CN205897663U - A a set group is frozen to cavity for quick -freeze equipment - Google Patents

Abstract

The utility model provides a set group is frozen to quick -freeze equipment's cavity, which comprises a bracket, be provided with on the support a plurality of end to end become a loop configuration freeze the dish and a plurality of and freeze dish complex movable cover one to one, it is provided with and is used for placing the cool chamber that freezes article, is located respectively to freeze the dish the side secondary refrigerant passageway of the length direction's of cool chamber both sides and being located the end secondary refrigerant passageway of cool chamber below. Through setting up side secondary refrigerant passageway, end secondary refrigerant passageway and limit secondary refrigerant passageway, the article that freeze that reach in five faces in bottom and the cool chamber can be followed all around and heat exchange is carried out, the freezing rate who freezes article is very fast relatively, further through seting up serpentine channel on the movable cover, can also the top of cool chamber with freeze article and carry out heat exchange, the freezing rate of article is frozen in further improvement, it is better relatively to freeze the quality, is the novel set group of freezing that is applicable to line production.

Description

A kind of hollow jelly disk group for quick freezing unit

Technical field

This utility model is related to a kind of food product freezing unit, and especially one kind for quick freezing unit and is applied to line production Hollow jelly disk group.

Background technology

Traditional frozen food (inclusion marine product) manufacturing enterprise is all to enter scanning frequency using quick freezing repository or sharp freezing room to gelation product Freeze, this quick-freezing mode difficult to form line production, production efficiency is relatively low, and labor strength is of a relatively high, and gelation product Enter that the storehouse time is relatively long, the gelation product in laggard storehouse may because of cannot quick-freezing in time and lead to its freshness to be affected.

In order to solve the above problems, occur some carried out streamlined productions with air as refrigerating medium in the market Quick freezing unit, having more typically is spiral, tunnel type, but this equipment is big because of floor space, and cost is high and consumes energy, and popularizes face Little, and the quick freezing unit with liquid as refrigerating medium has flat, drum-type structure, such as Chinese utility model patent zl A kind of drum-type quick-freezing plant disclosed in 200720111205.2, including rotating cylinder, driver and the system providing liquid coolant Cooling system, rotation drum outer wall side face has been sequentially distributed the upper and lower flat board of multipair hollow, each lower flat board is fixedly connected with rotating cylinder, respectively Upper flat plate is connected with respective elevating mechanism respectively and moves up and down, and be equipped with respectively on each upper and lower flat board inlet and Liquid return hole, and it is additionally provided with associated dynamic movable guard on each upper flat plate；Then at least provided with one group of band in rotating cylinder The rotary valve that the import and export end of feed pathway and back flow channel and same passage relatively rotates, the feed liquor on each upper and lower flat board Mouth, liquid return hole are respectively by respective feed liquor arm, time liquid arm and corresponding feed pathway, back flow channel on above-mentioned rotary valve Single port is connected, and feed pathway, the another port of back flow channel are then connected with the outlet tube of liquid coolant, return duct.Should Although quick-freezing plant to a certain extent being capable of improve production efficiency reduce the labor intensity of workman, on this quick-freezing plant The only upper and lower both sides of gelation product can produce heat exchange, freezing speed is relatively slow, and flat plate type quick-frozen equipment is also such.

In view of this, the applicant conducts in-depth research to the jelly dish structure of quick freezing unit, then has this case to produce.

Utility model content

The purpose of this utility model is to provide a kind of freezing speed the comparatively faster hollow jelly disk for quick freezing unit Group.

To achieve these goals, this utility model adopts the following technical scheme that

A kind of hollow jelly disk group for quick freezing unit, including support, described support is provided with multiple joining end to end into The jelly disk of one closed-loop structure, described jelly disk is provided with for the cool chamber placing gelation product, the length being located at described cool chamber respectively The side refrigerating medium passage of the both sides in direction and the bottom refrigerating medium passage below described cool chamber.

