JP3205048U - Coaxial brake type ice machine - Google Patents

Abstract

A coaxial brake type ice making machine capable of selecting and producing shaved ice or ice cream is provided. An ice maker body and a drive module are provided. The ice making machine main body includes a drive mode switching mechanism 22 and a power device 23. The drive mode switching mechanism 22 includes a support seat 221, a coaxial brake ring 225, a power output rod, a braking kit, and a drive panel 228. When the ice product substrate stored in the ice product substrate storage box is a soft ice product substrate, the power output rod is controlled by the power device 23 and propelled downward by the guide of the screw hole. When the ice product substrate stored in the ice product substrate storage box is a hard ice product substrate, the power output rod is controlled by the power device 23 and the coaxial brake ring 225 is interlocked to rotate and screw. It is propelled downward by the guide of the hole. [Selection] Figure 5

Description

  The present invention relates to a coaxial brake type ice making machine that uses a drive mode switching mechanism to control rotation or reduction at the origin of a rotating rod.

  General consumers eat ice confections such as shaved ice, snow flake ice, and ice cream to heal hot air and hunger. Shaved ice is mainly produced when the shaving machine's rotating disk is driven, and the ice block is rotated and brought into contact with the blades to produce shaved ice and snow flakes. The ice cream is mixed with air using the ice cream machine. Manufactured by squeezing ice bodies. In this way, general shaved ice machines can only produce shaved ice, and ice cream is produced by being squeezed by an ice cream machine, so it is necessary to select and produce shaved ice or ice cream with a single model I can't.

  As described above, with the current technology, shaved ice can be produced only with a shaved ice machine, and ice cream can be produced only with an ice cream machine. For this reason, when a store sells two types of ice confectionery, that is, shaved ice and ice cream at the same time, the operating cost has increased because a shaved ice machine and an ice cream machine must be prepared separately. Furthermore, since each of the shaved ice machine and the ice cream machine can only produce shaved ice or only ice cream, it cannot be operated flexibly based on customer demand, which is extremely inconvenient.

  In addition, both of the conventional shaving machines employ a lateral brake, and the thickness (for example, 0.05 mm) at which the shaved ice blades shave each time is the distance of each thread on the central axis (for example, 0.1 mm). If it is shorter, the ice mass may be crushed if the pressure is not reduced appropriately. For this reason, in both conventional shaved ice machines, the lateral gear system and the central axis intersect 90 degrees vertically. If the central axis hits hard ice and cannot be smoothly cut downward, the lateral gear is The pressure reducing function is achieved by rotating in conjunction with each other. However, the disadvantages are that the central axis and the gear intersect at 90 degrees, the impact force is large, noise is generated, and the central axis is easily worn.

  In view of current technology, shaved ice and ice cream are produced by a shaved ice machine and an ice cream machine, respectively. For this reason, most dealers usually sell only shaved ice or ice cream, and if the dealer sells shaved ice and ice cream at the same time, at least one shaved ice machine and one ice cream machine must be prepared. It was very inconvenient and increased in cost.

  Therefore, the present inventor considered that the above-described drawbacks can be improved, and as a result of intensive studies, the present inventor has arrived at a proposal of the present invention that effectively improves the above-described problems with a rational design.

  The present invention has been made in view of such a conventional problem, and an object thereof is to provide a coaxial brake type ice making machine.

  In order to solve the above-described problems and achieve the object, a coaxial brake ice machine according to the present invention includes an ice machine body and a drive module. The ice making machine has a storage space and an output shaft hole and two rails installed. The output shaft hole communicates with the storage space, and the two rails are installed symmetrically on the two sides of the output shaft hole. The drawer-type ice product substrate mounting tool for storing the ice product substrate storage box is installed so as to correspond to the lower portion of the output shaft hole.

  The drive module is installed in the storage space and includes a drive mode switching mechanism and a power device. The drive mode switching mechanism includes a support seat, a coaxial brake ring, a power output rod, a braking kit, and a drive panel. The support seat is fixed in the storage space.

