CN208222925U - frozen product manufacturing device and refrigeration system - Google Patents

Abstract

The utility model relates to freezing equipment technical fields, more particularly, to a kind of frozen product manufacturing device and refrigeration system.The frozen product manufacturing device includes cool chamber, dropper group pallet and conveying mechanism；The cool chamber is for containing refrigerant；The cool chamber top is provided with liquid-phase product input port；Dropper group pallet is located in the cool chamber；Dropper group pallet includes feed tray and multiple droppers；The feed tray is used to accept the liquid-phase product into the cool chamber, and is dropped in the refrigerant by the dropper and be frozen into solid particle；The cool chamber lower part is provided with solid particle delivery outlet, and the solids particles precipitate after freezing is exported in the solid particle equipped at outlet port, and by the conveying mechanism.The frozen product manufacturing device of the utility model is easy to operate, can prepare pellet-frozen solid, changes the shape of traditional frozen product, enriches the diversity of frozen product.

Description

Frozen product manufacturing device and refrigeration system

Technical field

The utility model relates to freezing equipment technical fields, are more particularly, to a kind of frozen product manufacturing device and freezing System.

Background technique

Need to cooperate the mold of correspondingly-shaped to be freezed when producing the frozen product of specific shape in the prior art, then will Product after freezing is removed from the molds, cumbersome and higher cost.In addition edible frozen ice-cream is generally needed Will by first freezing, then by manually being taken with equipment such as spoons or squeezed out by machine, cause ice cream shape it is single, Mouthfeel is single.It is therefore desirable to propose it is a kind of can integral type prepare the device of pellet-frozen product and simplify refrigerating process and change Become the shape of traditional frozen product.

Utility model content

The purpose of this utility model is to provide a kind of frozen product manufacturing device and refrigeration systems, to solve the prior art Middle frozen product complex process and the single technical problem of shape of product.

The utility model provides a kind of frozen product manufacturing device, including cool chamber, dropper group pallet and conveyer Structure.

The cool chamber is for containing refrigerant；The cool chamber top is provided with liquid-phase product input port, for making liquid Phase product enters in the cool chamber；

Dropper group pallet is located in the cool chamber；Dropper group pallet includes feed tray and multiple drops Pipe, multiple droppers are uniformly arranged on the feed tray lower part；The feed tray enters the cool chamber for accepting Interior liquid-phase product；Liquid-phase product in the feed tray is able to enter in the dropper, and is dropped to by the dropper Solid particle is frozen into the refrigerant；

Flow-disturbing mechanism is additionally provided in the cool chamber, the flow-disturbing mechanism includes blender and multiple spoilers；It is described Blender can extend into the refrigerant and be stirred to the solid particle of freezing；

The cool chamber lower part is provided with solid particle delivery outlet, and the solid particle after freezing can be deposited on described Solid particle equipped at outlet port；

The conveying mechanism is connected with the solid particle delivery outlet, for exporting the solid particle.

Further, multiple spoilers are uniformly arranged on the cool chamber inner wall, for hindering the liquid phase cold The solid particle frozen in area generates vortex movement.

Further, air inlet and exhaust outlet, the air inlet and the exhaust outlet pair are additionally provided on the cool chamber Claim the two sides for being set to dropper group pallet.

Further, the conveying mechanism is screw conveyor；One end of the screw conveyor is provided with feed inlet, institute Feed inlet is stated to be connected with the solid particle delivery outlet；The other end of the screw conveyor is provided with discharge port, it is described go out The height of material mouth is higher than the liquid level of refrigerant in the cool chamber.

Further, further include temperature control device, the temperature control device include thermocouple and with the thermocouple The thermostat being connected；The thermocouple is located in the cool chamber, for detecting the temperature in the cool chamber；The constant temperature Device is set on the cool chamber outer wall, for showing the testing result of the thermocouple.

