CN105953498A - Hollow freezing dish set for quick-freezing device - Google Patents

Abstract

The invention provides a hollow freezing dish set for a quick-freezing device. The hollow freezing dish set comprises a bracket, wherein a plurality of freezing dishes which are connected in an end-to-end way to form a closed-ring structure, and a plurality of movable covers which are correspondingly matched with the freezing dishes are arranged on the bracket; each freezing dish is provided with a freezing bin for storing a freezing article, side-loading refrigerant channels which are correspondingly positioned at two sides in the length direction of each freezing bin, and a bottom-loading refrigerant channel which is positioned below each freezing bin. According to the hollow freezing dish set for the quick-freezing device, the side-loading refrigerant channels, the bottom-loading refrigerant channels and lateral-loading refrigerant channels are arranged, so that the heat exchange can be performed for the freezing articles in the freezing bins from four sides and the bottom part, and as a result, the freezing articles can be quickly frozen; in addition, snake-shaped channels are formed in the movable covers, so that the heat exchange can be performed for the freezing articles from the top parts of the freezing bins, and as a result, the freezing speed of the frozen articles can be further increased, and the freezing quality is high; the hollow freezing dish set is a novel freezing dish set applicable to line production.

Description

A kind of hollow for quick freezing unit freezes dish group

Technical field

The present invention relates to a kind of food product freezing unit, especially one and for quick freezing unit and be applicable to stream The hollow of water operation freezes dish group.

Background technology

Traditional frozen food (including marine product) manufacturing enterprise is all to utilize quick freezing repository or sharp freezing room pair Freezing product and carry out quick-freezing, this quick-freezing mode is difficult to form line production, and production efficiency is relatively low, work People's labor intensity is of a relatively high, and freeze product to enter the storehouse time relatively long, the product that freeze in laggard storehouse may Because cannot quick-freezing in time and cause its freshness to be affected.

In order to solve the problems referred to above, occur some carrying out with air as refrigerating medium in the market The quick freezing unit that streamlined produces, having more typically is spiral, tunnel type, but this equipment is because taking up an area face Long-pending big, cost is high and power consumption, and universal face is little, and the quick freezing unit with liquid as refrigerating medium have flat, Drum-type structure, a kind of drum-type speed as disclosed in Chinese utility model patent ZL 200720111205.2 Freeze device, including rotating cylinder, driver and the refrigeration system of offer liquid coolant, rotating cylinder outer wall Being sequentially distributed the upper and lower flat board of multipair hollow on side face, each lower flat board is fixedly connected with rotating cylinder, each on Flat board is connected with respective elevating mechanism respectively and moves up and down, and on each upper and lower flat board the most all It is provided with inlet and liquid return hole, and on each upper flat plate, is additionally provided with associated dynamic movable guard； Then at least provided with one group of band feed pathway and back flow channel and the import and export of same passage in rotating cylinder Holding rotary valve in relative rotation, inlet, liquid return hole on each upper and lower flat board pass through respective respectively Feed liquor arm, the feed pathway that time liquid arm is corresponding with on above-mentioned rotary valve, back flow channel Single port phase Connect, feed pathway, back flow channel another port then with outlet tube, the return duct of liquid coolant It is connected.Although this quick-freezing plant can improve production efficiency to a certain extent and reduce the work of workman Intensity, but the product that freeze on this quick-freezing plant only have upper and lower both sides can produce heat exchange, freeze speed Spending relatively slow, flat plate type quick-frozen equipment is also such.

In view of this, quick freezing unit is frozen dish structure and conducts in-depth research by the applicant, then has This case produces.

Summary of the invention

It is an object of the invention to provide the comparatively faster hollow for quick freezing unit of a kind of freezing speed Freeze dish group.

To achieve these goals, the present invention adopts the following technical scheme that

A kind of hollow for quick freezing unit freezes dish group, including support, described support is provided with multiple Join end to end into a closed-loop structure freezes dish, described in freeze dish be provided with for place freeze product cool chamber, Lay respectively at the side refrigerating medium passage of the both sides of the length direction of described cool chamber and be positioned at described freezing End refrigerating medium passage below storehouse.