  The coaxial brake ring is rotatably installed on the support seat and has a screw hole. The power output rod has a screw stage and a drive stage, the screw stage is drilled to fit the screw hole, the drive stage extends from the screw stage to the shaft hole, and a drive panel fixing hole is formed at the end of the drive stage Will be established. The brake kit is installed on the support seat and abutted on the coaxial brake ring. The drive board is detachably secured to the drive stage.

  The power device is connected to the power output rod and transmitted, so that the power output rod is interlocked to rotate at the first rotational speed, and the coaxial brake ring is interlocked by the power output rod and braking of the braking kit. Are simultaneously received and rotated at a second rotational speed lower than the first rotational speed, and the power output rod is propelled downward by a combination of the screw stage and the screw hole.

  When the power device interlocks the power output rod to stop the rotation, the coaxial brake ring is stopped by the braking kit braking to combine the screw hole and the screw stage to stop the power output rod from rotating. Let

  In a preferred embodiment coaxial ice machine of the present invention, the coaxial brake ring is extended outwardly around the threaded hole and used by a user to lock the coaxial brake ring. Additional lock holes will be opened. Preferably, the screw hole extends vertically and the lock hole extends radially outward. In addition, the drive mode switching mechanism further includes an electromagnetic brake member that is installed on the support seat and has a lock rod that enters the lock hole, whereby the coaxial brake ring is locked.

  In a preferred embodiment of the coaxial brake type ice making machine according to the present invention, the drive module further includes a control device provided in the storage space and used for controlling power output of the power device.

  In a preferred embodiment of the present invention, the coaxial brake type ice maker further comprises a support column, a lower case, and an upper case, and the lower case is fixed to the support column, and the upper case Is fixed to the lower case to cover it, and is enclosed with the lower case to form the storage space.

  Preferably, the coaxial brake type ice making machine further includes a cup holder that is detachably installed on the support column and used for placing the cup. The drive mode switching mechanism further includes a stirring bar that is detachably mounted on the drive stage when the drive panel is removed from the drive stage and that stirs the beverage in the cup. . In addition, the stirring rod further includes a blade portion and a flow guide portion.

  As described above, the coaxial brake ice maker provided in the present invention is a power device compared to the prior art in which the shaved ice and the ice cream machine are used to separately manufacture the shaved ice and the ice cream. Therefore, the shaved ice mode or the ice cream mode can be switched and manufactured, so that the shaved ice or ice cream can be selected and manufactured according to the user's demand. In addition, since the present invention further includes a coaxial brake ring, the rotational speed of the power output rod can be effectively controlled by the coaxial braking of the coaxial brake ring.

1 is an external perspective view showing a coaxial brake type ice making machine according to a first preferred embodiment of the present invention. 1 is a development view showing a coaxial brake type ice making machine according to a first preferred embodiment of the present invention; FIG. 5 is another development view showing the coaxial brake type ice making machine according to the first preferred embodiment of the present invention. 1 is a development view illustrating a driving module according to a first preferred embodiment of the present invention; It is the schematic which shows the cross section of the AA line shown in FIG. Schematic diagram showing a plane in which an ice product substrate storage mechanism for installing a hard ice product substrate is mounted on the coaxial brake type ice making machine according to the first preferred embodiment of the present invention by means of the ice product substrate storage mechanism mounting tool. It is. FIG. 5 is a schematic view showing a plane to be mounted on the coaxial brake type ice making machine according to the first preferred embodiment of the present invention by means of an ice product substrate storage mechanism for installing a hard ice product substrate and an ice product substrate storage mechanism mounting tool; is there. It is the schematic which shows the plane which mounts the base | substrate storage mechanism of the ice product which installs the base | substrate of a soft ice product to the coaxial brake type ice making machine by 1st preferable embodiment of this invention by the base | substrate storage mechanism mounting tool of ice products. . It is the schematic which shows the plane which mounts the base | substrate storage mechanism of the ice product which installs the base | substrate of a soft ice product to the coaxial brake type ice making machine by 1st preferable embodiment of this invention by the base | substrate storage mechanism mounting tool of ice products. . It is an external appearance perspective view which shows the coaxial brake type ice machine by 2nd preferable embodiment of this invention. FIG. 5 is a development view showing a coaxial brake type ice making machine according to a second preferred embodiment of the present invention. FIG. 6 is a development view illustrating a driving module according to a second preferred embodiment of the present invention. FIG. 5 is an external perspective view showing a coaxial brake ring according to a second preferred embodiment of the present invention. It is the schematic which shows the cross section of the CC line shown in FIG. FIG. 6 is an external perspective view showing a coaxial brake type ice making machine according to a third preferred embodiment of the present invention. It is the schematic which shows the plane actually applied with the coaxial brake type ice machine by 3rd preferable embodiment of this invention.

  Preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiment described below does not limit the contents of the present invention described in the claims of the utility model registration. In addition, all the configurations described below are not necessarily essential requirements of the present invention.

(First embodiment)
Hereinafter, the first embodiment will be described with reference to FIGS. FIG. 1 is an external perspective view showing a coaxial brake type ice maker according to a first preferred embodiment of the present invention, and FIG. 2 is a development view showing a coaxial brake type ice maker according to a first preferred embodiment of the present invention. 3 is another development view showing the coaxial brake type ice making machine according to the first preferred embodiment of the present invention, FIG. 4 is a development view showing the drive module according to the first preferred embodiment of the present invention, and FIG. 2 is a schematic view showing a cross section taken along line AA shown in FIG.

  A coaxial brake ice maker 100 according to the present invention includes an ice maker main body 1, a drive module 2, and a base placing tool 3 for a pull-out ice product. The ice making machine main body 1 includes a support column 11, a lower case 12, and an upper case 13. The support column 11 is installed on a flat surface (not shown), and the lower case 12 is fixed to the support column 11 and an upper part. The case 13 is fixed to the lower case 12 to cover it, and is enclosed so as to form a storage space S (see FIG. 5). Further, the lower case 12 and the upper case 13 are held at a constant distance from the plane by the support column 11. The lower case 12 is provided with an output shaft hole 121, a motor shaft hole 122, and two rails 123 (only one is shown in the figure), and the output shaft hole 121 and the motor shaft hole 122 are spaced apart. Installed and communicated with the storage space S, the two rails 123 are installed symmetrically on the two sides of the output shaft hole 121. In addition, the lower case 12 is further provided with a buckle member 124a.

  The drive module 2 includes a fixing substrate 21, a drive mode switching mechanism 22, a power device 23, a transmission kit 24, and a control device 25.

  Further, the fixing substrate 21 is installed in the storage space S and is fixed to the lower case 12, and a groove 211 and a through hole 212 are formed in the fixing substrate 21. The drive mode switching mechanism 22 is installed on the fixing substrate 21 and is coaxial with a support seat 221, a rotor bearing 222, a rotor 223, and two brake ring bearings 224 (only one is shown in the figure). A brake ring 225, a power output rod 226, two braking kits 227 (only one is shown in the figure), and a drive panel 228 are provided.

  The support seat 221 is fixed to the fixing substrate 21 and is positioned symmetrically above the groove 211, and the support seat 221 has a through hole 2211 and two brake holes 2212 (only one is shown in the figure). Will be established. The through hole 2211 extends vertically downward, and the two braking holes 2212 are horizontally extended. The rotor bearing 222 is installed in the groove 211, and the rotor 223 is installed in the rotor bearing 222 and is positioned between the support seat 221 and the rotor bearing 222. The two brake ring bearings 224 are installed on the rotor 223, the coaxial brake ring 225 is positioned between the two brake ring bearings 224, and the upper and lower sides of the coaxial brake ring 225 are supported by the two brake ring bearings 224 for protection. Is done. In addition, the coaxial brake ring 225 has a screw hole 2251.

