CN219045765U - Shell assembly and electric stove - Google Patents
Shell assembly and electric stove Download PDFInfo
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- CN219045765U CN219045765U CN202223606813.4U CN202223606813U CN219045765U CN 219045765 U CN219045765 U CN 219045765U CN 202223606813 U CN202223606813 U CN 202223606813U CN 219045765 U CN219045765 U CN 219045765U
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- bottom cover
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P10/00—Technologies related to metal processing
- Y02P10/20—Recycling
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Abstract
The utility model relates to the technical field of electric furnaces, and provides a shell assembly, which comprises a shell body, a bottom cover and more than two cover connecting pieces; the shell body is provided with an upper end opening and a lower end opening, and a connecting groove which is circumferentially arranged is formed in the position, away from the lower end opening, of the inner wall of the shell body by a preset height; the bottom cover can be detached to cover the lower end opening of the shell body; the cover connecting piece comprises a transversely extending first connecting part connected with the bottom cover, a vertically extending second connecting part with elastic deformation and a buckling part arranged on the other side of the second connecting part relative to the first connecting part, wherein the buckling part extends out of the inner diameter of the shell body, and the buckling part is buckled in the connecting groove to realize the connection of the bottom cover and the shell body. According to the shell assembly, the connecting piece of the cover is arranged and buckled in the connecting groove on the inner wall of the shell, so that the connection between the bottom cover and the shell is realized.
Description
Technical Field
The utility model relates to the technical field of electric heaters, in particular to a shell assembly and an electric furnace.
Background
Existing electric heaters (e.g., electroceramic ovens) typically include a cartridge assembly, a faceplate, and a housing assembly having at least an upper opening, the faceplate being mounted to the upper opening; the movement assembly comprises a heating disc assembly, a base and an elastic supporting member connected with the heating disc assembly and the base, and an electric component is arranged in the base; the core assembly is installed in the panel downside, and the lower side at the panel is butt-jointed to the dish subassembly upper end that generates heat, and the diapire at the casing subassembly is connected to the base downside, and elastic support component makes dish subassembly that generates heat and base keep close contact.
The existing shell assembly generally comprises a shell body and a bottom cover, wherein a connecting structure such as a hole, a connecting column and the like is designed at the lower end of the shell body, the bottom cover is fixed on the connecting structure through screws, and the shell assembly is troublesome to install and poor in aesthetic property.
Disclosure of Invention
The utility model aims to solve the problems of troublesome installation and poor aesthetic property caused by a connecting structure that a bottom cover of the existing shell assembly is fixed at the lower end of a shell through a screw, and the shell assembly is realized by arranging a cover connecting piece to be buckled in a connecting groove on the inner wall of the shell so as to realize the connection of the bottom cover and the shell.
The shell assembly comprises a shell body, a bottom cover and more than two cover connecting pieces; the shell body is provided with an upper end opening and a lower end opening, and a connecting groove which is circumferentially arranged is formed in the position, away from the lower end opening, of the inner wall of the shell body by a preset height; the bottom cover can be detached to cover the lower end opening of the shell body; the cover connecting piece comprises a transversely extending first connecting part connected with the bottom cover, a vertically extending second connecting part with elastic deformation, and a buckling part arranged on the other side of the second connecting part relative to the first connecting part, wherein the buckling part extends out of the inner diameter of the shell body and is buckled in the connecting groove, so that the connection between the bottom cover and the shell body is realized.
According to the shell assembly provided by the utility model, the connecting groove is formed in the position, away from the lower end opening, of the inner wall of the shell body by a preset height, and then the buckling part of the cover connecting piece connected with the upper end of the bottom cover is buckled in the connecting groove, so that the bottom cover is covered on the lower end opening of the shell body, and the shell assembly is ingenious in structure, convenient to connect, and good in hiding performance and attractive appearance.
Further, the first connecting portion is provided with a first connecting through hole, the edge of the bottom cover is correspondingly provided with a second connecting through hole, the second connecting portion inclines from bottom to top to the first connecting portion, the second connecting portion is pre-fixed in the connecting groove through the attachment material, the second connecting through hole is upwards locked into the first connecting through hole through a screw on the bottom cover, and the upper end of the screw abuts against the second connecting portion to enable the second connecting portion to deform towards one side of the buckling portion, so that the buckling portion is fastened in the connecting groove.