As a kind of improvement of the present utility model, one of described jelly disk is that liquid in-out connects jelly disk, described liquid in-out Connect and be additionally provided with the first dividing plate, second partition, input duct and drain pipe road on jelly disk, described bottom is carried by described first dividing plate Coolant channel is divided into bottom admission chamber and bottom goes out sap cavity, and described side refrigerating medium channel partition is side admission chamber by described second partition Go out sap cavity with side, described input duct is connected with described bottom admission chamber and described side admission chamber respectively, and in described input duct It is provided with inlet, described drain pipe road goes out sap cavity with described bottom respectively and described side goes out sap cavity and connects, and described drain pipe road On be provided with liquid outlet, the described side refrigerating medium passage on one of described jelly disk adjacent with described liquid in-out connection jelly disk Connect with described side admission chamber, and the described bottom refrigerating medium passage on this jelly disk is connected with described bottom admission chamber, another and institute State the described side refrigerating medium passage that liquid in-out connects on the adjacent described jelly disk of jelly disk and go out sap cavity with described side and connect, and this jelly disk On described bottom refrigerating medium passage go out sap cavity with described bottom and connect；In addition to described liquid in-out connects jelly disk, two neighboring described jelly Described side refrigerating medium passage on disk and described bottom refrigerating medium passage are interconnected respectively.

As a kind of improvement of the present utility model, described jelly disk group also includes connecting plate, and described connecting plate is located at described In jelly disk group between two neighboring described jelly disk, and the described cool chamber on described connecting plate and corresponding two described jelly disks it Between form the side refrigerating medium passage that is connected with corresponding described bottom refrigerating medium passage respectively, described connecting plate offers for Connect the groove of described side refrigerating medium passage on two neighboring described jelly disk in same described jelly disk group and be used for connecting together The through hole that described side refrigerating medium on two neighboring described jelly disk in jelly disk group described in leads to.

As a kind of removable cover improving, also including the one-to-one cooperation of multiple and described jelly disk of the present utility model, described Serpentine channel is offered on removable cover, the one end of described serpentine channel on one of described removable cover and described valve body feed liquor Hole connect and both be interconnected, the one end of described serpentine channel on another described removable cover adjacent with this removable cover with Described valve body hole for back flow connects and both are interconnected, in addition between the described serpentine channel on removable cover described in above-mentioned two, Described serpentine channel on two neighboring described removable cover is interconnected.

As a kind of improvement of the present utility model, the bottom of described jelly disk offers material demoulding hole.

Using technique scheme, this utility model has the advantages that

1st, heat exchange can be carried out by the jelly disk in side and cool chamber by arranging side refrigerating medium passage, pass through further Setting side refrigerating medium passage, the gelation product in surrounding and bottom five direction and cool chamber can carry out heat exchange, the jelly of gelation product Knot speed is relatively fast；Further pass through serpentine channel circulation refrigerating medium is opened up on removable cover on the top moreover it is possible in cool chamber Portion and gelation product carry out heat exchange, improve the freezing speed of gelation product further.

2nd, this hollow jelly disk group is a closed-loop structure, is conducive to the application of line production appliance arrangement.

3rd, pass through to arrange material demoulding hole, be easy to unload the gelation product on jelly disk by material discharging rod, without first defrost Take off material again, thus save energy and improve production efficiency.

Brief description

Fig. 1 is the quick freezing unit structural representation using hollow jelly disk group of the present utility model, in figure clipped structure；

Fig. 2 is the cutting structural representation of a-a position in Fig. 1；

Fig. 3 is the structural representation of this utility model hollow jelly disk group；

Fig. 4 is the jelly disk cross-sectional structure schematic diagram of this utility model hollow jelly disk group；

Fig. 5 is the structural representation of the connecting plate of this utility model hollow jelly disk group；

Fig. 6 is the present invention looks up structural representation of the connection jelly disk of this utility model hollow jelly disk group；

Fig. 7 is the cross section structure schematic diagram at b-b position in Fig. 6；

Fig. 8 is the cross section structure schematic diagram at c-c position in Fig. 6；

Fig. 9 is another kind of jelly dish structure schematic diagram providing in this utility model embodiment；

Figure 10 is rotatable valve mechanism schematic diagram in this utility model embodiment；

Figure 11 is the cross-sectional structure schematic diagram of rotatable valve in this utility model embodiment.

