CN112137457A - Chef machine convenient to dismouting stirring bowl - Google Patents

Abstract

The invention discloses a cook machine convenient for dismounting a mixing bowl, which comprises a machine body, a machine head, a supporting seat connected between the machine head and the machine body, the mixing bowl arranged below the machine head and a mixing piece arranged on the machine head, wherein a plug-in anti-rotation structure capable of plugging the machine body and the mixing bowl and limiting the relative rotation of the machine body and the mixing bowl is arranged between the top of the machine body and the bottom of the mixing bowl, a magnetic mechanism capable of limiting the separation of the machine body and the mixing bowl is also arranged between the machine body and the mixing bowl, and a cooling device attached to the outer side wall of the mixing bowl is arranged on the. The stirring bowl is connected with the machine body of the cook machine by adopting the inserting anti-rotation structure, and the magnetic mechanism is adopted for adsorption and fixation, so that the separation of the stirring bowl and the machine body is avoided, and the assembly and the disassembly are convenient; when kneading dough in the mixing bowl, the cooling device can keep the dough at a proper temperature, and the problems of premature fermentation of the dough, reduction of the toughness of the dough and the like are avoided.

Description

Chef machine convenient to dismouting stirring bowl

Technical Field

The invention relates to the technical field of cooks, in particular to a cooker convenient for dismounting a stirring bowl.

Background

The cooker is a multifunctional kitchen appliance which is mainly used in the field of Chinese and western pastries and can knead, beat eggs and stir. The method is generally used for making Chinese and western pastries, particularly western pastries, for example, bread, the dough can be kneaded out of the film by using a chef machine to make the bread, and the made bread has good mouthfeel.

Among the current cook machine, the stirring bowl is twisted soon through helical structure and is fixed on the base of cook machine, and the in-process of stirring, agitating unit can make the stirring bowl twist soon deeper position to the effort of stirring bowl, leads to the stirring bowl by the helical structure chucking, and stirring work accomplishes the back, will take out the stirring bowl very difficult, especially to women user, can't take out behind the stirring bowl chucking almost.

In addition, the existing cooks do not have a cooling device, and the cooks are often used in situations, such as kitchens of hotels and bakeries, where the ambient temperature is generally high and is usually above 30 ℃.

In addition, in the dough fermentation process, a high environmental temperature is required, and in the prior art, a heating resistor is generally adopted for heating, but the heating resistor has a large heating value and is difficult to control the temperature.

Disclosure of Invention

In view of the above, an object of the present invention is to provide a cooker which can easily attach and detach a mixing bowl and can cool dough in the mixing bowl during kneading.

The technical scheme adopted by the invention for solving the technical problem is as follows:

the utility model provides a cook machine convenient to dismouting stirring bowl, includes fuselage, aircraft nose, connects the supporting seat between aircraft nose and fuselage, sets up the stirring bowl under the aircraft nose and set up in stirring spare on the aircraft nose, the top of fuselage and the bottom of stirring bowl between be provided with and can peg graft the two and restrict the two relative pivoted grafting rotation-proof structure with the two, fuselage and stirring bowl between still be provided with and restrict the magnetic force mechanism that the two breaks away from when the two pegs graft, the fuselage on be provided with the cooling device that the outside wall of stirring bowl pasted.

In a preferred embodiment of the present invention, the insertion rotation-preventing structure includes a jack disposed on the body, and a base disposed on the mixing bowl and insertable into the jack.

In a preferred scheme of the invention, the insertion hole is a cylindrical hole, a longitudinal insertion groove is formed in the inner side wall of the insertion hole, the base is cylindrical, and a first convex hull capable of being inserted into the longitudinal insertion groove is formed in the outer side wall of the base.

In a preferred embodiment of the present invention, at least one group of convex hulls is disposed on an inner sidewall of the jack, each group of convex hulls includes two second convex hulls spaced apart from each other, and the longitudinal slot is formed between the two second convex hulls.

