CN208765332U - More ice machines - Google Patents

Abstract

The utility model relates to a kind of more ice machines, including barrel mechanism, barrel mechanism include upper cover, lower cover, outer cylinder and inner cylinder, and inner cylinder is sheathed in outer cylinder, and outer cylinder is equipped with feed inlet and ice mouth, and middle cylinder is additionally provided between outer cylinder and inner cylinder；Ice scraper structure, ice scraper structure include driver, the first scraper, the second scraper and third scraper；And heat exchange mechanisms, heat exchange mechanisms include the first heat exchanger tube, the second heat exchanger tube and third heat exchanger tube, the first heat exchanger tube is set to outer cylinder, and the second heat exchanger tube is set to middle cylinder, and third heat exchanger tube is set to inner cylinder.Ice making raw material enters and is full of in outer cylinder, middle cylinder and inner cylinder from feed inlet, first heat exchanger tube, the second heat exchanger tube and third heat exchanger tube make to generate ice body on outer tube inner wall, middle cylinder inner wall and outer tube inner wall respectively by heat exchange, first scraper, the second scraper and third scraper respectively strike off the ice body on corresponding inner wall, the ice body being stripped off is discharged by ice mouth, realize the circulation of ice making, it makes ice more efficient and compact-sized.

Description

More ice machines

Technical field

The utility model relates to ice-making technology fields, more particularly to a kind of more ice machines.

Background technique

With economic development and continuous improvement of people's living standards, the application of ice machine is also more and more extensive.Ice machine It is a kind of refrigerating machine equipment that will be made ice raw material (such as water) and generate ice after cooling by the refrigerant of refrigeration system by evaporator, Using refrigeration system, using the raw material that freezes as carrier, in the energized state by producing ice cube after a certain equipment.

According to the difference of evaporator principle and production method, the ice cube shaped that ice machine generates is not also identical.Generally with life Ice machine is divided into particle ice maker, slice ice machine, plate ice machine, tube ice machine and shell ice machine etc. by the shape of Cheng Bing, wherein using ice cylinder The slice ice machine that form scrapes ice is relatively more.There is the problems such as ice making low efficiency in traditional ice machine.

Summary of the invention

Based on this, it is necessary to provide a kind of more ice machines.The more ice machines it is compact-sized, make ice it is high-efficient.

Its technical solution is as follows:

A kind of more ice machines, including barrel mechanism, barrel mechanism include upper cover, lower cover, outer cylinder and inner cylinder, and the two of outer cylinder End connect with upper cover and lower cover respectively and is formed confined space, and inner cylinder is sheathed in outer cylinder and is arranged with outer cylinder in spacing, outside Cylinder be equipped with feed inlet and ice mouth, middle cylinder is additionally provided between outer cylinder and inner cylinder, between middle cylinder and outer cylinder in spacing be arranged, middle cylinder with It is arranged between inner cylinder in spacing；Ice scraper structure, ice scraper structure include driver and scrape ice component, scrape ice component and scrape including first Knife, the second scraper and third scraper, for driving the first scraper and outer cylinder cooperation to carry out scraping ice, driver is also used to drive driver Dynamic second scraper and the cooperation of middle cylinder carry out scraping ice, and driver is also used to that third scraper and inner cylinder is driven to cooperate and carries out scraping ice；And it changes Heat engine structure, heat exchange mechanisms include the first heat exchanger tube, the second heat exchanger tube and third heat exchanger tube, and the first heat exchanger tube is set to outer cylinder, is used in combination In the heat exchange of outer cylinder, the second heat exchanger tube is set to middle cylinder and is used for the heat exchange of middle cylinder, and third heat exchanger tube is set to inner cylinder and for interior The heat exchange of cylinder.

Above-mentioned more ice machines are made ice raw material and are entered and be full of from feed inlet by the setting of outer cylinder, middle cylinder and inner cylinder In outer cylinder, middle cylinder and inner cylinder, the first heat exchanger tube, the second heat exchanger tube and third heat exchanger tube by heat exchange make respectively outer tube inner wall, Ice body is generated on middle cylinder inner wall and outer tube inner wall, the first scraper, the second scraper and third scraper are respectively by the ice on corresponding inner wall Body strikes off, and the ice body being stripped off is discharged by ice mouth, realizes the circulation of ice making, makes ice more efficient and compact-sized, occupancy sky Between it is small.

