CN210250637U - Steam cabinet - Google Patents

Abstract

The utility model discloses a steam cabinet relates to medical disinfection technical field. This steam cabinet includes: a heating layer, a steam generation layer, an accommodating layer and an upper cover; the heating layer comprises a heating layer body, a heater, heat conduction oil and a heating cavity; the steam generating layer comprises a steam generating layer body, a heating cavity and a heat conducting part; the holding layer comprises a holding layer body, a holding cavity and a first ventilation plate. The technical problems that in the prior art, a steam disinfection cabinet is solidified in structure, low in energy utilization rate and low in use flexibility, and cannot be directly used as medical disinfection equipment to disinfect surgical cutters are solved.

Description

Steam cabinet

Technical Field

The utility model relates to a medical disinfection technical field especially relates to a steam cabinet.

Background

The steam has wide application in the national production and living fields; for example, the catering industry cooks with steam, and the rehabilitation industry builds a sauna with steam.

At present, the existing disinfection cabinets have various types, and four main types of disinfection cabinets are mainly adopted, namely infrared disinfection, ultraviolet disinfection, ozone disinfection and steam disinfection. Wherein, the far infrared ray disinfection structure is simple, but the power consumption is large, and the requirement on the box body is higher; the ultraviolet ray disinfection and sterilization speed is slow, the cost is high, and dead corners are easy to generate; ozone disinfection has strong oxidizing ability, but has poor working stability, and the disinfection effect can not be achieved due to insufficient concentration; the existing steam disinfection cabinet has the advantages of fixed structure, inconvenient use and low energy utilization rate.

Therefore, the steam disinfection cabinet in the prior art has the technical problems of structural solidification, low energy utilization rate and low use flexibility, and cannot be directly used as medical disinfection equipment to disinfect surgical cutters.

SUMMERY OF THE UTILITY MODEL

The utility model provides a steam cabinet for solve among the prior art steam sterilizer and have the structure solidification, energy utilization is low, and uses the flexibility low, can't directly carry out sterile technical problem as medical disinfecting equipment to the operation cutter.

The embodiment of the utility model provides a steam cabinet, which comprises a heating layer, a steam generating layer, a holding layer and an upper cover, wherein the heating layer, the steam generating layer, the holding layer and the upper cover are connected in sequence,

the heating layer includes: the heating device comprises a heating layer body, a heater, heat conduction oil and a heating cavity, wherein the heating cavity is formed in the heating layer body;

the steam generating layer includes: the steam generating layer comprises a steam generating layer body, a heated cavity and a heat conducting part, wherein the heated cavity is formed in the steam generating layer body, the heat conducting part is arranged at the bottom of the heated cavity and is connected with the steam generating layer body, and the steam generating layer body is respectively connected with the heating layer body and the accommodating layer;

the accommodation layer includes: the steam generating cover comprises a containing layer body, a containing cavity and a first ventilating plate, wherein the containing cavity is formed in the containing layer body, the first ventilating plate is arranged in the containing cavity and connected with the containing layer body, and the containing layer body is connected with the steam generating layer body and the upper cover body respectively.

Further comprises a separator which is detachably arranged in the accommodating cavity,

the separator comprises a separator body, a separation fence, a separation cavity and a second breathable plate, wherein the second breathable plate is arranged in the separation cavity and connected with the separator body, and the separation fence is arranged in the separation cavity and connected with the separator body.

Further, the separator still includes the handle, and the handle setting is on the separator body.

Further, the heat conducting part comprises a heat conducting plate and a heat conductor, the heat conducting plate is connected with the steam generating layer body, the heat conductor is connected with the heat conducting plate, wherein,

the heat conductor comprises a heat conducting cavity and a heat conducting cavity, the heat conducting cavity is arranged on the heat conductor, the heat conductor is connected with the heat conducting plate, and the heat conducting cavity is communicated with the heating cavity.

Furthermore, the heat conductor is a plurality of heat conduction columns which are uniformly distributed on the heat conduction plate.

