CN220981403U - Combined furnace and connector thereof - Google Patents

Abstract

The combined furnace is characterized in that the combined furnace is provided with a hinge limiting assembly, wherein the hinge limiting assembly is arranged on the connector; the inside of the connector is provided with a hinge inner cavity, and the outside of the connector is provided with a rotary clamping column; the rotary clamping column is used for being detachably connected with a rotary clamping groove of the furnace body shell, and the rotary clamping column relatively rotates in the rotary clamping groove; the limiting seat is used for being arranged in the rotary clamping groove; the limiting seat is provided with a seat clamping plate; the limiting clamping block and the limiting elastic piece are arranged in the inner cavity of the hinge; the telescopic end of the limiting elastic piece presses one end of the limiting clamping block, the other end of the limiting clamping block extends out of the inner cavity of the hinge and is clamped to the seat clamping plate, and the rotating clamping column is limited in the rotating clamping groove. A combination oven using the connector; the problem that the fixed singleness of angle of connection and connected mode of connector and furnace body shell leads to single function, uses to restrict and use inflexible in current folding stove has been solved to this scheme.

Description

Combined furnace and connector thereof

Technical Field

The utility model relates to the field of accessories of combination furnaces, in particular to a combination furnace and a connector thereof.

Background

The existing combined pot sequentially overlaps or combines pot pieces with different functions, and the pot pieces are placed on a heating base, so that the combined pot piece or a single pot piece is heated through the heating base; however, the number of the heating bases is only one, namely, a single heating base can only heat a single pot at the same time, namely, the heating capacity of the existing heating base is single; if a plurality of pot pieces are required to be heated, a heating base is often required to be additionally arranged; therefore, the heating bases are overlapped into a whole in a space-saving manner, and the front and rear heating bases are in a separated state when being overlapped, so that the heating bases are easy to separate when being impacted, and the upper heating base is easy to break. Meanwhile, the heating bases can only be used independently, intelligent linkage does not exist between the heating bases, or electric energy cannot be provided for the other heating base through the single heating base, the heating bases are powered by independent power lines respectively, and when the heating bases are used in the field, the number of the power sockets is limited, so that the use number is limited; therefore, the problems of single function, limited use and inflexible use caused by single connection angle and single connection mode of the connector and the furnace body shell in the existing folding furnace are solved.

Disclosure of utility model

The utility model aims to provide a connector of a combined furnace, which is characterized in that a limiting clamping block and a limiting elastic piece are respectively arranged in an inner cavity of a hinge of the connector, the limiting clamping block can be movably clamped on a limiting seat of a furnace body shell under the elastic compression action of the limiting elastic piece, and not only can a rotary clamping column be ensured to be rotatably and adjustably limited on the furnace body shell, but also the rotary clamping column can be ensured to be dismounted from the furnace body shell, so that the combined furnace has a plurality of using states.

The utility model also provides a combined furnace, which uses the connector.

To achieve the purpose, the utility model adopts the following technical scheme:

The connector of the combined furnace is used for being rotatably connected with the furnace body shell and is provided with a hinge limiting assembly;

The inside of the connector is provided with a hinge inner cavity, and the outside of the connector is provided with a rotary clamping column; the rotary clamping column is used for being detachably connected with a rotary clamping groove of the furnace body shell, and the rotary clamping column relatively rotates in the rotary clamping groove;

the hinge limiting assembly includes: the device comprises a limiting seat, a limiting clamping block and a limiting elastic piece;

The limiting seat is used for being arranged in the rotary clamping groove; the limiting seat is provided with a seat clamping plate; the limiting clamping block and the limiting elastic piece are arranged in the inner cavity of the hinge; the telescopic end of the limiting elastic piece presses against one end of the limiting clamping block, the other end of the limiting clamping block extends out of the inner cavity of the hinge and is clamped with the seat clamping plate, and the rotating clamping column is limited in the rotating clamping groove.