In this scheme, the second connecting portion is from upwards to first connecting portion slope down, then utilizes the screw upper end of fixed bottom and lid connecting piece to push away the second connecting portion inboard to make the second connecting portion incline to the lock joint portion, realize the lock joint of lock joint portion and spread groove, design benefit reduces the installation degree of difficulty that the bottom was installed to the lower extreme opening of shell body.
As an alternative scheme, the second connecting portion inclines from bottom to top to the first connecting portion, the first connecting portion is fixed at the edge of the bottom cover, the edge of the bottom cover is located at the outer side of the connecting portion of the second connecting portion and is provided with a disassembly gap, and a tool is used for propping against the outer side of the second connecting portion through the disassembly gap, so that the buckling portion moves inwards to achieve assembly and disassembly.
In this scheme, set up the lid connecting piece behind the bottom upper end, use the instrument to support the outside of second connecting portion through the dismouting breach, make second connecting portion upper portion to its inboard slope to avoid installing the bottom to the lower extreme opening of shell when opening, the lock joint portion hinders, after installing the bottom to the lower extreme opening of shell, withdraw the instrument, second connecting portion resets and makes lock joint portion and spread groove lock joint.
Further, be equipped with heat radiation structure on the bottom, heat radiation structure is including setting up at the first air intake in bottom middle part and a plurality of around setting up a plurality of first air-out holes in the first air intake outside, and the border of bottom is provided with the lateral wall that has the tapering, and first air-out hole shaping is on the lateral wall.
The shell component of the utility model is used as a component of the electric furnace, and the heat dissipation structure is arranged to improve the heat dissipation performance of the electric furnace.
The utility model also provides an electric furnace, which comprises the shell assembly, a panel and a core assembly; the panel is arranged at the upper port of the shell body; the core assembly comprises a heating plate assembly which is arranged below the panel.
The electric stove in the scheme is convenient to assemble and attractive in appearance.
Further, the movement assembly further includes a base disposed below the heat-generating plate assembly, a plurality of support members, and a connector; the lower end of the heating disc assembly is provided with a plurality of disc connecting pieces, each connecting piece is provided with a disc connecting part extending downwards, and each disc connecting part is provided with a first connecting hole which is transversely arranged; a supporting channel communicated with the upper surface of the base is arranged below the connecting part of the corresponding disc of the base; the support member is provided with a support sleeve and a spring, a movable channel communicated with the lower end is arranged in the support sleeve, a second connecting hole transversely arranged is arranged at the upper end of the support sleeve, and the support sleeve is movably arranged in the support channel; the spring acts between the top wall of the movable channel and the bottom wall of the supporting channel; the connecting piece is connected with the second connecting hole and the first connecting hole to fix the disc connecting part at the upper end of the supporting sleeve.
Further, a supporting guide post is arranged in the middle of the supporting channel, the supporting sleeve is movably arranged in the supporting channel and is movably sleeved outside the supporting guide post, and the spring is sleeved outside the supporting guide post.
Further, the upper end of the supporting sleeve is provided with a supporting and accommodating part matched with the disc connecting part, and the second connecting hole is formed in the vertical wall of the supporting and accommodating part.
Further, vertical flanges are arranged on two sides of the vertical wall of the supporting and containing part, and the disc connecting part is contained between the flanges on two sides.
Further, the base comprises a base shell with a cavity with an upper opening, a base cover with an upper opening of the base shell and a main control board arranged in the cavity, a hole forming a port of a supporting channel is formed in the base cover, a circle of limiting protruding edge is arranged on the outer side ring of the lower end of the supporting sleeve, the outer diameter of the limiting protruding edge is larger than that of the port of the supporting channel, and the supporting sleeve penetrates through the port of the supporting channel from the lower side upwards.