Technical solution is illustrated further below:

Ice scraper structure further includes the swivel mount in the outer cylinder in one of the embodiments, the driving end of driver with Swivel mount connects and is used to that swivel mount to be driven to rotate, and the first scraper, the second scraper and third scraper are set to swivel mount.

In one of the embodiments, swivel mount be equipped with the first mounting portion, under be covered with the first limit track, the first scraper One end and the first mounting portion be cooperatively connected, the other end of the first scraper is equipped with first cooperate with the first limit track and limits Portion；Or swivel mount is equipped with the second mounting portion, under be covered with the second limit track, one end of the second scraper and the second mounting portion cooperate Connection, the other end of the second scraper are equipped with the second limiting section cooperated with the second limit track；Or swivel mount is installed equipped with third Portion, under be covered with third limit track, one end of third scraper and third mounting portion are cooperatively connected, and the other end of third scraper is set There is the third limiting section with the cooperation of third limit track.

Lower cover is additionally provided with the first fixed part in one of the embodiments, and one end of middle cylinder is equipped with matches with the first fixed part Close the first fixed auxiliary section；The second fixed part is covered under or, one end of inner cylinder is equipped with and the cooperation fixation of the second fixed part Second auxiliary section.

The first fixed part includes the first fixing groove set on lower cover in one of the embodiments, and lower cover is additionally provided with first Fixed pin, the first auxiliary section and the cooperation of the first fixed pin are fixed and one end of middle cylinder are fixedly arranged on the first fixing groove；Or second is solid Determining portion includes the second fixing groove set on lower cover, and lower cover is additionally provided with the second fixed pin, and the second auxiliary section and the second fixed pin cooperate It fixes and one end of inner cylinder is fixedly arranged on the second fixing groove.

Middle cylinder is equipped with the first intercommunicating pore in one of the embodiments, and inner cylinder is equipped with the second intercommunicating pore, and the first intercommunicating pore is used In connection outer cylinder and middle cylinder, the second intercommunicating pore of search is for cylinder and inner cylinder in being connected to.

Barrel mechanism further includes heat-preservation cylinder in one of the embodiments, and outer sleeve is set in heat-preservation cylinder.

The barrel of outer cylinder is equipped with the first heat exchanging chamber in one of the embodiments, and the first heat exchanger tube is set to the first heat exchanging chamber It is interior；Or the barrel of middle cylinder is equipped with the second heat exchanging chamber, the second heat exchanger tube is set in the second heat exchanging chamber；Or the barrel of inner cylinder is equipped with third Heat exchanging chamber, third heat exchanger tube are set in third heat exchanging chamber.

The cavity wall close to the first heat exchanging chamber of the outer wall side of outer cylinder is the first cavity wall in one of the embodiments, the The first thermal insulator is additionally provided between one cavity wall and the first heat exchanger tube；The cavity wall of the second heat exchanging chamber close to the outer wall side of middle cylinder is Second cavity wall is additionally provided with the second thermal insulator between the second cavity wall and the second heat exchanger tube；Third close to the outer wall side of inner cylinder is changed The cavity wall of hot chamber is third cavity wall, and third thermal insulator is additionally provided between third cavity wall and third heat exchanger tube.

Middle cylinder is equipped at least one in one of the embodiments, and the first scraper is equipped at least one, and the second scraper is equipped with At least one, third scraper is equipped at least one.

Detailed description of the invention

Fig. 1 is the overall structure sectional view of more ice machines in embodiment；

Fig. 2 is the overall structure diagram of more ice machines in embodiment；

Fig. 3 is the overall structure top view of more ice machines in embodiment.

110, upper cover, 120, lower cover, the 121, first fixed pin, the 122, second fixed pin, 130, outer cylinder, 131, feed pipe, 132, go out ice pipe, 140, middle cylinder, the 141, first intercommunicating pore, 150, inner cylinder, the 151, second intercommunicating pore, 160, heat-preservation cylinder, 170, tight Fixing bolt, the 210, first scraper, the 211, first limiting section, the 220, second scraper, the 221, second limiting section, 230, third scraper, 231, third limiting section, 240, driver, 250, swivel mount, the 251, first mounting portion, the 252, second mounting portion, 253, third peace Dress portion, the 310, first heat exchanger tube, the 320, second heat exchanger tube, 330, third heat exchanger tube.