Furthermore, the steam generation layer also comprises a water inlet pipe and a water outlet pipe, the water inlet pipe and the water outlet pipe are respectively arranged on two side walls of the steam generation layer body, and water guide holes of the water inlet pipe and the water outlet pipe are communicated with the heating cavity.

Further, the heater includes: a heating body and a heat conduction group, wherein the heat conduction group is arranged on the heating body, the heating body is connected with the heating layer body and is communicated with an external power supply, wherein,

the heat conduction group comprises a plurality of heat conduction strips, and the heat conduction strips are uniformly distributed on the heating body.

Further, the utility model also comprises an air duct,

the upper cover is provided with an air outlet pipe, and an air guide hole of the air outlet pipe is communicated with the accommodating cavity;

the steam generation layer also comprises an air inlet pipe, the air inlet pipe is arranged on the side wall of the steam generation layer body, and an air guide hole of the air inlet pipe is communicated with the heated cavity;

the two ends of the air duct are respectively communicated with the air inlet pipe and the air outlet pipe.

Further, the upper cover is also provided with a handle, and the handle is connected with the outer wall of the upper cover.

Furthermore, a first inclined plane inclining outwards is arranged in the connection direction of the steam generation layer body and the accommodating layer body, a second inclined plane inclining inwards is arranged in the connection direction of the accommodating layer body and the steam generation layer body, and the steam generation layer body is connected with the accommodating layer body through the matching of the first inclined plane and the second inclined plane.

To sum up, the utility model provides a steam cabinet relates to medical disinfection technical field, include: zone of heating, steam generation layer, holding layer and upper cover, zone of heating, steam generation layer, holding layer and upper cover connect gradually, wherein, the zone of heating includes: the heating device comprises a heating layer body, a heater, heat conduction oil and a heating cavity, wherein the heating cavity is formed in the heating layer body; the steam generating layer includes: the steam generating layer comprises a steam generating layer body, a heated cavity and a heat conducting part, wherein the heated cavity is formed in the steam generating layer body, the heat conducting part is arranged at the bottom of the heated cavity and is connected with the steam generating layer body, and the steam generating layer body is respectively connected with the heating layer body and the accommodating layer; the accommodation layer includes: the steam generating cover comprises a containing layer body, a containing cavity and a first ventilating plate, wherein the containing cavity is formed in the containing layer body, the first ventilating plate is arranged in the containing cavity and connected with the containing layer body, and the containing layer body is connected with the steam generating layer body and the upper cover body respectively. Therefore, the technical problems that the steam disinfection cabinet in the prior art is structurally solidified, low in energy utilization rate and low in use flexibility and cannot be directly used as medical disinfection equipment to disinfect surgical cutters are solved.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic structural view of a steam cabinet according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a heating layer provided in the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a steam generation layer provided in an embodiment of the present invention;

fig. 4 is a schematic diagram of a detailed structure of a steam generation layer provided in an embodiment of the present invention;

fig. 5 is a schematic structural view of a receiving layer according to an embodiment of the present invention;

fig. 6 is a schematic structural view of an upper cover according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a steam generation layer provided in an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a separator according to an embodiment of the present invention;

fig. 9 is a schematic structural view of a separator installed in a receiving layer according to an embodiment of the present invention.

Icon: 10-steam chest; 100-a heating layer; 200-a steam generating layer; 300-a containment layer; 400-upper cover; 110-heating the layer body; 120-a heater; 130-a heating chamber; 210-a steam generating layer body; 220-a heated cavity; 230-a heat conducting portion; 310-a containment layer body; 320-a containing cavity; 330-a first gas permeable plate; 500-a separator; 510-a separator body; 520-a separator; 530-separation chamber; 540-a second gas permeable plate; 550-a handle; 231-a thermally conductive plate; 232-a thermal conductor; 2321-heat conducting cavity; 2322-heat conducting cavity; 233-heat conducting columns; 240-water inlet pipe; 250-water outlet pipe; 121-a heating body; 122-a thermally conductive set; 123-heat conducting strips; 500-airway tube; 410-an air outlet pipe; 260-an air inlet pipe; 420-a handle; 211 — a first bevel; 311-second inclined plane.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