It is as follows that each in figure indicates correspondence:

100- frame；110- rotating wheel；

111- driving gear；The driven gear ring of 112-；

120- hollow jelly disk group；121- jelly disk；

121a- liquid in-out connects jelly disk；122- connecting plate；

122a- groove；122b- through hole；

123- cool chamber；124- side refrigerating medium passage；

124a- side admission chamber；124b- side goes out sap cavity；

125- bottom refrigerating medium passage；125a- bottom admission chamber；

125b- bottom goes out sap cavity；126- material demoulding hole；

127a- first dividing plate；127b- second partition；

128- input duct；129- drain pipe road；

130- removable cover；131- inlet；

132- liquid outlet；140- moving component；

141- radial guidance；142- travelling carriage；

143- axial guidance；144- bracket；

The rotatable valve of 200-；

210- valve rod；211- endoporus；

212- valve body inlet opening；213- valve body hole for back flow；

220- valve body；221- feed pathway；

222- back flow channel；223- feed liquor annular groove；

224- returns pendular ring groove；225- valve rod inlet opening；

226- valve rod hole for back flow；230- bearing；

240- sealing shroud；250- flange.

Specific embodiment

With specific embodiment, this utility model is described further below in conjunction with the accompanying drawings.

A kind of quick freezing unit that the present embodiment provides, this quick freezing unit employs hollow jelly disk group of the present utility model.As Shown in Fig. 1 and Fig. 2, the quick freezing unit that the present embodiment provides includes frame 100, frame 100 is provided with and is rotatably connected to vertically The rotating wheel 110 of arrangement and electric rotating machine (not shown), electric rotating machine and rotating wheel for driving rotating wheel 110 to rotate 110 mode of being in transmission connection can be conventional mode.In the present embodiment, frame 100 is additionally provided with and passes with electric rotating machine The driving gear 111 being dynamically connected, rotating wheel 110 is provided with the driven gear ring 112 with driving gear 111 cooperation, electric rotating machine Pass sequentially through driving gear 111 and driven gear ring 112 drives rotating wheel 110 to rotate.

More than one hollow jelly disk group 120 is arranged with rotating wheel 110, in the present embodiment, hollow jelly disk group 120 has Two groups, two groups of hollow jelly disk groups 120 are arranged symmetrically centered on driven gear ring 112.Hollow jelly disk group 120 includes support, support On be provided with multiple jelly disks 121 joining end to end into a closed-loop structure and multiple with the one-to-one cooperation of jelly disk 121 removable cover 130, the join end to end closed loop shape of formation of each jelly disk can determine according to actual needs, such as circular closed loop or square closed loop etc., This closed loop can vertically be arranged can also be horizontally disposed, as shown in Figure 1, Figure 2 and Figure 3, in the present embodiment, hollow jelly disk group Each jelly disk 121 in 120 centered on the axis of rotating wheel 110 even cloth in rotating wheel 110, i.e. hollow in the present embodiment Each jelly disk 121 of jelly disk group 120 joins end to end the generally circular in shape of formation, and is arranged on vertical plane.Additionally, the present embodiment Hollow jelly disk group 120 also includes the connecting plate 122 between two neighboring jelly disk 121, that is, connecting plate 122 also have multiple.Freeze The particular number of disk 121 can determine according to actual needs.During use, only gelation product to be freezed need to be put into jelly disk 121, freeze After be drawn off.

As shown in Fig. 3, Fig. 4 and Fig. 5, jelly disk 121 be provided with for place gelation product cool chamber 123, respectively be located at freezing The side refrigerating medium passage 124 of the both sides of the length direction in storehouse 123 and the bottom refrigerating medium passage 125 being located at cool chamber 123 lower section, It is that each jelly disk 121 has two side refrigerating medium passages 124, cool chamber 123 has the oral area for loading and unloading gelation product.Need explanation It is that in the present embodiment, the width of jelly disk 121 is jelly disk 121 direction vertical with the axis of rotating wheel 110, jelly disk 121 Length direction be jelly disk 121 and the diameter parallel of rotating wheel 110 direction.

