CN113108467B - Constant temperature heating device of integrated kitchen sterilizer - Google Patents

Abstract

The utility model relates to a constant temperature heating device of integrated kitchen sterilizer, which comprises a bod, be provided with the furnace end on the organism, the level slides in the organism and is provided with the sterilizer, be provided with air heating mechanism on the organism, air heating mechanism includes the breather pipe, the air pump, flow control subassembly and discharge valve, the breather pipe is installed on the organism, the inlet end of breather pipe is close to the furnace end, the other end and the sterilizer intercommunication of breather pipe, the air pump is installed on the organism and is linked together with the breather pipe, flow control subassembly is installed on the organism and is connected with the breather pipe, flow control subassembly is used for adjusting the gaseous flow in the breather pipe, discharge valve installs on the lateral wall of organism and links together with the sterilizer. This application has the tableware of drying to in the sterilizer, makes the burning that the gas can be more abundant simultaneously to heat in can make full use of carbon dioxide and the steam has reduced the required energy of stoving tableware, thereby reduces the extravagant effect of energy, and makes the temperature in the sterilizer remain stable.

Description

Constant temperature heating device of integrated kitchen sterilizer

Technical Field

The utility model belongs to the technical field of the technique of integrated kitchen and specifically relates to a constant temperature heating device of integrated kitchen sterilizer is related to.

Background

An integrated stove, also called an environment-friendly stove or an integrated environment-friendly stove, is a kitchen appliance comprising a gas stove, a range hood and a disinfection cabinet.

In the correlation technique, integrated kitchen includes the organism, and the organism is gone up the level and is slided and be provided with the drawer, and fixed being provided with on the inner wall of organism is used for the ultraviolet tube that disinfects and the heating pipe that is used for drying the tableware, and with the tableware of washing clean back in placing the drawer, ultraviolet tube produces the ultraviolet ray and carries out germicidal treatment to the tableware, and the heating pipe heats the air in the drawer to make the moisture on the tableware dried.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the heating pipe heats the air in the drawer, the air near the heating pipe is firstly heated and heated, the heated air transfers heat through the air, so that the temperature of the air in the drawer is gradually increased and tableware is dried, but when the heating pipe continuously heats the air in the drawer, more energy may be consumed, and thus energy waste is caused.

Disclosure of Invention

In order to reduce the required energy of stoving tableware, reduce the waste of energy, this application provides a constant temperature heating device of integrated kitchen sterilizer.

The application provides a pair of constant temperature heating device of integrated kitchen sterilizer adopts following technical scheme:

the utility model provides a constant temperature heating device of integrated kitchen sterilizer, includes the organism, be provided with the furnace end on the organism, the level slides in the organism and is provided with the sterilizer, be provided with air heating mechanism on the organism, air heating mechanism includes breather pipe, air pump, flow control subassembly and discharge valve, the breather pipe is installed on the organism, the inlet end of breather pipe is close to the furnace end, the other end and the sterilizer intercommunication of breather pipe, the air pump is installed on the organism and is linked together with the breather pipe, flow control subassembly is installed on the organism and is connected with the breather pipe, flow control subassembly is used for adjusting the gaseous flow in the breather pipe, discharge valve install on the lateral wall of organism and with the sterilizer intercommunication.

By adopting the technical scheme, when the furnace end is used, the air pump is started, the vent pipe blows air into the disinfection cabinet under the action of the air pump, carbon dioxide and water vapor generated after combustion near the furnace end are sucked into the vent pipe and enter the disinfection cabinet, the carbon dioxide and the water vapor heat the air in the disinfection cabinet, so that the temperature in the disinfection cabinet gradually rises, tableware in the disinfection cabinet can be dried, when the air pressure in the disinfection cabinet rises, the air in the disinfection cabinet pushes away the exhaust valve and enables the air to be exhausted, and meanwhile, the flow regulating assembly can reduce the possibility that high-temperature air continues to enter the disinfection cabinet; when the breather pipe breathes in, air on every side is close to the furnace end, and gas and air on the furnace end can the intensive mixing, make the burning that the gas can be more abundant, contain a large amount of heats in the carbon dioxide that produces after the burning and the steam, let in the sterilizer with carbon dioxide and steam in to heat in can make full use of carbon dioxide and the steam has reduced the required energy of stoving tableware, thereby has reduced the waste of energy.

