CN113834245B - Evaporator mounting structure of ice cream machine - Google Patents

Abstract

The invention discloses an evaporator mounting structure of ice cream machine, comprising: the evaporator body comprises an upper evaporation mechanism and a lower evaporation mechanism arranged below the upper evaporation mechanism, and the upper evaporation mechanism and the lower evaporation mechanism are arranged in the outer protection mechanism through locking and positioning mechanisms. This ice-cream machine's evaporimeter mounting structure includes: the evaporator body comprises an upper evaporation mechanism and a lower evaporation mechanism, and a plurality of locking and positioning mechanisms are arranged in the outer protection mechanism, so that the upper evaporation mechanism and the lower evaporation mechanism are arranged in the outer protection mechanism in a clamping manner by the locking and positioning mechanisms, and the evaporation speed of the ice cream machine can be increased; make evaporimeter body and ice-cream machine carry out fixed mounting through locking positioning mechanism, the mounting means is simple, and the protection machanism outside the configuration of evaporimeter body is protected in the convenient to detach maintenance, avoids the evaporimeter body to take place the condition of damage, overcomes design defect and convenient to use.

Description

Evaporator mounting structure of ice cream machine

Technical Field

The invention relates to the technical field of ice cream machines, in particular to an evaporator mounting structure of an ice cream machine.

Background

The ice cream has the characteristics of being fragrant, smooth, exquisite, cool, delicious and the like. Especially in summer, people like to eat more. The ice cream machine mainly comprises a refrigeration system and an extrusion system, wherein the refrigeration system comprises a compressor, a condenser, a filter, an electromagnetic valve, a capillary tube and an evaporator. However, the evaporimeter of present majority and ice-cream machine adopt the bolt to carry out fixed mounting, and the mounting means is loaded down with trivial details, and the maintenance is not convenient for dismantle, and the outside of present most evaporimeters does not set up protective structure simultaneously, and the condition that has the evaporating pipe to damage often takes place, and there is the defect in the design, is not convenient for use. Therefore, there is a need for an evaporator mounting structure of an ice cream machine, which at least partially solves the problems of the prior art.

Disclosure of Invention

A series of concepts in a simplified form are introduced in the summary section, which is described in further detail in the detailed description section. This summary of the invention is not intended to identify key features or 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 an evaporator mounting structure of an ice cream maker, comprising: the evaporator comprises an outer protection mechanism and an evaporator body, wherein the evaporator body comprises an upper evaporation mechanism and a lower evaporation mechanism arranged below the upper evaporation mechanism, and the upper evaporation mechanism and the lower evaporation mechanism are arranged in the outer protection mechanism through a locking and positioning mechanism.

According to the evaporator mounting structure of the ice cream machine, the outer protection mechanism comprises an outer protection box, a positioning mounting seat is arranged inside the outer protection box, and a positioning mounting groove used for being clamped and connected with an evaporator body is arranged inside the positioning mounting seat; and/or, a plurality of bleeder vents have been seted up to the equidistant outside of outer protective housing, and at the in-process of using device, outer protective housing can protect last evaporation mechanism and lower evaporation mechanism, effectively avoids last evaporation mechanism and lower evaporation mechanism to take place to damage, and equidistant distribution's bleeder vent can be with the steam transmission to outer protection mechanism's the outside of last evaporation mechanism and lower evaporation mechanism simultaneously.

According to the evaporator mounting structure of the ice cream machine disclosed by the embodiment of the invention, the upper evaporation mechanism comprises the first left fixed disk and the first right fixed disk, the first left fixed disk is arranged on the left side of the upper evaporation tube, the first right fixed disk is arranged on the right side of the upper evaporation tube, the first U-shaped connecting tube is arranged on the outer side of the upper evaporation tube, the first connecting seat is arranged on the outer side of the first U-shaped connecting tube, the first upper threaded sleeve and the first lower threaded sleeve are arranged on the outer side of the first connecting seat, the first U-shaped connecting tube is in threaded connection with the first upper threaded sleeve, the upper evaporation tube is in threaded connection with the first lower threaded sleeve, the first left fixed disk and the first right fixed disk can fix and limit the upper evaporation tube in the using process of the device, meanwhile, the upper evaporation tube can be quickly detached from the first lower threaded sleeve, and the first U-shaped connecting tube can be quickly detached from the first upper threaded sleeve, so that the evaporator mounting structure is simple to operate and convenient to use.

According to the evaporator mounting structure of the ice cream machine disclosed by the embodiment of the invention, the lower evaporation mechanism comprises a second left fixed disk, a lower evaporation tube and a second U-shaped connecting tube, the second left fixed disk is arranged on the left side of the lower evaporation tube, the second right fixed disk is arranged on the right side of the lower evaporation tube, the second U-shaped connecting tube is arranged on the outer side of the lower evaporation tube, a second connecting seat, a second upper threaded sleeve and a second lower threaded sleeve are arranged between the lower evaporation tube and the second U-shaped connecting tube, the lower evaporation tube is in threaded connection with the second lower threaded sleeve, the second U-shaped connecting tube is in threaded connection with the second upper threaded sleeve, the second right fixed disk and the second left fixed disk can fix and limit the lower evaporation tube in the using process of the ice cream machine, the lower evaporation tube can be rapidly disassembled from the lower threaded sleeve, and the second U-shaped connecting tube can be rapidly disassembled from the upper threaded sleeve, so that the ice cream machine is simple to operate and convenient to use.