It is mutually permanently connected by connecting plate 122 between the end of two neighboring jelly disk 121, that is, connecting plate 122 is located at and freezes In disk group 120 between two neighboring jelly disk 121, after connection, connecting plate 122 is by two neighboring jelly in same hollow jelly disk group 120 Bottom refrigerating medium passage 125 on disk 121 is mutually isolated, simultaneously also by two neighboring jelly disk 121 in same hollow jelly disk group 120 Corresponding side refrigerating medium passage 124 is mutually isolated.The side wall of the cool chamber 123 of two neighboring jelly disk 121 and connecting plate 122 simultaneously Between all have on preset space length, and connecting plate 122 and corresponding two jelly disks 121 cool chamber 123 between formed respectively with The side refrigerating medium passage (not shown) that corresponding bottom refrigerating medium passage 125 is connected, that is, refrigerating medium passage in side is positioned at jelly disk The two ends of 121 width.Be away from connecting plate 122 bottom refrigerating medium passage 124 upper end offer same for connecting The groove 122a of the side refrigerating medium passage 125 on two neighboring jelly disk 121 in hollow jelly disk group 120, the two ends of connecting plate 122 are opened It is provided with the through hole 122b for connecting the side refrigerating medium passage 124 on two neighboring jelly disk 121 in same hollow jelly disk group 120, Due to there being two side refrigerating medium passages 124 on each jelly disk 121, therefore, through hole 122b has two groups, is located at connecting plate 122 respectively Two ends, and corresponding with two side refrigerating medium passages 124 respectively.So, when refrigerating medium is in each jelly of hollow jelly disk group 120 When circulating in disk 121, both sides (i.e. the two of width of cool chamber 123 length direction can be flowed through by side refrigerating medium passage 124 End), the bottom of cool chamber 123 and the both sides of width are flowed through by bottom refrigerating medium passage 125 and side refrigerating medium passage, so The surrounding of cool chamber and bottom have refrigerating medium to circulate, and refrigerating effect is preferable.It should be noted that the cool chamber 123 of jelly disk 121 The side refrigerating medium channel cavity that spacing between side wall and connecting plate 122 is formed except with corresponding bottom refrigerating medium passage 124 Connect outer with corresponding groove 122a, the other positions of this cavity are airtight.

Preferably, in the present embodiment, the bottom of jelly disk 121 offers material demoulding hole 126, is easy to set by being arranged on quick-freezing Gelation product on jelly disk 121 is unloaded, it should be noted that material demoulding hole 126 and cool chamber 123 are mutual by standby upper material discharging rod Connection, and material demoulding hole 126 and bottom refrigerating medium passage 125 are mutually disconnected.

Additionally, in same hollow jelly disk group 120, one of jelly disk 121 is liquid in-out connection jelly disk 121a, such as Fig. 6, Shown in Fig. 7 and Fig. 8, this liquid in-out connects jelly disk 121a in addition to having the structure of other jelly disks 121, is additionally provided with the first dividing plate 127a, second partition 127b, input duct 128 and drain pipe road 129, taxi driver brother dividing plate 127a and second partition 127b is located at same In plane, and second partition 127b has two, the first dividing plate 127a by bottom refrigerating medium passage 125 be divided into bottom admission chamber 125a and Bottom goes out sap cavity 125b, and one side refrigerating medium passage 124 is divided into each second partition 127b side admission chamber 124a and side goes out liquid Chamber 124b.Input duct 128 is connected with bottom admission chamber 125a and side admission chamber 124a respectively, and is provided with input duct 128 Inlet 131, drain pipe road 129 goes out sap cavity 125b respectively the bottom of with and side goes out sap cavity 124b and connects, and arranges on drain pipe road 129 There is liquid outlet 132.