Optionally, the flow control subassembly includes sliding block, slip cap and driving piece, the slip cap install on the organism and with the inside intercommunication of breather pipe, the sliding block horizontal slip is installed in the slip cap, the driving piece is installed in the frame and is driven the sliding block and slide, the sliding block seals the breather pipe under the effect of driving piece.

Through adopting above-mentioned technical scheme, behind the temperature rising in the sterilizer, driving piece drive sliding block removes in the slip cover, and the sliding block cunning is in the breather pipe and is sealed with the breather pipe, makes in the breather pipe no longer inhales the sterilizer with the steam that produces after the burning, keeps certain temperature in making the sterilizer, and the sliding block is sealed with the breather pipe, can reduce the heat loss in the sterilizer after the furnace end stops using simultaneously, makes the temperature in the sterilizer keep invariable.

Optionally, a heat storage pipe is arranged on the machine body, the side wall of the heat storage pipe is close to the furnace end, the heat storage pipe penetrates into the disinfection cabinet, and gas blown out from the vent pipe penetrates through the heat storage pipe.

By adopting the technical scheme, when the burner is used, part of heat is radiated to the surrounding air when fuel gas is combusted, the radiated heat can heat the heat storage pipe, the heat storage pipe stores the heat, the heat storage pipe penetrates into the disinfection cabinet, and the heat in the heat storage pipe is radiated into the disinfection cabinet, so that the air in the disinfection cabinet can be heated, the heat in the disinfection cabinet can be preserved, and the temperature in the disinfection cabinet can be kept constant; when hot gas in the vent pipe passes through the heat storage pipe, heat exchange can be carried out with the heat storage pipe, and the temperature of hot gas can carry out heat exchange to the heat storage pipe simultaneously, makes the heat store in the heat storage pipe, and when the temperature of heat storage pipe was higher than hot gas, the heat storage pipe can heat hot gas, makes the temperature of hot gas rise.

Optionally, discharge valve is including installation pipe, reset spring and gasket, the installation pipe is installed on the lateral wall of organism, the both ends of installation pipe respectively with the wind channel intercommunication of sterilizer and lampblack absorber, reset spring installs on the lateral wall of organism and is located the installation intraductal, the gasket slides and installs on the lateral wall in installation pipe orientation wind channel and be connected with reset spring, the gasket under reset spring's effect with seal installation pipe.

Through adopting above-mentioned technical scheme, it can make the atmospheric pressure in the sterilizer rise to ventilate in the sterilizer, when atmospheric pressure in the sterilizer risees, gaseous promotion gasket removes, reset spring's elasticity is overcome to the gasket and the installation pipe is left, make the inside of sterilizer and the wind channel intercommunication of lampblack absorber, make the gaseous exhaust sterilizer in the sterilizer, simultaneously can be with the gaseous discharge that does not heat up in the sterilizer, it is faster to make the temperature rise in the sterilizer, atmospheric pressure in the sterilizer reduces the back, the gasket seals the installation pipe under reset spring's elastic action, thereby the probability in the oil smoke entering sterilizer in the wind channel has been reduced.

Optionally, be provided with filtering component on the inner wall of organism, filtering component includes filter screen and joint spare, the filter screen is installed on the inner wall of organism and towards the sterilizer, the filter screen covers the breather pipe completely, the joint spare is installed on the organism and with the filter screen joint in the organism.

Through adopting above-mentioned technical scheme, when the breather pipe leads to steam in to the sterilizer, in impurity on the organism and the dust that produces after the gas burning probably got into the breather pipe, impurity and dust can filter steam, make impurity and dust in the steam filter by the filter screen to impurity and dust in the sterilizer have been reduced.