Preferably, the hinge limiting assembly further comprises: the clamping block guide seat and the clamping driving piece are connected;

the clamping block guide seat and the clamping driving piece are arranged in the inner cavity of the hinge;

The clamping block guide seat is provided with a guide groove; the limiting clamping block is limited to move in the guide groove; the clamping driving piece drives the limiting clamping block to move in the guide groove, so that the limiting clamping block moves to be clamped or separated from the seat clamping plate.

More preferably, the clamping driving piece is provided with a driving inclined plane; the clamping driving piece moves to be close to the limiting clamping block, the limiting clamping block is driven to move through the driving inclined plane in the moving process, and the limiting clamping block is attached to the driving inclined plane to move.

Further preferably, the surface of the connector is provided with a pressing opening;

The hinge limiting assembly further comprises: pressing the elastic piece and the pressing head;

The pressing head is connected to the clamping driving piece and is movably limited at the pressing opening; the telescopic end of the pressing elastic piece is abutted against the pressing head or the clamping driving piece, so that the pressing head or the clamping driving piece is pressed towards the pressing opening.

Preferably, one end of the limiting clamping block is provided with an automatic joint; the automatic connector is used for being clamped on the seat clamping plate;

The outer diameter of the automatic connector gradually increases along the depth direction of the rotary clamping groove, and an access inclined surface is formed on the side surface of the automatic connector; the access inclined surface is used for being attached to the inner side of the rotary clamping groove to move, and the end of the access inclined surface is clamped to the seat clamping plate in the rotary clamping groove.

Preferably, a column opening is formed in the side face of the rotary clamping column; one end of the automatic connector is exposed out of the column opening and is clamped with the seat clamping plate; the two sides of the automatic joint are attached to the inner wall of the column opening.

Preferably, the limiting clamping block, the limiting elastic piece and the clamping block guide seat form a clamping unit, a plurality of clamping units are arranged in the same inner cavity of the hinge, and each clamping unit is arranged corresponding to one of the rotating clamping columns; the clamping driving piece drives the limiting clamping blocks of the clamping units to move at the same time.

Optimally, the method further comprises: a wire assembly;

The wire assembly includes: an electric male seat and a built-in wire;

The electric coupling male seat is arranged on the connector; the electric connection type connector comprises a connector body and a plurality of electric connection public seats, wherein the electric connection public seats are arranged in a plurality of mode and correspond to rotating clamping columns in the connector respectively, and the electric connection public seats are in communication connection or conductive connection through built-in wires.

A combination oven, comprising: a furnace body shell and a connector of the combined furnace;

The furnace body shell is provided with symmetrically distributed rotating clamping grooves; the rotating clamping column is detachably connected to the rotating clamping groove, and the rotating clamping column relatively rotates to the rotating clamping groove; the connectors are respectively positioned on two opposite sides of the furnace body shell.

Compared with the prior art, one of the technical schemes has the following beneficial effects:

The utility model provides a connector of combination stove, it installs spacing fixture block and spacing elastic component in the hinge inner chamber of connector respectively, spacing fixture block is under the elasticity compaction effect of spacing elastic component, can adjust the joint in the spacing seat of furnace body shell movably, can ensure to rotate the card post and keep rotationally adjusting spacing in the furnace body shell, also can ensure to rotate the card post and can dismantle in the furnace body shell, thereby make the combination stove have a plurality of service conditions, the fixed singleness of connector and furnace body shell's angle of connection and connected mode in the current folding stove leads to the function singleness, use is restricted and use inflexible problem.

Drawings

FIG. 1 is a schematic diagram of one embodiment of a connector;

FIG. 2 is a schematic view of the use state structure of one embodiment of the combination furnace;

FIG. 3 is a schematic view of the use state structure of one embodiment of the combination furnace;

FIG. 4 is a schematic view of the use state structure of one embodiment of the combination furnace;

FIG. 5 is a schematic view of one embodiment of a combination hinge spacing assembly and wire assembly;

FIG. 6 is a schematic view of an exploded construction of one embodiment of a connector;

Fig. 7 is a schematic cross-sectional view of one embodiment of a connector.

