, promote Ingredient efficiently dissolves out, to improve productivity.Above-mentioned supersonic generator 32 can select YP-3040-4BZ ultrasonic wave transducer Device.

The present apparatus can implement separation boiling by the steaming tray 17 and saucepan 18 of the separate type in boiling vessel 1, improve productivity And product quality.

The present apparatus is also provided with condenser lifter 1, and condenser lifter 1, which is located in entire energy storage type, recycles digester Outside separate condenser with boiling vessel 1 for adjusting the height of condenser.

Specific embodiment ten

Present embodiment ten and the difference of specific embodiment nine are, further include vacuum as shown in Figures 2 and 3 Pump 20, pressure sensor 21 and safety valve 22；

The sealing sky that vacuum pump 20 and pressure sensor 21 are located at the inner cavity of boiling vessel 1 and the evaporation cavity 5 of condenser is constituted In；Above-mentioned vacuum pump 20 can select VQY6538 Miniature diaphragm pump.

Pressure sensor 21 is fixed on 5 inner wall of evaporation cavity, and the outer wall of circulation digester is provided with safety valve 22 in energy storage type, Vacuum pump 20 can be set under saucepan elevating mechanism, is fixed in boiling vessel shell 16 in the connecting bracket of bottom, passes through From (in the sealing space that the boiling vessel 1 and condenser are constituted) pumping of interior circulation cooking zone, vacuum, effect are to open in prefabricated pot Negative pressure in machine initial stage prefabricated pot makes occur low boiling point boiling in pot, realizes low temperature boiling, to avoid active principle high temperature point Solution improves productivity.Above-mentioned pressure sensor 21 can select MIK-MP1000 high temperature resistant pressure transmitter.

Safety valve 22 is set to the outside of energy storage type circulation digester, for balancing pressure；The safety valve 22 is electronic security(ELSEC) Valve, safety valve 22 and pressure sensor 21 are electrically connected modulator 33 respectively, and the control of safety valve 22 is carried out according to pressure feedback It adjusts.Above-mentioned safety valve can select BV2011-32C electrical ball valve.

The pressure regulation signal output end of modulator 33 and the pressure regulation signal input part electrical connection of vacuum pump 20, pressure signal are defeated Enter the signal output end electrical connection at end and pressure sensor 21, the pressure of pressure balance signal output end and safety valve 22 The electrical connection of balanced signal input terminal.

The outer wall of circulation digester can also add a mechanical safety valve in energy storage type, be used for manual hand manipulation.

The present apparatus can have following purposes:

Purposes one: vacuum pump 20 starts negative pressure in manufacture pot first after booting, occurs low boiling point boiling in pot therewith and supports Low temperature boiling is conducive to high-end food medicine and efficiently extracts；

Purposes two: saucepan elevating mechanism drives saucepan 18 to move up and down, and the separation digesting technoloy steamed afterwards is first boiled in implementation, fits For the rice boiled, strained and then steamed custom in early rice producing region, mouthfeel can be effectively promoted.

Claims (10)

1. recycling digester, including boiling vessel (1) in a kind of energy storage type, which is characterized in that it further include condenser, the condenser packet Condenser shell (3) He Duogen heat pipe (4) is included, is divided into the condensation chamber on top and the evaporation cavity of lower part in condenser shell (3) (5) and condensation chamber and evaporation cavity (5) are mutually isolated；More heat pipes (4) are vertically fixed in condenser shell (3), heat pipe (4) Condensation segment be respectively positioned in condensation chamber, evaporator section is respectively positioned in evaporation cavity (5)；

Condenser seal buckle is together in the opening above boiling vessel (1), and the evaporation cavity (5) of condenser and boiling vessel (1) is interior Chamber connection；

The inner wall of evaporation cavity (5) is fixed with multiple vapour-liquid deflectors (14), multiple laterally staggered setting shapes of vapour-liquid deflector (14) Vapour-liquid runner at Z-shape；Steam flowed up along vapour-liquid runner and pass through heat pipe (4) evaporator section take away heat formed condensation Liquid, condensate liquid back downward into boiling vessel (1) along vapour-liquid runner and form circulation.

2. recycling digester in a kind of energy storage type according to claim 1, which is characterized in that condensation chamber is air setting chamber (6), the top in the air setting chamber (6) is equipped with exhaust fan (7), side wall is equipped with air grid (8).

