CN113973972B - Quick cold quantity conduction device of household ice cream machine - Google Patents

Abstract

The invention relates to the technical field of household ice cream machines, and discloses a rapid cold quantity conduction device of a household ice cream machine. The invention provides a rapid cold quantity conduction device of a household ice cream machine, which comprises a conduction outer shell, wherein a cold quantity conduction component is arranged below a container body in the conduction outer shell, and a heat dissipation component is arranged at the lower end in the conduction outer shell.

Description

Quick cold quantity conduction device of household ice cream machine

Technical Field

The invention relates to the technical field of household ice cream machines, in particular to a rapid cold energy conduction device of a household ice cream machine.

Background

An ice cream machine on the market is a compressor ice cream machine special for business units, which has high price and large volume and is inconvenient for families to use; the other simple ice cream machine has no refrigerating device, and the refrigerating device is needed to be matched for use, so that the ice cream machine is inconvenient for families and individuals without the refrigerating device to use. The current domestic ice cream machine quick conduction cold volume device conduction cold volume distance is longer for the cold volume waste of a portion is in the conduction process, causes the conduction velocity of cold volume slower, and causes the waste of cold volume, increases the consumption of the energy, greatly reduced domestic ice cream machine's practicality. Therefore, there is a need for a device for rapidly conducting cold in a home ice cream machine that at least partially solves the problems of the prior art.

Disclosure of Invention

In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a rapid cooling capacity conduction device for a home ice cream machine, comprising: the cooling device comprises a conduction outer shell, wherein a placing groove is formed in the upper end of the conduction outer shell, a container body is arranged on the inner side of the placing groove, a cooling capacity conduction assembly is arranged below the container body in the conduction outer shell, and a heat dissipation assembly is arranged at the lower end of the inside of the conduction outer shell.

According to the quick cold quantity conduction device of the household ice cream machine, the conduction outer shell comprises an upper cover plate, a heat preservation outer layer and a cold conduction contact plate, the heat preservation outer layer is arranged on the side of the lower end of the upper cover plate, the cold conduction contact plate is arranged on the inner side of the heat preservation outer layer at the lower end of the upper cover plate, the lower end of the cold conduction contact plate is connected with the heat preservation outer layer through the conduction connecting plate, a cooling cavity is formed among the upper cover plate, the heat preservation outer layer, the cold conduction contact plate and the conduction connecting plate, and the cold conduction support plate is arranged on the lower end of the inner side of the cold conduction contact plate.

According to the quick cold quantity conducting device of the household ice cream machine, the upper cover plate seals the upper end of the cooling cavity, the conducting connecting plate seals the lower end of the upper end of the cooling cavity, and the inner diameter of the cold conducting contact plate is mutually matched with the placing groove.

According to the quick cold quantity conducting device of the household ice cream machine, the container body is connected with the placing groove in a sliding mode, the lower end of the container body is matched with the conducting connecting plate, and the height of the container body is not lower than that of the cold conducting contact plate.

According to the quick cold quantity conduction device of the household ice cream machine, the cold quantity conduction assembly comprises the first refrigeration plate and the second refrigeration plate arranged on the outer side of the first refrigeration plate, the first refrigeration plate is fixedly connected with the cold conduction support plate, and the second refrigeration plate is fixedly connected with the conduction connection plate.

According to the quick cold quantity conduction device of the household ice cream machine, the cold quantity conduction assembly further comprises a first heat dissipation base and first heat dissipation fins, the first heat dissipation base is arranged at the lower end of the first refrigeration plate, the first heat dissipation fins are arranged at the lower end of the first heat dissipation base, the second refrigeration plate is arranged at the side of the first refrigeration plate, the second heat dissipation base is arranged at the lower end of the second refrigeration plate, the second heat dissipation fins are arranged at the lower end of the second heat dissipation base, the first heat dissipation fins and the second heat dissipation fins are distributed at equal intervals, the first refrigeration plate is of a circular structure design, the second refrigeration plate is of a circular structure design, and the second heat dissipation fins and the second refrigeration plate are mutually matched.

According to the quick cold quantity conduction device of the household ice cream machine, the heat dissipation assembly comprises the mounting plate, the trapezoid groove is formed in the mounting plate, the heat dissipation motor is arranged at the upper end of the trapezoid groove, the heat dissipation blades are arranged at the output end of the heat dissipation motor, and the protective net is arranged at the lower end of the trapezoid groove.

According to the quick cold quantity conduction device of the household ice cream machine, the mounting plate is fixedly connected with the heat preservation outer layer, and the trapezoid groove is mutually matched with the cold quantity conduction component.