Wherein:

a connector 1; a furnace body housing 2; a hinge limiting assembly 3; a wire assembly 4 and a motor mechanism 5;

rotating the clamping column 11; a pressing port 12; the rotation clamping groove 21; a hinge inner cavity 10; a pillar opening 101;

A limit seat 31, a limit clamping block 32 and a limit elastic piece 33; the clamping block guide seat 34 is clamped with the driving piece 35; a pressing elastic member 36 and a pressing head 37;

A seat clamping plate 311; a guide groove 341; a driving ramp 351; an automatic joint 321; an access inclined surface 322;

An electric coupling male seat 41, an electric coupling female seat 42 and a built-in wire 43; a conductive post 44; a conductive spring 45; an electrically conductive curved surface 451.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly, for distinguishing between the descriptive features, and not sequentially, and not lightly. In the description of the present utility model, unless otherwise indicated, the meaning of "plurality" is two or more.

As shown in fig. 1-7, a connector 1 of a combination furnace is used for rotatably connecting with a furnace body shell 2, and a hinge limiting assembly 3 is arranged on the connector 1;

the inside of the connector 1 is provided with a hinge inner cavity 10, and the outside of the connector 1 is provided with a rotary clamping column 11; the rotating clamping column 11 is detachably connected to a rotating clamping groove 21 of the furnace body shell 2, and the rotating clamping column 11 relatively rotates to the rotating clamping groove 21;

the hinge limiting assembly 3 comprises: the limiting seat 31, the limiting clamping block 32 and the limiting elastic piece 33;

The limiting seat 31 is used for being installed in the rotary clamping groove 21; the limiting seat 31 is provided with a seat clamping plate 311; the limiting clamping block 32 and the limiting elastic piece 33 are arranged in the hinge inner cavity 10; the telescopic end of the limiting elastic piece 33 is pressed against one end of the limiting clamping block 32, and the other end of the limiting clamping block 32 extends out of the hinge inner cavity 10 and is clamped with the seat clamping plate 311, so that the rotating clamping column 11 is limited in the rotating clamping groove 21.

The utility model provides a connector 1 of combination furnace, it installs spacing fixture block 32 and spacing elastic component 33 in the hinge inner chamber 10 of connector 1 respectively, spacing fixture block 32 is under the elasticity compact action of spacing elastic component 33, can adjust the spacing seat 31 of movably joint in furnace body shell 2, can ensure to rotate the card post 11 and keep rotationally adjusting spacing in furnace body shell 2, also can ensure to rotate card post 11 and can dismantle in furnace body shell 2, thereby make the combination furnace have a plurality of service conditions, the fixed singleness of connector and furnace body shell's angle of connection and connected mode in the current folding furnace leads to the function singleness, the use is restricted and the inflexible problem of use has been solved.

The connector 1 connects two furnace body shells 2 into a whole, the furnace body shells 2 are connected with the connector 1 through the rotary clamping columns 11 and the rotary clamping grooves 21, and the rotary clamping columns 11 can be detached from the rotary clamping grooves 21, so that the two furnace body shells 2 are separated from the connector 1 respectively; the rotary clamping column 11 can be rotationally limited in the rotary clamping groove 21 so as to enable the furnace body shell 2 to rotate to be overlapped into a whole or enable the furnace body shell 2 to rotate to be horizontally unfolded, thereby enriching the use state of the furnace, being capable of meeting the use under different scenes and solving the problems of single function, limited use and inflexible use caused by single structure of the existing folding furnace.

