CN217389855U

CN217389855U - Yoghourt machine

Info

Publication number: CN217389855U
Application number: CN202220401295.3U
Authority: CN
Inventors: 李一峰; 邓财科; 陈明
Original assignee: Bear Electrical Appliance Co Ltd; Foshan Bear Kitchen Electric Appliance Co Ltd
Current assignee: Bear Electrical Appliance Co Ltd; Foshan Bear Kitchen Electric Appliance Co Ltd
Priority date: 2022-02-24
Filing date: 2022-02-24
Publication date: 2022-09-09
Anticipated expiration: 2032-02-24

Abstract

The utility model discloses a yogurt machine, which comprises a housin, temperature control component and hot-blast subassembly, the casing is including closing drain pan and the top cap of connecting, be equipped with the air intake on the top cap, temperature control component installs in the top cap, temperature control component includes the convection current board, the edge of convection current board extends to the inner wall of top cap, form the installation cavity that communicates in the air intake between convection current board and the top cap, form the heating cavity that is used for placing the milk container between convection current board and the drain pan, hot-blast unit mount is in the installation cavity, hot-blast subassembly communicates in air intake and heating cavity. The yogurt machine has the following beneficial effects: firstly, heat can be conducted to the milk container from the three-dimensional space, namely the milk container can be uniformly heated, so that the yogurt machine has a better heating effect; secondly, the assembly mode is convenient for assembly and production; and thirdly, hot air loss caused by the fact that hot air flows to the arrangement space of the hot air assembly can be effectively prevented.

Description

Yogurt machine

Technical Field

The utility model relates to a acidophilus milk preparation technical field especially relates to a acidophilus milk machine.

Background

The yogurt machine on the market at present mainly sets up heat-generating body and aluminum plate in the bottom of casing, and the heat-generating body is installed on aluminum plate, and the heat that the heat-generating body sent conducts the milk container through aluminum plate on to heat the milk container. However, the above method can only heat a local part of the milk container, the local temperature of the milk container is too high, the temperature of other positions of the milk container is low, and even in winter, hot water needs to be added around the milk container to make yogurt, so that the heating effect of the yogurt machine is poor.

SUMMERY OF THE UTILITY MODEL

In order to overcome at least one defect of the prior art, the utility model provides a yogurt machine to solve the poor problem of heating effect of current yogurt machine.

The embodiment of the utility model discloses a solve the technical scheme that its problem adopted, the embodiment of the utility model discloses a acidophilus milk machine, include:

the shell comprises a bottom shell and a top cover which are connected in a folding manner, and an air inlet is formed in the top cover;

the temperature control assembly is mounted in the top cover and comprises a convection plate, the edge of the convection plate extends to the inner wall of the top cover, a mounting cavity communicated with the air inlet is formed between the convection plate and the top cover, and a heating cavity used for placing a milk container is formed between the convection plate and the bottom shell; and

the hot air assembly is arranged in the installation cavity and communicated with the air inlet and the heating cavity.

Furthermore, the hot air assembly comprises a convection fan, a heating body and a fan cover, the fan cover is provided with a first air groove facing the air inlet and an air outlet communicated with the first air groove and the heating cavity, the fan cover is fixed on the top cover, the heating body is installed in the first air groove of the fan cover, and the convection fan covers the first air groove and is fixed on the fan cover.

Furthermore, be equipped with the first connecting post that has first connecting hole on the top cap, be equipped with the second connecting hole on the fan housing, first connecting hole with the second connecting hole is connected through first fastener.

Furthermore, a third connecting hole is formed in the fan cover, a fourth connecting hole is formed in the convection fan, and the third connecting hole and the fourth connecting hole are connected through a second fastening piece.

Furthermore, the temperature control assembly further comprises a circuit board which is positioned in the installation cavity and is installed on the convection plate, and the circuit board is used for controlling the hot air assembly.

Furthermore, the temperature control assembly further comprises a circuit board lower box and a circuit board upper box which are positioned in the installation cavity, the circuit board lower box is fixed on the convection plate, the circuit board upper box and the circuit board lower box are connected in a closing mode to form a circuit board installation cavity, and the circuit board is installed in the circuit board installation cavity.