According to the quick cold quantity conduction device of the household ice cream machine, an inner support assembly used for fixing a container body is arranged in a cooling cavity, the inner support assembly comprises a first inner support sleeve, a second inner support sleeve, a first inner support rod piece and a second inner support rod piece, the second inner support sleeve is arranged in the first inner support sleeve through a plurality of first inner support rod pieces, a plurality of ball grooves are formed in the inner wall of the first inner support sleeve, the first inner support rod pieces comprise ball head rods, spring sleeves, inner springs and flat support legs, the ball head rods are arranged in the ball grooves, the spring sleeves are connected with the ball head rods, the inner springs are arranged in the spring sleeves, the flat support legs are connected with the inner springs and abut against the outer wall of the second inner support sleeve through suckers, the second inner support rod pieces comprise electric telescopic rods and inner plates, the inner support sleeve is provided with a plurality of inner plate, the inner telescopic rod pieces are connected with the inner plate, the inner plate is provided with the inner connecting wire, the inner plate is provided with the inner power socket is connected with the inner power socket, the inner power socket is provided with the inner power socket, and the power socket is provided with the inner connecting wire, and the power socket is provided with the inner power socket is connected with the inner power socket.

According to the quick cold quantity conducting device of the household ice cream machine, two transverse plates are arranged in the trapezoid groove at intervals, the heat dissipation motor is connected with the two transverse plates through the clamping seat module, the clamping seat module comprises two clamping seat bodies which are mutually inserted, the heat dissipation motor is arranged between the two clamping seat bodies, the clamping seat bodies comprise C-shaped clamping seats, a plurality of end blocks and a plurality of heat conducting mechanisms, the C-shaped clamping seats comprise first C-shaped clamping plates, middle C-shaped plates and second C-shaped clamping plates, the first C-shaped clamping plates are arranged in the second C-shaped clamping plates through the middle C-shaped plates, a plurality of first hollow grooves are formed in the middle C-shaped plates, the end blocks are respectively arranged at the outer end parts of the two second C-shaped clamping plates, the end blocks are connected with the transverse plates, the heat conducting mechanisms are respectively arranged on the middle C-shaped plates, the heat conducting mechanisms comprise rods, the two heat conducting rods penetrate through the first hollow blocks and are arranged at the two sides of the two heat conducting rods, the two heat conducting grooves are respectively arranged at the two sides of the first hollow blocks, the heat conducting rods are arranged at the two sides of the first hollow blocks, the heat conducting grooves are respectively, and the heat conducting grooves are arranged at the two sides of the first hollow blocks are extended, and the heat conducting grooves are respectively, and the heat conducting grooves are arranged at the two sides and extend.

According to the quick cold quantity conducting device of the household ice cream machine, the inside of the holder module further comprises an auxiliary reinforcing mechanism, the auxiliary reinforcing mechanism is arranged on the C-shaped holder and is connected with the heat conducting mechanisms, the auxiliary reinforcing mechanism comprises a first C-shaped reinforcing rod and two second C-shaped reinforcing rods, the first C-shaped reinforcing rod is arranged in the middle of the C-shaped holder, the first C-shaped reinforcing rod is fixedly arranged on a heat conducting block in the middle, the two second C-shaped reinforcing rods are respectively arranged at two ends of the first C-shaped reinforcing rod, the inner ends of the second C-shaped reinforcing rods are movably connected with the first C-shaped reinforcing rods through first guide wheel pieces, the outer ends of the second C-shaped reinforcing rods are connected with the heat conducting blocks through second guide wheel pieces, the second guide wheel pieces comprise vertical columns and guide caps rotatably arranged on the vertical columns, the end parts of the second C-shaped reinforcing rods are provided with second extension grooves, the other end parts of the second C-shaped reinforcing rods are fixedly arranged on the heat conducting blocks in the middle, and the second C-shaped reinforcing rods are connected with the second C-shaped reinforcing blocks through the second C-shaped holder.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention provides a rapid cold quantity conduction device of a household ice cream machine, which comprises a conduction outer shell, wherein a cold quantity conduction component is arranged below a container body in the conduction outer shell, and a heat dissipation component is arranged at the lower end in the conduction outer shell.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic cross-sectional structure of the present invention;

FIG. 4 is a schematic view of an intercooler heat transfer assembly of the present invention;

FIG. 5 is a schematic view of a first cold source plate according to the present invention;

FIG. 6 is a top plan view of the construction of the inner support assembly of the present invention;

FIG. 7 is an enlarged schematic view of the portion A of FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the structure of the second inner jacket of the present invention;

FIG. 9 is a schematic side view of a cartridge module according to the present invention;

FIG. 10 is a top view of a cartridge module according to the present invention;

FIG. 11 is a schematic view of a closed cartridge module according to the present invention;

FIG. 12 is a schematic view showing the separation of the holder module according to the present invention;

FIG. 13 is a schematic view of a C-shaped holder according to the present invention;

FIG. 14 is a schematic view of a heat conducting mechanism according to the present invention;

FIG. 15 is an enlarged schematic view of the portion B of FIG. 11 according to the present invention;

FIG. 16 is an enlarged schematic view of the portion C of FIG. 12 in accordance with the present invention;

FIG. 17 is a schematic diagram illustrating a second idler assembly according to the present disclosure.