In a preferred scheme of the invention, the machine body is provided with a mounting groove, a cup-shaped bowl seat with an upward opening is fixedly arranged in the mounting groove, and the inner cavity of the bowl seat forms the jack.

In a preferred scheme of the invention, the magnetic force mechanism comprises an electromagnet arranged on the machine body and a magnetic attraction piece which is arranged at the bottom of the stirring bowl and can be attracted by the electromagnet.

In a preferred scheme of the invention, a base is arranged at the bottom of the stirring bowl, a first cavity is arranged inside the base, the magnetic part is fixedly arranged in the first cavity, a second cavity is arranged inside the machine body, and the electromagnet is fixedly arranged in the second cavity.

In a preferred aspect of the present invention, the cooling device includes a cooling box disposed around the mixing bowl and attached to an outer side wall of the mixing bowl, and a receiving cavity capable of receiving a coolant is disposed in the cooling box.

In a preferred embodiment of the present invention, the cooling box is provided with an opening communicating with the accommodating cavity and a cover capable of opening and closing the opening.

In a preferred embodiment of the present invention, the cooling box is annular, and the cooling box surrounds a through hole, the cooling box is provided with a conical adhering surface that is matched with an outer side wall of the mixing bowl, and a base of the mixing bowl passes through the cooling box and is inserted into the insertion hole so that the adhering surface is adhered to the outer side wall of the mixing bowl.

In a preferred embodiment of the present invention, a support structure is disposed between the cooling box and the machine body, and the cooling box is supported on the machine body by the support structure so as to separate an upper surface of the machine body from a lower surface of the cooling box.

In a preferred embodiment of the present invention, the supporting structure includes a plurality of bumps disposed on a bottom surface of the cooling box.

In a preferred aspect of the present invention, the cooling device includes:

a temperature-controlled base;

the heat conducting sheet is arranged on the temperature control base and is adhered to the outer side wall of the stirring bowl;

the semiconductor chip is arranged on the temperature control base and is attached to the heat conducting sheet;

and the control switch is used for switching the semiconductor chip between three states of closing, opening refrigeration and opening heating.

In a preferred embodiment of the present invention, the temperature control base is provided with a heat dissipation seat, one side of the heat dissipation seat is connected to a side of the semiconductor chip away from the heat conductive sheet in a heat conductive manner, and the other side of the heat dissipation seat is provided with a heat dissipation sheet.

In a preferred embodiment of the present invention, the temperature control base is an annular hollow shell, the left and right sides of the temperature control base are respectively provided with an air inlet and an air outlet, the air inlet is provided with a cooling fan capable of blowing air towards the inside of the heat dissipation base, and the heat dissipation base and the cooling fins are both arranged inside the temperature control base.

In a preferred embodiment of the present invention, a first through hole is formed in the temperature control base, a heat insulation pad is fixedly disposed on an inner wall of the temperature control base, a second through hole opposite to the first through hole is disposed on the heat insulation pad, a boss is formed in the middle of the heat conducting sheet, the boss penetrates through the second through hole and the first through hole and is attached to an outer sidewall of the mixing bowl, an edge portion of the heat conducting sheet is located in the temperature control base and abuts against the heat insulation pad, and an aperture of the second through hole is smaller than an aperture of the first through hole to limit the boss from contacting with an inner side surface of the first through hole.

In a preferred embodiment of the present invention, the temperature control base is annular and surrounds a through hole, the mixing bowl includes a base, and the base passes through the through hole and is inserted into the body so that the outer side wall of the mixing bowl is tightly attached to the heat conducting sheet.

In a preferred embodiment of the present invention, the temperature-controlled base is provided with a power plug.

In a preferred embodiment of the present invention, the bottom of the temperature control base is provided with a receiving groove, the power plug is rotatably disposed in the receiving groove, when the power plug rotates in the receiving groove, the pins of the power plug switch between two states of being received in the receiving groove and being extended out of the receiving groove, and the body is provided with a power jack matched with the pins of the power plug.