In same hollow jelly disk group 120, connect in two adjacent jelly disks 121 of jelly disk 121 with liquid in-out, one of Side refrigerating medium passage 124 on jelly disk 121 is connected with corresponding side admission chamber 124a, and the bottom refrigerating medium on this jelly disk 121 leads to Road 125 is connected with bottom admission chamber 125a, and the side refrigerating medium passage 124 on another jelly disk 121 goes out sap cavity 124b with corresponding side Connect, and the bottom refrigerating medium passage 125 on this jelly disk 121 goes out sap cavity 125b the bottom of with and connects；In addition to connecting jelly disk 121a, adjacent two Correspondence is interconnected respectively for side refrigerating medium passage 124 on individual jelly disk 121 and bottom refrigerating medium passage 125.During use, refrigerating medium from Inlet 131 flow into hollow jelly disk group 120 after, after circulating a circle in each jelly disk 121 of this hollow jelly disk group 120 from Liquid outlet 132 flows out, and carries out heat exchange with the gelation product in each jelly disk 121 of whole hollow jelly disk group 120.

The structure of above-mentioned jelly disk 121 is the structure of the first jelly disk 121 that the present embodiment provides, and the present embodiment also provides Another kind of jelly disk 121 structure, this jelly disk 121 is equivalent to the first providing two the present embodiment and freezes dish structure and connects into one Body, and both opposite sides share a side refrigerating medium passage 124, likewise, as shown in figure 9, second is frozen in dish structure The liquid that goes out connect the first liquid that goes out freezing in dish structure that jelly disk 121a also corresponds to two the present embodiment and provide and connect jelly disk 121a links into an integrated entity, and both opposite sides share a side admission chamber 124a, additionally, both input duct 128, entering Liquid mouth 131, drain pipe road 129 and liquid outlet 132 are also shared.

Further, as shown in Figure 1, Figure 2 and Figure 3, in the present embodiment, frame 100 is additionally provided with rotatable valve 200, as shown in Figure 10 and Figure 11, rotatable valve 200 include the valve body 210 being fixedly connected with rotating wheel 110 and with frame 100 The valve rod 220 being fixedly connected, valve body 210 has endoporus 211.In the present embodiment, valve body 210 has two, two valve bodies 210 One end is mutually permanently connected, and two valve bodies 210 symmetrically arrange, that is, the structure of two valve bodies 210 is identical.Two valves Concrete fixed form between body 210 can be conventional mode, be such as welded to each other fixation or bolt fixation etc., certainly, also may be used According to actual needs two valve bodies 210 to be designed to integral structure.

The part shaft of valve rod 220 is interspersed in endoporus 211, and is provided with bearing 230 between valve rod 220 and valve body 210, So valve body 210 can rotate with respect to valve rod 220.It should be noted that in the present embodiment, valve rod 220 only, this valve Bar 220 is interspersed in the endoporus 211 of two valve bodies 210 simultaneously, and is both provided with axle between this valve rod 220 and two valve bodies 210 Hold 230.

The structure of valve rod 220 shaft position corresponding with two valve bodies 210 is identical, in order to express easily, hereafter Illustrated with the structure of the shaft position of the valve rod 220 corresponding to one of valve body 210 and this valve body 210.

Feed pathway 221 and back flow channel 222, the cross-sectional area of back flow channel 222 are offered on the axial direction of valve rod 220 Cross-sectional area sum more than feed pathway 221.Valve rod 220 is located on the side wall of shaft position of endoporus 211 and/or endoporus The feed liquor annular groove 223 coaxial with endoporus 211 is offered on 211 side wall and returns pendular ring groove 224, be i.e. feed liquor annular groove 223 and time liquid Annular groove 224 can be opened on the side wall of valve rod 220 it is also possible to be opened on the side wall of endoporus 211, can also be opened in valve simultaneously On the side wall of the side wall of bar 220 and endoporus 211, certainly, when feed liquor annular groove 223 or time pendular ring groove 224 are opened in valve rod simultaneously When on 220 side wall and the side wall of endoporus 211, it is located at the position phase that the position of valve rod 220 needs to be located on endoporus 211 with it Corresponding.