Detailed Description

The present invention is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the invention by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 5, the present invention provides a rapid cooling capacity conduction device for a home ice cream machine, comprising: the cooling device comprises a conduction outer shell body 1, wherein a placing groove 2 is formed in the upper end of the conduction outer shell body 1, a container body 3 is arranged on the inner side of the placing groove 2, a cooling capacity conduction assembly 4 is arranged below the container body 3 in the conduction outer shell body 1, and a heat dissipation assembly 5 is arranged at the lower end of the inside of the conduction outer shell body 1.

In one embodiment, the conductive outer shell 1 includes an upper cover plate 101, an insulating outer layer 102, a cold-conducting contact plate 103, a conductive connecting plate 104, a cooling cavity 105 and a cold-conducting support plate 107, the insulating outer layer 102 is disposed at the side of the lower end of the upper cover plate 101, the cold-conducting contact plate 103 is disposed at the inner side of the insulating outer layer 102 at the lower end of the upper cover plate 101, the lower end of the cold-conducting contact plate 103 is connected with the insulating outer layer 102 through the conductive connecting plate 104, the cooling cavity 105 is disposed among the upper cover plate 101, the insulating outer layer 102, the cold-conducting contact plate 103 and the conductive connecting plate 104, and the cold-conducting support plate 107 is disposed at the lower end of the inner side of the cold-conducting contact plate 103; the heat insulation outer layer 102 is utilized to insulate the conduction device, so that the loss of cold energy is reduced, the energy utilization rate is improved, the width of the upper cover plate 101 is the same as the thickness of the heat insulation outer layer 102, the heat conduction cold contact plate 103 and the cooling cavity 105, the height of the heat insulation outer layer 102 is larger than that of the heat conduction cold contact plate 103, the inner diameter of the heat conduction cold contact plate 103 is mutually matched with the placing groove 2, the conduction of the cold energy is facilitated, and the waste of the cold energy is reduced.

In an embodiment, the container body 3 is slidably connected with the placement groove 2, the lower end of the container body 3 is mutually matched with the conductive connection plate 104, the height of the container body 3 is not lower than that of the cold-conductive contact plate 103, so that the side surface and the bottom surface of the container body 3 are simultaneously conductive to cold, and the conductive efficiency is improved.

In one embodiment, the cold energy conduction assembly 4 includes a first refrigeration plate 401, a first heat dissipation base 402, a first heat dissipation fin 403, a second refrigeration plate 404, a second heat dissipation base 405 and a second heat dissipation fin 406, where the first heat dissipation base 402 is disposed at the lower end of the first refrigeration plate 401, the first heat dissipation fin 403 is disposed at the lower end of the first heat dissipation base 402, the second refrigeration plate 404 is disposed at the side of the first refrigeration plate 401, the second heat dissipation base 405 is disposed at the lower end of the second refrigeration plate 404, the second heat dissipation fin 406 is disposed at the lower end of the second heat dissipation base 405, and cold energy is generated by using the cold source plate, so as to conduct the cold energy, and realize refrigeration of the container body 3;

further, the first cooling plate 401 is fixedly connected with the cold-conducting support plate 107, the second cooling plate 404 is fixedly connected with the conducting connection plate 104, the first cooling fins 403 and the second cooling fins 406 are all distributed at equal intervals, the first cooling plate 401 is in a circular structural design, the second cooling plate 404 is in a circular structural design, the second cooling fins 406 and the second cooling plate 404 are mutually matched, in the cooling process, the heat of the cold source plate is dissipated, the loss of cold quantity is reduced, and the cooling effect is guaranteed.

In one embodiment, the heat dissipation assembly 5 includes a mounting plate 501, a trapezoid slot 502 is formed in the mounting plate 501, a heat dissipation motor 503 is disposed at an upper end of the trapezoid slot 502, a heat dissipation blade 504 is disposed at an output end of the heat dissipation motor 503, and a protection net 505 is disposed at a lower end of the trapezoid slot 502, so that a heat dissipation effect is improved; further, the mounting plate 501 is fixedly connected with the heat insulation outer layer 102, the trapezoid groove 502 is mutually matched with the cold quantity conduction assembly 4, heat dissipation of the cold source plate is achieved, refrigeration efficiency is guaranteed, synchronous conduction of the side face and the bottom face of the cold quantity is achieved by utilizing the conduction outer shell 1, conduction efficiency is improved, meanwhile heat insulation and cavities are arranged, utilization rate of the cold quantity conduction is improved, cold quantity loss is reduced, and energy consumption is reduced.