Drawings
FIG. 1 is a schematic perspective view of a movement assembly;
FIG. 2 is an exploded view of the cartridge assembly;
FIG. 3 is a cross-sectional view of the cartridge assembly base;
FIG. 4 is an exploded view of the cartridge assembly base;
FIG. 5 is an exploded view of the base de-base cover of the cartridge assembly;
fig. 6 is a schematic perspective view of the support member;
FIG. 7 is an exploded view of the support member of FIG. 1;
FIG. 8 is an exploded view of the support member of FIG. 2;
fig. 9 is a schematic perspective view of an electric fire;
FIG. 10 is an exploded view of the electric furnace;
FIG. 11 is a cross-sectional view of the electric furnace 1;
FIG. 12 is a schematic perspective view of the movement assembly and bottom cover;
fig. 13 is an exploded view of a bottom cover of the electric furnace;
FIG. 14 is a cross-sectional view 2 of the electric furnace;
FIG. 15 is a cross-sectional view of the housing of the fire;
FIG. 16 is a schematic view of a cover attachment in one embodiment;
FIG. 17 is a cross-sectional view of an electric fire in another embodiment;
FIG. 18 is an exploded view of a bottom cover of the fire in another embodiment;
FIG. 19 is a partial exploded view of the bottom cover and cover attachment of the fire in another embodiment;
fig. 20 is a schematic view of a cap connector in another embodiment.
Description of the reference numerals:
the cartridge assembly 1, the heat-generating board assembly 11, the heat insulator 111, the heat insulator housing 112, the board connector 12, the board connector 13, the first connecting hole 14, the base 2, the support passage 21, the support guide post 22, the support member 23, the support sleeve 3, the support accommodating portion 31, the flange 32, the second connecting hole 33, the movable passage 34, the limit flange 35, the spring 4, the connector 5, the chamber 60, the base case 61, the base cover 62, the support passage port 63, the main control board 64, the case assembly 7, the case body 71, the upper end opening 72, the lower end opening 73, the connecting groove 74, the panel 75, the bottom cover 8, the side wall 8', the second connecting through hole 80, the screw 81, the dismounting notch 82, the first air outlet 83, the first air inlet 84, the relief area 841, the cover connector 9, the first connecting through hole 92, the second connecting portion 93, the fastening portion 94, the circular arc structure 95, the rivet 96, the fan F, the second air inlet F1, and the second air outlet F2.
Detailed Description
The technical scheme of the utility model is described below with reference to the attached drawings and specific embodiments.
Referring to fig. 1 to 8, the deck assembly 1 of the present embodiment includes a heat generating disc assembly 11, a base 2, a plurality of support members 23, and a connector 5; the lower end of the heating plate assembly 11 is provided with a plurality of plate connecting pieces 12, the plate connecting pieces 12 are provided with plate connecting parts 13 which extend downwards, and the plate connecting parts 13 are provided with first connecting holes 14 which are transversely arranged; the base 2 is arranged below the heating plate assembly 11, a supporting channel 21 communicated with the upper surface of the corresponding plate connecting part 13 is arranged below the corresponding plate connecting part 13, and a supporting guide post 22 is arranged in the middle of the supporting channel 21; the supporting member 23 is provided with a supporting sleeve 3 and a spring 4, the upper end of the supporting sleeve 3 is provided with a supporting accommodating part 31 which is matched with the disc connecting part 13, a movable channel 34 which is communicated with the lower end is arranged in the supporting sleeve, the vertical wall of the supporting accommodating part 31 is provided with a second connecting hole 33 which is transversely arranged, and the supporting sleeve 3 is movably arranged in the supporting channel 21 and is movably sleeved outside the supporting guide post 22; the spring 4 is sleeved on the supporting guide post 22 and acts between the top wall of the movable channel 34 and the bottom wall of the supporting channel 21; the connection member 5 connects the second connection hole 33 and the first connection hole 14 to fix the disk connection portion 13 to the vertical wall of the support receiving portion 31.
According to the scheme provided by the utility model, the second connecting hole 33 and the first connecting hole 14 are transversely arranged, so that the connecting piece 5 is transversely connected with the second connecting hole 33 and the first connecting hole 14 without being influenced by the heating plate assembly 11, and the operation is convenient; in addition, the elastic supporting structures of the supporting members 23 and the supporting channels 21 are adopted, the vertical movable space is large, the distance between the heating plate assembly 11 and the base 2 can be reduced, and the overall thickness of the movement is reduced.
In one embodiment, the heat-generating tray assembly 11 includes an insulator 111 and an insulator housing 112, with the tray connector 12 attached to the underside of the insulator housing 112, with one version of the tray connector 12 being a metal piece, the insulator housing 112 also being made of a hardware material, and the tray connector 12 being secured to the insulator housing 112 by screws, rivets, welding, or the like, or in a manner known in the art.