Specifically, one end of the furnace body shell 2 can be provided with a rotary clamping groove 21 according to the requirement, and the connector 1 is correspondingly provided with a rotary clamping column 11; in one of the use states, the furnace body shell 2 and the connector 1 are in a separated state, as shown in fig. 2, the furnace body shell 2 can be used in a separated mode, and the use state can enable the position distance of the combined furnace to be unlimited. When a plurality of furnace body shells 2 are required to be used simultaneously, the furnace body shells 2 and the connector 1 can be combined, specifically, only the rotating clamping column 11 is required to be installed in the rotating clamping groove 21, so that the two furnace body shells 2 can be connected into a whole in a relatively rotatable manner through the connector 1, as shown in fig. 3; in one of the usage states, the furnace body shells 2 relatively rotate to be horizontally unfolded, so that the two furnace body shells 2 are in the same straight line or parallel state, and a user can directly use the two furnace body shells 2 at the same time, as shown in fig. 3; in one use state, the furnace body shells 2 relatively rotate to a superposition state, that is, one of the furnace body shells 2 is superposed on the surface of the other furnace body shell 2, as shown in fig. 4, the state is convenient for the storage and carrying of the furnace body shells 2, and the furnace body shells 2 positioned at the top of the superposition structure can also be directly and conveniently used by a user. So, furnace body shell 2 of this scheme can select three kinds of different service conditions as required, has enriched the service condition of stove, can satisfy the use under the different scenes, has solved current folding stove structure singleness and has led to the function singleness, use limited and use inflexible problem. When the connector 1 is respectively connected with the two furnace body shells 2, the rotary clamping column 11 can be limited in the rotary clamping groove 21; specifically, one end of the limit clip 32 abuts against the telescopic end of the limit elastic member 33; the limiting elastic piece 33 has elastic force, and can press one end of the limiting clamping block 32, for example, the limiting elastic piece is pressed on the inner wall of the rotating clamping column 11 or the rotating clamping groove 21, for example, one telescopic end of the limiting elastic piece 33 is contacted with the limiting clamping block 32, and the other telescopic end is contacted with the inner wall; the mounting position of the limiting elastic piece 33 can be designed according to the requirement, and the limiting elastic piece is only required to be kept elastically pressed to clamp the limiting clamping block to the seat clamping plate 311; in this way, the limiting clamping block 32 is always clamped to the seat clamping plate 311 of the limiting seat 31, so that the limiting seat 31 is connected with the limiting clamping block 32, and the rotating clamping column 11 is limited to the rotating clamping groove 21. When the connector 1 needs to be removed, the adjusting and limiting clamping block 32, the limiting elastic piece 33 or the seat clamping plate 311 can be moved, so that the adjusting and limiting clamping block 32 and the seat clamping plate 311 are separated, and the rotating clamping column 11 is separated from the rotating clamping groove 21.

The oven housing 2 is a well-known oven body having a cooking function, such as an induction cooker, a gas oven, an electric heating oven, and the like. The spacing elastic member 33 is a known elastic mechanism such as a spring, an elastic band, a rubber band, or the like.

Preferably, the hinge limiting assembly 3 further comprises: a clamping block guide seat 34 and a clamping driving piece 35;

The clamping block guide seat 34 and the clamping driving piece 35 are arranged in the hinge inner cavity 10;

The fixture block guide seat 34 is provided with a guide groove 341; the limiting clamping block 32 is limited to move in the guide groove 341; the locking driving member 35 drives the limiting block 32 to move in the guiding groove 341, so that the limiting block 32 moves to be locked or disengaged from the seat clamping plate 311.

The clamping driving piece 35 can be directly or indirectly connected or contacted with the limiting clamping block 32, so long as the limiting clamping block 32 is driven to move in the guide groove 341; the guide groove 341 can provide a guiding function for the limit clamping block 32, so that the limit clamping block 32 is guided to move along the length direction of the guide groove 341, the limit clamping block 32 is clamped on the seat clamping plate 311 at one end of the guide groove 341, and the limit clamping block 32 is separated from the seat clamping plate 311 at the other end of the guide groove 341; therefore, the limiting clamping block 32 can be controlled to move to be clamped or separated from the seat clamping plate 311 only by driving the limiting clamping block 32 to move through the clamping driving piece 35.

More preferably, the clamping driving member 35 is provided with a driving inclined surface 351; the clamping driving piece 35 moves to be close to the limiting clamping block 32, and drives the limiting clamping block 32 to move through the driving inclined plane 351 in the moving process, and the limiting clamping block 32 moves close to the driving inclined plane 351.