When using, container body 3 places in standing groove 2, thereby make lead cold backup pad 107 and container body 3 bottom surface contact, and container body 3's side and lead cold contact plate 103 and contact, make the bottom surface carry out the cold energy conduction to container body 3 simultaneously with the side, improve conduction efficiency, first cold source board 401 that container body 3 below set up carries out the conduction between lead cold backup pad 107, conduction velocity is fast, second cold source board 404 that first cold source board 401 outside set up is through leading connecting plate 104 with the cold energy conduction to cooling cavity 105, thereby conduct the side to container body 3, guaranteed the homogeneity of cold energy, make cold energy can even distribution give container body 3, ice cream in the container body 3 can even cooling shaping, the refrigeration effect has been improved, the heat preservation outer 102 that sets up in the outside keeps warm and insulates to transmission, and the loss of cold energy has been reduced, and the refrigeration effect of coolant 106 has been guaranteed, greatly reduced the energy consumption, reduce the use cost, when the cold source board carries out the refrigeration simultaneously, and lead out the heat energy through the fin and lead out heat dissipation blade rotation, thereby the heat dissipation blade is with the heat energy is discharged, the loss is avoided leading out, and the loss is easy to have been avoided, and the safety and efficiency is guaranteed, the safety and safety are guaranteed, and the safety are convenient for use, and the safety and energy consumption is guaranteed.

As shown in fig. 6 to 8, further, in one embodiment, an inner stay assembly 6 for fixing the container body 3 is provided in the cooling cavity 105, the inner stay assembly 6 includes a first inner stay 61, a second inner stay 62, a first inner stay 63, and a second inner stay 64, the second inner stay 62 is provided in the first inner stay 61 by a plurality of the first inner stay 63, a plurality of ball grooves 611 are provided on an inner wall of the first inner stay 61, the first inner stay 63 includes a ball rod 631, a spring housing 632, an inner spring 633, and a leveling leg 634, the ball rod 631 is provided in the ball groove 611, the spring housing 632 is connected with the ball rod 631, and the inner spring 634 is provided in the spring housing 632, the leveling leg 634 is connected with the inner spring 633 and abuts against an outer wall of the second inner stay 62 by a suction cup 635, the second inner stay bar 64 is provided with a plurality of inner walls uniformly distributed on the second inner stay bar 62, the second inner stay bar 64 comprises an electric telescopic bar 641 and an abutting inner plate 642, the electric telescopic bar 641 is arranged on the inner wall of the second inner stay bar 62, the abutting inner plate 642 is arranged on the inner end of the electric telescopic bar 641, the inner wall of the second inner stay bar 62 is provided with a driving actuator 621, an inner connecting wire 622 is arranged inside the driving actuator 621, the driving actuator 621 is electrically connected with the electric telescopic bar 641 through the inner connecting wire 622, a switch seat 623 is also arranged on the driving actuator 621, a switch key 624 and an outer connecting wire 625 are arranged on the switch seat 623, the outer connecting wire 625 is electrically connected with a female end 627 on the first inner stay bar 61 through a male end 626, a plurality of power supply grooves 628 are arranged in the first inner stay bar 61, a power module 629 is disposed in the power slot 628, and the power module 629 is connected to the female terminal 627.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of the above structure, the structure of the inner support assembly 6 is provided in this embodiment, two inner support assemblies 6 can be arranged in the cooling cavity 105, so that the container body 3 can be fixed from top to bottom, and meanwhile, the inner support assembly 6 can also fix container bodies 3 with different types so as to meet different use requirements; specifically, the inner support assembly 6 includes a first inner support sleeve 61, a second inner support sleeve 62, a first inner support rod 63 and a second inner support rod 64, wherein the first inner support sleeve 61 is installed on the inner wall of the cooling cavity 105, the second inner support sleeve 62 is installed in the first inner support sleeve 61 through a plurality of first inner support rod pieces 63, a plurality of ball grooves 611 are formed on the inner wall of the first inner support sleeve 61, meanwhile, the first inner support rod piece 63 includes a ball rod 631, a spring sleeve 632, an inner spring 633 and a flat support leg 634, the ball rod 631 is installed in the ball grooves 611, the connection between the first inner support rod piece 63 and the first inner support sleeve 61 is realized, the ball grooves 611 and the ball rod 631 facilitate the direction adjustment of the first inner support rod piece 63, the ball rod 631 is connected with the spring sleeve 632, the inner spring 633 is installed in the spring sleeve 632, the flat support leg 634 is connected with the inner spring 633, and the flat support leg 634 abuts against the outer wall of the second inner support sleeve 62 through a 635, thus the first inner support sleeve 63 is uniformly distributed between the first inner support sleeve 62 and the second inner support sleeve 61, and the inner support assembly 6 is designed to be more than the inner support sleeve 63;