According to the evaporator mounting structure of the ice cream machine, the locking and positioning mechanism comprises the positioning strips, the buffer springs and the locking pieces, the positioning strips are arranged at the bottoms of the two sides of the upper evaporation mechanism and are used for being connected with the outer protection mechanism in a clamping mode, the locking pieces penetrate through the upper evaporation mechanism and the lower evaporation mechanism, the upper ends of the locking pieces are provided with the first locking nuts, the lower ends of the locking pieces are provided with the buffer springs and the second locking nuts, the second locking nuts abut against the buffer springs, in the using process of the device, the positioning strips, the positioning mounting seats and the positioning mounting grooves can be used for positioning and mounting the upper evaporation mechanism and the lower evaporation mechanism, and meanwhile the locking pieces, the second locking nuts and the buffer springs can be used for locking and mounting the first left fixing disc and the second left fixing disc, the first right fixing disc and the second right fixing disc.

According to the evaporator mounting structure of the ice cream machine of the embodiment of the invention, the locking piece comprises a guide rod, a vertical rod, an outer sleeve and a lower screw rod, the guide rod is arranged on the vertical rod, the lower screw rod is arranged at the bottom of the vertical rod, the buffer spring and a second locking nut are sequentially arranged on the lower screw rod, the outer sleeve is arranged on the guide rod, the upper end of the outer sleeve is connected with a first locking nut, a guide hole corresponding to the guide rod is arranged in the outer sleeve, a first guide cavity is arranged in the outer sleeve, a plurality of vertical bar holes are arranged on the outer wall of the outer sleeve, a bearing part is arranged on the outer wall below the vertical bar holes, the bearing part is positioned in a first groove at the upper end of the vertical rod, a transverse rod is connected in the bearing part, and an internal support mechanism is arranged in the first guide cavity.

According to the evaporator mounting structure of the ice cream machine provided by the embodiment of the invention, the inner support mechanism comprises an inner guide sleeve, a plurality of upper cross support plates and a plurality of lower cross support plates, the upper end of the inner guide sleeve is arranged in the first guide cavity, the lower end of the inner guide sleeve is arranged in the second guide cavity of the vertical rod, the upper cross support plates are all arranged at the upper end of the inner guide sleeve, the outer ends of the upper cross support plates penetrate through the vertical bar holes and are in press connection with the transverse rods, the outer ends of the upper cross support plates are provided with convex blocks, the transverse rods are provided with second grooves corresponding to the convex blocks, the lower cross support plates are all arranged at the lower ends of the lower cross support plates, the second guide cavity is arranged below the first grooves, third grooves are arranged below the second guide cavity, a first inner ejector rod and a second inner ejector rod are arranged in the second guide cavity, the lower end of the first inner ejector rod abuts against the lower cross support plates, the upper end of the first inner ejector rod penetrates through the first grooves and extends into the bearing holes of the bearing parts, the second inner guide rod, the upper end of the second inner ejector rod abuts against the second guide rod, and the upper end of the second ejector rod is connected with the second ejector rod, and the upper end of the second inner ejector rod, and the inner spring is connected with the second ejector rod.

According to the evaporator mounting structure of the ice cream machine, the lower end of the second inner ejector rod is provided with the fourth groove, the lower end of the auxiliary rod is provided with the bottom connecting rod clamped to the fourth groove, the middle part of the auxiliary rod is provided with the middle connecting rod, the inner end of the middle connecting rod is provided with the C-shaped plate, and the C-shaped plate is abutted to the outer wall of the vertical rod.

According to the evaporator mounting structure of the ice cream machine, the bearing part comprises the U-shaped frame and the vertical tenon, the vertical tenon is arranged on the outer wall below the vertical strip hole, the U-shaped frame is arranged below the vertical tenon and is positioned in the first groove, and the inner end of the transverse rod is provided with the vertical mortise corresponding to the vertical tenon.

According to the evaporator mounting structure of the ice cream machine, the upper evaporation tubes are arranged in the same number, the upper evaporation tubes are distributed between the first left fixing disc and the first right fixing disc at equal intervals, the connecting seat is rotatably connected with the upper threaded sleeve, the connecting seat is rotatably connected with the lower threaded sleeve, and in the using process of the device, the lower threaded sleeve, the upper threaded sleeve and the connecting seat can rotate, so that the lower threaded sleeve, the upper evaporation tubes, the first U-shaped connecting tube and the second U-shaped connecting tube can be conveniently detached, the operation is simple, and the use is convenient.