Further, the temperature control assembly further comprises a temperature sensor, the temperature sensor is arranged on the convection plate and electrically connected to the circuit board, and the temperature sensor is used for collecting temperature data information in the heating cavity and transmitting the collected temperature data information to the circuit board.

Furthermore, a second connecting column with a fifth connecting hole is arranged on the top cover, a sixth connecting hole is arranged on the convection plate, and the fifth connecting hole is connected with the sixth connecting hole through a third fastener.

Further, the yogurt machine also comprises a filtering component, and the filtering component is arranged between the top cover and the hot air assembly and covers the air inlet.

Furthermore, the top cover extends towards the bottom shell to form a limiting rib, the limiting rib is annularly arranged on the periphery of the air inlet, a second air groove is formed in the inner side of the periphery of the air inlet, and the filtering component is arranged in the second air groove.

To sum up, the utility model provides a acidophilus milk machine has following technological effect:

the utility model provides a yogurt machine, which comprises a housin, temperature control component and hot-blast subassembly, the casing is including closing drain pan and the top cap of connecting, is equipped with the air intake on the top cap, and temperature control component installs in the top cap, and temperature control component includes convection current board, and the edge of convection current board extends to the inner wall of top cap, forms the installation cavity that feeds through in the air intake between convection current board and the top cap, forms the heating cavity that is used for placing the milk container between convection current board and the drain pan, and hot-blast unit mount is in the installation cavity, and hot-blast subassembly feeds through in air intake and heating cavity. The yogurt machine has the following beneficial effects: the hot air assembly is used for converting air entering from the air inlet into hot air and conveying the hot air to the heating cavity to form circulating convection, so that heat can be transferred to the milk container from the three-dimensional space, the milk container can be uniformly heated, and the yogurt machine has a good heating effect; when the yoghourt machine is assembled, the hot air component and the temperature control component can be sequentially arranged in the top cover, and the assembly mode is convenient for assembly and production; and the convection plate on the temperature control assembly divides the space between the bottom shell and the top cover into an installation cavity for installing the hot air assembly and a heating cavity for placing the milk container, so that hot air can be effectively prevented from flowing to the arrangement space of the hot air assembly to cause hot air loss.

Drawings

Fig. 1 is a schematic structural diagram of a yogurt machine according to an embodiment of the present invention;

fig. 2 is a sectional view of a yogurt machine according to an embodiment of the present invention;

fig. 3 is an exploded view of the yogurt maker according to the embodiment of the present invention;

fig. 4 is a schematic structural diagram of a top cover of the yogurt machine according to the embodiment of the present invention;

fig. 5 is an exploded view of a partial structure of the yogurt machine according to the embodiment of the present invention.

Wherein the reference numerals have the following meanings:

1. a housing; 11. a bottom case; 12. a top cover; 121. an air inlet; 122. a first connecting column; 1221. a first connection hole; 123. a second connecting column; 1231. a fifth connecting hole; 124. limiting ribs; 1241. a second air duct; 2. a temperature control assembly; 21. a convection plate; 211. a sixth connecting hole; 22. a circuit board; 23. placing a circuit board into a box; 24. putting the circuit board into a box; 25. a temperature sensor; 3. a hot air assembly; 31. a convection fan; 311. a fourth connection hole; 32. a heating element; 33. a fan housing; 331. a first air duct; 332. an air outlet; 333. a second connection hole; 334. a third connection hole; 4. a filter member; a. installing a cavity; b. the chamber is heated.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Please refer to fig. 1 to 5 together, the utility model discloses a yogurt machine, yogurt machine includes casing 1, temperature control component 2 and hot air component 3, casing 1 is including closing drain pan 11 and top cap 12 of connecting, be equipped with air intake 121 on top cap 12, temperature control component 2 installs in top cap 12, temperature control component 2 includes convection plate 21, the edge of convection plate 21 extends to top cap 12's inner wall, form the installation cavity a that communicates in air intake 121 between convection plate 21 and the top cap 12, form the heating cavity b that is used for placing the milk container between convection plate 21 and the drain pan 11, hot air component 3 installs in installation cavity a, hot air component 3 communicates in air intake 121 and heating cavity b.