Further, refrigerant entrance is provided on the cool chamber, the refrigerant can be entered by the refrigerant Mouth enters in the cool chamber.

Further, baffle is provided in the cool chamber, it is described cold that the baffle can change the refrigerant inflow Freeze the direction in storehouse.

Further, it is additionally provided with sealing cover on the cool chamber, is provided with visual windows on the sealing cover.

Further, the bulkhead of the cool chamber includes inner and outer wall, filled with insulation between the inner and outer wall Material.

The utility model additionally provides a kind of refrigeration system, manufactures including frozen product described in any of the above-described technical solution Device.

Compared with prior art, the utility model has the following beneficial effects:

Frozen product manufacturing device provided by the utility model includes cool chamber, dropper group pallet and conveying mechanism；Institute It states and is loaded with refrigerant in cool chamber for providing freezing environment.The cool chamber top is provided with liquid-phase product input port, institute It states cool chamber lower part and is provided with solid particle delivery outlet.The liquid-phase product raw material of required freezing can be defeated by the liquid-phase product Entrance enters in the cool chamber, is frozen into solid product under the action of refrigerant in the cool chamber.It is described to be frozen into Solid product settles under gravity, then is exported by the solid particle delivery outlet of the cool chamber lower part.

Dropper group pallet is set in the cool chamber, enters the freezing by the liquid-phase product input port Liquid-phase product in storehouse can first flow into dropper group pallet.Dropper group pallet packet described in dropper group pallet Feed tray and multiple droppers are included, the feed tray is connected with the dropper；Liquid-phase product can be produced by the liquid phase Product input port flows into the feed tray, then drops in the cool chamber through the dropper.It drops in the cool chamber Drop-wise liquid-phase product can be frozen into solid particle in the cool chamber under the action of refrigerant, solid particle is in gravity Under be settled down to the solid particle equipped at outlet port.The solid particle delivery outlet is connected with the conveying mechanism, the conveying Mechanism can accept the solid particle and solid particle is transmitted at storage device.

The frozen product manufacturing device of the utility model is easy to operate, can prepare without equipment such as additional molds Granular frozen solid changes the shape of traditional frozen product, enriches the diversity of frozen product, and for edible production For product, additionally it is possible to improve its mouthfeel.

The utility model additionally provides a kind of refrigeration system, since the refrigeration system includes the frozen product manufacture dress It sets, thus the refrigeration system also has easy to operate, can prepare the beneficial effect of pellet-frozen solid.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of frozen product manufacturing device provided by the embodiment of the utility model；

Fig. 2 is the structural schematic diagram of dropper group provided by the embodiment of the utility model pallet；

Fig. 3 is the structural schematic diagram of another frozen product manufacturing device provided by the embodiment of the utility model；

Fig. 4 is the structural schematic diagram of another frozen product manufacturing device provided by the embodiment of the utility model.

Appended drawing reference:

1- cool chamber, 101- liquid-phase product input port, 102- solid particle delivery outlet, 103- refrigerant, 104- blender, 105- spoiler, 106- air inlet, 107- filter screen, 108- exhaust outlet, 109- refrigerant entrance, 110- cryogen source, 111- Pipeline, 112- control valve, 113- baffle, 114- sealing cover, 115- visual windows, 116- inner wall, 117- outer wall, 118- liquid phase are cold Freeze area, 119- gas phase freeze space, 120- switching door, 2- dropper group pallet, 201- feed tray, 202- dropper, 203- temperature Sensor, 3- conveying mechanism, 301- feed inlet, 302- discharge port, 303- storage device, 4- temperature control device, 401- thermoelectricity It is even, 402- thermostat.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.

The component of the utility model embodiment for usually describing and showing in attached drawing here can be with a variety of different Configuration is to arrange and design.It therefore, is not below purport to the detailed description of the embodiments of the present invention provided in the accompanying drawings In the range of limitation claimed invention, but it is merely representative of the selected embodiment of the utility model.

Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Referring to Fig. 1 to Fig. 4 describe the frozen product manufacturing device according to the utility model some embodiments and Refrigeration system.

The utility model provides a kind of frozen product manufacturing device, as shown in Figure 1, including cool chamber 1, dropper group support Disk 2 and conveying mechanism 3.

The cool chamber 1 is for containing refrigerant 103, and 1 top of the cool chamber is provided with liquid-phase product input port 101, for entering liquid-phase product in the cool chamber 1.

As shown in Fig. 2, dropper group pallet 2 is set in the cool chamber 1；Dropper group pallet 2 includes Feed tray 201 and multiple droppers 202, multiple droppers 202 are uniformly arranged on 201 lower part of feed tray；It is described into Material torr disk 201 is used to accept the liquid-phase product into the cool chamber 1；Liquid-phase product in the feed tray 201 can Into in the dropper 202, and is dropped in the refrigerant 103 by the dropper 202 and be frozen into solid particle；

As shown in Figure 1, be additionally provided with flow-disturbing mechanism in the cool chamber 1, the flow-disturbing mechanism includes blender 104 and more A spoiler 105；The blender 104 can extend into the liquid phase freeze space 118 and be stirred to the solid particle of freezing；

1 lower part of cool chamber is provided with solid particle delivery outlet 102, and the solid particle after freezing can be deposited on At the solid particle delivery outlet 102；

The conveying mechanism 3 is connected with the solid particle delivery outlet 102, for exporting the solid particle.

Frozen product manufacturing device provided by the utility model includes cool chamber 1, dropper group pallet 2 and conveying mechanism 3； Refrigerant 103 is loaded in the cool chamber 1 for providing freezing environment.It is defeated that 1 top of cool chamber is provided with liquid-phase product Entrance 101,1 lower part of cool chamber are provided with solid particle delivery outlet 102.The liquid-phase product raw material of required freezing can pass through The liquid-phase product input port 101 enters in the cool chamber 1, is frozen under the action of refrigerant 103 in the cool chamber 1 Solid product.The solid product being frozen into settles under gravity, then passes through the institute of 1 lower part of cool chamber State the output of solid particle delivery outlet 102.

Dropper group pallet 2 is set in the cool chamber 1, specifically, is provided with bracket in the cool chamber 1, Dropper group pallet 2 is set in the cool chamber 1 by bracket, dropper group pallet 2 and the liquid-phase product Input port 101 is corresponding, can first be flowed by the liquid-phase product that the liquid-phase product input port 101 enters in the cool chamber 1 Enter in dropper group pallet 2.Dropper group pallet 2 includes feed tray 201 and multiple droppers 202, multiple described Dropper 202 is uniformly arranged on 201 lower part of feed tray, and the feed tray 201 is connected with the dropper 202；Liquid Phase product can be flowed into the feed tray 201 by the liquid-phase product input port 101, then be dripped through the dropper 202 In to the cool chamber 1.Drop to the effect of drop-wise liquid-phase product refrigerant 103 in the cool chamber 1 in the cool chamber 1 Under can be frozen into solid particle, solid particle is settled down under the effect of gravity at the solid particle delivery outlet 102.It is described solid Body particle delivery outlet 102 is connected with the conveying mechanism 3, and the conveying mechanism 3 can accept the solid particle and by solid At pellet transportation to storage device 303.Preferably, the bottom of the feed tray 201 is additionally provided with temperature sensor 203, institute Temperature sensor 203 is stated for detecting the temperature around the feed tray 201 and the dropper 202, and temperature information is passed It send to backstage Central Control Center.Preferably, the shape of the feed tray 201 cooperates the shape of the cool chamber 1 to be arranged, can Think round tray or rectangular pallet etc..Multiple droppers 202, multiple droppers are evenly arranged on the feed tray 201 202 size is consistent, so that the liquid-phase product size of drippage is consistent, so that the solid particle obtained is uniform in size. The diameter of the dropper 202 can be adjusted according to the size of the solid frozen particles of required preparation, but need to guarantee that liquid phase produces Product are discontinuous at independent drop-wise after being flowed out by the dropper 202, and then it is evenly dispersed to guarantee that liquid-phase product can be frozen into Solid frozen particles.