Specific embodiment

The embodiments of the present invention are described in detail with reference to the accompanying drawing:

It should be noted that it can be directly in another element when alleged element is with another element " fixation " in text Above or there may also be elements placed in the middle.When an element is considered as with another element " connection ", it be can be directly It is connected to another element in succession or may be simultaneously present centering elements.On the contrary, when element is referred to as " directly existing " another element When "upper", intermediary element is not present.Term as used herein "vertical", "horizontal", "left" and "right" and similar table It states for illustrative purposes only, is not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein packet Include any and all combinations of one or more related listed items.

Embodiment as shown in Figure 1 to Figure 3 provides a kind of more ice machines, including barrel mechanism, barrel mechanism include Upper cover 110, lower cover 120, outer cylinder 130 and inner cylinder 150, the both ends of outer cylinder 130 are connect respectively with upper cover 110 and lower cover 120 and shape At confined space, inner cylinder 150 is sheathed in outer cylinder 130 and is arranged with outer cylinder 130 in spacing, and outer cylinder 130 is equipped with feed inlet and goes out Ice mouth is additionally provided with middle cylinder 140 between outer cylinder 130 and inner cylinder 150, be arranged between middle cylinder 140 and outer cylinder 130 in spacing, middle cylinder 140 It is arranged between inner cylinder 150 in spacing；Ice scraper structure, ice scraper structure include driver 240 and scrape ice component, and scraping ice component includes First scraper 210, the second scraper 220 and third scraper 230, driver 240 is for driving the first scraper 210 to match with outer cylinder 130 Conjunction carries out scraping ice, and driver 240 is also used to that the second scraper 220 is driven to carry out scraping ice with the cooperation of middle cylinder 140, and driver 240 is also used It carries out scraping ice in driving third scraper 230 and the cooperation of inner cylinder 150；And heat exchange mechanisms, heat exchange mechanisms include the first heat exchanger tube 310, Second heat exchanger tube 320 and third heat exchanger tube 330, the first heat exchanger tube 310 are set to outer cylinder 130 and are used for the heat exchange of outer cylinder 130, the Two heat exchanger tubes 320 are set to middle cylinder 140 and are used for the heat exchange of middle cylinder 140, and third heat exchanger tube 330 is set to inner cylinder 150 and for interior The heat exchange of cylinder 150.

By the setting of outer cylinder 130, middle cylinder 140 and inner cylinder 150, makes ice raw material and enter from feed inlet and be full of outer cylinder 130, in middle cylinder 140 and inner cylinder 150, the first heat exchanger tube 310, the second heat exchanger tube 320 and third heat exchanger tube 330 are made point by heat exchange Ice body, the first scraper 210,220 and of the second scraper are not generated on 130 inner wall of 130 inner wall of outer cylinder, 140 inner wall of middle cylinder and outer cylinder Third scraper 230 respectively strikes off the ice body on corresponding inner wall, and the ice body being stripped off is discharged by ice mouth, realizes following for ice making Ring, ice making is more efficient and compact-sized, occupies little space.

Current ice machine there are problems that making ice low efficiency, and ice machine is whole takes up a large area.The present embodiment is adopted It is exchanged heat and is made ice with outer cylinder 130, middle cylinder 140 and inner cylinder 150, structure is more compact, under the premise of identical ice-making capacity Occupied area is reduced, ice making efficiency is improved.

Further, outer cylinder 130, upper cover 110 and lower cover 120 are by being fixedly connected, forming confined space, middle 140 He of cylinder Inner cylinder 150 is set in the confined space.As shown in Figure 1, solid by the connection of fastening bolt 170 between outer cylinder 130 and upper cover 110 It is fixed.

Driver 240 can be driving motor, hydraulic device or pneumatic shuttle, to drive corresponding first scraper 210, The inner wall of two scrapers 220 and third scraper 230 respectively along the inner wall of outer cylinder 130, the inner wall of middle cylinder 140 and inner cylinder 150 rotates, simultaneously Ice operation is scraped in realization.