As a modification of the present invention, freezing dish described in one of them is that liquid in-out connects and freezes dish, described Liquid in-out connects and freezes and be additionally provided with the first dividing plate, second partition, input duct and drain pipe road on dish, Refrigerating medium channel partition of the described end is end admission chamber by described first dividing plate and the end goes out sap cavity, described second Described side refrigerating medium channel partition is side admission chamber by dividing plate and side goes out sap cavity, and described input duct is respectively Connect with admission chamber of the described end and described side admission chamber, and be provided with inlet in described input duct, Described drain pipe road goes out sap cavity with the described end respectively and described side goes out sap cavity and connects, and described drain pipe road On be provided with liquid outlet, one of them connect with described liquid in-out freeze dish adjacent described in freeze on dish institute State side refrigerating medium passage to connect with described side admission chamber, and this freeze refrigerating medium passage of the described end on dish with Admission chamber of the described end connects, another with described liquid in-out connection freeze dish adjacent described in freeze on dish institute State side refrigerating medium passage to go out sap cavity with described side and connect, and this freeze refrigerating medium passage of the described end on dish with The described end, goes out sap cavity connection；In addition to described liquid in-out connects and freezes dish, described in adjacent two, freeze the institute on dish State side refrigerating medium passage and refrigerating medium passage of the described end is interconnected respectively.

As a modification of the present invention, described in freeze dish group and also include connecting plate, described connecting plate position Freeze between dish described in adjacent two in described freezing in dish group, and described in described connecting plate and corresponding two Freeze and between the described cool chamber on dish, form the limit being connected with corresponding refrigerating medium passage of the described end respectively Refrigerating medium passage, described connecting plate offers for connect same described in freeze adjacent two institutes in dish group State the described limit refrigerating medium passage frozen on dish groove and for connect same described in freeze in dish group adjacent The through hole that the described side refrigerating medium on dish is logical is frozen described in two.

As a modification of the present invention, also include multiple and described freeze the removable cover that dish coordinates one to one, Serpentine channel is offered on described removable cover, the described serpentine channel on one of them described removable cover One end is connected with described valve body inlet opening and both are interconnected, another institute adjacent with this removable cover State one end of the described serpentine channel on removable cover to be connected with described valve body hole for back flow and both interconnect mutually Logical, in addition between the described serpentine channel on removable cover described in above-mentioned two, adjacent two described activities The described serpentine channel covered is interconnected.

As a modification of the present invention, described in freeze the bottom of dish and offer material demoulding hole.

Use technique scheme, the method have the advantages that

1, heat exchange can be carried out from the dish that freezes in side and cool chamber by arranging side refrigerating medium passage, Further by arranging limit refrigerating medium passage, can be from freezing in surrounding and direction, five, bottom and cool chamber Product carry out heat exchange, and the freezing speed freezing product is relatively fast；Further by opening on removable cover If serpentine channel circulation refrigerating medium, moreover it is possible at the top of cool chamber with freeze product and carry out heat exchange, enter one Step improves the freezing speed freezing product.

2, this hollow freezes dish group is a closed-loop structure, the beneficially application of line production appliance arrangement.

3, by arranging material demoulding hole, it is simple to by material discharging rod, the product that freeze frozen on dish are unloaded, and not Need first defrost de-material again, thus save the energy and improve again production efficiency.