simultaneously, a plurality of second inner stay bars 64 are uniformly arranged on the inner wall of the second inner stay sleeve 62, the container body 3 is clamped by the second inner stay bars 64, specifically, the second inner stay bars 64 comprise electric telescopic rods 641 and an abutting inner plate 642, the electric telescopic rods 641 are arranged on the inner wall of the second inner stay sleeve 62, the abutting inner plate 642 is arranged on the inner end of the electric telescopic rods 641, meanwhile, a driving actuator 621 is arranged on the inner wall of the second inner stay sleeve 62, an inner connecting wire 622 is arranged inside the second inner stay sleeve 62, the driving actuator 621 is electrically connected with the electric telescopic rods 621 through the inner connecting wire 622, meanwhile, a switch seat 623 is also arranged on the driving actuator 621, so that the driving actuator 621 can be started by a switch key 624 on the switch seat 623, and then the driving actuator is used for driving the electric telescopic rods 641, so that the electric telescopic rods 641 drive the abutting inner plate to firmly clamp the container body 3, and a plurality of power supply grooves and a female end 627 are arranged in the first inner stay sleeve 61, and the male end connecting wire 623 is connected to the female end 627 through the switch seat 625, and the male end connecting wire 629 is conveniently used for realizing the driving of the female end 627; when the electric telescopic rod 641 drives the propping inner plate 642 to shrink, the propping inner plate 642 is separated from the container body 3, so that the container body 3 can be disassembled.

As shown in fig. 9-17, further, in an embodiment, two transverse plates 506 are disposed in the trapezoid groove 502 at intervals, the heat dissipation motor is connected with two transverse plates 506 through a holder module 7, the holder module 7 includes two holder bodies inserted with each other, the heat dissipation motor is disposed between the two holder bodies, the holder bodies include a C-shaped holder 71, a plurality of end blocks 72 and a plurality of heat conducting mechanisms 73, the C-shaped holder 71 includes a first C-shaped clamping plate 711, a middle C-shaped clamping plate 712 and a second C-shaped clamping plate 713, the first C-shaped clamping plate 711 is disposed in the second C-shaped clamping plate 713 through the middle C-shaped clamping plate 712, a plurality of first hollow grooves 714 are disposed on the middle C-shaped clamping plate 712, a plurality of end blocks 72 are respectively disposed at outer ends of the two second C-shaped clamping plates 713, the end blocks 72 are connected with the transverse plates 506, a plurality of heat conducting mechanisms 73 are respectively disposed on the middle C-shaped clamping plate 71, the heat conducting mechanisms 731 are respectively disposed on the middle C-shaped clamping plate 712, the heat conducting mechanisms 731 are disposed on the two sides of the heat conducting rods, the heat conducting rods are disposed on the two side of the heat conducting rods 732 are disposed on the two side of the heat conducting rods, and the two hollow grooves 734 are disposed on the two sides of the heat conducting rods are disposed on the two side of the heat conducting rods and extend, and the two hollow grooves are disposed on the two side of the heat conducting rods are disposed on the side of the heat conducting rods and are disposed on the heat conducting rods and extend side 3.

The working principle and the beneficial effects of the technical scheme are as follows: in order to mount the heat dissipation motor 503 in the trapezoidal groove 502, two transverse plates 506 and a holder module 7 are provided in the present embodiment, the two transverse plates 506 are mounted in the trapezoidal groove 502, the holder module 7 includes two holder bodies inserted into each other, the two holder bodies are mounted below the two transverse plates 506 to fix the heat dissipation motor 503, specifically, the holder bodies include a C-shaped holder 71, a plurality of end blocks 72 and a plurality of heat conducting mechanisms 73, the C-shaped holder 71 includes a first C-shaped clamping plate 711, a middle C-shaped plate 712 and a second C-shaped clamping plate 713, where the first C-shaped clamping plate 711, the middle C-shaped clamping plate 712 and the second C-shaped clamping plate 713 are all made of flexible materials, the end blocks 72 are mounted at the outer ends of the second C-shaped clamping plate 713, it is understood that the outer end rods 712 are mounted at the outer sides of the end blocks 72, the outer end rods have first fixing holes 722 thereon, and the first fixing holes 722 can be mounted below the transverse plates 506 by fixing screws 701; the inner end rod 723 and the second fixing hole 724 are respectively arranged on the inner sides of the two opposite end blocks 72, so that the inner end rod 723 can be inserted into the second fixing hole 724, and then the two clamping seat bodies clamp the heat dissipation motor 503 in the middle;