When the clamping driving piece 35 moves towards the limit clamping block 32, the clamping driving piece can drive the limit clamping block 32 to move through the driving inclined surface 351; specifically, when the clamping driving member 35 moves towards the direction of the limit clamping block 32, the driving inclined surface 351 moves towards the direction of the limit clamping block 32, for example, in fig. 5, the driving inclined surface 351 is provided with a section extending towards the guide groove 341 in addition to a vertical section, so that the driving inclined surface 351 can drive the limit clamping block 32 to move in the moving process, and the limit clamping block 32 moves against the driving inclined surface 351, so that the limit clamping block 32 overcomes the pressure of the limit elastic member 33 to do work, and the limit elastic member 33 contracts; meanwhile, when the clamping driving member 35 is separated from the limiting clamping block 32, the driving inclined surface 351 is separated from the limiting clamping block 32, the clamping driving member 35 is reset under the elastic recovery action of the limiting elastic member 33, and the limiting elastic member 33 compresses the limiting clamping block 32 again.

Further preferably, the surface of the connector 1 is provided with a pressing opening 12;

The hinge limiting assembly 3 further comprises: a pressing elastic member 36 and a pressing head 37;

The pressing head 37 is connected to the clamping driving piece 35, and the pressing head 37 is movably limited at the pressing opening 12; the telescopic end of the pressing elastic member 36 abuts against the pressing head 37 or the clamping driving member 35, so that the pressing head 37 or the clamping driving member 35 is pressed against the pressing opening 12.

The pressing head 37 is exposed on the outer surface of the connector 1, and when the connector 1 needs to be disassembled from the furnace body shell 2, in one embodiment, only the pressing head 37 of the pressing opening 12 on the surface of the connector 1 is needed to press the connector 1, so that the furnace body shell 2 and the connector 1 can be separated; the pressing head 37 drives the clamping driving piece 35 to move, so that the limiting clamping block 32 is separated from the seat clamping plate 311, and in the moving process of the clamping driving piece 35, the pressing elastic piece 36 always presses the pressing head or the clamping driving piece 35 to the pressing opening 12, so that the pressing head 37 or the clamping driving piece 35 works against the elastic force of the pressing elastic piece 36 when moving, and finally the furnace body shell 2 and the connector 1 are separated; after the furnace shell 2 needs to be disassembled, in one embodiment, after the pressure to the pressing head 37 is removed, the pressing elastic piece 36 is elastically restored to drive the pressing head or the clamping driving piece 35 to reset, so that the pressing head 37 is finally reset to be exposed out of the pressing opening 12.

The pressing elastic member 36 is a mechanism having a known elastic force, such as a spring, an elastic band, a rubber band, or the like.

Optimally, one end of the limiting clamping block 32 is provided with an automatic joint 321; the automatic connector 321 is used for being clamped to the seat clamping plate 311;

the outer diameter of the automatic joint 321 gradually increases along the depth direction of the rotary clamping groove 21, and an access inclined surface 322 is formed on the side surface of the automatic joint 321; the insertion inclined surface 322 is used for moving along the inner side of the rotation clamping groove 21, and is clamped to the seat clamping plate 311 in the rotation clamping groove 21 through the tail end of the insertion inclined surface 322.