It is further opened with valve rod 220 connecting the feed liquor connecting hole (not shown) of feed liquor annular groove 223 and feed pathway 221 And connect back pendular ring groove 224 and liquid outlet channel 222 go out liquid intercommunicating pore (not shown), valve body 210 offers and enters The valve body inlet opening 212 of pendular ring groove 224 connection and the valve body hole for back flow 213 connecting with time pendular ring groove 223.Feed liquor annular groove 223 The side surface direction of side surface direction and time pendular ring groove 224 is respectively arranged with sealing shroud 240, and sealing shroud 240 is located at the side wall of valve rod 220 And the side wall of endoporus 211 between, mainly seal.The concrete set location of sealing shroud 240 can be true according to actual needs Fixed, as long as guaranteeing feed liquor annular groove 223 and returning liquid in pendular ring groove 224 by mutually isolated and will not leak.

Additionally, offering, on the side wall that is not located in endoporus 211 of valve rod 220, the valve rod feed liquor connecting with feed pathway 221 Hole 225 and the valve rod hole for back flow 226 connecting with back flow channel 222, the end of valve rod 220 are fixedly connected with same with valve rod 220 The flange 250 of axle, flange 250 is fixedly connected in frame 100, and that is, valve rod 220 is indirectly fixed to frame 100 by flange 250 On.

In the present embodiment, valve body inlet opening 212 and valve body hole for back flow 213 are all located at valve body 210 radially, and valve body Inlet opening 212 and valve body hole for back flow 213 are mutually perpendicular to arrange.In the present embodiment, feed pathway 221, feed liquor annular groove simultaneously 223rd, valve body inlet opening 212 and valve body hole for back flow 213 respectively have two, and 223 respectively with one feed pathway of each feed liquor annular groove 221 and a valve body inlet opening 212 connect, that is, the passage of feed liquor has two.Two valve body hole for back flow 213 and same time pendular ring Groove 224 connects.

Preferably, in the present embodiment, the opening direction of the corresponding valve body hole for back flow 213 of two valve bodies 210 is contrary.Need It is noted that the opening direction of valve body hole for back flow 213 refers to the side of one end that valve body hole for back flow 213 is connected with external pipe To.

Two valve bodies 210 on rotatable valve 200 correspond to two groups of hollow jelly disk groups 120 respectively, on each valve body 210 One valve body inlet opening 212 is connected with the inlet 131 of corresponding hollow jelly disk group 120 and both are interconnected, one of Valve body hole for back flow 213 connects with the liquid outlet 132 of corresponding hollow jelly disk group 120 and both are interconnected.So, work as rotating wheel During 110 rotation, valve body 210 also can and then rotate, and is prevented effectively from the pipe being connected between valve body inlet opening 212 and inlet 131 The phenomenon that road and the pipeline being connected between valve body hole for back flow 213 and liquid outlet 132 are tied a knot because of torsion.

Removable cover 130 in hollow jelly disk group 120 can be conventional cap structure, as long as it can cover in jelly disk 121 mouth position prevents the gelation product in jelly disk 121 from dropping from jelly disk 121 during rotating wheel 110 rotation to reach ?.As shown in Fig. 2 employing a kind of new removable cover 130 structure, specifically, the activity of the present embodiment in the present embodiment Serpentine channel (not shown) is offered, the one end of serpentine channel on one of removable cover 130 is entered with valve body on lid 130 Fluid apertures 212 connects and both are interconnected, the one end of serpentine channel on another removable cover 130 adjacent with this removable cover with Valve body hole for back flow 213 connects and both are interconnected, in addition between the serpentine channel on removable cover 130 described above, adjacent two Serpentine channel on individual removable cover 130 is interconnected, two being connected with valve body hole for back flow 213 and valve body inlet opening 212 Serpentiss It is not connected with each other between shape passage.The top of so jelly disk 121 can also carry out heat exchange, effectively improves freezing speed.