In a preferred scheme of the invention, a bowl cover is arranged at the bowl opening of the mixing bowl, and a socket through which the mixing part can extend into the mixing bowl is arranged on the bowl cover.

The invention has the beneficial effects that:

firstly, the stirring bowl is connected with the machine body of the cook machine through the inserting anti-rotation structure, and meanwhile, the stirring bowl and the machine body of the cook machine are adsorbed and fixed through the magnetic mechanism, so that the stirring bowl and the machine body of the cook machine are prevented from being separated, the assembly and disassembly are convenient, and the operation is convenient and rapid.

Secondly, when kneading dough in the mixing bowl, the cooling device can absorb the heat of the dough, so that the dough is kept at a proper temperature, and the problems of premature fermentation of the dough, reduction of the toughness of the dough and the like can be avoided.

Third, when adopting semiconductor chip as refrigerating plant's cold source, it still has the heating function, and when the dough was fermented in the stirring bowl, accessible control switch control temperature controller got into heating mode, and the one side that pastes with the conducting strip of semiconductor chip this moment generates heat, through conducting strip, stirring bowl with heat transfer to dough, made the dough keep at comparatively suitable fermentation temperature.

Drawings

FIG. 1 is a schematic structural view of embodiment 1 of the present invention;

FIG. 2 is an exploded view of a portion of the structure of the present invention;

FIG. 3 is a cross-sectional view of a mixing bowl;

fig. 4 is an exploded view of a cooling device in embodiment 1 of the present invention;

fig. 5 is a sectional view of a cooling device in embodiment 1 of the present invention;

FIG. 6 is a schematic structural view of embodiment 2 of the present invention;

FIG. 7 is a plan view of a cooling apparatus in embodiment 2 of the present invention;

fig. 8 is a partial sectional view of a cooling device in embodiment 2 of the present invention;

fig. 9 is a schematic structural view of the cooling apparatus according to embodiment 2 of the present invention, with a part of the casing omitted;

fig. 10 is an exploded view of a cooling device in embodiment 2 of the present invention;

fig. 11 is a diagram showing an electrical connection structure of the cooling apparatus according to embodiment 2 of the present invention;

fig. 12 is another electrical connection structure diagram of the cooling device in embodiment 2 of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly. In addition, the descriptions related to "preferred", "less preferred", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "preferred" or "less preferred" may explicitly or implicitly include at least one such feature.

Example 1

Referring to fig. 1 to 5, the embodiment provides a cook machine convenient for disassembling and assembling a mixing bowl, which includes a machine body 1, a machine head 11, a supporting seat 12 connected between the machine head 11 and the machine body 1, a mixing bowl 2 arranged below the machine head 11, and a mixing part arranged on the machine head 11, wherein an insertion and rotation prevention structure capable of inserting the machine head 1 and the mixing bowl 2 and limiting the relative rotation of the machine head and the mixing bowl is arranged between the top of the machine body 1 and the bottom of the mixing bowl 2, a magnetic mechanism capable of limiting the separation of the machine body 1 and the mixing bowl 2 when the machine body and the mixing bowl are inserted is further arranged between the machine body 1 and the mixing bowl 2, and a cooling device attached to.

In one solution of this embodiment, the insertion rotation-prevention structure includes a receptacle 101 disposed on the body 1, and a base 21 disposed on the mixing bowl 2 and insertable into the receptacle 101. Preferably, the insertion hole 101 is a cylindrical hole, a longitudinal insertion groove 102 is formed in the inner side wall of the insertion hole 101, the base 21 is cylindrical, and a first convex hull 211 capable of being inserted into the longitudinal insertion groove 102 is formed in the outer side wall of the base 21.

Referring to fig. 2, in a specific solution of this embodiment, at least one group of convex hulls is disposed on an inner side wall of the jack 101, each group of convex hulls includes two spaced second convex hulls 103, and a longitudinal slot 102 is formed between the two second convex hulls 103. The body 1 is provided with a mounting groove 104, a cup-shaped bowl seat 100 with an upward opening is fixedly arranged in the mounting groove 104, and a jack 101 is formed in an inner cavity of the bowl seat 100.