Further, outer cylinder 130 is additionally provided with feed pipe 131 corresponding with gating location, and outer cylinder 130 is additionally provided with and goes out The corresponding ice pipe 132 out in ice mouth position.

As shown in Figures 2 and 3, feed inlet or feed pipe 131 are set to the lower part of outer cylinder 130, ice mouth or ice pipe 132 is set out In the top of outer cylinder 130.Feed pipe 131 and out ice pipe 132 are arranged with outer cylinder 130 in tangential direction, so that ice making raw material is such as Water can form the water flow spiraled after entering in outer cylinder 130, the water flow spiraled be also convenient for ice slurry obtained along ice mouth discharge, And enter in ice pipe 132.

In addition, middle cylinder 140 is equipped at least one.When cylinder 140 is equipped with multiple in the middle, multiple middle cylinders 140 are set to outer cylinder 130 Between inner cylinder 150, it is arranged between adjacent middle cylinder 140 in spacing, and is equipped with second heat exchanger tube corresponding with each middle cylinder 140 320 and second scraper 220, those skilled in the art can be specifically arranged as needed, which is not described herein again.

Embodiment as shown in Figure 1, ice scraper structure further include the swivel mount 250 in outer cylinder 130, driver 240 It drives end to connect with swivel mount 250 and is used to that swivel mount 250 to be driven to rotate, the first scraper 210, the second scraper 220 and third are scraped Knife 230 is set to swivel mount 250.

Swivel mount 250 is set to outer cylinder 130, in the confined space that upper cover 110 and lower cover 120 are formed, the first scraper 210, the Two scrapers 220 and third scraper 230 are each provided on swivel mount 250, when driver 240 drives swivel mount 250 to rotate, swivel mount 250 can drive the first all scrapers 210, the second scraper 220 and third scraper 230 while rotate and carry out corresponding position Scrape ice operation, realizing only needs a driver 240 that three scrapers can be driven scrape the technical effect of ice operation, reduces The energy consumption of driver 240.

Further, swivel mount 250 includes swingle.As shown in Figure 1, swingle is equipped with one, the first scraper 210, the Two scrapers 220 and third scraper 230 are respectively equipped with two and are set on swingle.

Certainly, as needed, swivel mount 250 may also set up a plurality of swingle, be arranged in a crossed manner between a plurality of swingle, the One scraper 210, the second scraper 220 and third scraper 230 are set on different swingles in spacing arrangement as needed.

First scraper 210, the second scraper 220 and third scraper 230 are equipped at least one, when scraping ice, can guarantee Corresponding 130 inner wall of outer cylinder, 150 inner wall of 140 inner wall of middle cylinder and inner cylinder ice body be scraped clean, raising strike off efficiency.

Further, upper cover 110 is equipped with mounting hole, and the driving end of driver 240 passes through mounting hole and swivel mount 250 connects It connects.Certainly, as needed, bearing can also be set in mounting hole, make driver 240 drive shaft and bearing fit and deeply In outer cylinder 130, to cooperate with swivel mount 250.

Embodiment as shown in Figure 1, swivel mount 250 are equipped with the first mounting portion 251, and lower cover 120 is equipped with the first limit track, One end of first scraper 210 and the first mounting portion 251 are cooperatively connected, and the other end of the first scraper 210 is equipped with and the first position-limited rail First limiting section 211 of road cooperation；Or swivel mount 250 is equipped with the second mounting portion 252, lower cover 120 is equipped with the second limit track, the One end of two scrapers 220 and the second mounting portion 252 are cooperatively connected, and the other end of the second scraper 220 is equipped with and the second limit track Second limiting section 221 of cooperation；Or swivel mount 250 is equipped with third mounting portion 253, lower cover 120 is equipped with third limit track, third One end of scraper 230 and third mounting portion 253 are cooperatively connected, and the other end of third scraper 230 is equipped with matches with third limit track The third limiting section 231 of conjunction.