in order to further enable the clamping seat body to perform a heat conduction function, a plurality of heat conduction mechanisms 73 are installed on the middle C-shaped plate 712, specifically, the heat conduction mechanisms 73 comprise a heat conduction rod 731 and two heat conduction blocks 732, the heat conduction rod 731 is arranged in a first hollow groove 714 on the middle C-shaped plate 712 in a penetrating mode, the two heat conduction blocks 732 are respectively installed at the upper end and the lower end of the heat conduction rod 731 and are located at the upper side and the lower side of the middle C-shaped plate 712, second hollow grooves 733 are formed in the heat conduction blocks 732 and can dissipate heat, and therefore the heat conduction blocks 732 can support the first C-shaped clamping plate 711 and the second C-shaped clamping plate 713 mutually, and deformation of the heat dissipation motor 503 caused by clamping of the heat dissipation motor is avoided; furthermore, heat generated during the operation of the heat dissipation motor 503 can be dissipated through the heat conduction mechanism 73; the plurality of heat conducting mechanisms 73 are also mutually inserted, specifically, a first extension block 734 is arranged on one side of the heat conducting block 732, a first extension groove 735 is arranged on the other side of the heat conducting block 732, and adjacent heat conducting mechanisms 73 are connected through the first extension block 734 and the first extension groove 735, so that connection of the two clamping seat bodies is also realized.

Further, in one embodiment, the holder module 7 further includes an auxiliary reinforcing mechanism 74, where the auxiliary reinforcing mechanism 74 is disposed on the C-shaped holder 71 and is connected to the plurality of heat conducting mechanisms 73, the auxiliary reinforcing mechanism 74 includes a first C-shaped reinforcing rod 741 and two second C-shaped reinforcing rods 742, the first C-shaped reinforcing rod 741 is disposed in a middle portion of the C-shaped holder 71, the first C-shaped reinforcing rod 741 is fixedly disposed on the heat conducting block 732 in the middle portion, the two second C-shaped reinforcing rods 742 are disposed at two ends of the first C-shaped reinforcing rod 741, respectively, an inner end of the second C-shaped reinforcing rod 742 is movably connected to the first C-shaped reinforcing rod 741 through a first guide wheel member 75, an outer end of the second C-shaped reinforcing rod 742 is connected to the heat conducting block 732 through a second guide wheel member 76, the second C-shaped reinforcing rod 76 includes a vertical column 761 and a guide cap 762 rotatably disposed on the vertical column 761, and the second C-shaped reinforcing rod 742 is disposed at two ends of the second C-shaped reinforcing rod 742 and extends through the second C-shaped holder 71, and the second C-shaped reinforcing rod 742 extends between the second C-shaped reinforcing rod 742 and the second C-shaped reinforcing rod 742.

The working principle and the beneficial effects of the technical scheme are as follows: for the structural strength of the holder module 7, in this embodiment, an auxiliary reinforcing mechanism 74 is disposed on the holder body, the auxiliary reinforcing mechanism 74 is also connected to the heat conducting mechanism 73, the auxiliary reinforcing mechanism 74 includes a first C-shaped reinforcing rod 741 and two second C-shaped reinforcing rods 742, where the middle part of the first C-shaped reinforcing rod 741 is mounted in the middle of the C-shaped holder 71, specifically, the first C-shaped reinforcing rod 741 is fixedly mounted on the heat conducting block 732 in the middle, the two second C-shaped reinforcing rods 742 are respectively disposed at two ends of the first C-shaped reinforcing rod 741, and meanwhile, the inner ends of the second C-shaped reinforcing rods 742 are movably connected to the first C-shaped reinforcing rod 741 through a first guide wheel 75, it can be understood that the first guide wheel 75 includes a guide wheel rod and a guide wheel body, so that when the two holder bodies clamp the heat dissipation motor 503, the inner ends of the two second C-shaped reinforcing rods 742 can move along the first C-shaped reinforcing rod 741; meanwhile, the outer end of the second C-shaped reinforcing rod 742 is fixedly connected with the heat conducting block 732 on the outer end of the middle C-shaped plate 712, the outer end of the second C-shaped reinforcing rod 742 is connected with the heat conducting block 732 through the second guide wheel 76, it can be understood that the second guide wheel 76 comprises a vertical column 761 and a guide cap 762 rotatably installed on the vertical column 761, the cap peak of the guide cap 762 is relatively larger, and the second C-shaped reinforcing rod 742 can be buckled, so that the second C-shaped reinforcing rod 742 cannot fall off from the clamping seat body; a second extension groove 743 is formed at the end of the second C-shaped reinforcing rod 742, and a second extension block 744 is formed at the end of the second C-shaped reinforcing rod 742 on the other C-shaped clamping seat 71, so that the second C-shaped reinforcing rods 742 on the two C-shaped clamping seats 71 are connected through the second extension groove 743 and the second extension block 744; the clamping seat body is further fixed through the first C-shaped reinforcing rods 741 and the second C-shaped reinforcing rods 742, so that the structural strength of the clamping seat module 7 is improved.