Optionally, the joint spare includes spacing ring, two elastic rods and two block tongues, the spacing ring is installed on organism towards the inner wall of sterilizer, spacing ring and breather pipe intercommunication, two the elastic rod is vertical respectively and is installed and be parallel to each other on two lateral walls that the spacing ring is relative, two the block tongues are installed respectively on two lateral walls that the elastic rod is relative, all seted up on two lateral walls that the filter screen is relative with block tongue joint complex draw-in groove, the separating tank has been seted up on the lateral wall of draw-in groove.

Through adopting above-mentioned technical scheme, filter screen detachable installs on the organism, and long-term the back of using, accumulational impurity and dust can reduce the filter effect of filter screen on the filter screen, and through rotating the filter screen, two block tongues rotate respectively the roll-off and in two separation tanks, make two block tongues keep away from each other, and the block tongue promotes the elastic rod deformation, makes the block tongue roll-off in the draw-in groove to can follow the spacing ring with the filter screen and pull down.

Optionally, a support frame connected with the side wall of the heat storage pipe is arranged on the upper end face of the machine body.

Through adopting above-mentioned technical scheme, place the pot on the support frame, during the gas combustion on the furnace end, on the heat storage pipe can be transferred to the heat on the support frame, reduce the calorific loss after the gas combustion to can further improve thermal utilization ratio, reduce thermal waste.

Optionally, a temperature sensor is arranged in the machine body, and the driving piece and the air pump are electrically connected with the temperature sensor.

Through adopting above-mentioned technical scheme, temperature sensor detects the interior temperature rise of sterilizer to the uniform temperature after, sends the signal of telecommunication to driving piece and air pump, and air pump stop work, driving piece drive sliding block remove, makes the sliding block seal the breather pipe, makes in the breather pipe no longer lets in the sterilizer with the steam that produces to make the temperature in the sterilizer keep at appointed level.

Optionally, a first guide angle is formed on the side edge of the installation pipe, and a second guide angle matched with the first guide angle in a clamping mode is formed on the side edge, facing the installation pipe, of the sealing sheet.

Through adopting above-mentioned technical scheme, atmospheric pressure in the sterilizer reduces the back, and reset spring drives the gasket and removes and resets, and second direction angle and first direction angular contact on the gasket guide the gasket and remove, and first direction angle joint makes the clearance between installation pipe and the gasket reduce on the second direction angle to can improve the leakproofness between installation pipe and the gasket.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the setting of air heating mechanism, gas and air on the furnace end can the intensive mixing, make the burning that the gas can be more abundant, heat the air in the sterilizer through carbon dioxide and the steam that utilizes the gas burning to produce, make the temperature in the sterilizer rise gradually, heat in can make full use of carbon dioxide and the steam has reduced the required energy of stoving tableware to the waste of energy has been reduced.

2. Through the setting of heat storage pipe, the heat storage pipe can be stored the heat that scatters and disappears to can keep warm to the air in the sterilizer, can make steam in the breather pipe and heat storage pipe carry out heat exchange simultaneously.

3. Through the setting of filtering component, make impurity and dust in the steam filtered out by the filter screen, reduced impurity and the dust that gets into in the sterilizer.

4. Through the setting of joint spare, make filter screen detachable install on the organism, long-term the back of using can pull down the filter screen from the spacing ring.

5. The temperature in the disinfection cabinet can be kept at a specified level through the arrangement of the temperature sensor.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic partial perspective view of the air heating mechanism and sterilizer of the present application;

FIG. 3 is a partial perspective view of the air heating mechanism of the present application;

FIG. 4 is a partial perspective view of the flow regulating assembly of the present application;

FIG. 5 is a schematic view of a filter assembly of the present application in partial perspective with a vent tube partially cut away to show internal construction;

fig. 6 is a schematic partial exploded view of the vent valve of the present application.

