CN219397048U

CN219397048U - Anti-fogging integrated soybean milk machine

Info

Publication number: CN219397048U
Application number: CN202320164643.4U
Authority: CN
Inventors: 顾宣丰
Original assignee: Zhongshan Kuaite Electrical Appliances Co ltd
Current assignee: Zhongshan Kuaite Electrical Appliances Co ltd
Priority date: 2023-01-18
Filing date: 2023-01-18
Publication date: 2023-07-25
Anticipated expiration: 2033-01-18

Abstract

The utility model relates to an anti-fogging integrated soymilk machine, which comprises a main machine component, an outer cover component and a main control board electrically connected with an electric component of the main machine component, wherein a power socket electrically connected with the main control board is arranged on the outer cover component; according to the soymilk machine, the socket sealing ring enables the whole machine to cover the inner barrel and the outer shell to form the airtight cavity, so that air in the airtight cavity and outside air are prevented from convection through the mounting port and the avoiding port, and the outer cover is prevented from drilling and fogging.

Description

Anti-fogging integrated soybean milk machine

Technical Field

The utility model relates to the field of soymilk machines, in particular to an anti-fogging integrated soymilk machine.

Background

The prior art of the current soymilk machine, such as Chinese patent literature, has the following patent numbers: CN 202020291537.9, a food processor with good assembly effect, the technical scheme disclosed by the soymilk machine mainly comprises: the inner cup assembly comprises an inner cup, a mounting frame and a motor, wherein the mounting frame is positioned below the inner cup and is arranged on the inner cup, and the motor is positioned below the mounting frame and is arranged on the mounting frame; the motor is positioned below the mounting frame and is mounted on the mounting frame; and the inner cup assembly is arranged in the outer cup from the cup opening of the outer cup. In the soymilk machine with the structure, only a single outer cup of the inner cup assembly is arranged on the outer side for heat insulation and noise reduction, so that the heat insulation and noise reduction effect of the soymilk machine is not ideal, the applicant provides a new scheme for heat insulation and noise reduction of the inner cup assembly by forming a closed cavity through the outer cup on the basis of combining the existing structure through improvement and perfection of the structure, the novel scheme is used for consumers to select and use, and the problem that the tightness of the closed cavity can be damaged when the outer cup is assembled with a power socket is solved on the basis.

Disclosure of Invention

The utility model aims to solve the existing problems and provide an anti-fogging integrated soymilk machine which is simple and reasonable in structure, and has the main effects of being capable of insulating heat and reducing noise for the soymilk machine, sealing an installation port and an avoidance port of an assembly power socket and ensuring the tightness of a sealing cavity.

The utility model provides an anti-fogging integrated soybean milk machine, includes host computer subassembly, dustcoat subassembly and the main control board that is connected with the power consumption part electricity of host computer subassembly, be provided with the power socket who is connected with the main control board electricity on the dustcoat subassembly, the dustcoat subassembly includes inner tube and the shell of being connected with the host computer subassembly, the shell nestification is in the outside of inner tube, and forms the airtight chamber of encircleing at host computer subassembly week side with the inner tube between; the shell and the inner cylinder are respectively provided with a mounting opening and an avoidance opening corresponding to the socket sealing ring, a through channel separated from the closed cavity is formed between the mounting opening and the avoidance opening through the socket sealing ring, and the power socket is assembled and connected in the through channel.

The aim of the utility model can be also solved by adopting the following technical measures:

as a more specific scheme, the outer side surface of the inner cylinder is extended with a positioning ring surrounding the periphery of the avoidance opening, the socket sealing ring is detachably sleeved on the positioning ring, and the outer end of the socket sealing ring elastically abuts against the inner side surface of the shell.

As a further scheme, the upper end part and the lower end part of the inner cylinder are respectively sleeved with an upper sealing ring and a lower sealing ring, and sealing parts of the upper sealing ring and the lower sealing ring are elastically propped against the inner wall of the shell and limit a closed cavity between the upper sealing ring and the lower sealing ring.

As a further scheme, the host computer subassembly includes the motor of being connected with the main control board electricity, the mounting bracket of being connected with the inner tube and has the cup of smashing the chamber, cup assembly connection is in the mounting bracket top, and forms the insulating layer with between the inner tube, motor assembly connection is in the mounting bracket below, and the pivot on the motor runs through the cup diapire and stretches into smashing the intracavity and be connected with crushing knife tackle, main control board fixed mounting is in one side of motor.