As shown in Figure 1, corresponding to the installation position of the first scraper 210, the second scraper 220 and third scraper 230 on swivel mount 250 The place of setting is respectively equipped with the first mounting portion 251, the second mounting portion 252 and third mounting portion 253, corresponding first scraper on lower cover 120 210, the position of the second scraper 220 and third scraper 230 is respectively equipped with the first limit track, the second limit track and third limit Track.First mounting portion 251, the second mounting portion 252 and third mounting portion 253 are respectively used to the upper end of the first scraper 210 of installation Position, the upper end position of the second scraper 220 and third scraper 230 upper end position, the first limit track, the second limit track and Third limit track is respectively used to the lower end position and third scraper of the lower end position of the first scraper 210 of limitation, the second scraper 220 230 lower end position so that the first scraper 210, the second scraper 220 and third scraper 230 can respectively along 130 inner wall of outer cylinder, Middle 140 inner wall of cylinder and 150 inner wall of inner cylinder precisely move, and improve the precision for scraping ice and strike off efficiency.

First mounting portion 251 can be installation card slot or installation buckle, be convenient for quick assembling and disassembly, the second mounting portion 252, third mounting portion 253 can be equally arranged；First limit track track groove structure setting annular in shape, track groove is interior to be arranged gear Toothing, lower end gear i.e. the first limiting section of the lower end setting of the first scraper 210 and the gear tooth configuration cooperation in track groove 211, to realize the effect of limit cooperation, the second limit track and third limit track can be equally arranged.

In addition, swivel mount 250 is additionally provided with diversion division or conducting element.Diversion division can be guide trough structure, such as be located at rotation Arc groove or bending slot on frame 250, conducting element can be the circular arc lodicule being installed on swivel mount 250 or bending lodicule.It leads The setting of stream portion and conducting element is for swimming in the ice slurry on water surface surface after guidance is stripped off, and to be moved to ice mouth as early as possible attached Closely to be smoothly discharged, ice making efficiency is improved, while ice slurry also being avoided to result in blockage or influence ice efficiency out in building up inside.

Embodiment as shown in Figure 1, lower cover 120 are additionally provided with the first fixed part, and one end of middle cylinder 140 is equipped with to be fixed with first The first fixed auxiliary section of portion's cooperation；Or lower cover 120 is equipped with the second fixed part, one end of inner cylinder 150 is equipped with and the second fixed part Cooperate the second fixed auxiliary section.

It should be noted that outer cylinder 130, middle cylinder 140 and inner cylinder 150 need central axis in concentric setting, when installation to protect Barrier scrapes ice precision.Certainly, in the case where meeting the requirements, allow that there are certain installation deviations；

It is fixed as shown in Figure 1, the lower end of middle cylinder 140 and the lower end of inner cylinder 150 cooperate with lower cover 120, and middle cylinder 140 It is arranged between the upper end and upper cover 110 of upper end and inner cylinder 150 in spacing.First auxiliary section and the first fixed part cooperate middle cylinder 140 lower end fastening is set to lower cover 120, and the second auxiliary section and the second fixed part, which cooperate, is set to upper cover 110 for the fastening of inner cylinder 150. When work, makes ice raw material such as water is entered in outer cylinder 130 by feed inlet and progressed into middle cylinder 140 and in inner cylinder 150.

Further, the first fixed part and the first auxiliary section can be set as needed, and seal groove and and seal groove is such as arranged The sealing block structure of cooperation, also can be set notch etc., is subject to and meets actual needs.

Embodiment as shown in Figure 1, the first fixed part include the first fixing groove set on lower cover 120, and lower cover 120 is additionally provided with First fixed pin 121, the first auxiliary section, which cooperates to fix and one end of middle cylinder 140 is fixedly arranged on first with the first fixed pin 121, to be consolidated Determine slot；Or second fixed part include the second fixing groove set on lower cover 120, lower cover 120 is additionally provided with the second fixed pin 122, second Auxiliary section and the cooperation of the second fixed pin 122 are fixed and one end of inner cylinder 150 are fixedly arranged on the second fixing groove.

As shown in Figure 1, lower cover 120 is equipped with the first fixing groove and the second fixing groove.It stretches first auxiliary section of middle 140 lower end of cylinder Enter in the first fixing groove and is fixed with the first fixed pin 121 cooperation protruded into from the lower part of lower cover 120 in first fixing groove, from And the fastening of middle cylinder 140 is set to lower cover 120；Second auxiliary section of 150 lower end of inner cylinder protrude into the second fixing groove and with from lower cover 120 lower part is protruded into the cooperation of the second fixed pin 122 in the second fixing groove and is fixed, so that the fastening of inner cylinder 150 is set to lower cover 120。

It should be noted that the first auxiliary section and the second auxiliary section can be can respectively with the first fixed pin 121 and Two fixed pins 122 cooperate fixed pore structure or slot structure.