3. recycling digester in a kind of energy storage type according to claim 1, which is characterized in that condensation chamber is water condensation chamber (9), which is sealing space, inside equipped with water guide pipeline (12), and the side wall of water condensation chamber (9) is equipped with heat-exchanging water Entrance (10) and heat exchange water out (11), water guide pipeline (12) one end is located at the interior bottom of water condensation chamber (9), the other end passes through threeway It is connected to respectively with heat exchange water inlet (10) and heat exchange water out (11).

4. recycling digester in a kind of energy storage type according to claim 1, which is characterized in that condensation chamber includes air setting Chamber (6) and water condensation chamber (9), and air setting chamber (6) is located at the top of water condensation chamber (9)；

Air setting chamber (6) inner top is equipped with exhaust fan (7), side wall is equipped with air grid (8)；

Water condensation chamber (9) is sealing space, inside equipped with water guide pipeline (12), and the side wall of water condensation chamber (9) enters equipped with heat-exchanging water Mouth (10) and heat exchange water out (11), water guide pipeline (12) one end is located at the interior bottom of water condensation chamber (9), the other end passes through three reduction of fractions to a common denominators It is not connected to heat exchange water inlet (10) and heat exchange water out (11).

5. recycling digester in a kind of energy storage type according to claim 2 or 4, which is characterized in that in air setting chamber (6) The outer wall of heat pipe (4) be fixed with radiating fin (13).

6. recycling digester in a kind of energy storage type according to claim 3 or 4, which is characterized in that in water condensation chamber (9) Heat pipe (4) is coil pipe.

7. recycling digester in a kind of energy storage type according to claim 1,2,3 or 4, which is characterized in that in evaporation cavity (5) Equipped with drain pipe (15), drain pipe (15) is connected to along the radial arrangement and drain tube inlet of evaporation cavity (5) with vapour-liquid runner, is arranged It is external that liquid pipe outlet is located at evaporation cavity (5).

8. recycling digester in a kind of energy storage type according to claim 1, which is characterized in that boiling vessel (1) includes boiling Device shell (16), steaming tray (17), saucepan (18), heater (19)；

Steaming tray (17) is set in the inner cavity of boiling vessel shell (16) and fixes with boiling vessel shell (16), and saucepan (18) is set in Between the outer wall of steaming tray (17) and the inner wall of boiling vessel shell (16), heater (19) is located at the lower section of saucepan (18).

9. recycling digester in a kind of energy storage type according to claim 8, which is characterized in that recycle digester in energy storage type Outer wall be equipped with modulator (33), the lower section of heater (19) is equipped with saucepan elevating mechanism；

Saucepan elevating mechanism includes axis motor (23), bracket (24), two toothed racks (25) and two driving gears (26)；

Two toothed racks (25) are vertically fixed on the inner wall of boiling vessel shell (16) and are in as symmetry axis using the axis of boiling vessel (1) Axial symmetry setting；Axis motor (23) is laterally set at the axis of boiling vessel (1), the power output shaft at axis motor (23) both ends Respectively it is connected with a driving gear (26), two driving gears (26) are meshed with ipsilateral rack gear (25) respectively；

Bracket (24) is fixed on the upper surface of axis motor (23), and heater (19) is fixed on the top of bracket (24), saucepan (18) seat on heater (19), axis motor (23) be able to drive bracket (24) and move up and down so that saucepan (18) can be with It is moved together with bracket (24)；

The bracket lifting signal output end of modulator (33) and the bracket lifting signal input part electrical connection of axis motor (23).

10. recycling digester in a kind of energy storage type according to claim 9, which is characterized in that further include vacuum pump (20), Pressure sensor (21) and safety valve (22)；

Vacuum pump (20) and pressure sensor (21) be located at boiling vessel (1) inner cavity and condenser evaporation cavity (5) constitute it is close It seals in space；Safety valve (22) is set to the outside of energy storage type circulation digester, for balancing pressure；

The pressure regulation signal output end of modulator (33) and the pressure regulation signal input part electrical connection of vacuum pump (20), pressure signal are defeated Enter the signal output end electrical connections of end and pressure sensor (21), pressure balance signal output end and safety valve (22) The electrical connection of pressure balance signal input part.