As shown in fig. 1 to 9, a steam cabinet 10 according to an embodiment of the present invention includes a heating layer 100, a steam generating layer 200, a containing layer 300, and an upper cover 400, wherein the heating layer 100, the steam generating layer 200, the containing layer 300, and the upper cover 400 are sequentially connected, wherein,

during specific implementation, heating layer 100 and external power supply intercommunication, steam production layer 200 adopts the mode setting of can dismantling connection or fixed connection on heating layer 100, and accommodation layer 300 adopts the mode setting of can dismantling connection or fixed connection on steam production layer 200, and upper cover 400 adopts the mode setting of can dismantling the connection on accommodation layer 300. When the detachable connection mode is adopted for connection, the connection can be realized in a buckling connection mode; when the connection is carried out in a fixed connection mode, the connection can be carried out in a welding or gluing mode, and meanwhile, the tightness of the connected interface needs to be guaranteed. It is clear that the heating layer 100, the steam generation layer 200, the accommodating layer 300, and the upper cover 400 can be configured in different shapes and structures according to specific application scenarios, and a quadrangular cylinder structure is adopted in the present embodiment.

The heating layer 100 includes: the heating layer body 110, the heater 120, the heat conduction oil and the heating cavity 130 are arranged on the heating layer body 110, the heater 120 is arranged in the heating cavity 130, the heat conduction oil is filled in the heating cavity 130, and the heating layer body 110 is connected with the steam generation layer 200.

In specific implementation, the heater 120 is disposed in the heating cavity 130, and the heat conducting oil is filled in the heating cavity 130, so that heat generated after the heater 120 is powered on can be uniformly distributed on the steam generation layer 200 connected thereto, and the steam generation layer 200 is further heated. The material of the heating layer 100 may be a heat insulating material, for example, a ceramic material, and the heat insulating material may prevent the heat source from flowing outwards.

The steam generation layer 200 includes: the steam generation layer comprises a steam generation layer body 210, a heated cavity 220 and a heat conduction part 230, wherein the heated cavity 220 is arranged on the steam generation layer body 210, the heat conduction part 230 is arranged at the bottom of the heated cavity 220 and is connected with the steam generation layer body 210, and the steam generation layer body 210 is respectively connected with a heating layer body 110 and an accommodating layer 300.

In specific implementation, the heat conduction part 230 is disposed in the heat receiving cavity 220, and when water is filled in the heat receiving cavity 220, the contact area between the heat source and the water can be increased by disposing the heat conduction part 230, so that the water in the heat receiving cavity 220 can be rapidly heated to a boiling state.

The accommodating layer 300 includes: the steam generating layer comprises a containing layer body 310, a containing cavity 320 and a first ventilating plate 330, wherein the containing cavity 320 is arranged on the containing layer body 310, the first ventilating plate 330 is arranged in the containing cavity 320 and connected with the containing layer body 310, and the containing layer body 310 is respectively connected with the steam generating layer body 210 and the upper cover 400.

In specific implementation, the water in the heating cavity 220 forms steam after being heated, and the steam is used for sterilizing the surgical knife in the accommodating cavity 320 through the first ventilation plate 330. The accommodating layer 300 can be set in different shapes and different layers according to specific application scenes, and the accommodating cavity 320 can also be set into different accommodating spaces according to the type and the shape of a surgical knife to be sterilized, so that the accommodating cavity is suitable for different surgical knives; the surgical knife to be steam sterilized is placed in the accommodating chamber 320.

Optionally, referring to fig. 8 to 9, the steam cabinet 10 further includes a partition 500, and the partition 500 is detachably disposed in the accommodating cavity 320.

The partition 500 includes a partition body 510, a partition fence 520, a partition chamber 530, and a second gas permeable plate 540, the second gas permeable plate 540 being disposed in the partition chamber 530 and connected to the partition body 510, the partition fence 520 being disposed in the partition chamber 530 and connected to the partition body 510.