Embodiment as shown in Figure 2, middle cylinder 140 are equipped with the first intercommunicating pore 141, and inner cylinder 150 is equipped with the second intercommunicating pore 151, First intercommunicating pore 141 is for being connected to outer cylinder 130 and middle cylinder 140, and the second intercommunicating pore 151 of search is for cylinder 140 and inner cylinder in being connected to 150。

It when work, makes ice raw material such as water is entered in outer cylinder 130 by feed inlet, further therefrom the first of cylinder 140 connects water Cylinder 140 is interior in the inflow of through-hole 141 and flows into the second intercommunicating pore 151 of water inner cylinder 150 in inner cylinder 150, to realize Water energy enough flows into the purpose of outer cylinder 130, middle cylinder 140 and inner cylinder 150.

Further, the first intercommunicating pore 141 and the second intercommunicating pore 151 are equipped with multiple.Multiple first intercommunicating pores 141 and The setting of two intercommunicating pores 151 can make the circulation of water body more efficient.As shown in Fig. 2, there are four the first intercommunicating pore 141 sets, second There are two intercommunicating pore 151 is set.

In addition, as needed, the first intercommunicating pore 141 and the second intercommunicating pore 151 can arrange according to preset requirement in spacing Set on corresponding middle 140 lower end of cylinder and 150 lower end of inner cylinder.As shown in Fig. 2, the first intercommunicating pore 141 and the equal edge of the second intercommunicating pore 151 The cylinder axis of 140/ outer cylinder 130 of cylinder is circumferentially arranged setting in inner cylinder 150/, to realize the logical effect of water flow more evenly.

Embodiment as shown in Figure 1, barrel mechanism further include heat-preservation cylinder 160, and outer cylinder 130 is sheathed in heat-preservation cylinder 160.

As shown in Figure 1, heat-preservation cylinder 160 is located at outermost, outer cylinder 130 is set in heat-preservation cylinder 160.When work, due to One heat exchanger tube 310 needs to be exchanged heat in the barrel of outer cylinder 130, so that the inner wall of outer cylinder 130 generates ice body by heat exchange, and outer The environment temperature in 130 outside of cylinder can similarly be exchanged heat with the first heat exchanger tube 310 and take away the heat-energy transducer of part heat transferring medium Amount, to influence the ice-making process of outer cylinder 130, so as to cause ice making inefficiency, the present embodiment passes through setting heat-preservation cylinder 160 The influence for avoiding the environment temperature in outside from making ice outer cylinder 130 improves heat exchange efficiency and ice making efficiency, and reduces the first heat exchange Heat transferring medium energy consumption in pipe 310.

It is made it should be noted that heat preserving and insulating material can be used in heat-preservation cylinder 160, it can also be in 160 He of heat-preservation cylinder Heat preserving and insulating material is filled between outer cylinder 130.

Embodiment as shown in Figure 1, the barrel of outer cylinder 130 are equipped with the first heat exchanging chamber, and the first heat exchanger tube 310 is set to first and changes Heat is intracavitary；Or the barrel of middle cylinder 140 is equipped with the second heat exchanging chamber, the second heat exchanger tube 320 is set in the second heat exchanging chamber；Or inner cylinder 150 Barrel be equipped with third heat exchanging chamber, third heat exchanger tube 330 be set to third heat exchanging chamber in.

The setting of first heat exchanging chamber, the second heat exchanging chamber and third heat exchanging chamber is convenient for the first heat exchanger tube 310, second to exchange heat respectively The installation of pipe 320 and third heat exchanger tube 330.