In some embodiments of this embodiment, the insertion rotation-prevention structure may also adopt other mechanisms, such as: the insertion hole 101 is a square hole or a hexagonal hole, and the base 21 of the corresponding mixing bowl 2 is a quadrangular prism or a hexagonal prism corresponding to the insertion hole; alternatively, a plug hole 101 is arranged at the bottom of the mixing bowl 2, and a plug block which is matched and inserted with the plug hole 101 is arranged on the machine body 1.

The magnetic mechanism comprises an electromagnet 51 arranged on the machine body 1 and a magnetic suction piece 52 which is arranged at the bottom of the mixing bowl 2 and can be attracted by the electromagnet 51. The magnetic member 52 may be an iron block, a magnet capable of being attracted by the electromagnet 51, or another device capable of being attracted by the electromagnet 51.

In this embodiment, the process of installing the mixing bowl 2 includes inserting the base 21 of the mixing bowl 2 into the insertion hole 101 of the body 1, then powering on, and fixing the mixing bowl 2 by the attraction of the electromagnet 51 to the magnetic attraction piece 52 to achieve a locked state; the process of dismantling the stirring bowl 2 is that firstly the electromagnet 51 is powered off, the electromagnet 51 is automatically cleaned after the power is off, and then the stirring bowl 2 is upwards pulled out, so that the process of installation and disassembly is very convenient and fast. In the working process of the cook machine, the acting force of the stirring device on the stirring bowl 2 can be resisted by the matching of the longitudinal slot 102 and the first convex hull 211, so that the stability of the stirring bowl 2 is kept, and the stirring bowl 2 is prevented from rotating due to the stress.

Referring to fig. 3, the base 21 is a hollow structure, a first cavity 210 is disposed inside the base 21, and the magnetic attraction member 52 is fixedly disposed in the first cavity 210 by means of screwing, welding, clamping, and the like.

Referring to fig. 2, the body 1 includes an upper casing and a lower casing, a second cavity located inside the body 1 is formed between the upper casing and the lower casing, and the electromagnet 51 is fixedly disposed in the second cavity in a screwing, welding, clamping manner, and the like.

In this embodiment, cooling device includes around stirring bowl 2 setting and with the cooling box 4 of the lateral wall laminating of stirring bowl 2, is provided with the holding chamber 41 that can pack into the coolant in the cooling box 4.

In the dough kneading process, the coolant in the cooling box 4 absorbs the heat of the dough to keep the dough at a proper temperature, so that the problems of premature fermentation of the dough, reduction of the toughness of the dough and the like can be avoided.

Preferably, the cooling box 4 is provided with an opening communicated with the accommodating cavity 41 and a cover 42 capable of opening and closing the opening. The cover 42 is typically mounted to the cooling box 4 by a threaded connection to seal the opening in the box, which facilitates opening the cover 42 to replace the coolant. Of course, in some aspects of the present embodiment, the cooling box 4 may be configured to be totally enclosed, for example, after the cover 42 is covered, the cover 42 is welded.

Before kneading with the cooker, a coolant is injected into the accommodating cavity 41 of the cooling box 4, and the coolant is made of a material with a high specific heat capacity, such as: water and colloid ice, wherein the colloid ice has better cold storage performance; then, the opening of the cooling box 4 is sealed by the lid 42, and the cooling box 4 is frozen in a refrigerator, and after the cooling box is frozen to a suitable temperature, the cooling box 4 is taken out and mounted on the machine body 1, so that the cooling box 4 is closely attached to the outer side wall of the mixing bowl 2. When the cook machine is used for kneading dough, the coolant in the cooling box 4 absorbs the heat of the dough to keep the dough at a proper temperature, so that the problems of premature fermentation of the dough, reduction of the toughness of the dough and the like can be avoided.