The limit clamping block 32 is clamped to the seat clamping plate 311 through an automatic joint 321, the outer diameter of the automatic joint 321 is gradually increased along the depth direction of the rotary clamping groove 21, namely, the access inclined surface 322 is a small-diameter end at the first extending end and a large-diameter end at the last extending end, and the access inclined surface 322 is formed between the two ends; when the automatic joint 321 gradually stretches into the rotary clamping groove 21, the connecting inclined surface 322 can provide a guiding function for the automatic joint 321; as the small diameter end of the automatic joint 321 gradually stretches in, the automatic joint 321 is most easily connected; when the inner wall of the opening of the rotary clamping groove 21 is provided with a protruding structure, the access inclined surface 322 is attached to the protruding structure, the protruding structure drives the limit clamping block 32 to move through the access inclined surface 322, so that the limit clamping block 32 is driven to overcome the pressure of the limit elastic piece 33 to do work, the access inclined surface 322 can be adaptively adjusted under the elastic compaction effect of the limit elastic piece 33, the end position of the access inclined surface 322, which moves to the end position of the rotary clamping groove 21, is clamped to the seat clamping plate 311 through the end of the access inclined surface 322, and the limit clamping block 32 can be automatically clamped to the rotary clamping groove 21 under the condition that no external force presses the limit clamping block 32, so that the automatic limit of the installation of the furnace body shell 2 and the connector 1 is realized.

Preferably, a column opening 101 is formed on the side surface of the rotation clamping column 11; one end of the automatic connector 321 is exposed from the pillar opening 101 and is clamped to the seat clamping plate 311; the two sides of the automatic joint 321 are attached to the inner wall of the pillar opening 101.

In the most preferred embodiment, the limit clamping block 32, the limit elastic piece 33, the clamping block guide seat 34 and the clamping driving piece 35 are installed on the connector 1, and the limit seat 31 is installed on the rotating clamping groove 21; when the rotary clamping column 11 stretches into the rotary clamping groove 21, the limit clamping block 32 can be exposed through the column opening 101 at the side part of the rotary clamping column 11, and the limit clamping block 32 stretches out of the column opening 101 under the compression action of the limit elastic piece 33 and is clamped with the seat clamping plate 311 of the rotary clamping groove 21, so that the furnace body shell 2 and the connector 1 are connected with each other; the driving clamping driving piece 35 is driven to move, and the limiting clamping block 32 can be driven to move, so that one end of the limiting clamping block 32 is separated from the seat clamping plate 311, and the furnace body shell 2 and the connector 1 can be separated. Meanwhile, as the single connector 1 is provided with two rotary clamping columns 11 at the same time, the connector 1 is provided with column openings 101 at the side surfaces of the two rotary clamping columns 11 respectively, so that the two furnace body shells 2 can be clamped at the same time, and the connection stability is improved. The two sides of the automatic joint 321 are attached to the inner wall of the pillar opening 101, and the inner wall of the pillar opening 101 can provide guiding function for the telescopic movement of the automatic joint 321, so that the same moving track of the automatic joint 321 each time is ensured, and the moving stability of the automatic joint 321 is improved.

Further preferably, the limiting clamping block 32, the limiting elastic piece 33 and the clamping block guide seat 34 form a clamping unit, a plurality of clamping units are installed in the same hinge inner cavity 10, and each clamping unit is arranged corresponding to one of the rotating clamping columns 11; the clamping driving member 35 drives the limiting clamping blocks 32 of a plurality of clamping units to move at the same time.

Each clamping unit corresponds to one of the rotary clamping columns 11, namely corresponds to one furnace body shell 2, so that the connector 1 can be provided with two clamping units; the spacing fixture blocks 32 of different clamping units are driven by the same clamping driving piece 35 to move, namely, a plurality of spacing fixture blocks 32 are contacted with the driving inclined plane 351 of the clamping driving piece 35, and the spacing fixture blocks 32 can be driven to synchronously move only by taking the clamping driving piece 35 as a single driving source, so that the spacing fixture blocks 32 are simultaneously clamped or separated from the seat fixture plates 311 of different connectors 1, the structure is simpler, and the use is more ingenious.

Preferably, the method further comprises: a wire assembly 4;

The wire assembly 4 includes: an electrical coupling socket 41 and a built-in wire 43;

The electric coupling seat 41 is mounted on the connector 1; the plurality of electrically coupled sockets 41 are respectively arranged corresponding to the rotating clamping columns 11 in the connector 1, and the electrically coupled sockets 41 are in communication connection or conductive connection through the built-in wires 43.