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

the invention provides an evaporator mounting structure of an ice cream machine, comprising: the ice cream machine comprises an outer protection mechanism and an evaporator body, wherein the evaporator body comprises an upper evaporation mechanism and a lower evaporation mechanism, the lower evaporation mechanism is arranged below the upper evaporation mechanism, and a plurality of locking and positioning mechanisms are arranged inside the outer protection mechanism, so that the upper evaporation mechanism and the lower evaporation mechanism are arranged inside the outer protection mechanism in a clamping manner by the locking and positioning mechanisms, and the evaporation speed of the ice cream machine can be increased; make evaporimeter body and ice-cream machine carry out fixed mounting through foretell locking positioning mechanism, this mounting means is simple, and the convenient to detach maintenance has been furnished with outer protection machanism in the outside of evaporimeter body simultaneously, avoids the evaporimeter body to take place the condition of damaging, overcomes design defect and convenient to use.

Other advantages, objects, and features of the evaporator mounting structure for an ice cream machine according to the present 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, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of an installation structure of an upper evaporation mechanism and a lower evaporation mechanism in the present invention;

FIG. 2 is a schematic side view of the upper evaporation mechanism of the present invention;

FIG. 3 is a schematic perspective view of the outer protection mechanism according to the present invention;

FIG. 4 is a schematic cross-sectional view of the outer shield mechanism of the present invention;

FIG. 5 is an enlarged view of the portion A in FIG. 4 according to the present invention;

FIG. 6 is a schematic view of an installation structure of the upper threaded sleeve and the connecting seat in the present invention;

FIG. 7 is a schematic view of the locking member of the present invention;

fig. 8 is a schematic structural view of the outer jacket according to the present invention.

Fig. 9 is a schematic structural view of the vertical rod in the present invention.

Fig. 10 is a schematic structural view of the carrying part of the present invention.

Fig. 11 is a schematic structural view of the internal stay mechanism of the present invention.

Fig. 12 is a partial internal structure view of the locker of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can implement the invention with reference 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 6, the present invention provides an evaporator mounting structure of an ice cream maker, comprising: outer protection machanism 1 and evaporimeter body, the evaporimeter body includes evaporation mechanism 2 and sets up go up the lower evaporation mechanism 3 of evaporation mechanism 2 below, it sets up through locking positioning mechanism 4 card to go up evaporation mechanism 2 and lower evaporation mechanism 3 in the outer protection machanism 1.

The working principle and the beneficial effects of the technical scheme are as follows: the invention provides an evaporator mounting structure of an ice cream machine, comprising: the evaporator comprises an outer protection mechanism 1 and an evaporator body, wherein the evaporator body comprises an upper evaporation mechanism 2 and a lower evaporation mechanism 3, the lower evaporation mechanism 3 is arranged below the upper evaporation mechanism 2, it can be understood that the specifications of the upper evaporation mechanism 2 and the lower evaporation mechanism 3 are the same, the upper evaporation mechanism 2 and the lower evaporation mechanism 3 are symmetrically distributed about the central line of the outer protection mechanism 1, and a plurality of locking and positioning mechanisms 4 are arranged inside the outer protection mechanism 1, so that the upper evaporation mechanism 2 and the lower evaporation mechanism 3 are arranged inside the outer protection mechanism 1 in a clamping manner by the locking and positioning mechanisms 4, and the evaporation speed of the ice cream machine can be increased; make evaporimeter body and ice-cream machine carry out fixed mounting through foretell locking positioning mechanism 4, this mounting means is simple, and convenient to detach maintenance has set outer protection machanism 1 in the outside of evaporimeter body simultaneously, avoids the evaporimeter body to take place the condition of damaging, overcomes design defect and convenient to use.

In one embodiment, the outer protection mechanism 1 includes an outer protection box 101, an air vent 102, a positioning installation seat 103 and a positioning installation groove 104, the air vent 102 is opened on the outer side of the outer protection box 101, the positioning installation seat 103 is fixedly installed in the outer protection box 101, the positioning installation groove 104 is opened in the positioning installation seat 103, the positioning installation seat 103 and the positioning installation groove 104 are both provided with two, the positioning installation seat 103 and the positioning installation groove 104 are symmetrically distributed about the central line of the outer protection box 101, the air vent 102 is provided with a plurality of air vents 102, and the plurality of air vents 102 are equidistantly distributed on the outer side of the outer protection box 101.