Accompanying drawing explanation

Fig. 1 is the quick freezing unit structural representation using the hollow of the present invention to freeze dish group, omission portion in figure Separation structure；

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

Fig. 3 is the structural representation that hollow of the present invention freezes dish group；

Fig. 4 be hollow of the present invention freeze dish group freeze dish cross-sectional structure schematic diagram；

Fig. 5 is the structural representation that hollow of the present invention freezes the connecting plate of dish group；

Fig. 6 be hollow of the present invention freeze that the connection of dish group freezes dish look up structural representation；

Fig. 7 is the cross section structure schematic diagram of B-B position in Fig. 6；

Fig. 8 is the cross section structure schematic diagram of C-C position in Fig. 6；

Fig. 9 freezes dish structural representation for the another kind provided in the embodiment of the present invention；

Figure 10 is rotatable valve mechanism schematic diagram in the embodiment of the present invention；

Figure 11 is the cross-sectional structure schematic diagram of rotatable valve in the embodiment of the present invention.

Each figure indicates corresponding as follows:

100-frame；110-rotates wheel；

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

120-hollow freezes dish group；121-freezes dish；

Dish is frozen in the connection of 121a-liquid in-out；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；

Refrigerating medium passage at the bottom of 125-；Admission chamber at the bottom of 125a-；

Sap cavity is gone out at the bottom of 125b-；126-material demoulding hole；

127a-the 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.

Detailed description of the invention

The present invention is described further with specific embodiment below in conjunction with the accompanying drawings.

A kind of quick freezing unit that the present embodiment provides, this quick freezing unit employs the hollow of the present invention and freezes dish Group.As depicted in figs. 1 and 2, the quick freezing unit that the present embodiment provides includes frame 100, frame 100 On be provided be rotatably connected to vertically to arrange rotate wheel 110 and rotate wheel 110 rotation for driving Electric rotating machine (not shown), electric rotating machine can be normal with the mode of being in transmission connection of rotation wheel 110 The mode of rule.In the present embodiment, frame 100 is additionally provided with the master being in transmission connection with electric rotating machine Moving gear 111, rotates and is provided with, on wheel 110, the driven gear ring 112 coordinated with driving gear 111, rotation Rotating motor passes sequentially through driving gear 111 and driven gear ring 112 drives and rotates wheel 110 rotation.

It is arranged with more than one hollow on rotation wheel 110 and freezes dish group 120, in the present embodiment, hollow Freezing dish group 120 and have two groups, two groups of hollows are frozen dish group 120 and are arranged symmetrically with centered by driven gear ring 112. Hollow is frozen dish group 120 and is included support, support is provided with and multiple joins end to end into freezing of a closed-loop structure Dish 121 and multiple with freeze the removable cover 130 that dish 121 coordinates one to one, respectively freeze dish join end to end formed Closed loop shape can determine according to actual needs, and such as circular closed loop or square closed loop etc., this closed loop is permissible Vertically arranging can also be horizontally disposed, as shown in Figure 1, Figure 2 and Figure 3, in the present embodiment, and hollow Each freezing in dish group 120 freezes dish 121 even cloth centered by the axis rotating wheel 110 and is rotating wheel 110 On, i.e. the hollow in the present embodiment freeze dish group 120 respectively freeze dish 121 join end to end formed be shaped as Circle, and be arranged on vertical plane.Also include being positioned at additionally, the hollow of the present embodiment freezes dish group 120 Adjacent two connecting plates frozen between dish 121 122, i.e. connecting plate 122 also has multiple.Freeze dish 121 Particular number can determine according to actual needs.During use, only the to be freezed product that freeze need to be put into and frozen dish 121, it is drawn off after freezing.

As shown in Fig. 3, Fig. 4 and Fig. 5, freeze dish 121 be provided with for place freeze product cool chamber 123, Lay respectively at the side refrigerating medium passage 124 of the both sides of the length direction of cool chamber 123 and be positioned at freezing End refrigerating medium passage 125 below storehouse 123, the most each dish 121 that freezes has two side refrigerating medium passages 124, Cool chamber 123 has the oral area freezing product for handling.It should be noted that in the present embodiment, freeze The width of dish 121 is to freeze the direction that dish 121 is vertical with the axis rotating wheel 110, freezes dish 121 Length direction be the parallel direction of axis frozen dish 121 with rotate wheel 110.