As a further improvement of this embodiment, the cooling box 4 is annular and the cooling box 4 encloses into a through hole, the cooling box 4 is provided with a conical attaching surface 401 that is matched with the outer side wall of the mixing bowl 2, the base 21 of the mixing bowl 2 passes through the cooling box 4 and is inserted into the insertion hole 101 so as to clamp the cooling box 4 between the machine body 1 and the mixing bowl 2, the conical attaching surface 401 of the cooling box 4 is attached to the outer side wall of the mixing bowl 2, and good heat conductivity is maintained between the mixing bowl 2 and the cooling box 4.

In order to further improve the cooling performance, a support structure is arranged between the cooling box 4 and the machine body 1, and the cooling box 4 is supported on the machine body 1 through the support structure so as to separate the upper surface of the machine body 1 from the lower surface of the cooling box 4. Furthermore, the upper surface of the main body 1 and the lower surface of the cooling box 4 are separated by the support structure, so that the heat transfer between the main body 1 and the cooling box 4 can be effectively isolated. Preferably, the support structure comprises a plurality of bumps 44 provided on the bottom surface of the cooling box 4.

Further, a bowl cover 22 is arranged at the bowl opening of the stirring bowl 2, a socket for the stirring piece to extend into the stirring bowl 2 is arranged on the bowl cover 22, and the bowl cover 22 can play a role in heat preservation to a certain degree.

Example 2

Referring to fig. 2, fig. 3, and fig. 6 to fig. 11, the present embodiment provides a cook machine convenient for disassembling and assembling a mixing bowl, including a machine body 1, a machine head 11, a support base 12 connected between the machine head 11 and the machine body 1, a mixing bowl 2 disposed below the machine head 11, and a mixing part disposed on the machine head 11, an insertion and rotation preventing structure capable of inserting the machine body 1 and the mixing bowl 2 and limiting the relative rotation between the machine body and the mixing bowl 2 is disposed between the machine body 1 and the mixing bowl 2, a magnetic mechanism capable of limiting the separation between the machine body 1 and the mixing bowl 2 when the machine body and the mixing bowl are inserted, and a cooling device attached to an outer sidewall of the mixing bowl 2 is disposed on the machine body 1.

In one solution of this embodiment, the insertion rotation-prevention structure includes a receptacle 101 disposed on the body 1, and a base 21 disposed on the mixing bowl 2 and insertable into the receptacle 101. Preferably, the insertion hole 101 is a cylindrical hole, a longitudinal insertion groove 102 is formed in the inner side wall of the insertion hole 101, the base 21 is cylindrical, and a first convex hull 211 capable of being inserted into the longitudinal insertion groove 102 is formed in the outer side wall of the base 21.

Referring to fig. 2, in a specific solution of this embodiment, at least one group of convex hulls is disposed on an inner side wall of the jack 101, each group of convex hulls includes two spaced second convex hulls 103, and a longitudinal slot 102 is formed between the two second convex hulls 103. The body 1 is provided with a mounting groove 104, a cup-shaped bowl seat 100 with an upward opening is fixedly arranged in the mounting groove 104, and a jack 101 is formed in an inner cavity of the bowl seat 100.

In some embodiments of this embodiment, the insertion rotation-prevention structure may also adopt other mechanisms, such as: the insertion hole 101 is a square hole or a hexagonal hole, and the base 21 of the corresponding mixing bowl 2 is a quadrangular prism or a hexagonal prism corresponding to the insertion hole; alternatively, a plug hole 101 is arranged at the bottom of the mixing bowl 2, and a plug block which is matched and inserted with the plug hole 101 is arranged on the machine body 1.

The magnetic mechanism comprises an electromagnet 51 arranged on the machine body 1 and a magnetic suction piece 52 which is arranged at the bottom of the mixing bowl 2 and can be attracted by the electromagnet 51. The magnetic member 52 may be an iron block, a magnet capable of being attracted by the electromagnet 51, or another device capable of being attracted by the electromagnet 51.