Further, the connecting member 5 is a screw.
Further, the base 2 includes a base housing 61 having an upper opening chamber 60, a base cover 62 detachably closing the upper opening of the base housing 61, and a main control panel 64 disposed in the chamber 60, wherein the base cover 62 is provided with a hole constituting a support passage port 63, the outer ring of the lower end of the support sleeve 3 is provided with a ring of a limit flange 35, the outer diameter of the limit flange 35 is larger than the support passage port 63, and the support sleeve 3 passes through the support passage port 63 from the lower side upward. Through the arrangement, the supporting sleeve 3 can be limited in the supporting channel 21 through the limiting convex edge 35, and the limiting structure is simple and reliable. In the present embodiment, the base cover 62 is mounted on the upper end of the base case 61 using a fastening structure.
Further, the vertical walls of the support accommodating portion 31 are provided with vertical ribs 32 on both sides, and the disk connecting portion 13 is accommodated between the ribs 32 on both sides. By adopting the structure, the lateral freedom degree of the disc connecting part 13 can be effectively limited, so that the assembly is more convenient, and the connection is more stable.
Referring to fig. 9 to 12, the present utility model also provides an electric fire comprising a housing assembly 7 having at least an upper end open, a faceplate 75 and a movement assembly 1; a panel 75 is mounted at the upper end of the housing assembly 7; the movement assembly 1 is mounted in the case assembly 7, the upper end of the heat-generating plate assembly 11 is elastically abutted against the lower side of the panel 75, and the lower side of the base 2 is fixed on the bottom wall of the case assembly 7.
Further, the housing assembly 7 includes a housing body 71 having an upper end opening 72 and a lower end opening 73, and a bottom cover 8 detachably closing the lower port of the housing assembly 7, and the underside of the base 2 is fixed to the bottom cover 8.
The support member 23 and the support channel 21 are preferably provided with 3.
Referring to fig. 9 to 16, another electric furnace provided by the present utility model includes a housing 71, a panel 75, a bottom cover 8 and a cover connector 9; the shell 71 has an upper end opening 72 and a lower end opening 73, and a connecting groove 74 arranged circumferentially is arranged on the inner wall of the shell 71 at a preset height position from the lower end opening 73; a panel 75 is installed at the upper end of the housing 71; the edge of the bottom cover 8 is connected to the connecting groove 74 by more than two cover connectors 9; the cover connecting piece 9 includes a first connecting portion 91 extending transversely and connected to the bottom cover 8, a second connecting portion 93 extending vertically and having elastic deformation, and a fastening portion 94 disposed on the other side of the second connecting portion 93 opposite to the first connecting portion 91, the fastening portion 94 extending out of the inner diameter of the housing 71, the fastening portion 94 being fastened in the connecting slot 74 to connect the bottom cover 8 and the housing 71.
By adopting the scheme, the novel connecting device is ingenious in structure, convenient to connect, and good in concealment and attractive appearance.
Further, the first connecting portion 91 is provided with a first connecting hole 92, the edge of the bottom cover 8 is correspondingly provided with a second connecting hole 80, the second connecting portion 93 is inclined from bottom to top to the first connecting portion 91, the second connecting portion 93 is pre-fixed in the connecting groove 74 through an attachment material (such as an adhesive), the second connecting portion 93 is locked into the first connecting hole 92 from the second connecting hole 80 upwards through a screw 81 on the bottom cover 8, and the upper end of the screw 81 abuts against the second connecting portion 93 to deform towards the buckling portion 94, so that the buckling portion 94 is buckled in the connecting groove 74.
In this scheme, the second connecting portion 93 inclines from bottom to top to the first connecting portion 91, and then the upper end of the screw 81 for fixing the bottom cover 8 and the cover connecting piece 9 is used to push the inner side of the second connecting portion 93, so that the second connecting portion 93 inclines to the fastening portion 94, fastening between the fastening portion 94 and the connecting groove 74 is achieved, the design is ingenious, and the installation difficulty of the bottom cover 8 on the lower end opening 73 of the shell 71 is reduced.
Further, the connecting groove 74 is a groove surrounding the inner wall of the shell 71, and the outer end of the fastening portion 94 is provided with a circular arc structure 95 adapted to the groove.