The household ice cream machine rapid cold quantity conduction device of the embodiment utilizes the heat preservation outer layer to insulate the conduction device, thereby effectively reducing the loss in the cold quantity conduction process and improving the conduction speed and the conduction cold quantity.

The quick cold quantity conduction device of the household ice cream machine of the embodiment utilizes the first cold source plate and the second cold source plate to realize double conduction, improves the conduction efficiency, ensures that the cold quantity is uniformly distributed by the cooling liquid, and improves the refrigerating effect.

The household ice cream machine rapid conduction cold quantity device of the embodiment utilizes the radiating fins to guide out heat generated in the refrigerating process, and discharges the heat through the rotation of the radiating fins, so that the heat consumption cold quantity is avoided, and the conduction effect of the cold quantity is ensured.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (6)

1. A device for rapidly conducting cold energy of a household ice cream machine, comprising: the cooling device comprises a conduction outer shell body (1), wherein a placing groove (2) is formed in the upper end of the conduction outer shell body (1), a container body (3) is arranged on the inner side of the placing groove (2), a cooling capacity conduction assembly (4) is arranged below the container body (3) in the conduction outer shell body (1), a heat dissipation assembly (5) is arranged at the lower end of the inner part of the conduction outer shell body (1), the conduction outer shell body (1) comprises an upper cover plate (101), a heat preservation outer layer (102) and a cooling conduction contact plate (103), the side of the lower end of the upper cover plate is provided with the heat preservation outer layer, the cooling conduction contact plate is arranged on the inner side of the heat preservation outer layer, the lower end of the cooling conduction contact plate is connected with the heat preservation outer layer through a conduction connection plate, a cooling cavity is formed between the upper cover plate, the heat preservation outer layer, the cooling conduction contact plate and the conduction connection plate, and a cooling support plate is arranged at the lower end of the inner side of the cooling conduction contact plate;

the cold quantity conduction assembly (4) comprises a first refrigeration plate (401) and a second refrigeration plate (404) arranged on the outer side of the first refrigeration plate (401), the first refrigeration plate (401) is fixedly connected with the cold conduction supporting plate (107), and the second refrigeration plate (404) is fixedly connected with the conduction connecting plate (104);

the cold quantity conduction assembly (4) further comprises a first heat dissipation base (402) and first heat dissipation fins (403), the lower end of the first refrigeration plate (401) is provided with the first heat dissipation base (402), the lower end of the first heat dissipation base (402) is provided with the first heat dissipation fins (403), the side of the first refrigeration plate (401) is provided with the second refrigeration plate (404), the lower end of the second refrigeration plate (404) is provided with the second heat dissipation base (405), the lower end of the second heat dissipation base (405) is provided with the second heat dissipation fins (406), the first heat dissipation fins (403) and the second heat dissipation fins (406) are distributed at equal intervals, the first refrigeration plate (401) is in a circular structure design, the second refrigeration plate (404) is in a circular structure design, and the second heat dissipation fins (406) are mutually matched with the second refrigeration plate (404);

the heat dissipation assembly (5) comprises a mounting plate (501), a trapezoid groove (502) is formed in the mounting plate (501), a heat dissipation motor (503) is arranged at the upper end of the trapezoid groove (502), heat dissipation blades (504) are arranged at the output end of the heat dissipation motor (503), a protective net (505) is arranged at the lower end of the trapezoid groove (502), the mounting plate (501) is fixedly connected with the heat insulation outer layer (102), and the trapezoid groove (502) is mutually matched with the cold energy conduction assembly (4).

2. A device for rapidly conducting cold in a household ice cream machine according to claim 1, wherein the upper cover plate (101) closes the upper end of the cooling cavity, the conducting connecting plate closes the lower end of the upper end of the cooling cavity, and the inner diameter of the cold conducting contact plate (103) is mutually matched with the placing groove (2).

3. The quick cooling capacity conduction device of the household ice cream machine according to claim 1, wherein the container body (3) is slidably connected with the placing groove (2), the lower end of the container body (3) is mutually matched with the conduction connection plate (104), and the height of the container body (3) is not lower than the height of the cooling contact plate (103).