The working principle and the beneficial effects of the technical scheme are as follows: the embodiment provides a structure of an outer protection mechanism 1, the outer protection mechanism 1 of the structure comprises an outer protection box 101, an air hole 102, a positioning installation seat 103 and a positioning installation groove 104, specifically, an upper evaporation mechanism 2 and a lower evaporation mechanism 3 are installed in the outer protection box 101 through a locking and positioning mechanism 4, and in the process of using the device, the outer protection box 101 can protect the upper evaporation mechanism 2 and the lower evaporation mechanism 3, so that the upper evaporation mechanism 2 and the lower evaporation mechanism 3 are effectively prevented from being damaged; the outer side of the outer protection box 101 is provided with a plurality of air holes 102, and it can be understood that the plurality of air holes 102 are distributed on the outer side of the outer protection box 101 at equal intervals, and the air holes 102 can transmit the steam of the upper evaporation mechanism 2 and the lower evaporation mechanism 3 to the outer side of the outer protection mechanism 1 so as to facilitate ventilation; two positioning installation seats 103 are symmetrically installed in the middle of the inner wall of the outer protection box 101, and positioning installation grooves 104 are formed in the end portions of the positioning installation seats 103, that is, the positioning installation seats 103 and the positioning installation grooves 104 are symmetrically distributed about the center line of the outer protection box 101, and the upper evaporation mechanism 2 and the lower evaporation mechanism 3 are fixed by matching the positioning installation grooves 104 with the locking positioning mechanisms 4.

In one embodiment, the upper evaporation mechanism 2 includes a first left fixed disk 201, an upper evaporation tube 202, a first right fixed disk 203, a first U-shaped connection tube 204, a first connection seat 205, a first upper threaded sleeve 206 and a first lower threaded sleeve 207, the first left fixed disk 201 is fixedly installed on the left side of the upper evaporation tube 202, the first right fixed disk 203 is fixedly installed on the right side of the upper evaporation tube 202, the first left fixed disk 201 and the first right fixed disk 203 are in an "L" shape, the first U-shaped connection tube 204 is installed on the outer side of the upper evaporation tube 202, the first connection seat 205 is installed on the outer side of the first U-shaped connection tube 204, the first upper threaded sleeve 206 and the first lower threaded sleeve 207 are installed on the outer side of the first connection seat 205, the first U-shaped connection tube 204 is in threaded connection with the first upper threaded sleeve 206, and the upper evaporation tube 202 is in threaded connection with the first lower threaded sleeve 207.

Further, the upper evaporation tubes 202 are arranged in a plurality of numbers, the upper evaporation tubes 202 are distributed between the first left fixed disk 201 and the first right fixed disk 203 at equal intervals, the first connecting seat 205 is rotatably connected with the first upper threaded sleeve 206, and the first connecting seat 205 is rotatably connected with the first lower threaded sleeve 207.

The working principle and the beneficial effects of the technical scheme are as follows: the embodiment provides a structure of an upper evaporation mechanism 2, the upper evaporation mechanism 2 of the structure comprises a first left fixed disk 201, an upper evaporation tube 202, a first right fixed disk 203, a first U-shaped connecting tube 204, a first connecting seat 205, a first upper threaded sleeve 206 and a first lower threaded sleeve 207, specifically, the first left fixed disk 201 and the first right fixed disk 203 are in an "L" shaped structure, and can be installed in a positioning installation groove 104 of a positioning installation seat 103 through a locking positioning mechanism 4, a plurality of upper evaporation tubes 202 are installed between the first left fixed disk 201 and the first right fixed disk 203, and two ends of the upper evaporation tubes 202 respectively extend out of the first left fixed disk 201 and the first right fixed disk 203, the two adjacent upper evaporation tubes 202 are communicated with each other through a first U-shaped connecting tube 204, a first connecting seat 205, a first upper threaded sleeve 206, a first lower threaded sleeve 207 and the like, it can be understood that the lower threaded sleeve 207 is installed at the end of the upper evaporation tube 202, the first upper threaded sleeve 206 is installed at the end of the first U-shaped connecting tube 204, and the first upper threaded sleeve 206 and the first lower threaded sleeve 207 are connected with each other through the first connecting seat 205, it can be understood that the first lower threaded sleeve 207, the first upper threaded sleeve 206 and the first connecting seat 205 can rotate, so that the first lower threaded sleeve 207, the first upper threaded sleeve 206, the upper evaporation tube 202, the lower evaporation tube 302, the first U-shaped connecting tube 204 and the second U-shaped connecting tube 304 can be conveniently disassembled, and the operation is simple and the use is convenient.

In one embodiment, the lower evaporation mechanism 3 includes a second left fixed disk 301, a lower evaporation tube 302, a second right fixed disk 303 and a second U-shaped connection pipe 304, the second left fixed disk 301 is fixedly installed on the left side of the lower evaporation tube 302, the second right fixed disk 303 is fixedly installed on the right side of the lower evaporation tube 302, the second U-shaped connection pipe 304 is arranged on the outer side of the lower evaporation tube 302, a second connection seat, a second upper threaded sleeve and a second lower threaded sleeve are arranged between the lower evaporation tube 302 and the second U-shaped connection pipe 304, the lower evaporation tube 302 and the second lower threaded sleeve are in threaded connection, and the second U-shaped connection pipe 304 and the second upper threaded sleeve are in threaded connection.

Further, the plurality of lower evaporation tubes 302 are provided, and the lower evaporation tubes 302 are equally spaced between the second left fixed disk 301 and the second right fixed disk 303.