It is mutually permanently connected by connecting plate 122 between adjacent two ends freezing dish 121, i.e. connects Plate 122 in freezing dish group 120 adjacent two freeze between dish 121, after connection, connecting plate 122 will It is mutually isolated that same hollow freezes adjacent two end refrigerating medium passages 125 frozen on dish 121 in dish group 120, Also same hollow is frozen in dish group 120 adjacent two simultaneously and freezes side refrigerating medium passage corresponding on dish 121 124 is mutually isolated.The sidewall of the most adjacent two cool chambers 123 freezing dish 121 and connecting plate 122 it Between all there is preset space length, and connecting plate 122 and two corresponding cool chambers frozen on dish 121 123 Between form the limit refrigerating medium passage that is connected with corresponding end refrigerating medium passage 125 respectively (in figure not Illustrate), i.e. limit refrigerating medium passage is positioned at the two ends of the width freezing dish 121.On connecting plate 122 far Offering from the upper end in end refrigerating medium passage 124 freezes in dish group 120 adjacent for connecting same hollow The groove 122a of the limit refrigerating medium passage 125 that two freeze on dish 121, the two ends of connecting plate 122 are offered Have and freeze adjacent two side refrigerating medium passages 124 frozen on dish 121 in dish group 120 for connecting same hollow Through hole 122b, owing to each freezing has two side refrigerating medium passages 124, therefore, through hole on dish 121 122b has two groups, lays respectively at the two ends of connecting plate 122, and respectively with two side refrigerating medium passages 124 Corresponding.So, when refrigerating medium hollow freeze each of dish group 120 freeze circulation in dish 121 time, can Both sides (i.e. the two of width of cool chamber 123 length direction are flowed through by side refrigerating medium passage 124 End), bottom and the width of cool chamber 123 is flowed through by end refrigerating medium passage 125 and limit refrigerating medium passage The both sides in direction, the surrounding of such cool chamber and bottom have refrigerating medium to circulate, and refrigerating effect is preferable. It should be noted that the spacing institute shape frozen between cool chamber 123 sidewall of dish 121 and connecting plate 122 Become limit refrigerating medium channel cavity except with corresponding end refrigerating medium passage 124 and corresponding groove 122a Outside connection, other positions of this cavity are airtight.

Preferably, in the present embodiment, the bottom freezing dish 121 offers material demoulding hole 126, it is simple to by The product that freeze frozen on dish 121 are unloaded by the material discharging rod being arranged on quick freezing unit, it should be noted that Material demoulding hole 126 and cool chamber 123 are interconnected, and material demoulding hole 126 and end refrigerating medium passage 125 It is the most disconnected.

Additionally, in same hollow freezes dish group 120, one of them freezes dish 121 and freezes for liquid in-out connection Dish 121a, as shown in Fig. 6, Fig. 7 and Fig. 8, the connection of this liquid in-out freezes dish 121a except having other Freeze outside the structure of dish 121, be additionally provided with the first dividing plate 127a, second partition 127b, input duct 128 With drain pipe road 129, taxi driver brother dividing plate 127a and second partition 127b is in the same plane, and second Dividing plate 127b has two, and end refrigerating medium passage 125 is divided into end admission chamber 125a by the first dividing plate 127a Go out sap cavity 125b, each second partition 127b the end of with one side refrigerating medium passage 124 is divided into side to enter Sap cavity 124a and side go out sap cavity 124b.Input duct 128 respectively with end admission chamber 125a and side feed liquor Chamber 124a connects, and is provided with inlet 131 in input duct 128, drain pipe road 129 respectively with The end, goes out sap cavity 125b and goes out sap cavity 124b with side and connect, and is provided with liquid outlet 132 on drain pipe road 129.