  The power output rod 226 has a screw stage 2261 and a driving stage 2262. The screw stage 2261 is drilled to fit into the screw hole 2251, and the driving stage 2262 is extended downward from the screw stage 2261 by integral molding. At the same time, a driving board fixing hole 22621 is opened at the end of the driving hole 2262 that is penetrated to the shaft hole 121 and penetrated into the shaft hole 121 of the driving stage 2262, and a bolt 22622 is inserted into the driving board fixing hole 22621.

  The two braking kits 227 are respectively installed in the two braking holes 2212, and the two braking kits 227 are each provided with a brake screw 2271, a brake disk 2272, and a spring 2273, and the brake screw 2271 is placed in the braking hole 2212. The brake disc 2272 is installed in the support seat 221 and abutted against the coaxial brake ring 225, and the spring 2273 is installed between the brake disc 2272 and the brake screw 2271. . As a result, the brake disc 2272 is elastically brought into contact with the support of the brake screw 2271 and brought into contact with the coaxial brake ring 225. In addition, the user adjusts the amount of force with which the brake disc 2272 is brought into contact with the coaxial brake ring 225 by adjusting the degree to which the brake screw 2271 is tightened to the brake hole 2212.

  The drive panel 228 is secured to the distal end of the drive stage 2262 via bolts 22622 and drive panel securing holes 22621, and the drive panel 228 has six one-way engagement structures 2281 and a central positioning taper structure 2282. The six one-way engagement structures 2281 are uniformly arranged, and the central positioning taper structure 2282 is located at the center between the six one-way engagement structures 2281.

  The power device 23 is installed on the fixing substrate 21 and corresponds to the through hole 212, and the power device 23 has a power output shaft 231, and the power output shaft 231 is penetrated from the through hole 212 and the motor shaft hole 122. . The transmission kit 24 includes a first transmission board 241, a second transmission board 242, and a transmission belt 243. The first transmission board 241 is provided so as to interfere with the driving stage 2262, and is driven with the fixing substrate 21. It is located between the board 228. In actual operation, first, the first transmission board 241 is penetrated so as to interfere with the driving stage 2262, and then the driving board 228 is fixed to the end of the driving stage 2262.

  The control device 25 is installed on the fixing substrate 21 and is used by the user to control the power output mode of the power device 23. In actual operation, the control device 25 is electrically connected to the power device 23 and a control panel (not shown), so that the user can control the power output of the power device 23.

  6 and 7 show that the ice product substrate storage mechanism for installing the hard ice product substrate is mounted on the coaxial brake type ice making machine according to the first preferred embodiment of the present invention by using the ice product substrate storage mechanism mounting tool. It is the schematic which shows the plane to do. The ice product substrate storage mechanism mounting tool 200 has a mounting tool frame 201 and a product output port 202, and the mounting tool frame 201 corresponds to two rails 123, thereby mounting the ice product substrate storage mechanism. The installation tool 200 is installed in the ice making machine main body 1 in a replaceable manner, and is fixed by a buckle member 124. In the present embodiment, a hard ice product substrate 400 is installed in the ice product substrate storage mechanism 300, and the hard ice product substrate 400 is an ice block or the like. Has an upper lid 301 corresponding to the drive panel 228. For this reason, when the power output rod 226 rotates, the hard ice product base 400 is rotated by the drive panel 228 and the hard ice product base 400 is rotated. Is contacted with a blade (not shown) at the bottom of the product and falls from the product output port 202 to form ice confectionery.