The yogurt machine of the scheme has the following beneficial effects: the hot air assembly 3 is used for converting air entering from the air inlet 121 into hot air and conveying the hot air to the heating cavity to form circulating convection, so that heat can be conducted to the milk container from a three-dimensional space, the milk container can be uniformly heated, and the yogurt machine has a good heating effect; when the yoghourt machine is assembled, the hot air component 3 and the temperature control component 2 can be sequentially arranged in the top cover 12, and the assembly mode is convenient for assembly and production; thirdly, as the convection plate 21 on the temperature control assembly 2 divides the space between the bottom shell 11 and the top cover 12 into the mounting cavity a for mounting the hot air assembly 3 and the heating cavity b for placing the milk container, the hot air can be effectively prevented from flowing to the setting space of the hot air assembly 3 to cause hot air loss.

In some embodiments, the yogurt machine further comprises a filter element 4, wherein the filter element 4 is disposed between the top cover 12 and the hot air assembly 3 and covers the air inlet 121. So set up, because filter part 4 locates between top cap 12 and hot-blast subassembly 3 and cover air intake 121, the air of acidophilus milk machine outside need just can get into hot-blast subassembly 3 via filter part 4, and filter part 4 can filter the dust in the air that air intake 121 got into to ensure that the air that gets into in the heating cavity b is fresh pollution-free.

Furthermore, a limiting rib 124 is formed on the top cover 12 extending toward the bottom case 11, the limiting rib 124 is annularly disposed on the outer periphery of the air inlet 121, and the inner side of the air inlet forms a second air groove 1241, and the filter element 4 is installed in the second air groove 1241. By adopting the arrangement mode that the filter part 4 is arranged on the second air groove 1241, on one hand, the filter part 4 is convenient to be arranged in a contraposition way, which is beneficial to improving the assembly efficiency of the yogurt machine; on the other hand, a fixed positioning of the filter element 4 can be achieved, so that the stability of the filter element 4 on the top cover 12 is increased.

The filter element 4 may be filter cotton, a filter net, or the like, and is not limited herein, and the filter element 4 is exemplified as the filter cotton in this embodiment.

In some embodiments, the hot air component 3 includes a convection fan 31, a heating element 32 and a fan housing 33, the fan housing 33 is provided with a first air groove 331 with a notch facing the air inlet 121 and an air outlet 332 communicating with the first air groove 331 and the heating cavity b, the fan housing 33 is fixed on the top cover 12, the heating element 32 is installed in the first air groove 331 of the fan housing 33, and the convection fan 31 covers the first air groove 331 and is fixed on the fan housing 33. The air inlet 121 is located inside the second air duct 1241, that is, the first air duct 331 is communicated with the second air duct 1241. So set up, convection current fan 31 can inhale the air outside the acidophilus milk machine and carry out the heat exchange with heat-generating body 32 in heat-generating body 32 department for the heat of heat-generating body 32 changes hot-blast form into, and in unified air outlet 332 from fan housing 33 enters into heating cavity b, so that form circulation convection in the heating cavity b, thereby make the heat can conduct the milk container from the cubical space on.

Optionally, the convection fan 31 is accommodated in the second air groove 1241. So set up, because convection current fan 31 need hold in second wind groove 1241, make things convenient for the location installation when hot-blast subassembly 3 installs on top cap 12.

Further, in order to fix the hood 33 to the top cover 12, the top cover 12 is provided with a first connection post 122 having a first connection hole 1221, the hood 33 is provided with a second connection hole 333, and the first connection hole 1221 and the second connection hole 333 are connected by a first fastener (not shown). The mode that the fastener is connected and fixed with the connecting hole is adopted, and the installation is simple and convenient.

Optionally, the first connecting column 122 is disposed on the limiting rib 124. So arranged, the structure of the top cover 12 can be made more compact.

Exemplarily, the first connection holes 1221, the second connection holes 333, and the first fasteners are four, four second connection holes 333 are respectively disposed around the fan housing 33, and the four first connection holes 1221 are disposed corresponding to the four second connection holes 333. The design mode that the four first connection holes 1221 are respectively arranged on the periphery of the fan housing 33 is adopted, so that the stability of the fixation of the fan housing 33 on the upper cover can be improved.