In this embodiment, the process of installing the mixing bowl 2 includes inserting the base 21 of the mixing bowl 2 into the insertion hole 101 of the body 1, then powering on, and fixing the mixing bowl 2 by the attraction of the electromagnet 51 to the magnetic attraction piece 52 to achieve a locked state; the process of dismantling the stirring bowl 2 is that firstly the electromagnet 51 is powered off, the electromagnet 51 is automatically cleaned after the power is off, and then the stirring bowl 2 is upwards pulled out, so that the process of installation and disassembly is very convenient and fast. In the working process of the cook machine, the acting force of the stirring device on the stirring bowl 2 can be resisted by the matching of the longitudinal slot 102 and the first convex hull 211, so that the stability of the stirring bowl 2 is kept, and the stirring bowl 2 is prevented from rotating due to the stress.

Referring to fig. 3, the base 21 is a hollow structure, a first cavity 210 is disposed inside the base 21, and the magnetic attraction member 52 is fixedly disposed in the first cavity 210 by means of screwing, welding, clamping, and the like.

Referring to fig. 2, the body 1 includes an upper housing 105 and a lower housing 106, a second cavity is formed between the upper housing and the lower housing and located inside the body 1, and the electromagnet 51 is fixedly disposed in the second cavity by means of screwing, welding, clamping, and the like.

In this embodiment, the cooling device includes: a temperature-controlled base 31, a heat-conducting sheet 32, a semiconductor chip 34, and a control switch 33. The heat conducting sheet 32 is arranged on the temperature control base 31 and is adhered to the outer side wall of the stirring bowl 2; the semiconductor chip 34 is arranged on the temperature control base 31 and is tightly attached to the heat conducting fin 32; the control switch 33 is used for switching the semiconductor chip 34 between three states of closing, opening refrigeration and opening heating.

Preferably, control switch 33 is a push button switch disposed on temperature controlled base 31. In this scheme, when using the cook machine to knead dough, can press control switch 33's button, make the temperature controller get into refrigeration mode, the refrigeration pilot lamp is bright this moment, semiconductor chip 34 with the one side refrigeration that conducting strip 32 pasted mutually, absorb the heat of stirring bowl 2 and dough through conducting strip 32, make the dough keep at comparatively suitable temperature, can avoid the too early fermentation of dough, the toughness of dough reduces the scheduling problem appearance. When dough ferments in mixing bowl 2, can press control switch 33's button once more, make the temperature controller get into heating mode, the indicator light that heats this moment is bright, semiconductor chip 34 with the one side that conducting strip 32 pasted generate heat, through conducting strip 32, mixing bowl 2 with heat transfer to dough, make the dough keep at comparatively suitable fermentation temperature.

Referring to fig. 8 and 10, a heat sink 35 is disposed on the temperature-controlled substrate 31, one side of the heat sink 35 is connected to one side of the semiconductor chip 34 away from the heat-conducting plate 32 in a heat-conducting manner, and the two sides are directly attached to each other or connected to each other through a heat-conducting adhesive, and a heat sink 36 is disposed on the other side of the heat sink 35. When the temperature controller enters the refrigeration working mode, the side of the semiconductor chip 34, which is away from the heat conducting fin 32, generates heat, and the heat dissipation seat 35 and the heat dissipation fin 36 are adopted to absorb the heat of the semiconductor chip 34, so that the heat dissipation effect is improved.

In order to further enhance the heat dissipation effect, a heat dissipation fan 37 capable of generating an air flow to remove the heat from the heat dissipation fins 36 is disposed on the temperature-controlled base 31. The temperature-controlled base 31 is an annular hollow shell and comprises an upper shell 311 and a lower shell 312, the left side and the right side of the temperature-controlled base 31 are respectively provided with an air inlet 301 and an air outlet 302, the heat dissipation fan 37 is arranged at the air inlet 301 and can blow air towards the inside of the heat dissipation base 35, and the heat dissipation base 35 and the heat dissipation fins 36 are both arranged inside the temperature-controlled base 31. When the temperature controller enters a cooling working mode, the cooling fan 37 is started to enable air to enter the temperature control base 31 from the air inlet 301 and finally to be blown out from the air outlet 302, and the air can take away heat on the cooling seat 35 and the cooling fin 36 when flowing through the temperature control base 31, so that a good cooling effect is achieved.