As a further scheme, the host assembly further comprises a bottom shell, the bottom shell is arranged below the motor and is in assembly connection with the mounting frame, the main control board is clamped between the mounting frame and the bottom shell, the edge of the bottom shell is provided with a concave stop part, and the bottom edge of the shell is provided with a convex stop part in assembly connection with the concave stop part.

As a further scheme, the shell comprises an outer cylinder which is arranged at intervals with the inner cylinder, and a collar assembled and connected with the upper end part of the outer cylinder; the rim of the cup body extends outwards, and after the bottom shell is assembled and connected with the shell, the top edge of the collar is pressed and held on the rim.

As a further proposal, an elastic shock pad is arranged between the collar and the lapping edge, and the elastic shock pad extends inwards and makes the upper end part of the inner cylinder close to or pressed against the elastic shock pad.

As a further scheme, the upper end part of the outer cylinder is extended with an external thread ring, the lower end part of the collar is correspondingly provided with an internal thread part, and the outer cylinder is assembled and connected with the collar through the matching of the external thread ring and the internal thread part.

As a further scheme, a plurality of connecting lugs which are arranged at equal intervals transversely extend on the inner peripheral wall of the inner cylinder, and through holes are formed in the connecting lugs; the cup body is arranged above the connecting lug and is provided with an upper connecting hole corresponding to the through hole, the mounting frame is arranged below the connecting lug and is provided with a lower connecting hole corresponding to the through hole, and the cup body, the inner barrel and the mounting frame are mutually assembled and connected by penetrating the lower connecting hole, the through hole and the upper connecting hole through the fastening unit.

As a further scheme, the cup includes cup, dish and bowl cover generate heat, the cup passes through screw thread portion to be connected in cup bottom, the dish that generates heat is arranged in between cup and the cup, and is connected through cup and the cup and hold the lower opening part at the cup with the dish pressure that generates heat, bowl cover movable cover is established in cup rim of a cup department, and motor and cup assembly connection, the pivot on the motor runs through the dish that generates heat and stretches into crushing intracavity.

The beneficial effects of the utility model are as follows:

(1) According to the anti-fogging integrated soymilk machine, the heat insulation layer and the airtight cavity are formed by the inner cylinder and the outer shell which are arranged in a covering manner, the heat insulation layer and the inner cylinder are used for insulating heat of the cup body and the heating disc, heat is reduced or isolated from being transmitted to the outer shell, noise generated by high-speed rotation of the smashing knife set and the motor is reduced through the airtight cavity and the outer shell, and the soymilk machine is enabled to be more silent when in operation, so that the use experience of a user on the soymilk machine is improved.

(2) According to the anti-fogging integrated soymilk machine, the through channel for assembling the power socket is formed between the shell and the inner barrel through the socket sealing ring, so that the sealing performance of the sealed cavity can be kept, the air in the sealed cavity is prevented from continuously carrying out convection exchange with the outside air through the avoiding port and the mounting port, the air which does not circulate in the sealed cavity can be kept dry, the outer cover component can be prevented from having a fogging phenomenon when the soymilk machine works and heats, and a series of safety problems such as condensed water in the sealed cavity and condensed water drops to contact the power socket are avoided.

Drawings

Fig. 1 is a schematic cross-sectional view of the present utility model.

Fig. 2 is an enlarged schematic view of the structure C in fig. 1.

Fig. 3 is a schematic cross-sectional view of the second embodiment of the present utility model.

Fig. 4 is an enlarged schematic view of the structure of fig. 3 at D.

Fig. 5 is an enlarged schematic view of fig. 3 at E.

Fig. 6 is a schematic view of an exploded structure of the present utility model.

Detailed Description

The utility model will be further described with reference to the drawings and examples.