The working principle and the beneficial effects of the technical scheme are as follows: the embodiment provides a structure of a lower evaporation mechanism 3, the lower evaporation mechanism 3 of the structure includes a second left fixed disk 301, a lower evaporation tube 302, a second right fixed disk 303 and a second U-shaped connecting tube 304, specifically, the second left fixed disk 301 and the second right fixed disk 303 are also in an "L" shape structure, a plurality of lower evaporation tubes 302 are installed between the second left fixed disk 301 and the second right fixed disk 303, the end portions of the lower evaporation tubes 302 respectively extend out of the second left fixed disk 301 and the second right fixed disk 303, and here, two adjacent lower evaporation tubes 302 are communicated with each other through the second U-shaped connecting tube 304, a second connecting seat, a second upper threaded sleeve, a second lower threaded sleeve and other components; in the use, the evaporation tube 302 can be fixed and spacing down to right fixed disk 303 of second and left fixed disk 301 of second, lower evaporation tube 302 can be dismantled fast with the screw sleeve down of second, screw sleeve can be dismantled fast on second U type connecting pipe 304 and the second, easy operation, it is convenient to use, lower evaporation tube 302 is equidistant between left fixed disk 301 of second and right fixed disk 303 of second, equidistant lower evaporation tube 302 of distribution can promote the evaporation rate of ice-cream machine.

As shown in fig. 5 to 12, in an embodiment, the locking and positioning mechanism 4 includes a positioning bar 401, a buffer spring 403, a first lock nut 402, a second lock nut 404 and a locking member 5, the positioning bar 401 is disposed at the bottom of two sides of the upper evaporation mechanism 2 for being engaged with an external protection mechanism, the positioning bar 401 is "L" shaped, the locking member 5 penetrates through the upper evaporation mechanism 2 and the lower evaporation mechanism 3, the upper end of the locking member 5 is provided with the first lock nut 402, the lower end is provided with the buffer spring 403 and the second lock nut 404, and the second lock nut 404 abuts against the buffer spring 403.

The working principle and the beneficial effects of the technical scheme are as follows: the embodiment provides a structure of a locking and positioning mechanism 4, the locking and positioning mechanism 4 of the structure comprises a positioning strip 401, a buffer spring 403, a first locking nut 402, a second locking nut 404 and a locking member 5, the positioning strip 401 is arranged at the bottom of two sides of an upper evaporation mechanism 2, the positioning strip 401 is in an "L" shape, the locking member 5 penetrates through the upper evaporation mechanism 2 and a lower evaporation mechanism 3, specifically, one locking member 5 penetrates through a first left fixing plate 201 and a second left fixing plate 301, the other locking member 5 penetrates through a first right fixing plate 203 and a second right fixing plate 303, the lower end of the locking member 5 is provided with the buffer spring 403 and the second locking nut 404, all installed location strip 401 in the bottom of first left fixed disk 201 and first right fixed disk 203, it can be understood that location strip 401 is located between first left fixed disk 201, the left fixed disk 301 of second, and between first right fixed disk 203, the right fixed disk 303 of second, location strip 401 is "L" form, can peg graft in the location mounting groove 104 of location mount pad 103, that is to say, location strip 401, location mount pad 103 and location mounting groove 104 can fix a position the installation to last evaporation mechanism 2 and lower evaporation mechanism 3, retaining member 5 simultaneously, second lock nut 404 and buffer spring 403 can lock first left fixed disk 201 and second left fixed disk 301, first right fixed disk 203 and second right fixed disk 303 and install.

In one embodiment, the locking member 5 includes a guide rod 501, a vertical rod 502, an outer sleeve 503 and a lower screw rod 504, the guide rod 501 is disposed on the vertical rod 502, the lower screw rod 504 is disposed at the bottom of the vertical rod 502, the buffer spring 403 and the second lock nut 404 are sequentially disposed on the lower screw rod 504, the outer sleeve 503 is disposed on the guide rod 501, the upper end of the outer sleeve 503 is connected with the first lock nut 402, a guide hole 505 corresponding to the guide rod 501 is disposed in the outer sleeve 503, and a first guide cavity 506 is disposed inside the outer sleeve, a plurality of vertical bar holes 507 are disposed on the outer wall of the outer sleeve 503, a bearing portion 508 is disposed on the outer wall below the vertical bar holes 507, the bearing portion 508 is located in a first groove 509 at the upper end of the vertical rod 502, a transverse rod 514 is connected in the bearing portion 508, and an internal support mechanism is disposed in the first guide cavity 506;