Flow-disturbing mechanism is additionally provided in the cool chamber 1, the flow-disturbing mechanism can be in the liquid phase freeze space 118 Liquid phase refrigerant 103 and the solid particle of freezing generate perturbation action.Specifically, the flow-disturbing mechanism includes 104 He of blender Multiple spoilers 105.The blender 104 can extend into the interior refrigerant 103 and freezing in it in the liquid phase freeze space 118 Solid particle be stirred, break up the solid particle, avoid the solid particle from occurring to assemble and be bonded and influence solid The output of particle.Preferably, the blender 104 is connected with the top of the cool chamber 1, and the blender 104 can It is protruded into liquid phase freeze space 118 across dropper group pallet 2.

In the blender 104 to the mistake of liquid phase refrigerant 103 and solids agitation in the liquid phase freeze space 118 Cheng Zhong, liquid phase refrigerant 103 and solid particle are easy to generate vortex movement and influence the sedimentation of solid particle, therefore in the reality It applies by the way that multiple spoilers 105 are arranged on 1 inner wall 116 of cool chamber in example, the spoiler 105 can prevent institute The liquid phase refrigerant 103 and solid particle stated in liquid phase freeze space 118 generate vortex movement, defeated after settling solid particle normally Out, it ensure that being normally carried out for output process.

The frozen product manufacturing device of the utility model can be used in preparing edible ice pellets or ice cream particle etc., also It can be used for preparing unedible solid particle etc..Swash when the frozen product manufacturing device is used to prepare edible ice pellets or ice When insulting particle, product can directly be contacted with the refrigerant 103 in the cool chamber 1, therefore the selection necessary condition of refrigerant 103 Meet state food safety standard, specifically can choose to be selected as liquid nitrogen.

The frozen product manufacturing device of the utility model is easy to operate, can prepare without equipment such as additional molds Granular frozen solid changes the shape of traditional frozen product, enriches the diversity of frozen product, and for edible production For product, additionally it is possible to improve its mouthfeel.

In one embodiment of the utility model, it is preferable that as shown in figure 3, including that liquid phase freezes in the cool chamber 1 Area 118 and gas phase freeze space 119, the refrigerant 103 are located in the liquid phase freeze space 118, after the refrigerant 103 vaporizes The gas phase refrigerant of formation is able to enter the gas phase freeze space 119.

In this embodiment, the cool chamber 1 includes liquid phase freeze space 118 and gas phase freeze space 119, the refrigerant 103 are located in the liquid phase freeze space 118.Existed by the drop that dropper group pallet 2 drops in the refrigerant 103 It is frozen into solid particle with after the refrigerant 103 heat exchange, meanwhile, the refrigerant 103 can occur part and vaporize, and vaporize Gas phase refrigerant afterwards enters in the gas phase freeze space 119.The gas phase freeze space 119 is located at the liquid phase freeze space 118 Top.Dropper group pallet 2 is located in the gas phase freeze space 119, so that the drippage of dropper group pallet 2 Liquid-phase product first can be freezed tentatively under the action of gas phase refrigerant in the gas phase freeze space 119, enter back into the liquid phase It is further frozen into solid particle completely in freeze space 118, ensure that the uniformity and freezing efficiency of solid particulate form.

In one embodiment of the utility model, it is preferable that multiple spoilers 105 are uniformly arranged on the freezing On 1 inner wall 116 of storehouse, for preventing the solid particle in the liquid phase freeze space 118 from generating vortex movement.