  FIGS. 8 and 9 show a plane in which an ice product substrate storage mechanism for installing a soft ice product substrate is mounted on the coaxial brake type ice making machine according to the first preferred embodiment of the present invention by using the ice product substrate storage mechanism mounting tool. FIG. In the coaxial brake type ice making machine 100 according to the present invention, an ice product substrate storage mechanism mounting tool 200a is installed in a pull-out manner, and the ice product substrate storage mechanism mounting tool 200a similarly uses a mounting tool frame 201a. The ice product base material storage mechanism mounting tool 200a is used for placing the ice product base material storage mechanism 300a. A soft ice product substrate 400a is installed in the ice product substrate storage mechanism 300a, and the soft ice product substrate 400a is ice cream or the like. Further, since the product is outputted only by squeezing the ice cream, only the product output port 202a is installed at the bottom of the base material storage mechanism mounting tool 200a for the ice product, and the blade is not installed. A structure that interferes with the drive panel 228 is not installed in the upper cover 301a of the base body storage mechanism 300a. In actual operation, the user tightens the brake screw 2271 so that the brake disk 2272 comes into close contact with the coaxial brake ring 225 and the coaxial brake ring 225 does not rotate. When the power output rod 226 rotates in conjunction with the power device 23, the screw stage 2261 is propelled downward according to the thread of the screw hole 2251, and the ice cream is squeezed out from the product output port 202a. .

(Second Embodiment)
Hereinafter, the second embodiment will be described with reference to FIGS. FIG. 10 is an external perspective view showing a coaxial brake type ice maker according to a second preferred embodiment of the present invention, and FIG. 11 is a development view showing a coaxial brake type ice maker according to a second preferred embodiment of the present invention. 12 is a development view showing a drive module according to a second preferred embodiment of the present invention, FIG. 13 is an external perspective view showing a coaxial brake ring according to a second preferred embodiment of the present invention, and FIG. 14 is shown in FIG. It is the schematic which shows the cross section of CC line.

  A coaxial brake ice maker 100a according to the present invention includes an ice maker main body 1a, a drive module 2a, and a base placing tool 3a for a drawer-type ice product.

  The ice making machine main body 1a includes a support column 11a, a lower case 12a, and an upper case 13a. The support column 11a is installed on a plane (not shown), and the lower case 12a is fixed to the support column 11a. 13a is fixed to the lower case 12a, covers it, and is enclosed to form a storage space (not shown). Moreover, the lower case 12a and the upper case 13a hold | maintain the distance with a plane uniformly by support of the support pillar 11a. The lower case 12a is provided with an output shaft hole (not shown), a motor shaft hole (not shown), and two rails 123a (only one is shown in the figure), and an output shaft hole (not shown). The motor shaft hole (not shown) is installed at an interval and communicated with the storage space, and the two rails 123a are installed symmetrically on the two sides of the output shaft hole (not shown). In addition, two racks 131a are further installed in the upper case 13a (not shown).

  The drive module 2a includes a fixing substrate 21a, a drive mode switching mechanism 22a, a power device 23a, a transmission kit 24a, and a control device 25a.

  The fixing substrate 21a is installed in the storage space and is fixed to the lower case 12a, and a groove 211a and a through hole 212a are formed in the fixing substrate 21a. The drive mode switching mechanism 22a is installed on the fixing substrate 21a, and is coaxial with the support seat 221a, the rotor bearing 222a, the rotor 223a, and two brake ring bearings 224a (only one is shown in the figure). A brake ring 225a, a power output rod 226a, two braking kits 227a (only one is shown in the figure), a drive panel 228a, and an electromagnetic brake member 229a are provided.

  The support seat 221a is fixed to the fixing substrate 21a and is positioned symmetrically above the groove 211a. The support seat 221a has a through hole 2211a and two braking holes 2212a (only one is shown in the figure). And the brake hole 2213a is opened. The through hole 2211a is vertically extended downward, the two brake holes 2212a are horizontally extended, and the brake hole 2213a is similarly horizontally installed, provided that the two brake holes 2212a It becomes perpendicular to the stretching direction. The rotor bearing 222a is installed in the groove 211a, and the rotor 223a is installed in the rotor bearing 222a and positioned between the support seat 221a and the rotor bearing 222a. The two brake ring bearings 224a are installed on the rotor 223a, the coaxial brake ring 225a is positioned between the two brake ring bearings 224a, and the upper and lower sides of the coaxial brake ring 225a are supported and protected by the two brake ring bearings 224a. Is done. In addition, the coaxial brake ring 225a has a screw hole 2251a and a plurality of lock holes 2252a, and the lock hole 2252a is provided around the screw hole 2251a.