In same hollow freezes dish group 120, connect with liquid in-out and freeze adjacent two of dish 121 and freeze dish 121 In, one of them side refrigerating medium passage 124 frozen on dish 121 connects with corresponding side admission chamber 124a, And this end refrigerating medium passage 125 frozen on dish 121 connects with end admission chamber 125a, another freezes dish 121 On side refrigerating medium passage 124 go out sap cavity 124b connection with corresponding side, and this freezes the end on dish 121 Refrigerating medium passage 125 goes out sap cavity 125b and connects the end of with；In addition to dish 121a is frozen in connection, adjacent two freeze Side refrigerating medium passage 124 and end refrigerating medium passage 125 correspondence respectively on dish 121 are interconnected.Make Used time, refrigerating medium flows into after hollow freezes dish group 120 from inlet 131, freezes dish group 120 in this hollow Each freeze dish 121 circulates a circle after flow out from liquid outlet 132, freeze dish group with whole hollow The product that freeze that each of 120 is frozen in dish 121 carry out heat exchange.

Above-mentioned freeze dish 121 structure be the present embodiment provide the first freeze the structure of dish 121, this Embodiment additionally provides another kind and freezes dish 121 structure, and this freezes dish 121 and is equivalent to two the present embodiment The first provided is frozen dish structure and is linked into an integrated entity, and both sides in opposite directions share a side refrigerating medium Passage 124, same, as it is shown in figure 9, dish 121a is frozen in the liquid connection that goes out that the second freezes in dish structure Dish 121a connection is frozen in the first liquid connection that goes out freezing in dish structure that also corresponding to two the present embodiment provides Integral, and both sides in opposite directions share a side admission chamber 124a, additionally, both feed tubes Road 128, inlet 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 also sets up Having rotatable valve 200, as shown in Figure 10 and Figure 11, rotatable valve 200 includes and rotates wheel The 110 fixing valve bodies 210 connected and the valve rod 220 that be connected fixing with frame 100, valve body 210 has Endoporus 211.In the present embodiment, valve body 210 has two, and one end of two valve bodies 210 interfixes Connect, and two valve bodies 210 are arranged symmetrically, i.e. the structure of two valve bodies 210 is identical. Concrete fixed form between two valve bodies 210 can in the way of being conventional, as be welded to each other fixing or Bolt is fixing, it is of course also possible to two valve bodies 210 are designed to integral type knot according to actual needs Structure.

The part shaft of valve rod 220 is interspersed in endoporus 211, and between valve rod 220 and valve body 210 Being provided with bearing 230, such valve body 210 can rotate relative to valve rod 220.It should be noted that In the present embodiment, valve rod 220 only, this valve rod 220 is interspersed in two valve bodies 210 simultaneously In endoporus 211, and it is both provided with bearing 230 between these valve rod 220 and two valve bodies 210.

The structure of the shaft position that valve rod 220 is corresponding with two valve bodies 210 is identical, for table State conveniently, hereafter with the shaft of the valve rod 220 corresponding to one of them valve body 210 and this valve body 210 The structure of position illustrates.

Feed pathway 221 and back flow channel 222, back flow channel 222 is offered in the axial direction of valve rod 220 Cross-sectional area more than the cross-sectional area sum of feed pathway 221.Valve rod 220 is positioned at endoporus 211 Shaft position sidewall on and/or the sidewall of endoporus 211 on offer the feed liquor coaxial with endoporus 211 Annular groove 223 and time pendular ring groove 224, i.e. feed liquor annular groove 223 and time pendular ring groove 224 can be opened in valve rod On the sidewall of 220, it is also possible to be opened on the sidewall of endoporus 211, it is also possible to be opened in valve rod simultaneously On the sidewall of 220 and the sidewall of endoporus 211, certainly, when feed liquor annular groove 223 or time pendular ring groove 224 When being opened on the sidewall of valve rod 220 and the sidewall of endoporus 211, it is positioned at the position of valve rod 220 simultaneously Put the position needing to be positioned on endoporus 211 with it corresponding.