In this embodiment, the spoilers 105 multiple in this embodiment are uniformly arranged on 1 inner wall of cool chamber On 116, by being uniformly arranged multiple spoilers 105 on 1 inner wall 116 of cool chamber, the spoiler 105 can be more Liquid phase refrigerant 103 and solid particle in the good prevention liquid phase freeze space 118 generate vortex movement, make solid particle just It is often exported after sedimentation, ensure that being normally carried out for output process.Preferably, what the spoiler 105 can be vertically arranged is flat Plate or wave-shape board etc..

In one embodiment of the utility model, it is preferable that as shown in Figure 1, being additionally provided with air inlet on the cool chamber 1 Mouth 106 and exhaust outlet 108, the air inlet 106 are relatively arranged on the two of dropper group pallet 2 with the exhaust outlet 108 Side；Air can be entered in the cool chamber 1 by the air inlet 106, and be exchanged heat with dropper group pallet 2, heat exchange Air afterwards can be discharged through the exhaust outlet 108.

In this embodiment, when the liquid-phase product is when entering in the dropper 202, because the dropper 202 is with described in There are the temperature difference for 202 surrounding of dropper in cool chamber 1, so that liquid-phase product easily freezes at 202 mouthfuls of dropper and blocks dropper 202, influence Normal production.To prevent such phenomenon from generating, air inlet 106 and exhaust are additionally provided on the embodiment of the present invention cool chamber 1 Mouth 108, the air inlet 106 is connected with air extractor, and the higher air of the outer temperature of the cool chamber 1 is sucked the freezing It in storehouse 1, and circulates around the dropper 202, reduces the temperature difference of the dropper 202 and its surrounding air, make through the drop The liquid-phase product that pipe 202 oozes will not freeze at 202 mouthfuls of the dropper but gradually condense during drippage.Described in sucking Air in cool chamber 1 can be discharged after being the gas converting heat in the cool chamber 1 around dropper 202 by exhaust outlet 108, Air exhausting device can be set at the exhaust outlet 108, the gas discharge after auxiliary heat-exchanging.The air inlet 106 and the exhaust Mouth 108 is relatively arranged on the two sides of dropper group pallet 2, on the one hand circulates convenient for gas, on the other hand will not be to described Whole temperature generates interference in cool chamber 1.And the position of the air inlet 106 and the exhaust outlet 108 is slightly below the drop Nest of tubes group pallet 2 guarantees that the air sucked in the cool chamber 1 and the 202 underlying gas air inlet of dropper exchange heat, improve with The heat exchange efficiency of the dropper 202.Preferably, it is provided with filter screen 107 at the air inlet 106, the filter screen 107 is set Impurity etc. can be effectively prevented from by, which setting, enters in the cool chamber 1.It is additionally provided with switching door 120 at the air inlet 106, is passed through The switching door 120 can control the air inflow of the air inlet 106.The cold air that the exhaust outlet 108 is discharged can be used as it He uses refrigerated source, such as 1 library of cool chamber or product packaging line etc..

In one embodiment of the utility model, it is preferable that as shown in figure 4, the conveying mechanism 3 is helical feed Machine；One end of the screw conveyor is provided with feed inlet 301, the feed inlet 301 and 102 phase of solid particle delivery outlet Connection；The other end of the screw conveyor is provided with discharge port 302, and the height of the discharge port 302 is higher than the cool chamber 1 The liquid level of interior refrigerant 103.