In some embodiments, the electric mechanisms 5 are respectively arranged on the furnace body shell 2; wherein the power utilization mechanism 5 is a device used by the oven housing 2 to realize certain cooking functions during cooking, such as a general power supply element, a power utilization element or a data interaction element, etc., such as a heating device, a radiator fan, a circuit board, a control panel, a transformer, a timer, etc.; the electric coupling female seat 42 is arranged on the furnace body shell 2, and the electric coupling female seat 42 is electrically connected with the electric mechanism 5; the electric coupling male seats 41 are mounted on the connector 1, and each electric coupling male seat 41 corresponds to at least one rotary clamping column 11 or rotary clamping groove 21; for example, in fig. 5, the electrical connectors 41 are respectively disposed corresponding to the rotating clamping posts 11 of the connector 1, and two adjacent electrical connectors 41 are connected by a built-in wire 43; so, when rotating draw-in groove 21 is inserted to rotation draw-in column 11, link to each other between first furnace body shell 2, connector 1 and the second furnace body shell 2, female seat 42 of electricity federation, public seat 41 of electricity federation, built-in wire 43, public seat 41 of electricity federation and female seat 42 of electricity federation link to each other in proper order, built-in wire 43 can carry out functions such as circular telegram, power supply, data transmission and synchronous control between two furnace body shells 2 to interconnectivity between the furnace body shell 2 has further been improved, and is more nimble during the use. Especially for the embodiment that the connectors 1 are arranged on two sides of the furnace body shell 2, the two connectors 1 further improve the connection sites between the furnace body shells 2, and the different electric using mechanisms 5 are combined to be distributed in the furnace body shell 2, so that the electric using mechanisms 5 in the two furnace body shells 2 are distributed more flexibly, and are not concentrated near the single connector 1.

Further preferably, one of the electric coupling male seat 41 and the electric coupling female seat 42 is provided with a conductive post 44 at the rotating clamping post 11, and the other one of the electric coupling male seat and the electric coupling female seat is provided with a conductive spring piece 45 at the rotating clamping groove 21; the two ends of the conductive spring piece 45 are fixed; the two ends of the conductive spring piece 45 tilt towards the direction of the rotary clamping column 11 to form a conductive curved surface 451;

the conductive curved surface 451 has elasticity, and the conductive curved surface 451 elastically contacts the outer side of the conductive pillar 44.

The two ends of the conductive spring piece 45 are fixed, for example, on the inner wall inside the furnace body shell 2, the inner wall inside the connector 1, or the main body of the electric connection mother base 42. The conductive spring 45 is made of metal, and has certain elasticity when in a sheet shape, such as a conductive copper sheet; the two ends of the conductive spring piece 45 are tilted up to form a conductive curved surface 451 with elasticity; when the rotating clamping column 11 stretches into the rotating clamping groove 21, the conductive column 44 enables the conductive curved surface 451 to bend to a certain extent, and the conductive curved surface 451 deforms and is pressed on the outer surface of the conductive column 44, so that the connection tightness between the conductive column 44 and the conductive elastic sheet 45 is improved.

A combination oven, comprising: a furnace body shell 2 and a connector 1 of the combined furnace;

The furnace body shell 2 is provided with symmetrically distributed rotary clamping grooves 21; the rotating clamping column 11 is detachably connected to the rotating clamping groove 21, and the rotating clamping column 11 relatively rotates to the rotating clamping groove 21; the connectors 1 are respectively positioned on two opposite sides of the furnace body shell 2.