Further, in order to fix the convection fan 31 to the hood 33, a third connection hole 334 is formed in the hood 33, a fourth connection hole 311 is formed in the convection fan 31, and the second connection hole 333 and the fourth connection hole 311 are connected by a second fastening member (not shown). The mode that the fastener is connected and fixed with the connecting hole is adopted, and the installation is simple and convenient.

Illustratively, the number of the third connecting holes 334, the number of the fourth connecting holes 311 and the number of the second fastening members are four, four fourth connecting holes 311 are respectively disposed around the convection fan 31, and four third connecting holes 334 are disposed corresponding to four fourth connecting holes 311. The design manner that the four fourth connection holes 311 are respectively formed around the convection fan 31 is adopted, so that the stability of fixing the convection fan 31 on the fan housing 33 can be improved.

In some embodiments, in order to fix the convection plate 21 on the top cover 12, the top cover 12 is provided with a second connection column 123 having a fifth connection hole 1231, the convection plate 21 is provided with a sixth connection hole 211, and the fifth connection hole 1231 and the sixth connection hole 211 are connected by a third fastener (not shown). The mode that the fastener is connected and fixed with the connecting hole is adopted, and the installation is simple and convenient.

In some embodiments, the temperature control assembly 2 further includes a circuit board 22 located in the mounting cavity a and mounted on the convection plate 21, and the circuit board 22 is used for controlling the start and stop of the hot air assembly 3. So set up, because circuit board 22 locates in the installation cavity a, can place the hot-air of heating intracavity and upwards cluster into circuit board 22 on, can protect circuit board 22, avoid circuit board 22 to be heated and damage.

Further, the temperature control assembly 2 further includes a lower circuit board box 23 and an upper circuit board box 24 located in the mounting cavity a, the lower circuit board box 23 is fixed on the convection plate 21, the upper circuit board box 24 and the lower circuit board box 23 are connected in a facing-up manner to form a mounting cavity of the circuit board 22, and the circuit board 22 is mounted in the mounting cavity of the circuit board 22. With such an arrangement, since the circuit board 22 is disposed in the circuit board 22 mounting cavity formed by the circuit board lower box 23 and the circuit board upper box 24, the circuit board 22 can be protected from being affected by damp weather.

In some embodiments, the temperature control assembly 2 further includes a temperature sensor 25, the temperature sensor 25 is disposed on the convection plate 21 and electrically connected to the circuit board 22, the temperature sensor is configured to collect temperature data information in the heating cavity b and transmit the collected temperature data information to the circuit board 22, and the circuit board 22 is configured to perform control management of the hot air assembly 3 according to the received temperature data information. Specifically, when the temperature is higher than the set value, an instruction to stop heating is issued to the heating body 32 of the hot air assembly 3; when the temperature is lower than the set value, a heating instruction for starting heating is sent to the heating body 32 of the hot air assembly 3, so that the heat in the heating cavity b is ensured to be suitable for yoghourt fermentation.

The utility model provides a sour milk machine, which comprises a housin 1, temperature control component 2 and hot-blast subassembly 3, casing 1 is including closing drain pan 11 and top cap 12 of connecting, be equipped with air intake 121 on top cap 12, temperature control component 2 installs in top cap 12, temperature control component 2 includes convection plate 21, the edge of convection plate 21 extends to the inner wall of top cap 12, form the installation cavity a that feeds through in air intake 121 between convection plate 21 and the top cap 12, form the heating cavity b that is used for placing the milk container between convection plate 21 and the drain pan 11, hot-blast subassembly 3 installs in installation cavity a, hot-blast subassembly 3 feeds through in air intake 121 and heating cavity b. The yogurt machine has the following beneficial effects: the hot air assembly 3 is used for converting air entering from the air inlet 121 into hot air and conveying the hot air to the heating cavity to form circulating convection, so that heat can be conducted to the milk container from a three-dimensional space, the milk container can be uniformly heated, and the yogurt machine has a good heating effect; when the yoghourt machine is assembled, the hot air component 3 and the temperature control component 2 can be sequentially arranged in the top cover 12, and the assembly mode is convenient for assembly and production; thirdly, as the convection plate 21 on the temperature control component 2 divides the space between the bottom shell 11 and the top cover 12 into the mounting cavity a for mounting the hot air component 3 and the heating cavity b for placing the milk container, the hot air loss caused by the hot air flowing to the setting space of the hot air component 3 can be effectively prevented.