Reference numerals: 100. a body; 101. an installation port; 110. a furnace end; 120. an accommodating box; 121. a filtration pore; 130. a disinfection cabinet; 140. a support plate; 200. an air heating mechanism; 210. a breather pipe; 211. a through hole; 220. an air pump; 300. a flow regulating assembly; 310. a slider; 320. a sliding sleeve; 330. a drive member; 331. a drive motor; 332. a screw rod; 400. an exhaust valve; 410. installing a pipe; 420. a return spring; 430. sealing the sheet; 423. a first guide angle; 424. a second guide angle; 500. a filter assembly; 510. a filter screen; 511. a chute; 512. a card slot; 513. a separation tank; 520. a clamping piece; 521. a limiting ring; 522. an elastic rod; 523. a latch; 610. a heat storage pipe; 620. a radiating pipe; 630. a support frame; 640. a temperature sensor.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

Referring to fig. 1 and 2, a constant temperature heating device of integrated kitchen sterilizer, organism 100 including integrated kitchen, the up end horizontal interval of organism 100 is provided with two furnace ends 110 with the fixed, organism 100 internal fixation is provided with the holding case 120 of rectangle, set up the installing port 101 with the inside intercommunication of holding case 120 on the lateral wall of organism 100, vertical interval and horizontal slip are provided with two sterilizer 130 of installing in holding case 120 in organism 100, the fixed backup pad 140 that is provided with the rectangle of organism 100 internal horizontal, backup pad 140 is located the top of holding case 120, the both ends of backup pad 140 all are provided with two air heating mechanism 200.

Referring to fig. 3, the air heating mechanism 200 includes a vent pipe 210, an air pump 220, a flow rate adjusting assembly 300 and an exhaust valve 400, the vent pipe 210 is vertically and fixedly installed on the support plate 140 and passes through the support plate 140, the upper end of the vent pipe 210 upwardly penetrates through the machine body 100 and is fixedly connected with the upper end surface of the machine body 100, and the upper end of the vent pipe 210 is close to the burner 110; the lower end of the snorkel 210 is in a horn shape, one end of the snorkel 210 in the horn shape is fixedly connected to the upper end face of the accommodating box 120, and the snorkel 210 is communicated with the inside of the accommodating box 120.

Referring to fig. 3 and 4, the air pump 220 is fixedly installed on the upper end surface of the accommodating box 120 and is communicated with the air pipe 210, and the air pump 220 blows the air flow in the air pipe 210 downward; the flow rate adjusting assembly 300 includes a sliding block 310, a sliding sleeve 320 and a driving member 330, a rectangular through hole 211 is formed on the side wall of the vent pipe 210, the sliding sleeve 320 is rectangular, one end of the sliding sleeve 320 is horizontally and fixedly connected to the side wall of the vent pipe 210 and is communicated with the through hole 211, and the sliding sleeve 320 is located above the supporting plate 140.

Referring to fig. 4, the driving member 330 includes a driving motor 331 and a screw rod 332, the driving motor 331 is horizontally and fixedly connected to the upper end surface of the supporting plate 140, the driving motor 331 is located at one end of the sliding sleeve 320 far away from the air pipe 210, the screw rod 332 is coaxially and fixedly connected to an output shaft of the driving motor 331, the screw rod 332 horizontally penetrates into the sliding sleeve 320 and is parallel to the length direction of the sliding sleeve 320, the sliding block 310 is rectangular and horizontally slidably installed in the sliding sleeve 320, the sliding block 310 is in threaded connection with the screw rod 332, so that the driving motor 331 can drive the sliding block 310 to close the air pipe 210, thereby adjusting the flow rate of the air in the air pipe 210.

Referring to fig. 3 and 5, the upper wall of the accommodating box 120 is provided with a filter assembly 500, the filter assembly 500 includes a filter screen 510 and a clamping member 520, the upper wall of the accommodating box 120 is provided with a filter hole 121, and the filter hole 121 is communicated with a horn-shaped end of the vent pipe 210.