Further, the first heat exchanging chamber, the second heat exchanging chamber and third heat exchanging chamber are in vacuum chamber structure setting.First heat exchange Chamber is in around the setting of outer cylinder 130, in order to which the first heat exchanger tube 310 is arranged in the first heat exchanging chamber inside turn around outer cylinder 130；Second Heat exchanging chamber is in around the setting of middle cylinder 140, in order to which the second heat exchanger tube 320 is arranged in the second heat exchanging chamber inside turn around middle cylinder 140； Third heat exchanging chamber is in around the setting of inner cylinder 150, in order to which third heat exchanger tube 330 surround inner cylinder 150 in third heat exchanging chamber inside turn Setting.

Further, the first heat exchanging chamber is arranged by two cylinders and is formed, and the second heat exchanging chamber and third heat exchanging chamber can be similarly It is arranged and is respectively formed the second heat exchanging chamber and third heat exchanging chamber.

Embodiment as shown in Figure 1, the cavity wall close to the first heat exchanging chamber of the outer wall side of outer cylinder 130 are the first cavity wall, The first thermal insulator is additionally provided between first cavity wall and the first heat exchanger tube 310；The second heat exchanging chamber close to the outer wall side of middle cylinder 140 Cavity wall be the second cavity wall, be additionally provided with the second thermal insulator between the second cavity wall and the second heat exchanger tube 320；Close to the outer of inner cylinder 150 The cavity wall of the third heat exchanging chamber of wall side is third cavity wall, and it is heat-insulated to be additionally provided with third between third cavity wall and third heat exchanger tube 330 Part.

After ice making raw material such as water enter outer cylinder 130, water body can progress into middle cylinder 140 and inner cylinder 150.Since water body exists Certain temperature, when the heat exchange of the second heat exchanger tube 320, water body may will affect the heat exchange energy of the second heat exchanger tube 320, to influence The ice making efficiency of middle 140 inner wall of cylinder.Therefore, first thermal insulator is set between the first cavity wall and the first heat exchanger tube 310, second Second thermal insulator is set between cavity wall and the second heat exchanger tube 320, to avoid water body environment temperature to the second heat exchanger tube 320 and Heat exchange efficiency when three heat exchanger tubes 330 are exchanged heat has an impact.

Further, vacuum heat-insulation filler can be used in the first thermal insulator and the second thermal insulator.

Embodiment as shown in Figure 1 to Figure 3, middle cylinder 140 are equipped at least one, and the first scraper 210 is equipped at least one, the Two scrapers 220 are equipped at least one, and third scraper 230 is equipped at least one.

140 settable one, middle cylinder, however as needed, middle cylinder 140 also can be set it is two or more, to meet reality Needs.

More ice machines provided in this embodiment, have the advantage that

1, identical space occupied, ice capacity greatly improve, to improve whole Energy Efficiency Ratio；

It 2, can be by adjusting in the first heat exchanger tube 310, the second heat exchanger tube 320 and third heat exchanger tube 330 according to user's needs Heat transferring medium, realize and go out the adjusting of ice concentration to ice slurry；

3, outer cylinder 130, middle cylinder 140 and inner cylinder 150 are arranged installation, compact-sized, and only need a driver 240 that can drive Dynamic first scraper 210, the second scraper 220 and third scraper 230 carry out scraping ice operation simultaneously, realize a tractor serves several purposes, reduce energy consumption；

4, the first scraper 210, the second scraper 220 and third scraper 230 be equipped at least one and can respectively with outer cylinder 130 inner walls, 140 inner wall of middle cylinder and the cooperation of 150 inner wall of inner cylinder, which are realized, scrapes ice operation, guarantees ice continuity out.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of more ice machines characterized by comprising

Barrel mechanism, the barrel mechanism include upper cover, lower cover, outer cylinder and inner cylinder, the both ends of the outer cylinder respectively with it is described on Lid connects with the lower cover and is formed confined space, and the inner cylinder is sheathed in the outer cylinder and sets with the outer cylinder in spacing Set, the outer cylinder is equipped with feed inlet and ice mouth, be additionally provided with middle cylinder between the outer cylinder and the inner cylinder, the middle cylinder with it is described It is arranged between outer cylinder in spacing, is arranged between the middle cylinder and the inner cylinder in spacing；

Ice scraper structure, the ice scraper structure include driver and scrape ice component, and the ice component of scraping is scraped including the first scraper, second Knife and third scraper, the driver carry out scraping ice, the driver for driving first scraper and the outer cylinder to cooperate It is also used to that second scraper and the middle cylinder cooperation is driven to carry out scraping ice, the driver is also used to drive the third scraper It carries out scraping ice with inner cylinder cooperation；And

Heat exchange mechanisms, the heat exchange mechanisms include the first heat exchanger tube, the second heat exchanger tube and third heat exchanger tube, first heat exchanger tube Set on the outer cylinder and for the heat exchange of the outer cylinder, second heat exchanger tube is set to the middle cylinder and for the middle cylinder Heat exchange, the third heat exchanger tube are set to the inner cylinder and are used for the heat exchange of the inner cylinder.