It is further opened with on valve rod 220 connecting feed liquor annular groove 223 and the feed liquor connecting hole of feed pathway 221 (not shown) and connect back pendular ring groove 224 and liquid outlet channel 222 go out liquid intercommunicating pore (figure Not shown in), valve body 210 offers the valve body inlet opening 212 connected with feed liquor annular groove 224 and with Return the valve body hole for back flow 213 of pendular ring groove 223 connection.The side surface direction of feed liquor annular groove 223 and time pendular ring groove The side surface direction of 224 is respectively arranged with sealing shroud 240, sealing shroud 240 be positioned at valve rod 220 sidewall and Between the sidewall of endoporus 211, act primarily as sealing function.Sealing shroud 240 specifically to arrange position permissible Determine according to actual needs, as long as the liquid guaranteed in feed liquor annular groove 223 and time pendular ring groove 224 is by phase Isolate mutually and will not leak.

Additionally, valve rod 220 is not located on the sidewall in endoporus 211 offering with feed pathway 221 even Logical valve rod inlet opening 225 and the valve rod hole for back flow 226 connected with back flow channel 222, valve rod 220 Being fixedly connected with the flange 250 coaxial with valve rod 220 on end, flange 250 is fixedly connected on frame On 100, i.e. valve rod 220 is indirectly fixed in frame 100 by flange 250.

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.Simultaneously in this reality Execute in example, feed pathway 221, feed liquor annular groove 223, valve body inlet opening 212 and valve body hole for back flow 213 It is respectively arranged with two, and 223 respectively with one feed pathway 221 of each feed liquor annular groove and a valve body enter Fluid apertures 212 connects, i.e. 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, opening of the valve body hole for back flow 213 that two valve bodies 210 are corresponding Mouth is in opposite direction.It should be noted that the opening direction of valve body hole for back flow 213 refers to valve body returns liquid The direction of one end that hole 213 is connected with external pipe.

The most corresponding two groups of hollows of two valve bodies 210 on rotatable valve 200 freeze dish group 120, each A valve body inlet opening 212 on valve body 210 freezes the inlet 131 of dish group 120 with corresponding hollow Connecting and both are interconnected, one of them valve body hole for back flow 213 freezes dish group 120 with corresponding hollow Liquid outlet 132 connect and both are interconnected.So, when rotating wheel 110 rotation, valve body 210 Also can and then rotate, be prevented effectively from the pipeline being connected between valve body inlet opening 212 and inlet 131 And the phenomenon that the pipeline being connected between valve body hole for back flow 213 and liquid outlet 132 is tied a knot because of torsion.

It can be conventional cap structure that hollow freezes the removable cover 130 in dish group 120, as long as it can Cover the mouth position freezing dish 121 and rotate 110 turns of wheel with the product that freeze reaching to prevent freezing in dish 121 Drop from freezing dish 121 during Dong.As in figure 2 it is shown, employ one in the present embodiment Plant new removable cover 130 structure, concrete, the removable cover 130 of the present embodiment offer snakelike logical Road (not shown), one end of the serpentine channel on one of them removable cover 130 and valve body inlet opening 212 connect and both are interconnected, snakelike logical on another removable cover 130 adjacent with this removable cover The one end in road is connected with valve body hole for back flow 213 and both are interconnected, except removable cover 130 described above On serpentine channel between outside, the serpentine channel on adjacent two removable covers 130 is interconnected, i.e. with It is not connected with each other between two serpentine channels that valve body hole for back flow 213 and valve body inlet opening 212 connect. The top so freezing dish 121 can also carry out heat exchange, is effectively improved freezing speed.

Preferably, in the present embodiment, rotate and be additionally provided with on wheel 110 and each removable cover 130 a pair One moving component 140 coordinated, moving component 140 includes being arranged in the footpath radially rotating wheel 110 Direction guiding rail 141, the travelling carriage 142 being slidably connected on radial guidance 141, it is fixedly connected on travelling carriage On 142 and the parallel axial guidance 143 of the axis of length direction and rotation wheel 110 and being slidably connected at Bracket 144 on axial guidance 143, bracket 144 and the fixing connection of removable cover 130.So, pass through Promote the travelling carriage 142 motion on radial guidance 141, can drive removable cover 130 perform uncap or The action of Guan Bi, it is simple to freeze product toward freezing dish 121 handling；Simultaneously by promoting removable cover 130 so that live Dynamic lid 130 drive bracket 144 slides on axial guidance 143, plays and transports product to be frozen entrance charging The effect of program.