The technical means disclosed by the scheme of the present invention is not limited to the technical means disclosed by the above embodiments, but also includes the technical scheme formed by combining the above technical features at will. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications are also considered as the protection scope of the present invention.

Claims

1. A yogurt machine, comprising:

the air conditioner comprises a shell (1), wherein the shell (1) comprises a bottom shell (11) and a top cover (12) which are connected in an involutory mode, and an air inlet (121) is formed in the top cover (12);

the temperature control assembly (2) is mounted in the top cover (12), the temperature control assembly (2) comprises a convection plate (21), the edge of the convection plate (21) extends to the inner wall of the top cover (12), a mounting cavity (a) communicated with the air inlet (121) is formed between the convection plate (21) and the top cover (12), and a heating cavity (b) used for placing a milk container is formed between the convection plate (21) and the bottom cover (11); and

the hot air assembly (3) is installed in the installation cavity (a), and the hot air assembly (3) is communicated with the air inlet (121) and the heating cavity (b);

the temperature control component (2) further comprises a circuit board (22) which is positioned in the mounting cavity (a) and mounted on the convection plate (21), and the circuit board (22) is used for controlling the hot air component (3);

the temperature control assembly (2) further comprises a lower circuit board box (23) and an upper circuit board box (24) which are located in the installation cavity (a), the lower circuit board box (23) is fixed on the convection plate (21), the upper circuit board box (24) and the lower circuit board box (23) are connected in a pair mode to form a circuit board (22) installation cavity, and the circuit board (22) is installed in the circuit board (22) installation cavity.

2. Yogurt machine according to claim 1, characterized in that: hot-blast subassembly (3) are including convection current fan (31), heat-generating body (32) and fan housing (33), be equipped with the notch orientation on fan housing (33) first wind groove (331) of air intake (121) and communicate in first wind groove (331) reaches air outlet (332) of heating cavity (b), fan housing (33) are fixed in on top cap (12), heat-generating body (32) install in first wind groove (331) of fan housing (33), convection current fan (31) closing cap first wind groove (331) just are fixed in on fan housing (33).

3. Yogurt machine according to claim 2, characterized in that: be equipped with first spliced pole (122) that have first connecting hole (1221) on top cap (12), be equipped with second connecting hole (333) on fan housing (33), first connecting hole (1221) with second connecting hole (333) are through first fastener connection.

4. Yogurt machine according to claim 2, characterized in that: be equipped with third connecting hole (334) on fan housing (33), be equipped with fourth connecting hole (311) on convection current fan (31), third connecting hole (334) with fourth connecting hole (311) are connected through the second fastener.

5. Yogurt machine according to claim 1, characterized in that: the temperature control assembly (2) further comprises a temperature sensor (25), the temperature sensor (25) is arranged on the convection plate (21) and electrically connected to the circuit board (22), and the temperature sensor (25) is used for collecting temperature data information in the heating cavity (b) and transmitting the collected temperature data information to the circuit board (22).

6. Yogurt machine according to claim 1, characterized in that: the convection plate is characterized in that a second connecting column (123) with a fifth connecting hole (1231) is arranged on the top cover (12), a sixth connecting hole (211) is formed in the convection plate (21), and the fifth connecting hole (1231) is connected with the sixth connecting hole (211) through a third fastener.

7. Yogurt machine according to any one of claims 1 to 6, characterized in that: the yogurt machine further comprises a filtering component (4), wherein the filtering component (4) is arranged between the top cover (12) and the hot air assembly (3) and covers the air inlet (121).

8. Yogurt machine according to claim 7, characterized in that: the top cover (12) extends towards the bottom shell (11) to form a limiting rib (124), the limiting rib (124) is annularly arranged on the periphery of the air inlet (121) and the inner side of the air inlet forms a second air groove (1241), and the filter component (4) is installed in the second air groove (1241).