further, the inner supporting mechanism comprises an inner guide sleeve 510, a plurality of upper cross plates 511 and a plurality of lower cross plates 512, the upper end of the inner guide sleeve 510 is arranged in the first guide cavity 506, the lower end of the inner guide sleeve 510 is arranged in the second guide cavity 513 of the vertical rod 502, the plurality of upper cross plates 511 are all arranged at the upper end of the inner guide sleeve 510, the outer ends of the upper cross plates 511 pass through the vertical bar holes 507 and are pressed on the cross rods 514, the outer ends of the upper cross plates 511 are provided with protrusions 515, the cross rods 514 are provided with second grooves 516 corresponding to the protrusions 515, the plurality of lower cross plates 512 are all arranged at the lower ends of the plurality of lower cross plates 512, the second guide cavities 513 are located below the first grooves 509, and a third groove 517 is arranged below the second guide cavity 513, a first inner top rod 518 and a second inner top rod 519 are arranged in the second guide cavity 513, the lower end of the first inner top rod 518 abuts against the lower cross support plate 512, the upper end of the first inner top rod passes through the first groove 509 and extends into the bearing hole 520 of the bearing part 508, the upper end of the second inner top rod 519 abuts against the lower cross support plate 512, the lower end of the second inner top rod passes through the second guide cavity 513 and extends into the third groove 517, an inner spring 521 is arranged on the second inner top rod 519, the inner spring 521 is positioned below the lower cross support plate 512 and abuts against the inner bottom surface of the second guide cavity 513, the lower end of the second inner top rod 519 is connected with an auxiliary rod 522, and the upper end of the auxiliary rod 522 abuts against the cross rod 514.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of the above structure, the embodiment provides a specific structure of the locking member 5, the locking member 5 is respectively fixed on the first left fixed disk 201, the second left fixed disk 301, and the first right fixed disk 203, the second right fixed disk 303, so as to support and fix the upper evaporation mechanism 2 and the lower evaporation mechanism 3 to each other, specifically, the locking member 5 comprises a guide rod 501, a vertical rod 502, an outer nut 503, and a lower screw rod 504, the guide rod 501 and the outer nut 503 are mounted on the vertical rod 502 and penetrate out of the first right fixed disk 203 upwards, the first locking nut 402 is mounted on the outer nut 503 so as to fix the first right fixed disk 203 between the first locking nut 402 and the plurality of transverse rods 514, where the transverse rods 514 are lapped in the bearing parts 508 on the outer nut 503, and the bearing parts 508 are located in the first grooves 509 at the upper ends of the vertical rod 502, so as to prevent the bearing parts 508 from moving circumferentially; meanwhile, a first guide cavity 506 and a second guide cavity 513 are respectively designed on the outer screw sleeve 503 and the vertical rod 502, an inner supporting mechanism is arranged in the first guide cavity 506 and the second guide cavity 513, an upper support plate 511 of the inner supporting mechanism is arranged at the upper end of the inner guide sleeve 510 and extends outwards through a vertical strip hole 507 on the outer screw sleeve 503, so that a lug 515 at the outer end of the upper support plate 511 is inserted into a second groove 516 of the transverse rod 514, and the transverse rod 514 is stably fixed in the transverse direction;

in order to enable the locking member 5 to have continuous supporting force between the first right fixing disk 203 and the second right fixing disk 303, the lower cross plate 512 of the inner supporting mechanism is located in the second guide cavity 513, and the first inner top rod 518 and the second inner top rod 519 are designed on the lower cross plate 512, wherein the first inner top rod 518 extends into the bearing hole 520 of the bearing part 508 on the lower cross plate 512 after passing upwards out of the first guide cavity 506, and further fixes the bearing part 508 in the first groove 509; the second inner top rod 519 is located below the lower cross plate 512, the second inner top rod 519 penetrates through the second guide cavity 513 downwards and extends into the third groove 517, an inner spring 521 is arranged between the lower cross plate 512 and the inner bottom surface of the second guide cavity 513, and the inner spring 521 is sleeved on the second inner top rod 519, so that the inner spring 521 upwards abuts against the lower cross plate 512 to provide upward elastic force for the first inner top rod 518, and further the transverse rod 514 is provided with upward supporting force;

further, the lower end of the second inner top rod 519 is connected with an auxiliary rod 522, the auxiliary rod 522 can support the transverse rod 514 outside the vertical rod 502, and the upper end of the auxiliary rod 522 can be hinged to the transverse rod 514, so that after the first locking nut 402 is separated from the outer sleeve 503, under the action of the inner spring 521, the upper support plate 511, the inner guide sleeve 510, the lower support plate 512 and other structures in the inner supporting mechanism can be propped upwards, so that the upper support plate 511 moves upwards along the vertical bar hole 507, and simultaneously drives the transverse rod 514 to move upwards, and further the first left fixed disk 201 and the first right fixed disk 203 can be propped upwards, thereby facilitating the separation between the upper evaporation mechanism 2 and the lower evaporation mechanism 3.

Further, the lower extreme of ejector pin 519 in the second is provided with fourth recess 523, the lower extreme of auxiliary rod 522 is provided with the joint and reaches pole 524 at the bottom of fourth recess 523, and the middle part is provided with extension pole 525, the inner of extension pole 525 is provided with C template 526, C template 526 butt the outer wall of vertical pole 502.