Above in conjunction with accompanying drawing, the present invention is described in detail, but embodiments of the present invention are not Being only limitted to above-mentioned embodiment, the present invention can be made respectively by those skilled in the art according to prior art Plant deformation, as the refrigerating medium passage increase freezing dish 121 in above-described embodiment being used for the rinforcement bar separated Or hollow is frozen dish be combined into plate armature etc., these broadly fall into protection scope of the present invention.

Claims (5)

1. the hollow for quick freezing unit freezes dish group, it is characterised in that include support, described Be provided with on frame multiple join end to end into a closed-loop structure freeze dish, described in freeze dish and be provided with for placing The cool chamber that freezes product, the both sides laying respectively at the length direction of described cool chamber side refrigerating medium passage with And it is positioned at the end refrigerating medium passage below described cool chamber.

2. the hollow for quick freezing unit as claimed in claim 1 freezes dish group, it is characterised in that its In to freeze dish described in one be that liquid in-out connects and freezes dish, described liquid in-out connects to freeze and is additionally provided with first on dish Dividing plate, second partition, input duct and drain pipe road, refrigerating medium of the described end is led to by described first dividing plate Road is divided into end admission chamber and the end goes out sap cavity, and described side refrigerating medium channel partition is by described second partition Side admission chamber and side go out sap cavity, described input duct respectively with admission chamber of the described end and described side admission chamber Connection, and in described input duct, it is provided with inlet, described drain pipe road goes out liquid with the described end respectively Chamber goes out sap cavity with described side and connects, and is provided with liquid outlet on described drain pipe road, one of them and institute State liquid in-out connect freeze dish adjacent described in freeze on dish described side refrigerating medium passage and described side admission chamber Connect, and this refrigerating medium passage of the described end frozen on dish connects with admission chamber of the described end, another and institute State liquid in-out connect freeze dish adjacent described in freeze on dish described side refrigerating medium passage and described side go out sap cavity Connect, and this refrigerating medium passage of the described end frozen on dish goes out sap cavity with the described end and connects；Except described turnover Liquid connection is frozen outside dish, freezes the described side refrigerating medium passage on dish and refrigerating medium of the described end described in adjacent two Passage is interconnected respectively.

3. the hollow for quick freezing unit as claimed in claim 2 freezes dish group, it is characterised in that institute State and freeze dish group and also include connecting plate, described connecting plate be positioned at described in freeze in dish group and freeze described in adjacent two Between dish, and described in two of described connecting plate and correspondence, freeze between the described cool chamber on dish shape respectively Become the limit refrigerating medium passage being connected with corresponding refrigerating medium passage of the described end, described connecting plate is offered Have for connect same described in freeze the described limit refrigerating medium passage frozen described in adjacent two in dish group on dish Groove and for connect same described in freeze dish group frozen described in adjacent two the described side refrigerating medium on dish Logical through hole.

4. the hollow being used for quick freezing unit as claimed in claim 2 or claim 3 freezes dish group, it is characterised in that Also include multiple and described freeze the removable cover that dish coordinates one to one, described removable cover offering snakelike logical Road, one end of the described serpentine channel on one of them described removable cover is connected with described valve body inlet opening And both are interconnected, the described serpentine channel another described removable cover on adjacent with this removable cover One end be connected with described valve body hole for back flow and both are interconnected, except on removable cover described in above-mentioned two Described serpentine channel between outside, the described serpentine channel on adjacent two described removable covers is interconnected.

5. the hollow being used for quick freezing unit as claimed in claim 2 or claim 3 freezes dish group, it is characterised in that The described bottom freezing dish offers material demoulding hole.