In this embodiment, the conveying mechanism 3 can be screw conveyor commonly used in the prior art, the spiral transferring One end of machine is sent to be provided with feed inlet 301, the feed inlet 301 is connected with the solid particle delivery outlet 102, so that described Screw conveyor is connected with cool chamber 1, therefore on the one hand the solid particle in the cool chamber 1 after sedimentation can pass through charging Mouth 301 enters in the screw conveyor, and is moved to the helical feed under the push of the screw conveyor intra vane At the discharge port 302 of the machine other end, then through the discharge port 302 discharge.On the other hand the liquid phase refrigerant in the cool chamber 1 103 are also able to enter in the screw conveyor, refrigerant during solid particle output, in the screw conveyor 103 can guarantee that the solid particle after freezing keeps freezing state until exporting from the discharge port 302.The screw conveyor Axis direction form an angle with horizontal plane, the degree of angle can be 5-60 degree, during concrete application, Ke Yigen The tilt angle of the screw conveyor is adjusted according to the liquid level of liquid phase refrigerant 103 in the cool chamber 1.The discharging The height of mouth 302 is higher than the liquid level of liquid phase refrigerant 103 in the cool chamber 1, to prevent cold in the screw conveyor Freeze agent 103 to flow out.In addition, the refrigerant 103 in the screw conveyor can also vaporize after being free surrounding space heat exchange, vapour Gas phase refrigerant after change can be distributed at the discharge port 302, played freezing to the solid particle of the discharge port 302 and made With.Preferably, it can be correspondingly arranged storage device at the discharge port 302, to the solid particle being discharged through the discharge port 302 Storage.

In such an embodiment, it is preferable the shell of the screw conveyor also includes inner casing and shell, the shell and institute It states between inner casing as vacuum structure or prevents heat loss in the screw conveyor filled with heat-insulating material.

In one embodiment of the utility model, it is preferable that as shown in figure 3, the frozen product manufacturing device is also wrapped Temperature control device 4 is included, the temperature control device 4 includes thermocouple 401 and the thermostat being connected with the thermocouple 401 402；The thermocouple 401 can extend into the temperature of the detection liquid phase freeze space 118 in the liquid phase freeze space 118；It is described Thermostat 402 is set on 1 outer wall 117 of cool chamber, for showing the testing result of the thermocouple 401.

In this embodiment, the frozen product manufacturing device further includes temperature control device 4, the temperature control device 4 include thermocouple 401 and the thermostat 402 being connected with the thermocouple 401, and the thermocouple 401 is located at the cool chamber 1 Interior, the thermostat 402 is set on 1 outer wall 117 of cool chamber.The thermocouple 401 can extend into the liquid phase freezing The temperature of the detection liquid phase freeze space 118 in area 118, when the liquid phase freeze space 118 is full of refrigerant 103, the heat Galvanic couple 401 is able to detect corresponding temperature value, and the thermostat 402 can show the testing result of the thermocouple 401.Work as institute When stating 103 liquid level of refrigerant of liquid phase freeze space 118 and being reduced to below the position where the thermocouple 401, the thermocouple 401 temperature detected can increase, and staff is by the display result of thermostat 402 you can learn that cold in the cool chamber 1 It is less to freeze 103 amount of agent, refrigerant 103 need to be added, can be made described by the addition of refrigerant 103 described in manual control at this time The liquid level of refrigerant 103 in cool chamber 1 maintains certain altitude, to guarantee the lasting progress of refrigerating process.In addition, by Control valve 112, the thermocouple 401 described when 1 liquid level of cool chamber reduces are set on the refrigerant input channel 111 Temperature sensor increases, and the thermostat 402, which sends a signal to control valve 112, automatically opens it, makes described in the entrance of refrigerant 103 In cool chamber 1, when 103 demand of refrigerant is restored to specified value, the thermocouple 401 senses temperature reduction, the constant temperature Device 402, which sends a signal to control valve 112, is automatically closed it.

In one embodiment of the utility model, it is preferable that as shown in figure 3, being provided with refrigerant on the cool chamber 1 Entrance 109, the refrigerant 103 can be entered in the cool chamber 1 by the refrigerant entrance 109.