  The power output rod 226a has a screw stage 2261a and a driving stage 2262a. The screw stage 2261a is drilled to fit into the screw hole 2251a, and the driving stage 2262a is extended downward from the screw stage 2261a by integral molding. At the same time, the drive stage 2262a has a drive board fixing hole 22621a formed at the end of the drive stage 2262a, and a bolt 22622a is inserted into the drive board fixing hole 22621a.

  The two brake kits 227a are respectively installed in the two brake holes 2212a, and the two brake kits 227a are each provided with a brake screw 2271a, a brake disk 2272a, and a spring 2273a, and the brake screw 2271a is provided in the brake hole 2212a. The brake disc 2272a is installed in the support seat 221a and abutted on the coaxial brake ring 225a, and the spring 2273a is installed between the brake disc 2272a and the brake screw 2271a. . Accordingly, the brake disk 2272a is elastically contacted with the coaxial brake ring 225a by the support of the brake screw 2271a, and a static friction force is generated between the brake disk 2272a and the coaxial brake ring 225a. Further, the amount of force with which the brake disc 2272a abuts on the coaxial brake ring 225a can be adjusted by adjusting the degree to which the user tightens the brake screw 2271a to the brake hole 2212a.

  The drive panel 228a is fixed to the end of the drive stage 2262a by a bolt 22622a and a drive panel fixing hole 22621a, and the drive panel 228a has six one-way engagement structures 2281a and a central positioning taper structure 2282a, and has six one-way engagements. The configuration 2281a is evenly provided, and the center positioning taper structure 2282a is located at a central location between the six one-way meshing configurations 2281a.

  The electromagnetic brake member 229a is installed in the brake hole 2213a, and the lock rod 2291a enters the lock hole 2252a. Among them, the lock rod 2291a has a movement stroke (not shown), and the movement stroke further includes a brake position and an unlock position. When the lock rod 2291a moves the brake position under the control of the user, The lock rod 2291a enters the lock hole 2252a, the coaxial brake ring 225a is locked, and the coaxial brake ring 225a is fixed and does not rotate.

  The power device 23a is installed on the fixing substrate 21a by a fixing plate 213a and corresponds to the through hole 212a. The power device 23a has a power output shaft 231a, and the power output shaft 231a includes the through hole 212a and the motor shaft hole 122a. Is penetrated from. The transmission kit 24a includes a first transmission board 241a, a second transmission board 242a, and a transmission belt 243a. The first transmission board 241a is provided so as to interfere with the driving stage 2262a and is driven with the fixing substrate 21a. It is located between the board 228a. In actual operation, first, the first transmission board 241a is penetrated so as to interfere with the driving stage 2262a, and then the driving board 228a is fixed to the end of the driving stage 2262a.

  The control device 25a is installed in the upper case 13a, and is used by the user to control the power output mode of the power device 23a. The control device 25a includes a detection element 251a and a control panel 252a, so that the user can control the power output of the power device 23a using the control panel 252a, and the power output rod 226a using the detection element 251a. This makes it possible to detect the degree of propulsion toward the lower side and to control the moving position of the power output rod 226a more accurately.