Further, the connecting groove 74 is a non-connecting groove arranged around the inner wall of the shell 71 at intervals, and the outer end of the buckling part 94 is provided with a circular arc structure 95 adapted to the groove
Referring to fig. 17 to 20, in an alternative connection scheme, a second connection portion 93 is inclined from bottom to top to a first connection portion 91, the first connection portion 91 is fixed at the edge of a bottom cover 8, a disassembly gap 82 is formed at the outer side of the edge of the bottom cover 8, which is located at the connection position with the second connection portion 93, and a tool is used to abut against the outer side of the second connection portion 93 through the disassembly gap 82, so that a fastening portion 94 moves inwards to achieve assembly and disassembly; the first coupling portion 91 and the bottom cover 8 are coupled by rivets 96.
In this embodiment, after the cover connector 9 is disposed at the upper end of the bottom cover 8, the tool is used to abut against the outer side of the second connecting portion 93 through the dismounting notch 82, so that the upper portion of the second connecting portion 93 is inclined to the inner side thereof, thereby avoiding the interference of the fastening portion 94 when the bottom cover 8 is mounted to the lower end opening 73 of the housing 71, and after the bottom cover 8 is mounted to the lower end opening 73 of the housing 71, the tool is pulled out, and the second connecting portion 93 is reset to fasten the fastening portion 94 to the connecting groove 74.
Further, the housing 71 is made of a metal material, and the connecting groove 74 is manufactured by turning.
Referring to fig. 18 and 19, the bottom cover 8 is provided with a heat dissipation structure, where the heat dissipation structure includes a first air inlet 84 disposed in the middle of the bottom cover 8, and a plurality of first air outlet holes 83 surrounding the outer side of the first air inlet 84, specifically, the edge of the bottom cover 8 is provided with a tapered side wall 8', the first air outlet holes 83 are formed on the side wall 8', the first air outlet holes 83 are vertical strip-shaped holes, and the side wall 8' is configured with an avoidance area 841 without the first air outlet holes 83. The base 2 bottom corresponds first air intake 84 and is equipped with second air intake F1, and the base 2 top is equipped with second air outlet F2, is provided with fan F in the base 2, and the flow air current that the during operation fan F produced gets into the inside circuit to the base 2 inside from first air intake 84 and second air intake F1 and dispels the heat of taking away the heating dish subassembly 11 downside from second air outlet F2, and when the air current is to being blocked by panel 75 and shell 71 back follow the first air outlet 83 on the lateral wall 8' downwards and flow out. By adopting the above heat dissipation scheme, since the side wall 8' has a taper, wind pressure is generated when the air flow is discharged from the first air outlet 83, and the air flow of the first air inlet 84 mainly enters from the avoiding area 841, so that the hot air flow sucked from the first air outlet 83 can be prevented or reduced, and the heat dissipation effect is improved; the heat dissipation structure can improve the heat dissipation performance of the electric furnace.
According to the shell assembly 7 provided by the utility model, the connecting groove 74 is formed in the position, away from the lower end opening 73, of the inner wall of the shell body 71 by a preset height, then the buckling part 94 of the cover connecting piece 9 connected with the upper end of the bottom cover 8 is buckled in the connecting groove 74, so that the bottom cover 8 is covered on the lower end opening 73 of the shell body 71, and the shell assembly is ingenious in structure, convenient to connect, hidden and attractive.
Variations and modifications of the above-described embodiments may be made by those skilled in the art in light of the foregoing disclosure and are not to be limited to the specific embodiments disclosed and described herein, but rather should be construed according to the scope of the appended claims.
Claims (10)
1. A housing assembly, comprising:
the shell is provided with an upper end opening and a lower end opening, and a connecting groove which is circumferentially arranged is formed in the position, away from the lower end opening, of the inner wall of the shell by a preset height;
a bottom cover, which can be detached to cover the lower end opening of the shell body;
the cover connecting piece comprises more than two transversely extending first connecting parts connected with the bottom cover, vertically extending second connecting parts with elastic deformation, and buckling parts arranged on the other sides of the second connecting parts relative to the first connecting parts, wherein the buckling parts extend out of the inner diameter of the shell body, and the buckling parts are buckled in the connecting grooves to realize connection of the bottom cover and the shell body.