As shown in fig. 1 to 6: the utility model provides an anti-fogging integrated soymilk machine, includes host computer subassembly 1, dustcoat subassembly and with host computer subassembly 1 power consumption part electricity connection's main control board 2, be provided with on the dustcoat subassembly with main control board 2 electricity connection's power socket 3, dustcoat subassembly includes inner tube 4 and shell 5 that are connected with host computer subassembly 1, shell 5 nest in the outside of inner tube 4, and form airtight chamber A around host computer subassembly 1 week side with between inner tube 4; noise generated by the main machine component is reduced through the closed cavity and the shell, so that the soymilk machine is more silent when in work, and the use experience of a user on the soymilk machine is improved;

a socket sealing ring 6 is elastically abutted between the shell 5 and the inner cylinder 4, a mounting port 501 and an avoiding port 401 are respectively formed between the shell 5 and the inner cylinder 4 corresponding to the socket sealing ring 6, a through channel 601 separated from the closed cavity A is formed between the mounting port 501 and the avoiding port 401 through the socket sealing ring 6, and the power socket 3 is assembled and connected in the through channel 601;

the through channel 601 enables the airtight cavity a to maintain tightness, prevents air in the airtight cavity a from continuously performing convection exchange with external air through the avoiding port 401 and the mounting port 501, enables air not flowing in the airtight cavity a to be kept dry, and avoids a series of safety problems that condensed water is generated in the airtight cavity a and drops into contact with the power socket 3 when the soymilk machine works and heats;

a positioning ring 402 surrounding the periphery of the avoidance port 401 extends on the outer side surface of the inner cylinder 4, the socket sealing ring 6 is detachably sleeved on the positioning ring 402, and the outer end of the socket sealing ring 6 elastically abuts against the inner side surface of the shell 5; the cross section of the socket sealing ring 6 is U-shaped, the socket sealing ring 6 with the structure is positioned and connected through the positioning ring 402, the structure is simple, the assembly and the disassembly are convenient, and the production cost is low.

The upper end part and the lower end part of the inner cylinder 4 are respectively sleeved with an upper sealing ring 7 and a lower sealing ring 8, the sealing parts of the upper sealing ring 7 and the lower sealing ring 8 are elastically propped against the inner wall of the shell 5, and a closed cavity A is limited between the upper sealing ring 7 and the lower sealing ring 8;

in addition, the upper end part and the lower end part of the inner cylinder 4 are provided with sealing positioning grooves, the upper sealing ring 7 and the lower sealing ring 8 are sleeved on the sealing positioning grooves, and the upper sealing ring 7 and the lower sealing ring 8 can be positioned through the sealing positioning grooves to prevent the upper sealing ring 7 and the lower sealing ring 8 from moving or loosening.

The main machine assembly 1 comprises a motor 9 electrically connected with the main control board 2, a mounting frame 10 connected with the inner cylinder 4 and a cup body 11 provided with a crushing cavity 1103, wherein the cup body 11 is assembled and connected above the mounting frame 10 and forms a heat insulation layer B with the inner cylinder 4, the motor 9 is assembled and connected below the mounting frame 10, a rotating shaft on the motor 9 penetrates through the bottom wall of the cup body 11, extends into the crushing cavity 1103 and is connected with a crushing cutter set 12, and the main control board 2 is fixedly assembled on one side of the motor 9; the cup 11 and the heating plate are insulated by the insulating layer B and the inner cylinder 4, so that heat transfer to the shell 5 is reduced or insulated.

In this embodiment, the sealed cavity a surrounds the lower half of the cup 11, mainly for the position of the crushing cutter set 12, and surrounds the whole motor 9 (except for the cooling fan connected to the lower end of the rotating shaft), so that the whole motor 9 is subjected to sound insulation and noise reduction.

The host assembly 1 further comprises a bottom shell 13, the bottom shell 13 is arranged below the motor 9 and is assembled and connected with the mounting frame 10, the main control board 2 is clamped between the mounting frame 10 and the bottom shell 13, a concave stop part 131 is arranged at the edge of the bottom shell 13, and a convex stop part 502 assembled and connected with the concave stop part 131 is arranged at the bottom edge of the shell 5; the shell 5 is matched with the concave spigot part 131 through the convex spigot part 502, so that the bottom shell 13 can realize radial supporting effect on the lower end part of the shell 5, the shell 5 is prevented from being deformed by external force, and the interval distance between the shell 5 and the inner cylinder 4 can be kept.

The shell 5 comprises an outer cylinder 51 which is arranged at intervals with the inner cylinder 4, and a collar 52 which is assembled and connected with the upper end part of the outer cylinder 51; the sealing parts of the upper sealing ring 7 and the lower sealing ring 8 are specifically propped against the inner wall of the outer cylinder 51;

the rim 1101 extends outwards from the cup opening of the cup body 11, and after the bottom shell 13 is assembled and connected with the shell 5, the top edge of the collar 52 is pressed and held on the rim 1101; the outer cylinder 51 and the collar 52 are limited by the lapping edge 1101, so that the assembly and the fixation are realized.