Referring to fig. 8, a first through hole 311 is formed in the temperature control base 31, a heat insulation pad 38 is fixedly disposed on an inner wall of the temperature control base 31, a second through hole 381 facing the first through hole 311 is disposed on the heat insulation pad 38, a boss 321 is formed in the middle of the heat conducting strip 32 in a protruding manner, the boss 321 penetrates through the second through hole 381 and the first through hole 311 and is attached to an outer side wall of the mixing bowl 2, an edge portion of the heat conducting strip 32 is located inside the temperature control base 31 and abuts against the heat insulation pad 38, and an aperture of the second through hole 381 is smaller than an aperture of the first through hole 311 so as to limit the boss 321 to contact with an inner side surface of the first. Such design can completely cut off the heat transfer between conducting strip 32 and the accuse temperature base 31, avoids conducting strip 32 and accuse temperature base 31 to carry out a large amount of heat exchanges and influences the effect of refrigeration and heating.

Referring to fig. 6 and 7, the temperature control base 31 is annular, the temperature control base 31 surrounds a through hole, the mixing bowl 2 includes a base 21, the base 21 passes through the through hole and is inserted into the machine body 1 to clamp the temperature controller between the machine body 1 and the mixing bowl 2, so that the outer side wall of the mixing bowl 2 is tightly attached to the heat conducting strip 32. Good thermal conductivity is maintained between the mixing bowl 2 and the heat conducting fins 32.

The temperature control base 31 may be directly connected to the power supply of the body 1 through a wire, or a plug 305 that can be plugged into or pulled out from the temperature control base 31 may be provided.

Referring to fig. 11, in one embodiment, a receiving groove 304 is formed in the bottom of the temperature-controlled base 31, a power plug 305 is rotatably disposed in the receiving groove 304, when the power plug 305 rotates in the receiving groove 304, pins of the power plug 305 are switched between two states of being received in the receiving groove 304 and being extended out of the receiving groove 304, and a power jack matched with the pins of the power plug 305 is disposed on the body 1. Such a design allows the power plug 305 to be received in the receiving groove 304, saving space.

Referring to fig. 12, in another scheme of this embodiment, the power plug 305 is exposed, and the power plug 305 is connected to the temperature control base 31 through a wire, and can be plugged into an external power supply, so that the temperature controller can still be used for cooling or heating when the machine body 1 and the handpiece 11 are powered off.

Further, a bowl cover 22 is arranged at the bowl opening of the stirring bowl 2, a socket for the stirring piece to extend into the stirring bowl 2 is arranged on the bowl cover 22, and the bowl cover 22 can play a role in heat preservation to a certain degree.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which can be directly or indirectly applied to other related technical fields without departing from the spirit of the present invention, are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a cook machine convenient to dismouting stirring bowl, includes fuselage (1), aircraft nose (11), connects supporting seat (12) between aircraft nose (11) and fuselage (1), sets up stirring bowl (2) under aircraft nose (11) and set up in stirring spare on aircraft nose (11), a serial communication port, the top of fuselage (1) and the bottom of stirring bowl (2) between be provided with and can peg graft the two and restrict the two grafting rotation-proof structure of relative pivoted, fuselage (1) and stirring bowl (2) between still be provided with and restrict the magnetic force mechanism that the two breaks away from, fuselage (1) on be provided with the cooling device that the outside wall of stirring bowl (2) pasted.

2. The cook machine convenient for assembling and disassembling a mixing bowl according to claim 1, wherein the insertion and rotation preventing structure comprises an insertion hole (101) provided on the machine body (1) and a base (21) provided on the mixing bowl (2) and inserted into the insertion hole (101).