Referring to fig. 3 and 5, the clamping member 520 includes a limiting ring 521, two elastic rods 522 and two clamping tongues 523, the limiting ring 521 is vertically and fixedly mounted on the upper wall of the accommodating box 120 and is coaxial with the filtering hole 121, the two elastic rods 522 are vertically and fixedly connected to the lower wall of the limiting ring 521 and are respectively located on two opposite sides of the limiting ring 521, and the two clamping tongues 523 are respectively and integrally mounted on two opposite side walls of the two elastic rods 522 and are located at the lower end of the elastic rods 522.

Referring to fig. 5, the outer wall of the filter screen 510 is in a circular tube shape, two outer side walls of the filter screen 510, which are opposite to each other, are both provided with rectangular sliding grooves 511, the length direction of the sliding grooves 511 is parallel to the length direction of the filter screen 510, two outer side walls of the filter screen 510, which are opposite to each other, are both provided with clamping grooves 512, the two clamping grooves 512 are respectively communicated with the two sliding grooves 511, the side wall of the same side of the two clamping grooves 512 is both provided with a separating groove 513, and the groove depth of one end of the separating groove 513, which is far away from the clamping grooves 512, is gradually reduced; the outer diameter of the filter screen 510 is the same as the inner diameter of the limiting ring 521, the filter screen 510 is coaxially installed in the limiting ring 521, the two locking tongues 523 are respectively clamped in the two clamping grooves 512, so that the filter screen 510 is fixed on the limiting ring 521, and the locking tongues 523 leave the clamping grooves 512 through the separating grooves 513.

Referring to fig. 3 and 6, exhaust valve 400 includes installation tube 410, reset spring 420 and sealing sheet 430, installation tube 410 horizontal fixed mounting is on the lateral wall that holding case 120 deviates from installing port 101, the one end of installation tube 410 and the inside intercommunication of holding case 120, the other end of installation tube 410 and the wind channel intercommunication of lampblack absorber, reset spring 420's one end fixed connection is on the lateral wall of holding case 120, and reset spring 420 is located installation tube 410, sealing sheet 430 fixed connection is at reset spring 420's the other end, first direction angle 423 has been seted up on the side that installation tube 410 deviates from holding case 120, sealing sheet 430 has seted up second direction angle 424 towards the side of installation tube 410, under reset spring 420's elasticity effect, first direction angle 423 cooperates with the coaxial joint of second direction angle 424, make sealing sheet 430 seal installation tube 410.

Referring to fig. 3 and 5, two heat storage pipes 610 are fixedly disposed at two ends in the machine body 100, the upper ends of the two heat storage pipes 610 are arc-shaped and close to the furnace end 110, the two heat storage pipes 610 respectively surround two opposite sides of the furnace end 110, and the lower ends of the two heat storage pipes 610 penetrate into one horn-shaped end of the vent pipe 210; the horizontal interval of the upper wall of the containing box 120 and the fixed four radiating pipes 620 that are horizontally provided, the four radiating pipes 620 at the same end are communicated with each other, the vertical projections of the four radiating pipes 620 cover the filter holes 121, the hot gas blown out by the vent pipe 210 passes through the radiating pipes 620, one ends of the two heat storage pipes 610 penetrating into the vent pipe 210 are fixedly connected to the two ends of the radiating pipes 620 respectively, the two heat storage pipes 610 are communicated with the radiating pipes 620, when the hot gas in the vent pipe 210 passes through the radiating pipes 620, the hot gas exchanges heat with the radiating pipes 620.

Referring to fig. 3, the two ends of the upper end surface of the machine body 100 are both provided with the annular support frames 630, the support frames 630 are coaxially and fixedly installed at the arc-shaped upper end of the heat storage pipe 610, the support frames 630 surround the furnace end 110 and are used for supporting a pot, and the support frames 630 can transfer the heat dissipated after the combustion of the fuel gas to the heat storage pipe 610, so that the utilization rate of the heat is further improved, and the waste of the heat is reduced.