Preferably, in the present embodiment, rotating wheel 110 is additionally provided with the activity with the one-to-one cooperation of each removable cover 130 Assembly 140, moving component 140 includes being arranged in the radial guidance 141 radially of rotating wheel 110, is slidably connected at radial guiding Travelling carriage 142 on rail 141, be fixedly connected on travelling carriage 142 and the diameter parallel of length direction and rotating wheel 110 axial direction Guide rail 143 and be slidably connected at bracket 144 on axial guidance 143, bracket 144 is fixedly connected with removable cover 130.So, By promoting motion on radial guidance 141 for the travelling carriage 142, the action that removable cover 130 execution is uncapped or closed can be driven, just In toward jelly disk 121 handling gelation product；Pass through to promote removable cover 130 so that removable cover 130 drives bracket 144 in axial guidance simultaneously Slide on 143, play a part to transport and treat that gelation product enters charging schedule.

Above in conjunction with accompanying drawing, this utility model is described in detail, but embodiment of the present utility model not only It is limited to above-mentioned embodiment, those skilled in the art can make various modifications to this utility model according to prior art, such as will In above-described embodiment, the refrigerating medium passage of jelly disk 121 increases the rinforcement bar for separating or hollow jelly disk is combined into flat knot Structure etc., these broadly fall into protection domain of the present utility model.

Claims (5)

1. a kind of hollow jelly disk group for quick freezing unit, it is characterised in that including support, described support is provided with multiple head Tail is connected to the jelly disk of a closed-loop structure, described jelly disk be provided with for place gelation product cool chamber, respectively be located at described freezing The side refrigerating medium passage of the both sides of the length direction in storehouse and the bottom refrigerating medium passage below described cool chamber.

2. it is used for the hollow jelly disk group of quick freezing unit as claimed in claim 1 it is characterised in that one of described jelly disk is Liquid in-out connects jelly disk, and described liquid in-out connection jelly disk is additionally provided with the first dividing plate, second partition, input duct and drain pipe Road, described first dividing plate is bottom admission chamber by described bottom refrigerating medium channel partition and bottom goes out sap cavity, and described second partition will be described Side refrigerating medium channel partition is side admission chamber and side goes out sap cavity, and described input duct is entered with described bottom admission chamber and described side respectively Sap cavity connects, and is provided with inlet in described input duct, and described drain pipe road goes out sap cavity and described side respectively with described bottom Go out sap cavity connection, and be provided with liquid outlet on described drain pipe road, one of institute adjacent with described liquid in-out connection jelly disk The described side refrigerating medium passage stated on jelly disk is connected with described side admission chamber, and the described bottom refrigerating medium passage on this jelly disk and institute State the connection of bottom admission chamber, another connect with described liquid in-out described side refrigerating medium passage on the adjacent described jelly disk of jelly disk and Described side goes out sap cavity connection, and the described bottom refrigerating medium passage on this jelly disk goes out sap cavity with described bottom and connects；Except described liquid in-out Connect outside jelly disk, the described side refrigerating medium passage on two neighboring described jelly disk mutually interconnects respectively with described bottom refrigerating medium passage Logical.

3. it is used for the hollow jelly disk group of quick freezing unit as claimed in claim 2 it is characterised in that described jelly disk group also includes Connecting plate, described connecting plate is located in described jelly disk group between two neighboring described jelly disk, and described connecting plate and corresponding two Form the side refrigerating medium being connected with corresponding described bottom refrigerating medium passage respectively between described cool chamber on individual described jelly disk Passage, described connecting plate offers for connecting the described side refrigerating on two neighboring described jelly disk in same described jelly disk group The groove of agent passage and for connecting what described side refrigerating medium on two neighboring described jelly disk in same described jelly disk group led to Through hole.

4. it is used for the hollow jelly disk group of quick freezing unit as claimed in claim 2 or claim 3 it is characterised in that also including multiple and institute State the removable cover of the one-to-one cooperation of jelly disk, described removable cover offers serpentine channel.

5. it is used for as claimed in claim 2 or claim 3 the hollow jelly disk group of quick freezing unit it is characterised in that the bottom of described jelly disk Offer material demoulding hole.