  As described above, the difference between the coaxial brake type ice maker 100a of the present embodiment and the coaxial brake type ice maker 100 provided in the first preferred embodiment described above is that the coaxial brake ring 225a mainly has a plurality of locks. The support seat 221a is further provided with an electromagnetic brake member 229a by a larger number of brake holes 2213a. Accordingly, when the user propels the power output rod 26a downward with full force, the electromagnetic brake member 229a is controlled to extend the lock rod 2291a with respect to the lock hole 2252a, and the coaxial brake ring 225a is rotated. Stop. At this time, the screw stage 2261a of the power output rod 26a rotates directly according to the thread of the screw hole 2251a and is directly propelled downward, and the power sent from the power device 23a is transmitted between the coaxial brake ring 225a and the brake disc 2272a. No more friction between them.

(Third embodiment)
Hereinafter, a third embodiment will be described with reference to FIGS. 15 and 16. FIG. 15 is an external perspective view showing a coaxial brake type ice maker according to a third preferred embodiment of the present invention, and FIG. 16 shows a plane in which the coaxial brake type ice maker according to the third preferred embodiment of the present invention is actually applied. FIG.

  The coaxial brake ice machine 100b is similar to the coaxial brake ice machines 100 and 100a described above. The difference is that the coaxial brake ice machine 100b further includes a cup holder 3b and a drive mode switching mechanism (not shown) is provided. It is only a point provided with the stirring rod 228b. The cup holder 3b is detachably mounted on the support column 11b of the ice making machine main body 1b, and an opening 31b is opened in the cup holder 3b to be used for placing the cup 500. The stirring bar 228 b is detachably mounted on the driving stage 2262 when the driving panel 228 is removed from the driving stage 2262, and is used for stirring the beverage in the cup 500. The stirring bar 228b further includes a blade portion 2281b and a flow guide portion 2282b. The blade portion 2281b is used for crushing articles such as fruits in the cup 500, and the flow guide portion 2282b guides the liquid in the cup 500. By generating the vortex flow, the effect of accelerating the stirring and making it uniform is achieved.

  In conclusion, compared with the prior art, which had to prepare two types of equipment for the production of shaved ice and ice cream, the coaxial brake type ice machine provided by the present invention mainly uses the coaxial brake ring as the power output rod. Coaxially covering the screw stage allows the power output rod to be switched to a different power mode only by the user controlling the coaxial brake ring. For example, when a user manufactures shaved ice, the pressure generated when the power output rod rotates by simply bringing the braking kit into contact with the coaxial brake ring is reduced, and the power output rod is stuck because the ice block is too hard. To prevent it. When the user manufactures ice cream, the power output can be achieved by simply locking the coaxial brake ring with a braking kit, or by locking the coaxial brake ring by combining a fixing member and a lock hole using an electromagnetic lock. The rod is squeezed with full force according to the thread in the screw hole and the ice cream is squeezed out.

  In addition, the present invention further includes a cup holder and a stirring bar, and can be used for beverage agitation and cutting of articles such as fruits in addition to the manufacture of frozen desserts.

  Therefore, the embodiments disclosed in the present specification do not limit the present invention, but are for explanation, and the spirit and scope of the present invention are not limited by such embodiments. The scope of the present invention should be construed according to the claims, and all technologies within the equivalent scope should be construed as being included in the scope of the present invention.