4. The device for rapidly conducting cold energy of a home ice cream machine according to claim 1, wherein an inner support assembly (6) for fixing a container body (3) is arranged in the cooling cavity (105), the inner support assembly (6) comprises a first inner support sleeve (61), a second inner support sleeve (62), a first inner support rod piece (63) and a second inner support rod piece (64), the second inner support sleeve (62) is arranged in the first inner support sleeve (61) through a plurality of the first inner support rod pieces (63), a plurality of ball head grooves (611) are arranged on the inner wall of the first inner support sleeve (61), the first inner support rod piece (63) comprises a ball head rod (631), a spring sleeve (632), an inner spring (633) and flat supporting legs (634), the ball head rod (631) is arranged in the ball head grooves (611), the spring sleeve (632) is connected with the ball head rod (631), the inner spring (633) is arranged in the inner support sleeve (62) and the second inner supporting legs (62) are uniformly arranged on the inner wall (64) of the second inner support sleeve (635), the second inner support rod piece (64) comprises an electric telescopic rod (641) and an abutting inner plate (642), the electric telescopic rod (641) is arranged on the inner wall of the second inner support sleeve (62), the abutting inner plate (642) is arranged on the inner end of the electric telescopic rod (641), a driving actuator (621) is arranged on the inner wall of the second inner support sleeve (62), an inner connecting wire (622) is arranged inside the driving actuator (621), the driving actuator (621) is electrically connected with the electric telescopic rod (641) through the inner connecting wire (622), a switch seat (623) is further arranged on the driving actuator (621), a switch key (624) and an outer connecting wire (625) are arranged on the switch seat (623), the outer connecting wire (625) is electrically connected with a female end (627) on the first inner support sleeve (61) through a male end (626), a plurality of power grooves (628) are formed in the first inner support sleeve (61), a power supply (629) is arranged in the power supply grooves, and the power supply module (629) is connected with the female end (627).

5. The device for rapidly conducting cold energy for a home ice cream machine according to claim 4, wherein two transverse plates (506) are arranged in the trapezoid groove (502) at intervals, the heat dissipation motor is connected with the two transverse plates (506) through a clamping seat module (7), the clamping seat module (7) comprises two clamping seat bodies which are mutually spliced, the heat dissipation motor is arranged between the two clamping seat bodies, the clamping seat bodies comprise a C-shaped clamping seat (71), a plurality of end blocks (72) and a plurality of heat conducting mechanisms (73), the C-shaped clamping seat (71) comprises a first C-shaped clamping plate (711), a middle C-shaped clamping plate (712) and a second C-shaped clamping plate (713), the first C-shaped clamping plate (711) is arranged in the second C-shaped clamping plate (713), a plurality of first hollow grooves (714) are arranged on the middle C-shaped clamping plate (712), a plurality of end block bodies (72) are respectively arranged between the two second C-shaped clamping seat bodies (71), the hollow-shaped clamping plate (73) and the heat conducting mechanisms (731) are respectively arranged at the outer ends of the two second C-shaped clamping plates (73), the hollow-shaped clamping plates (731) are respectively arranged on the two transverse plates (73), two heat conduction blocks (732) are arranged at the upper end and the lower end of the heat conduction rod (731) respectively and are positioned at the upper side and the lower side of the middle C-shaped plate (712), a second hollow groove (733) is formed in the heat conduction blocks (732), a first extension block (734) is arranged on one side of each heat conduction block (732), a first extension groove (735) is arranged on the other side of each heat conduction block, and two adjacent heat conduction mechanisms (73) are connected through the first extension block (734) and the first extension groove (735).

6. The device for rapidly conducting cold energy of a home ice cream machine according to claim 5, wherein the holder module (7) further comprises an auxiliary reinforcing mechanism (74), the auxiliary reinforcing mechanism (74) is disposed on the C-shaped holder (71) and connected with a plurality of the heat conducting mechanisms (73), the auxiliary reinforcing mechanism (74) comprises a first C-shaped reinforcing rod (741) and two second C-shaped reinforcing rods (742), the first C-shaped reinforcing rod (741) is disposed in the middle of the C-shaped holder (71), the first C-shaped reinforcing rod (741) is fixedly disposed on a heat conducting block (732) in the middle, the two second C-shaped reinforcing rods (742) are disposed at two ends of the first C-shaped reinforcing rod (741), respectively, the inner ends of the second C-shaped reinforcing rods (742) are movably connected with the first C-shaped reinforcing rod (741) through a first guide member (75), the outer ends of the second C-shaped reinforcing rod (742) are connected with the second C-shaped reinforcing rod (761) through a second guide wheel (76) and a second guide bar (742), the other end of the second C-shaped reinforcing rod (742) is disposed on a vertical guide post (76) and the other guide post (76) is disposed at the other end portion (763), the second C-shaped reinforcing rods (742) on the two C-shaped clamping seats (71) are connected through a second extension groove (743) and a second extension block (744).