The inner cylinder 4 and the outer cylinder 51 are of a cylinder structure, the inner cylinder 4 is integrally formed by plastic materials, and the outer cylinder 51 is integrally formed by plastic or glass materials; the inner cylinder 4 made of plastic can reduce heat conductivity and has a heat insulation effect, and the outer cylinder 51 made of transparent material provides a better appearance for the soymilk machine and has a good sound insulation effect.

In addition, a handle 521 is included, the joint of the handle 521 and the outer cover assembly is arranged on the collar 52, and the main body part of the handle 521 and the collar 52 are integrally formed by injection molding; the handle 521 comprises a main body and a decorative board arranged outside the main body, and can only be formed by injection molding the main body and the collar 52 into a whole due to the restriction of a mold, and the problem of air leakage of the closed cavity A caused by compression, displacement and the like of the upper sealing ring 7 and the lower sealing ring 8 when the acting force of the handle 521 is applied to the outer cylinder 51 is avoided due to the fact that the supporting point between the outer cylinder 51 and the inner cylinder 4 is less.

An elastic shock pad 14 is arranged between the collar 52 and the lapping edge 1101, and the elastic shock pad 14 extends inwards and enables the upper end part of the inner cylinder 4 to approach or press against the elastic shock pad 14; vibration generated by the operation of the motor 9 and the crushing cutter group 12 is reduced to be transmitted to the shell 5, so that the damping efficiency is realized.

An external thread ring 511 extends from the upper end of the outer cylinder 51, an internal thread part is correspondingly arranged at the lower end of the collar 52, and the outer cylinder 51 is assembled and connected with the collar 52 through the matching of the external thread ring 511 and the internal thread part; simple structure, convenient assembly and disassembly.

A plurality of connecting lugs 403 which are arranged at equal intervals transversely extend on the inner peripheral wall of the inner cylinder 4, and through holes 404 are formed in the connecting lugs 403; the cup 11 is disposed above the connection lug 403 and has an upper connection hole 1102 corresponding to the via hole 404, the mounting frame 10 is disposed below the connection lug 403 and has a lower connection hole 1001 corresponding to the via hole 404, and the fastening unit passes through the lower connection hole 1001, the via hole 404 and the upper connection hole 1102, so that the cup 11, the inner cylinder 4 and the mounting frame 10 are assembled and connected with each other; simple structure, simple to operate, production efficiency is high, can provide the support for inner tube 4.

In addition, the mounting frame 10 extends downward to form a plurality of connection posts 1002, and the bottom shell 13 is assembled and connected with the connection posts 1002 by fastening units such as screws, bolts or rivets.

The cup 11 comprises a cup body 111, a cup seat 112, a heating disc 113 and a cup cover 114, wherein the cup seat 112 is connected to the bottom of the cup body 111 through a threaded part, the heating disc 113 is arranged between the cup seat 112 and the cup body 111 and is connected with the cup body 111 through the cup seat 112 to press the heating disc 113 at the lower opening of the cup body 111, the cup cover 114 is movably covered at the cup opening of the cup body 111, the motor 9 is assembled and connected with the cup seat 112, and a rotating shaft on the motor 9 penetrates through the heating disc 113 and stretches into the crushing cavity 1103; the cup 11 with the structure has mature technology and simple assembly.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing embodiments and description merely illustrates the principles of the utility model, and that various changes and modifications may be effected therein without departing from the spirit and scope of the utility model as defined in the appended claims and their equivalents.

Claims

1. The utility model provides an anti-fogging's integral type soybean milk machine, is including host computer subassembly (1), dustcoat subassembly and with host computer subassembly (1) power consumption part electricity be connected main control board (2), be provided with on the dustcoat subassembly with main control board (2) electricity be connected power socket (3), its characterized in that: the outer cover assembly comprises an inner cylinder (4) and a shell (5) which are connected with the host assembly (1), wherein the shell (5) is nested outside the inner cylinder (4) and forms a closed cavity (A) surrounding the peripheral side of the host assembly (1) with the inner cylinder (4); elasticity supports between shell (5) and inner tube (4) has socket sealing washer (6), and installing port (501) and dodge mouthful (401) have been seted up respectively to shell (5) and inner tube (4) correspondence socket sealing washer (6), form through socket sealing washer (6) with airtight chamber (A) spaced penetrating channel (601) between installing port (501) and dodge mouthful (401), power socket (3) fit connection is in penetrating channel (601).