The working principle and the beneficial effects of the technical scheme are as follows: in the embodiment, structures such as the bottom extension bar 524 and the middle extension bar 525 are provided, specifically, in order to enable the auxiliary bar 522 to support the transverse bar 514, the bottom extension bar 524 is arranged at the lower end of the auxiliary bar 522, the middle extension bar 525 is arranged in the middle of the auxiliary bar, a lower U-shaped frame 522a is designed outside the third groove 517, the lower U-shaped frame 522a can support the bottom extension bar 524, and the middle extension bar 525 contacts the outer wall of the vertical bar 502 through a C-shaped plate 526, so that the auxiliary bar 522 can better play a supporting role.

Further, the bearing part 508 includes a U-shaped frame 508a and a vertical tenon 508b, the vertical tenon 508b is disposed on the outer wall below the vertical bar hole 507, the U-shaped frame 508a is disposed below the vertical tenon 508b and is located in the first groove 509, and the inner end of the transverse rod 514 is provided with a vertical mortise 514a corresponding to the vertical tenon 508 b.

The working principle and the beneficial effects of the technical scheme are as follows: the embodiment provides a specific structure of the bearing part 508, the bearing part 508 of the structure includes a U-shaped frame 508a and a vertical tenon 508b, specifically, the vertical tenon 508b is installed on the outer wall below the vertical bar hole 507, the U-shaped frame 508a is installed below the vertical tenon 508b and is located in the first groove 509, a vertical mortise 514a is arranged at the inner end of the transverse rod 514, the inner end of the transverse rod 514 can be installed on the vertical tenon 508b, and meanwhile, the U-shaped frame 508a can half wrap the inner end of the transverse rod 514 to play a bearing role.

When the evaporator installation structure of the ice cream machine is used, the outer protection box 101 can protect the upper evaporation mechanism 2 and the lower evaporation mechanism 3, the damage of the upper evaporation mechanism 2 and the lower evaporation mechanism 3 is effectively avoided, meanwhile, the air holes 102 distributed at equal intervals can transmit the steam of the upper evaporation mechanism 2 and the lower evaporation mechanism 3 to the outer side of the outer protection mechanism 1, the first left fixing disc 201 and the first right fixing disc 203 can fix and limit the upper evaporation tube 202, the upper evaporation tube 202 and the lower threaded sleeve 207 can be quickly detached, the first U-shaped connecting tube 204 and the upper threaded sleeve 206 can be quickly detached, the upper evaporation tube 202 is provided with a plurality of same parts, the lower threaded sleeve 207 and the upper threaded sleeve 206 can rotate with the connecting seat 205, the lower threaded sleeve 207 and the upper evaporation tube 202, the lower evaporation tube 302, the first U-shaped connecting tube 204 and the second U-shaped connecting tube 304 can be rapidly detached, the lower evaporation tube 302 and the lower threaded sleeve 207 can be rapidly detached with the connecting seat 304, the second U-shaped sleeve 206 and the upper evaporation tube 202, the first U-shaped connecting tube 204 and the second U-shaped connecting tube 304 can be quickly detached, the left evaporation mechanism can be quickly installed on the left evaporation mechanism 2 and the right fixing disc 201 and the left evaporation mechanism and the left fixing disc 301 can be quickly installed with the left fixing disc 301 and can be quickly locked by using the positioning spring mechanism.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be construed as limiting the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (6)

1. An evaporator mounting structure of an ice cream machine, comprising: the evaporator comprises an outer protection mechanism (1) and an evaporator body, wherein the evaporator body comprises an upper evaporation mechanism (2) and a lower evaporation mechanism (3) arranged below the upper evaporation mechanism (2), and the upper evaporation mechanism (2) and the lower evaporation mechanism (3) are arranged in the outer protection mechanism (1) through a locking and positioning mechanism (4);

the outer protection mechanism (1) comprises an outer protection box (101), a positioning installation seat is arranged inside the outer protection box (101), and a positioning installation groove used for being clamped and connected with the evaporator body is arranged inside the positioning installation seat; and/or a plurality of air holes (102) are formed in the outer side of the outer protective box (101) at equal intervals;

the upper evaporation mechanism (2) comprises a first left fixed disc (201) and a first right fixed disc (203), the first left fixed disc is arranged on the left side of an upper evaporation tube (202), the first right fixed disc is arranged on the right side of the upper evaporation tube, a first U-shaped connecting tube (204) is arranged on the outer side of the upper evaporation tube, a first connecting seat (205) is arranged on the outer side of the first U-shaped connecting tube, a first upper threaded sleeve (206) and a first lower threaded sleeve (207) are arranged on the outer side of the first connecting seat, the first U-shaped connecting tube is in threaded connection with the first upper threaded sleeve, and the upper evaporation tube is in threaded connection with the first lower threaded sleeve;