In particular, the water in the heated chamber 220 forms steam after being heated, and the steam passes through the first air-permeable plate 330 and the second air-permeable plate 540 to sterilize the surgical knife placed in the compartment 530. The provision of the partition 500 facilitates the placement of surgical tools into different compartments 530 according to the type of surgical tool used when sterilizing different types of surgical tools. The different types of surgical tools are separated by a divider 520 to facilitate their preparation after sterilization.

Optionally, the divider 500 further includes a handle 550, the handle 550 being disposed on the divider body 510.

In particular, when the partition member 500 is not placed in the accommodating chamber 320, a surgical knife to be steam sterilized is placed in the partition chamber 530. The lifting handle 550 is arranged on the separator body 510 of the separator 500, so that the separator 500 provided with the surgical knife can be lifted and placed in the accommodating cavity 320; meanwhile, after the surgical knife is sterilized, the sterilized separator 500 with the surgical knife is also conveniently lifted out of the accommodating cavity 320 through the handle 550.

Alternatively, the heat conductive part 230 includes a heat conductive plate 231 and a heat conductive body 232, the heat conductive plate 231 is connected with the steam generation layer body 210, the heat conductive body 232 is connected with the heat conductive plate 231, wherein,

the heat conductor 232 comprises a heat conducting cavity 2321 and a heat conducting cavity 2322, the heat conducting cavity 2321 is arranged on the heat conductor 232, the heat conductor 232 is connected with the heat conducting plate 231, and the heat conducting cavity 2321 is communicated with the heating cavity 130.

In specific implementation, the heat conducting portion 230 includes a heat conducting plate 231 and a heat conducting body 232, wherein the heat conducting portion 230 and the heat conducting body 232 are both in contact with the water in the heat conducting cavity 2322, so as to increase the heat exchange area between the heat conducting portion 230 and the water. Meanwhile, the heat conductor 232 includes a heat conducting cavity 2321 and a heat conducting cavity 2322, the heat conducting cavity 2322 is communicated with the heating cavity 130, the heat conducting oil arranged in the heating cavity 130 is facilitated to enter the heat conducting cavity 2322, and the heat generated by the heater 120 can be rapidly transferred to the heat conducting cavity 2322, so as to perform heat exchange on the water contacted with the heat conducting cavity 2322.

Optionally, the heat conductor 232 is a plurality of heat conducting pillars 233, and the heat conducting pillars 233 are uniformly distributed on the heat conducting plate 231.

In a specific implementation, the heat conductor 232 is a plurality of heat conducting pillars 233, the heat conducting pillars 233 may be cylindrical heat conducting pillars 233 or other polygonal heat conducting pillars 233, and the heat conducting pillars 233 with different shapes correspond to the heat conducting cavities 2321 with different shapes. The heat conductive columns 233 are uniformly distributed on the heat conductive plate 231, which is advantageous for uniformly heating the water contained in the heat receiving chamber 220, so that the water contained in the heat receiving chamber 220 rapidly reaches a boiling state.

Optionally, the steam generating layer 200 further includes a water inlet pipe 240 and a water outlet pipe 250, the water inlet pipe 240 and the water outlet pipe 250 are respectively disposed on two side walls of the steam generating layer body 210, and the water guide holes of the water inlet pipe 240 and the water outlet pipe 250 are communicated with the heat receiving cavity 220.

In specific implementation, the water inlet pipe 240 and the water outlet pipe 250 are disposed on the steam generating layer 200, so that water can be added through the water inlet pipe 240 when water needs to be added into the heat receiving cavity 220, and water can be discharged outwards through the water outlet pipe 250 when the water content in the heat receiving cavity 220 is high. Meanwhile, after the surgical knife is steam-sterilized, waste may be deposited in the heated chamber 220, the waste deposited at the bottom of the heated chamber 220 is washed by controlling the water pressure at the water inlet, and the washed waste water is discharged through the water outlet pipe 250.