Referring to fig. 3, a temperature sensor 640 is fixedly disposed on an inner sidewall of the accommodating box 120, the temperature sensor 640 is TMP103BYFFR, the temperature sensor 640 is used for detecting a temperature inside the accommodating box 120, the driving motor 331 and the air pump 220 are both electrically connected to the temperature sensor 640, after the temperatures inside the disinfection cabinet 130 and the accommodating box 120 rise to a certain temperature, the temperature sensor 640 sends an electrical signal to the air pump 220 to stop the air pump 220, and the temperature sensor 640 sends an electrical signal to the driving motor 331 to drive the sliding block 310 to horizontally move, so that the sliding block 310 slides into the ventilation pipe 210 and closes the ventilation pipe 210.

The working principle of the constant-temperature heating device of the integrated kitchen disinfection cabinet is as follows:

when the burner 110 is used, the air pump 220 is started and blows the air flow in the vent pipe 210 downwards, so that negative pressure suction is generated at the upper end of the vent pipe 210, hot gas formed by carbon dioxide and water vapor generated after combustion of the fuel gas is sucked into the vent pipe 210, the hot gas near the burner 110 passes through the radiating pipe 620 and the filter screen 510 and enters the accommodating box 120 and then enters the disinfection cabinet 130 under the action of the air pump 220, the air in the disinfection cabinet 130 is heated by the heat in the hot gas, the temperature in the disinfection cabinet 130 is gradually increased, and accordingly tableware in the disinfection cabinet 130 can be dried.

When hot air enters the disinfection cabinet 130, the air pressure in the disinfection cabinet 130 gradually rises, the air in the disinfection cabinet 130 pushes the sealing sheet 430 to move, the sealing sheet 430 overcomes the elasticity of the return spring 420 and is separated from the mounting pipe 410, so that the interior of the disinfection cabinet 130 is communicated with the air duct of the range hood, the air in the disinfection cabinet 130 is exhausted out of the disinfection cabinet 130, meanwhile, the air which is not heated in the disinfection cabinet 130 is also exhausted out of the accommodating box 120, and the temperature of the air in the disinfection cabinet 130 rises more quickly; after the air pressure in the disinfection cabinet 130 is balanced, the sealing sheet 430 is pulled to move by the elastic force of the return spring 420, and the first guide angle 423 is in coaxial clamping fit with the second guide angle 424, so that the sealing sheet 430 seals the mounting tube 410, and the probability that oil smoke in the air duct enters the disinfection cabinet 130 is reduced.

During the gas burning, the partial heat that the burning produced can give off in the air around, and the heat that scatters and disappears heats heat storage pipe 610, makes heat storage pipe 610 collect the storage to the heat that part scatters and disappears, and heat storage pipe 610 transmits the heat to cooling tube 620 on, and the heat on cooling tube 620 is scattered to in the sterilizer 130, makes cooling tube 620 can heat and keep warm the air in sterilizer 130.

When hot air in the vent pipe 210 passes through the heat dissipation pipe 620, bidirectional heat exchange can be performed with the heat storage pipe 610, and when the temperature of the hot air is higher than that of the heat dissipation pipe 620, the hot air performs heat exchange on the heat storage pipe 610, so that heat is stored in the heat storage pipe 610; when the temperature of the heat storage pipe 610 is higher than that of the hot air, the heat storage pipe 610 can heat the hot air to increase the temperature of the hot air, so that the air in the sterilizing cabinet 130 can be heated more quickly.

After the temperature inside the disinfection cabinet 130 and the accommodating box 120 rises to a specified temperature, the temperature sensor 640 sends an electric signal to the air pump 220 and the driving motor 331 to stop the air pump 220, and the driving motor 331 drives the sliding block 310 to move horizontally to slide the sliding block 310 into the vent pipe 210 and close the vent pipe 210, so that the hot air can stop being introduced into the vent pipe 210.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a constant temperature heating device of integrated kitchen sterilizer, includes organism (100), be provided with furnace end (110) on organism (100), organism (100) water smooth migration is provided with sterilizer (130), its characterized in that: be provided with air heating mechanism (200) on organism (100), air heating mechanism (200) are including breather pipe (210), air pump (220), flow control assembly (300) and discharge valve (400), breather pipe (210) are installed on organism (100), the inlet end of breather pipe (210) is close to furnace end (110), the other end and sterilizer (130) intercommunication of breather pipe (210), air pump (220) are installed on organism (100) and are communicate with breather pipe (210), flow control assembly (300) are installed on organism (100) and are connected with breather pipe (210), flow control assembly (300) are used for adjusting the flow of gas in breather pipe (210), discharge valve (400) are installed on the lateral wall of organism (100) and are communicated with sterilizer (130).