2. An anti-fogging integrated soymilk machine according to claim 1, characterized in that: the positioning ring (402) surrounding the periphery of the avoidance port (401) extends on the outer side surface of the inner cylinder (4), the socket sealing ring (6) is detachably sleeved on the positioning ring (402), and the outer end of the socket sealing ring (6) is elastically propped against the inner side surface of the shell (5).

3. The anti-fogging integrated soymilk machine according to claim 1, characterized in that an upper sealing ring (7) and a lower sealing ring (8) are respectively sleeved at the upper end part and the lower end part of the inner cylinder (4), sealing parts of the upper sealing ring (7) and the lower sealing ring (8) are elastically abutted against the inner wall of the shell (5), and a closed cavity (A) is limited between the upper sealing ring (7) and the lower sealing ring (8).

4. An anti-fogging integrated soymilk machine according to claim 1, characterized in that: the utility model provides a host computer subassembly (1) include motor (9) that are connected with main control board (2) electricity, mount pad (10) that are connected with inner tube (4) and have cup (11) of smashing chamber (1103), cup (11) assembled connection is in mount pad (10) top, and forms insulating layer (B) with between inner tube (4), motor (9) assembled connection is in mount pad (10) below, and pivot on motor (9) runs through cup (11) diapire and stretches into smashing chamber (1103) in and be connected with smashing knife tackle (12), main control board (2) fixed mounting is in one side of motor (9).

5. The anti-fogging integrated soymilk machine according to claim 4, wherein said main unit assembly (1) further comprises a bottom shell (13), said bottom shell (13) is arranged below the motor (9) and is assembled and connected with the mounting frame (10), said main control board (2) is clamped between the mounting frame (10) and the bottom shell (13), the edge of said bottom shell (13) is provided with a notch portion (131), and the bottom edge of said outer shell (5) is provided with a convex notch portion (502) assembled and connected with the notch portion (131).

6. The anti-fogging integrated soymilk machine according to claim 4, characterized in that the outer shell (5) comprises an outer cylinder (51) which is arranged at intervals with the inside and the outside of the inner cylinder (4) and a collar (52) assembled and connected with the upper end part of the outer cylinder (51); the cup body (11) cup rim extends outwards to form a lapping edge (1101), and after the bottom shell (13) is assembled and connected with the shell (5), the top edge of the collar (52) is pressed on the lapping edge (1101).

7. The anti-fogging integrated soymilk machine according to claim 6, characterized in that an elastic shock pad (14) is arranged between the collar (52) and the lapping edge (1101), and the elastic shock pad (14) extends inwards and enables the upper end part of the inner cylinder (4) to approach or press against the elastic shock pad (14).

8. The anti-fogging integrated soymilk machine according to claim 6, characterized in that an external thread ring (511) extends from the upper end of the outer cylinder (51), an internal thread part is correspondingly arranged at the lower end of the collar (52), and the outer cylinder (51) is assembled and connected with the collar (52) through the matching of the external thread ring (511) and the internal thread part.

9. The anti-fogging integrated soymilk machine according to claim 4, characterized in that a plurality of connecting lugs (403) which are arranged at equal intervals transversely extend on the inner peripheral wall of the inner cylinder (4), and through holes (404) are formed on the connecting lugs (403); the cup body (11) is arranged above the connecting lug (403) and corresponds to the through hole (404) to form an upper connecting hole (1102), the mounting frame (10) is arranged below the connecting lug (403) and corresponds to the through hole (404) to form a lower connecting hole (1001), and the cup body (11), the inner barrel (4) and the mounting frame (10) are mutually assembled and connected by penetrating through the lower connecting hole (1001), the through hole (404) and the upper connecting hole (1102) through the fastening unit.

10. The anti-fogging integrated soymilk machine according to claim 4, wherein the cup body (11) comprises a cup body (111), a cup seat (112), a heating disc (113) and a cup cover (114), the cup seat (112) is connected to the bottom of the cup body (111) through a threaded part, the heating disc (113) is arranged between the cup seat (112) and the cup body (111), the heating disc (113) is pressed and held at the lower opening of the cup body (111) through the connection of the cup seat (112) and the cup body (111), the cup cover (114) is movably covered at the cup opening of the cup body (111), the motor (9) is assembled and connected with the cup seat (112), and a rotating shaft on the motor (9) penetrates through the heating disc (113) and stretches into the smashing cavity (1103).