Alternatively, the heater 120 includes: a heating body 121 and a heat conduction group 122, wherein the heat conduction group 122 is arranged on the heating body 121, the heating body 121 is connected with the heating layer body 110 and is communicated with an external power supply, wherein,

the heat conducting group 122 includes a plurality of heat conducting strips 123, and the heat conducting strips 123 are uniformly distributed on the heating body 121.

During specific implementation, the heater 120 includes the heating body 121 and the heat conduction group 122, and the heat generated when the heating body 121 is communicated with the external power supply is transferred to the outside through the heat conduction group 122, and the heat conduction group 122 transfers the heat to the heating layer 100 through the heat conduction oil contacting with the heat conduction group, so as to heat the moisture in the heating cavity 130 of the heating layer 100. The heat conducting group 122 may be a plurality of heat conducting strips 123, and the heat conducting strips 123 are uniformly distributed on the heating body 121, so as to facilitate uniform heat dissipation of the heating body 121.

Optionally, an airway tube 500 is also included,

the upper cover 400 is provided with an air outlet pipe 410, and an air guide hole of the air outlet pipe 410 is communicated with the accommodating cavity 320;

the steam generation layer 200 further comprises an air inlet pipe 260, the air inlet pipe 260 is arranged on the side wall of the steam generation layer body 210, and an air guide hole of the air inlet pipe 260 is communicated with the heating cavity 220;

both ends of the air duct 500 are respectively communicated with the air inlet tube 260 and the air outlet tube 410.

During the specific implementation, produce at upper cover 400 and set up outlet duct 410 and produce at steam and set up intake pipe 260, wherein air duct 500 is flexible material, is favorable to being connected with external pressure sensor through air duct 500 through setting up air duct 500 to the atmospheric pressure to in the steam chest 10 monitors.

Optionally, the upper cover 400 is further provided with a handle 420, and the handle 420 is connected with an outer wall of the upper cover 400.

In specific implementation, the handle 420 is provided on the upper cover 400, which is advantageous for holding the upper cover 400. Wherein the handle 420 may be made of a heat insulating material.

Optionally, a first inclined plane 211 inclined outward is disposed in a connection direction of the steam generation layer body 210 and the accommodation layer body 310, a second inclined plane 311 inclined inward is disposed in a connection direction of the accommodation layer body 310 and the steam generation layer body 210, and the steam generation layer body 210 is connected with the accommodation layer body 310 through cooperation of the first inclined plane 211 and the second inclined plane 311.

In specific implementation, a first inclined plane 211 inclined outwards is arranged in a connection direction of the steam generation layer body 210 and the accommodating layer body 310, a second inclined plane 311 inclined inwards is arranged in a connection direction of the accommodating layer body 310 and the steam generation layer body 210, and the steam generation layer body 210 is connected with the accommodating layer body 310 through the matching of the first inclined plane 211 and the second inclined plane 311. When the pressure inside the steam cabinet 10 is high, the pressure of the accommodating layer body 310 can be reduced by jacking, so that the safety of the steam cabinet 10 is ensured. Meanwhile, the steam generation layer body 210 can be quickly connected or disconnected with the accommodating layer body 310 through the cooperation of the first inclined surface 211 and the second inclined surface 311.

To sum up, the utility model provides a steam cabinet relates to medical disinfection technical field, include: zone of heating, steam generation layer, holding layer and upper cover, zone of heating, steam generation layer, holding layer and upper cover connect gradually, wherein, the zone of heating includes: the heating device comprises a heating layer body, a heater, heat conduction oil and a heating cavity, wherein the heating cavity is formed in the heating layer body; the steam generating layer includes: the steam generating layer comprises a steam generating layer body, a heated cavity and a heat conducting part, wherein the heated cavity is formed in the steam generating layer body, the heat conducting part is arranged at the bottom of the heated cavity and is connected with the steam generating layer body, and the steam generating layer body is respectively connected with the heating layer body and the accommodating layer; the accommodation layer includes: the steam generating cover comprises a containing layer body, a containing cavity and a first ventilating plate, wherein the containing cavity is formed in the containing layer body, the first ventilating plate is arranged in the containing cavity and connected with the containing layer body, and the containing layer body is connected with the steam generating layer body and the upper cover body respectively. Therefore, the technical problems that the steam disinfection cabinet in the prior art is structurally solidified, low in energy utilization rate and low in use flexibility and cannot be directly used as medical disinfection equipment to disinfect surgical cutters are solved.