2. The constant-temperature heating device of the integrated kitchen disinfection cabinet as claimed in claim 1, wherein: flow control assembly (300) include sliding block (310), slip cap (320) and driving piece (330), slip cap (320) are installed on organism (100) and are communicate with the inside of breather pipe (210), sliding block (310) horizontal slipping installs in slip cap (320), driving piece (330) are installed in the frame and are driven sliding block (310) and slide, sliding block (310) seal breather pipe (210) under the effect of driving piece (330).

3. The constant-temperature heating device of the integrated kitchen disinfection cabinet as claimed in claim 1, wherein: the machine body (100) is provided with a heat storage pipe (610), the side wall of the heat storage pipe (610) is close to the furnace end (110), the heat storage pipe (610) penetrates into the disinfection cabinet (130), and gas blown out from the vent pipe (210) penetrates through the heat storage pipe (610).

4. The constant-temperature heating device of the integrated kitchen disinfection cabinet as claimed in claim 1, wherein: discharge valve (400) are including installation pipe (410), reset spring (420) and sealing plate (430), install on the lateral wall of organism (100) installation pipe (410), the both ends of installation pipe (410) communicate with the wind channel of sterilizer (130) and lampblack absorber respectively, reset spring (420) are installed on the lateral wall of organism (100) and are located installation pipe (410), sealing plate (430) slide and install on the lateral wall in installation pipe (410) orientation wind channel and be connected with reset spring (420), sealing plate (430) under the effect of reset spring (420) with seal installation pipe (410).

5. The thermostatic heating device of an integrated kitchen disinfection cabinet of claim 1, characterized in that: be provided with filtering component (500) on the inner wall of organism (100), filtering component (500) include filter screen (510) and joint spare (520), install on the inner wall of organism (100) and towards sterilizer (130) filter screen (510), filter screen (510) cover breather pipe (210) completely, joint spare (520) are installed on organism (100) and with filter screen (510) joint in organism (100).

6. The constant-temperature heating device of the integrated kitchen disinfection cabinet as claimed in claim 5, wherein: joint spare (520) include spacing ring (521), two elastic rod (522) and two block tongue (523), install on organism (100) towards the inner wall of sterilizer (130) spacing ring (521), spacing ring (521) and breather pipe (210) intercommunication, two elastic rod (522) respectively vertical installation on two lateral walls that spacing ring (521) is relative and parallel to each other, two block tongue (523) are installed respectively on two lateral walls that elastic rod (522) are relative, all seted up on two lateral walls that filter screen (510) are relative with block tongue (523) joint complex draw-in groove (512), separating tank (513) have been seted up on the lateral wall of draw-in groove (512).

7. The constant-temperature heating device of the integrated kitchen disinfection cabinet as claimed in claim 3, wherein: the upper end face of the machine body (100) is provided with a support frame (630) connected with the side wall of the heat storage pipe (610).

8. The constant-temperature heating device of the integrated kitchen disinfection cabinet as claimed in claim 2, wherein: be provided with temperature sensor (640) in organism (100), driving piece (330) and air pump (220) all are connected with temperature sensor (640) electricity.

9. A thermostatic heating device of integrated kitchen sterilizer of claim 4, characterized in that: the side edge of the installation pipe (410) is provided with a first guide angle (423), and the side edge of the sealing sheet (430) facing the installation pipe (410) is provided with a second guide angle (424) in clamping fit with the first guide angle (423).

Images