2. The housing assembly according to claim 1, wherein the first connecting portion is provided with a first connecting through hole, the bottom cover edge is correspondingly provided with a second connecting through hole, the second connecting portion is inclined from bottom to top toward the first connecting portion, the second connecting portion is pre-fixed in the connecting groove by the attaching material, the second connecting portion is locked into the first connecting through hole from the second connecting through hole upward by the screw on the bottom cover, and the upper end of the screw abuts against the second connecting portion to deform the second connecting portion toward the fastening portion side, so that the fastening portion is fastened in the connecting groove.
3. The housing assembly according to claim 1, wherein the second connecting portion is inclined from bottom to top to the first connecting portion, the first connecting portion is fixed to the bottom cover edge, a disassembly gap is formed in the outer side of the bottom cover edge, which is located at a connecting portion with the second connecting portion, and a tool is used to abut against the outer side of the second connecting portion through the disassembly gap, so that the fastening portion moves inwards to achieve assembly and disassembly.
4. The housing assembly of claim 1, wherein the bottom cover is provided with a heat dissipation structure, the heat dissipation structure comprises a first air inlet arranged in the middle of the bottom cover and a plurality of first air outlet holes arranged outside the first air inlet in a surrounding mode, the edge of the bottom cover is provided with a side wall with taper, and the first air outlet holes are formed in the side wall.
5. An electric fire, comprising:
the housing assembly of any one of claims 1 to 4;
a panel mounted at an upper port of the housing;
the core assembly comprises a heating plate assembly and is arranged below the panel.
6. The electric fire of claim 5 wherein the movement assembly further comprises a base disposed below the hotplate assembly, a plurality of support members and connectors; the lower end of the heating disc assembly is provided with a plurality of disc connecting pieces, each connecting piece is provided with a disc connecting part extending downwards, and each disc connecting part is provided with a first connecting hole which is transversely arranged; a supporting channel communicated with the upper surface of the base is arranged below the connecting part of the corresponding disc of the base; the support member is provided with a support sleeve and a spring, a movable channel communicated with the lower end is arranged in the support sleeve, a second connecting hole transversely arranged is arranged at the upper end of the support sleeve, and the support sleeve is movably arranged in the support channel; the spring acts between the top wall of the movable channel and the bottom wall of the supporting channel; the connecting piece is connected with the second connecting hole and the first connecting hole to fix the disc connecting part at the upper end of the supporting sleeve.
7. The electric stove according to claim 6, wherein a supporting guide post is provided in the middle of the supporting channel, the supporting sleeve is movably installed in the supporting channel and movably sleeved outside the supporting guide post, and the spring is sleeved outside the supporting guide post.
8. The electric furnace according to claim 6, wherein the support housing is provided at an upper end thereof with a support receiving portion adapted to the tray connecting portion, and the second connecting hole is provided in a vertical wall of the support receiving portion.
9. The electric furnace according to claim 6, wherein vertical ribs are provided on both sides of the vertical wall of the support accommodating portion, and the tray connecting portion is accommodated between the ribs on both sides.
10. The electric furnace according to claim 6, wherein the base comprises a base shell with a cavity with an upper opening, a base cover with an upper opening for detachably covering the base shell, and a main control board arranged in the cavity, the base cover is provided with a hole for forming a port of the supporting channel, the outer ring at the lower end of the supporting sleeve is provided with a circle of limiting protruding edge, the outer diameter of the limiting protruding edge is larger than that of the port of the supporting channel, and the supporting sleeve passes through the port of the supporting channel from the lower side upwards.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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CN2022109018791 | 2022-07-28 | ||
CN202210901879 | 2022-07-28 |
Publications (1)
Publication Number | Publication Date |
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CN219045765U true CN219045765U (en) | 2023-05-19 |
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ID=85860064
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
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CN202223606878.9U Active CN218820546U (en) | 2022-07-28 | 2022-12-30 | Movement assembly and electric furnace |
CN202223606813.4U Active CN219045765U (en) | 2022-07-28 | 2022-12-30 | Shell assembly and electric stove |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
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CN202223606878.9U Active CN218820546U (en) | 2022-07-28 | 2022-12-30 | Movement assembly and electric furnace |
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CN (2) | CN218820546U (en) |
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2022
- 2022-12-30 CN CN202223606878.9U patent/CN218820546U/en active Active
- 2022-12-30 CN CN202223606813.4U patent/CN219045765U/en active Active
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CN218820546U (en) | 2023-04-07 |
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