2. more ice machines according to claim 1, which is characterized in that the ice scraper structure further includes being set to the outer cylinder The driving end of interior swivel mount, the driver connect with the swivel mount and is used to driving the swivel mount to rotate, and described the One scraper, second scraper and the third scraper are set to the swivel mount.

3. more ice machines according to claim 2, which is characterized in that the swivel mount is equipped with the first mounting portion, described Under be covered with the first limit track, one end of first scraper and first mounting portion are cooperatively connected, first scraper The other end be equipped with the first limiting section for cooperating with first limit track；

Or the swivel mount is equipped with the second mounting portion, is covered with the second limit track under described, one end of second scraper with Second mounting portion is cooperatively connected, and the other end of second scraper is equipped with the second limit cooperated with second limit track Position portion；

Or the swivel mount is equipped with third mounting portion, is covered with third limit track under described, one end of the third scraper with The third mounting portion is cooperatively connected, and the other end of the third scraper is equipped with the third cooperated with the third limit track and limits Position portion.

4. more ice machines according to claim 1, which is characterized in that the lower cover is additionally provided with the first fixed part, described One end of middle cylinder is equipped with first auxiliary section fixed with first fixed part cooperation；

Or it is described under be covered with the second fixed part, one end of the inner cylinder is equipped with second fixed with second fixed part cooperation Auxiliary section.

5. more ice machines according to claim 4, which is characterized in that first fixed part includes being set to the lower cover The first fixing groove, the lower cover is additionally provided with the first fixed pin, first auxiliary section and first fixed pin cooperation it is fixed, And one end of the middle cylinder is fixedly arranged on first fixing groove；

Or second fixed part includes the second fixing groove set on the lower cover, the lower cover is additionally provided with the second fixed pin, institute It states the second auxiliary section and second fixed pin cooperation is fixed and one end of the inner cylinder is fixedly arranged on second fixing groove.

6. more ice machines according to claim 1-5, which is characterized in that the middle cylinder is equipped with the first connection Hole, the inner cylinder are equipped with the second intercommunicating pore, and first intercommunicating pore connects for being connected to the outer cylinder and the middle cylinder, search second Through-hole is for being connected to the middle cylinder and the inner cylinder.

7. more ice machines according to claim 1-5, which is characterized in that the barrel mechanism further includes heat preservation Cylinder, the outer sleeve are set in the heat-preservation cylinder.

8. more ice machines according to claim 1-5, which is characterized in that the barrel of the outer cylinder is equipped with first Heat exchanging chamber, first heat exchanger tube are set in first heat exchanging chamber；

Or the barrel of the middle cylinder is equipped with the second heat exchanging chamber, second heat exchanger tube is set in second heat exchanging chamber；

Or the barrel of the inner cylinder is equipped with third heat exchanging chamber, the third heat exchanger tube is set in the third heat exchanging chamber.

9. more ice machines according to claim 8, which is characterized in that close to described the of the outer wall side of the outer cylinder The cavity wall of one heat exchanging chamber is the first cavity wall, is additionally provided with the first thermal insulator between first cavity wall and first heat exchanger tube；

Close to the middle cylinder outer wall side second heat exchanging chamber cavity wall be the second cavity wall, second cavity wall with it is described The second thermal insulator is additionally provided between second heat exchanger tube；

Close to the inner cylinder outer wall side the third heat exchanging chamber cavity wall be third cavity wall, the third cavity wall with it is described Third thermal insulator is additionally provided between third heat exchanger tube.

10. more ice machines according to claim 9, which is characterized in that the middle cylinder is equipped at least one, and described first Scraper is equipped at least one, and second scraper is equipped at least one, and the third scraper is equipped at least one.