100, 100a, 100b Coaxial brake type ice making machine 1, 1a, 1b Ice making machine body 11, 11a, 11b Support pillar 12, 12a Lower case 121 Output shaft hole 122 Motor shaft hole 123, 123a Rail 124, 124a Buckle members 13, 13a Upper case 131a Rack 2, 2a Drive module 21, 21a Fixing substrate 211, 211a Groove 212, 212a Through hole 213a Fixing plate 22, 22a Drive mode switching mechanism 221, 221a Support seat 2211, 2111a Through hole 2212, 2212a Braking hole 2213a Brake holes 222, 222a Rotor bearings 223, 223a Rotors 224, 224a Brake ring bearings 225, 225a Coaxial brake rings 2251, 2251a Screw holes 2252a Lock holes 226, 226a Power output 2261, 2261a Screw stage 2262, 2262a Drive stage 22621, 22621a Drive panel fixing hole 22622, 22622a Bolt 227, 227a Brake kit 2271, 2271a Brake screw 2272, 2272a Brake disk 2273, 2273a Spring 228, 228a Drive panel 228b Stirring bar 2281 , 2281a One-way meshing structure 2282, 2282a Center part positioning taper structure 2281b Braid part 2282b Conducting part 229a Electromagnetic lock fixing member 2291a Lock rod 23, 23a Power device 231, 231a Power output shaft 24, 24a Power transmission kit 241, 241a First One transmission board 242, 242a Second transmission board 243, 243a Transmission belt 25, 25a Control device 251a Detection element 252a Control Nel 3b Cup holder 31b Opening 200, 200a Ice product substrate storage mechanism mounting tool 201, 201a Mounting tool frame 202, 202a Product output port 300, 300a Ice product substrate storage mechanism mounting 301, 301a Upper lid 400 Hard Ice product base 400a Soft ice product base 500 Cup S Storage space

Claims (10)

A storage space, and an output shaft hole and two rails are installed; the output shaft hole communicates with the storage space; the two rails are installed symmetrically on two sides of the output shaft hole; Thus, the drawer-type ice product substrate mounting tool for storing the ice product substrate storage box has an ice maker main body installed so as to correspond to the lower part of the output shaft hole,
A drive module installed in the storage space,
The drive module is
A drive mode switching mechanism;
A power device,
The drive mode switching mechanism is
A support seat fixed in the storage space;
A coaxial brake ring rotatably mounted on the support seat and having a screw hole;
A power output rod having a screw stage and a driving stage, the screw stage being drilled to fit the screw hole, and the driving stage extending from the screw stage to a shaft hole;
A braking kit installed on the support seat and in contact with the coaxial brake ring;
A drive panel removably secured to the drive stage;
The power device is coupled to the power output rod and is transmitted so that the power output rod is interlocked to rotate at a first rotational speed, and the coaxial brake ring is interlocked and braked by the power output rod. Simultaneously receiving the braking of the kit and rotating at a second rotational speed slower than the first rotational speed, the power output rod is propelled downward by a combination of the screw stage and the screw hole,
Further, when the power device stops the rotation of the power output rod in conjunction with each other, the coaxial brake ring is combined with the screw hole and the screw stage by braking of the braking kit, so that the power output rod is Coaxial brake type ice machine characterized by stopping rotation.   The coaxial brake ring is further provided with at least one lock hole that extends outward with the screw hole as a center and is used by a user to lock the coaxial brake ring. The coaxial brake type ice making machine according to claim 1.   The coaxial brake ice maker according to claim 2, wherein the screw hole extends vertically, and the lock hole extends radially outward.   The drive mode switching mechanism further includes an electromagnetic brake member that is installed on the support seat, and that a lock rod enters into the lock hole, thereby locking the coaxial brake ring. Item 3. The coaxial brake ice maker according to item 2.   2. The coaxial brake ice maker according to claim 1, wherein the drive module further includes a control device installed in the storage space and used for controlling power output of the power device.   The ice making machine main body further includes a support column, a lower case, and an upper case, the lower case is fixed to the support column, the upper case is fixed to the lower case and has a lid, and the lower portion The coaxial brake type ice making machine according to claim 1, wherein the storage space is formed by surrounding with a case.   The coaxial brake ice maker according to claim 6, further comprising a cup holder that is detachably installed on the support column and is used for placing a cup.   The drive mode switching mechanism further includes a stirring bar that is detachably mounted on the drive stage when the drive panel is removed from the drive stage and that stirs the beverage in the cup. The coaxial brake ice maker according to claim 7, characterized in that it is characterized in that:   The coaxial brake ice maker according to claim 8, wherein the stirring bar further includes a blade portion. The coaxial brake ice maker according to claim 8, wherein the stirring bar further includes a flow guide portion.

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