3. The cook machine convenient for dismounting and mounting a mixing bowl according to claim 2, wherein the insertion hole (101) is a cylindrical hole, the inner side wall of the insertion hole (101) is provided with a longitudinal insertion groove (102), the base (21) is cylindrical, and the outer side wall of the base (21) is provided with a first convex hull (211) capable of being inserted into the longitudinal insertion groove (102).

4. A chef machine facilitating the assembly and disassembly of a mixing bowl as claimed in claim 2, wherein the cooling device comprises a cooling box (4) arranged around the mixing bowl (2) and attached to the outer side wall of the mixing bowl (2), and a receiving cavity (41) capable of containing a coolant is arranged in the cooling box (4).

5. The cook machine convenient for assembling and disassembling a mixing bowl according to claim 4, wherein the cooling box (4) is ring-shaped and the cooling box (4) encloses a through hole, the cooling box (4) is provided with a conical joint surface (401) matched with the outer side wall of the mixing bowl (2), the base (21) of the mixing bowl (2) passes through the cooling box (4) and is inserted into the insertion hole (101) so that the joint surface is jointed with the outer side wall of the mixing bowl (2).

6. The cook machine convenient for mounting and dismounting a mixing bowl according to claim 4 or 5, wherein a support structure is provided between the cooling box (4) and the machine body (1), and the cooling box (4) is supported on the machine body (1) through the support structure to separate the upper surface of the machine body (1) from the lower surface of the cooling box (4).

7. A chef machine for facilitating the removal and installation of a mixing bowl as claimed in claim 1 wherein said cooling means comprises:

a temperature-controlled base (31);

the heat conducting fins (32) are arranged on the temperature control base (31) and are attached to the outer side wall of the stirring bowl (2);

the semiconductor chip (34) is arranged on the temperature control base (31) and is attached to the heat conducting sheet (32);

and the control switch (33) is used for switching the semiconductor chip (34) between three states of closing, opening refrigeration and opening heating.

8. The chef machine convenient to disassemble and assemble a mixing bowl according to claim 7, wherein a heat dissipation seat (35) is arranged on the temperature control base (31), one side of the heat dissipation seat (35) is in heat conduction connection with one side of the semiconductor chip (34) away from the heat conducting fins (32), a heat dissipation fin (36) is arranged on the other side of the heat dissipation seat (35), the temperature control base (31) is an annular hollow shell, an air inlet (301) and an air outlet (302) are respectively arranged on the left side and the right side of the temperature control base (31), a heat dissipation fan (37) capable of blowing air towards the inside of the heat dissipation seat (35) is arranged at the air inlet (301), and the heat dissipation seat (35) and the heat dissipation fin (36) are both arranged inside the temperature control base (31).

9. The chef machine with easy access to mixing bowl of claim 7, the temperature control base (31) is an annular hollow shell, a first through hole (311) is arranged on the temperature control base (31), a heat insulation pad (38) is fixedly arranged on the inner wall of the temperature control base (31), a second through hole (381) opposite to the first through hole (311) is arranged on the heat insulation pad (38), the middle part of the heat conducting sheet (32) protrudes and forms a boss (321), the boss (321) passes through the second through hole (381) and the first through hole (311) and is attached to the outer side wall of the stirring bowl (2), the edge part of the heat conducting sheet (32) is positioned in the temperature control base (31) and is abutted against the heat insulation pad (38), the aperture of the second through hole (381) is smaller than that of the first through hole (311) so as to limit the boss (321) from contacting the inner side surface of the first through hole (311).

10. The cook machine convenient for dismounting and mounting a mixing bowl according to claim 7, wherein the temperature control base (31) is ring-shaped and the temperature control base (31) encloses a through hole, the mixing bowl (2) comprises a base (21), the base (21) passes through the through hole and is inserted into the machine body (1) so that the outer side wall of the mixing bowl (2) is tightly attached to the heat conducting sheet (32).

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