The connector 1 can be arranged on one side of the furnace body shell 2 according to the requirement; in the optimal embodiment, the connectors 1 are arranged on two sides of the furnace body shell 2, so that the connection of the two furnace body shells 2 can be more stable, and the furnace body shells 2 are prevented from being separated from the connectors 1; meanwhile, both sides of the furnace body shell 2 can rotate along the rotating clamping columns 11 of the side connector 1 as rotating shafts, so that the rotating smoothness and the rotating stability of the furnace body shell 2 are improved.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. The connector of the combined furnace is used for being rotatably connected with the furnace body shell and is characterized in that a hinge limiting assembly is arranged;

The inside of the connector is provided with a hinge inner cavity, and the outside of the connector is provided with a rotary clamping column; the rotary clamping column is used for being detachably connected with a rotary clamping groove of the furnace body shell, and the rotary clamping column relatively rotates in the rotary clamping groove;

the hinge limiting assembly includes: the device comprises a limiting seat, a limiting clamping block and a limiting elastic piece;

The limiting seat is used for being arranged in the rotary clamping groove; the limiting seat is provided with a seat clamping plate; the limiting clamping block and the limiting elastic piece are arranged in the inner cavity of the hinge; the telescopic end of the limiting elastic piece presses against one end of the limiting clamping block, the other end of the limiting clamping block extends out of the inner cavity of the hinge and is clamped with the seat clamping plate, and the rotating clamping column is limited in the rotating clamping groove.

2. The combination oven connector of claim 1, wherein the hinge limiting assembly further comprises: the clamping block guide seat and the clamping driving piece are connected;

the clamping block guide seat and the clamping driving piece are arranged in the inner cavity of the hinge;

The clamping block guide seat is provided with a guide groove; the limiting clamping block is limited to move in the guide groove; the clamping driving piece drives the limiting clamping block to move in the guide groove, so that the limiting clamping block moves to be clamped or separated from the seat clamping plate.

3. The connector of claim 2, wherein the clamping driving member is provided with a driving inclined surface; the clamping driving piece moves to be close to the limiting clamping block, the limiting clamping block is driven to move through the driving inclined plane in the moving process, and the limiting clamping block is attached to the driving inclined plane to move.

4. A connector for a combination oven according to claim 3, wherein the surface of the connector is provided with a pressing port;

The hinge limiting assembly further comprises: pressing the elastic piece and the pressing head;

The pressing head is connected to the clamping driving piece and is movably limited at the pressing opening; the telescopic end of the pressing elastic piece is abutted against the pressing head or the clamping driving piece, so that the pressing head or the clamping driving piece is pressed towards the pressing opening.

5. The connector of claim 4, wherein one end of the limit block is provided with an automatic joint; the automatic connector is used for being clamped on the seat clamping plate;

The outer diameter of the automatic connector gradually increases along the depth direction of the rotary clamping groove, and an access inclined surface is formed on the side surface of the automatic connector; the access inclined surface is used for being attached to the inner side of the rotary clamping groove to move, and the end of the access inclined surface is clamped to the seat clamping plate in the rotary clamping groove.

6. The connector of claim 5, wherein the side of the rotating clamping post is provided with a post opening; one end of the automatic connector is exposed out of the column opening and is clamped with the seat clamping plate; the two sides of the automatic joint are attached to the inner wall of the column opening.

7. The connector of claim 4, wherein the limiting clamping block, the limiting elastic piece and the clamping block guide seat form a clamping unit, a plurality of clamping units are arranged in the same hinge inner cavity, and each clamping unit is arranged corresponding to one of the rotating clamping columns; the clamping driving piece drives the limiting clamping blocks of the clamping units to move at the same time.

8. The combination oven connector of any one of claims 1-7, further comprising: a wire assembly;

The wire assembly includes: an electric male seat and a built-in wire;

The electric coupling male seat is arranged on the connector; the electric connection type connector comprises a connector body and a plurality of electric connection public seats, wherein the electric connection public seats are arranged in a plurality of mode and correspond to rotating clamping columns in the connector respectively, and the electric connection public seats are in communication connection or conductive connection through built-in wires.

9. A combination oven, comprising: a furnace body housing and a connector for a combination furnace as claimed in any one of claims 1 to 8;

The furnace body shell is provided with symmetrically distributed rotating clamping grooves; the rotating clamping column is detachably connected to the rotating clamping groove, and the rotating clamping column relatively rotates to the rotating clamping groove; the connectors are respectively positioned on two opposite sides of the furnace body shell.