the lower evaporation mechanism comprises a second left fixed disc (301), a lower evaporation tube (302) and a second U-shaped connecting tube (304), the second left fixed disc is arranged on the left side of the lower evaporation tube, a second right fixed disc (303) is arranged on the right side of the lower evaporation tube, the second U-shaped connecting tube is arranged on the outer side of the lower evaporation tube (302), a second connecting seat, a second upper threaded sleeve and a second lower threaded sleeve are arranged between the lower evaporation tube and the second U-shaped connecting tube, the lower evaporation tube is in threaded connection with the second lower threaded sleeve, and the second U-shaped connecting tube is in threaded connection with the second upper threaded sleeve;

locking positioning mechanism (4) are including location strip (401), buffer spring (403) and retaining member (5), and the location strip sets up in last evaporation mechanism's both sides bottom for the outer protection machanism is connected to the block, retaining member (5) run through go up evaporation mechanism and lower evaporation mechanism, the upper end of retaining member is provided with first lock nut (402), and the lower extreme is provided with buffer spring (403), second lock nut (404) support and prop buffer spring (403).

2. The evaporator mounting structure of ice cream machine according to claim 1, wherein said locking member (5) comprises a guide rod (501), a vertical rod (502), an outer sleeve (503), and a lower screw (504), said guide rod (501) is disposed on said vertical rod (502), said lower screw (504) is disposed at the bottom of said vertical rod (502), said buffer spring (403) and a second lock nut (404) are sequentially disposed on said lower screw (504), said outer sleeve (503) is disposed on said guide rod (501), said outer sleeve (503) is connected to a first lock nut (402) at its upper end, said outer sleeve (503) is provided with a guide hole (505) corresponding to said guide rod (501) and is internally provided with a first guide cavity (506), said outer sleeve (503) is provided with a plurality of vertical bar holes (507) on its outer wall, said outer wall below said vertical bar holes (507) is provided with a bearing portion (508), said bearing portion (508) is located in said first groove (509) at the upper end of said vertical rod (502), and said inner support mechanism (508) is disposed in said first guide cavity (506).

3. An evaporator mounting structure for ice cream machine according to claim 2, wherein said inner support means comprises an inner guide sleeve (510), a plurality of upper support plates (511) and a plurality of lower support plates (512), wherein the upper end of said inner guide sleeve (510) is disposed in said first guide cavity (506), the lower end of said inner guide sleeve (510) is disposed in said second guide cavity (513) of said vertical rod (502), said plurality of upper support plates (511) are disposed on the upper end of said inner guide sleeve (510), the outer end of said upper support plate (511) passes through said vertical bar hole (507) and is pressed against said transverse rod (514), the outer end of said upper support plate (511) is provided with a protrusion (515), said transverse rod (514) is provided with a second groove (516) corresponding to said protrusion (515), said plurality of lower support plates (512) are disposed on the lower end of said plurality of lower support plates (512), said second guide cavity (513) is located below said first groove (513), and said second groove (516) is disposed in said second guide cavity (518) and said second guide cavity (518) extends from the upper end of said second guide rod (518) to the lower end of said second guide rod (518), said second guide rod (518) bears said second guide rod (518), the upper end of the second inner ejector rod (519) abuts against the lower cross support plate (512), the lower end of the second inner ejector rod penetrates through the second guide cavity (513) and extends into the third groove (517), an inner spring (521) is arranged on the second inner ejector rod (519), the inner spring (521) is located below the lower cross support plate (512) and abuts against the inner bottom surface of the second guide cavity (513), the lower end of the second inner ejector rod (519) is connected with an auxiliary rod (522), and the upper end of the auxiliary rod (522) abuts against the transverse rod (514).

4. An evaporator mounting structure of ice cream machine according to claim 3, wherein the lower end of said second inner push rod (519) is provided with a fourth groove (523), the lower end of said auxiliary rod (522) is provided with a bottom connecting rod (524) snap-fitted into said fourth groove (523), the middle part is provided with a middle connecting rod (525), the inner end of said middle connecting rod (525) is provided with a C-shaped plate (526), and said C-shaped plate (526) abuts against the outer wall of said vertical rod (502).

5. An evaporator mounting structure for ice cream machine according to claim 2, characterized in that said carrying portion (508) comprises a U-shaped frame (508 a) and a vertical tenon (508 b), said vertical tenon (508 b) being arranged on the outer wall below said vertical slotted hole (507), said U-shaped frame (508 a) being arranged below said vertical tenon (508 b) and being located within said first recess (509), the inner end of said transverse rod (514) being provided with a vertical mortise (514 a) corresponding to said vertical tenon (508 b).

6. The evaporator mounting structure of an ice cream machine according to claim 1, wherein said upper evaporating tubes (202) are provided in plurality, said upper evaporating tubes (202) are equally spaced between a first left fixed disk (201) and a first right fixed disk (203), said first connecting seat (205) is rotatably connected to a first upper threaded sleeve (206), and said first connecting seat (205) is rotatably connected to a first lower threaded sleeve (207).

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