In short, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A steam cabinet is characterized by comprising a heating layer, a steam generation layer, an accommodating layer and an upper cover, wherein the heating layer, the steam generation layer, the accommodating layer and the upper cover are sequentially connected,

the heating layer includes: the heating device comprises a heating layer body, a heater, heat conduction oil and a heating cavity, wherein the heating cavity is formed in the heating layer body, the heater is arranged in the heating cavity, the heat conduction oil is filled in the heating cavity, and the heating layer body is connected with the steam generation layer;

the steam generation layer includes: the steam generating layer comprises a steam generating layer body, a heated cavity and a heat conducting part, wherein the heated cavity is formed in the steam generating layer body, the heat conducting part is arranged at the bottom of the heated cavity and is connected with the steam generating layer body, and the steam generating layer body is respectively connected with the heating layer body and the accommodating layer;

the accommodating layer includes: the steam generating cover comprises a containing layer body, a containing cavity and a first ventilating plate, wherein the containing cavity is formed in the containing layer body, the first ventilating plate is arranged in the containing cavity and connected with the containing layer body, and the containing layer body is connected with the steam generating layer body and the upper cover body respectively.

2. The steam cabinet of claim 1, further comprising a partition removably disposed within the receiving cavity,

the separator comprises a separator body, a separation fence, a separation cavity and a second breathable plate, wherein the second breathable plate is arranged in the separation cavity and connected with the separator body, and the separation fence is arranged in the separation cavity and connected with the separator body.

3. The steam chest of claim 2, wherein the divider further comprises a handle disposed on the divider body.

4. A steam chest as recited in claim 1, wherein the heat conducting portion comprises a thermally conductive plate connected to the steam generating layer body and a thermally conductive body connected to the thermally conductive plate, wherein,

the heat conductor includes heat conduction chamber and heat conduction cavity, the heat conduction chamber is seted up on the heat conductor, the heat conduction chamber with the heating chamber intercommunication.

5. A steam chest as claimed in claim 4, wherein the heat conductor is a plurality of heat conducting columns evenly distributed over the heat conducting plate.

6. The steam cabinet of claim 4, wherein the steam generation layer further comprises a water inlet pipe and a water outlet pipe, the water inlet pipe and the water outlet pipe are respectively arranged on two side walls of the steam generation layer body, and water guide holes of the water inlet pipe and the water outlet pipe are communicated with the heating cavity.

7. A steam chest as claimed in claim 1, wherein the heater comprises: the heating body is connected with the heating layer body and is communicated with an external power supply,

the heat conduction group comprises a plurality of heat conduction strips, and the heat conduction strips are uniformly distributed on the heating body.

8. A steam chest as in claim 1, further comprising an airway tube,

the upper cover is provided with an air outlet pipe, and an air guide hole of the air outlet pipe is communicated with the accommodating cavity;

the steam generation layer also comprises an air inlet pipe, the air inlet pipe is arranged on the side wall of the steam generation layer body, and an air guide hole of the air inlet pipe is communicated with the heating cavity;

and the two ends of the air duct are respectively communicated with the air inlet pipe and the air outlet pipe.

9. A steam cabinet according to claim 8, wherein the upper cover is further provided with a handle connected to an outer wall of the upper cover.

10. The steam cabinet of claim 1, wherein the connection direction of the steam generation layer body and the accommodating layer body is provided with a first inclined surface inclined outwards, the connection direction of the accommodating layer body and the steam generation layer body is provided with a second inclined surface inclined inwards, and the steam generation layer body is connected with the accommodating layer body through the matching of the first inclined surface and the second inclined surface.

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