In this embodiment, refrigerant entrance 109 is provided on the cool chamber 1, the refrigerant entrance 109 passes through pipe Road 111 is connected with the cryogen source 110, refrigerant 103 needed for the cryogen source 110 provides the present apparatus, the pipe Control valve 112 is provided on road 111.The refrigerant 103 is entered in the cool chamber 1 by the refrigerant entrance 109, from And refrigerant 103 required in the cool chamber 1 can be supplemented.Preferably, the refrigerant entrance 109 is freezed with the liquid phase Area 118 is connected, and corresponds on 1 inner wall 116 of the cool chamber and be provided with baffle 113, the gear at the refrigerant entrance 109 Plate 113 can block the refrigerant entrance 109, change the direction that the refrigerant 103 flows into the cool chamber 1, avoid The refrigerant stream generates interference to the sedimentation of the solid particle.

In one embodiment of the utility model, it is preferable that as shown in Figure 1, being additionally provided with sealing on the cool chamber 1 Lid 114 is provided with visual windows 115 on the sealing cover 114.

In this embodiment, it is additionally provided with sealing cover 114 on the cool chamber 1, is provided on the sealing cover 114 visual Window 115, situations such as capable of observing the freezing of solid particle in the cool chamber 1 by visual windows 115.Preferably, institute The top that sealing cover 114 is set to the cool chamber 1 is stated, the liquid-phase product input port 101 is set to the sealing cover 114 On, dropper group pallet 2 is set to the lower section that the sealing cover 114 is corresponded in the cool chamber 1, i.e., the described liquid-phase product The dropper group support can be flowed to by being entered after the cool chamber 1 by the liquid-phase product input port 101 on the sealing cover 114 Solid is frozen on disk 2, then in the refrigerant 103 that instills in the cool chamber 1 by the dropper of dropper group pallet 2 Grain.Exhaust valve can also be set on the sealing cover 114, when the gas phase refrigerant in the cool chamber 1 is excessive, open exhaust Valve assists the cool chamber 1 to be vented, to maintain the balance of pressure in cool chamber 1.

In one embodiment of the utility model, it is preferable that as shown in figure 3, the bulkhead of the cool chamber 1 includes inner wall 116 and outer wall 117, heat-insulating material is filled between the inner wall 116 and outer wall 117.

In this embodiment, the bulkhead of the cool chamber 1 is double-layer structure, including inner wall 116 and outer wall 117, it is described in It is filled with heat-insulating material between wall 116 and outer wall 117, can prevent the heat between the inside and outside environment of the cool chamber 1 from passing It passs, to improve the freezing efficiency of the cool chamber 1.In addition, being also designed between the inner wall 116 and outer wall 117 true Hollow structure can equally prevent the heat transmitting between the inside and outside environment of the cool chamber 1 to a certain extent.Preferably, The inner wall 116 and outer wall 117 of the cool chamber 1 are stainless steel material, keep that anti-corrosion can also be played while some strength The effect of erosion.

The embodiments of the present invention additionally provide a kind of refrigeration system, produce including freezing described in any of the above-described embodiment Product manufacturing.

In this embodiment, since the refrigeration system includes the manufacture dress of frozen product described in any of the above-described embodiment It sets, thus whole excellent effects that there is the refrigeration system frozen product manufacturing device to have, it no longer goes to live in the household of one's in-laws on getting married one by one herein It states.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of frozen product manufacturing device, which is characterized in that including cool chamber, dropper group pallet and conveying mechanism；

The cool chamber is for containing refrigerant；The cool chamber top is provided with liquid-phase product input port, for producing liquid phase Product enter in the cool chamber；

Dropper group pallet is located in the cool chamber；Dropper group pallet includes feed tray and multiple droppers, Multiple droppers are uniformly arranged on the feed tray lower part；The feed tray enters in the cool chamber for accepting Liquid-phase product；Liquid-phase product in the feed tray is able to enter in the dropper, and is dropped to by the dropper described Solid particle is frozen into refrigerant；

Flow-disturbing mechanism is additionally provided in the cool chamber, the flow-disturbing mechanism includes blender and multiple spoilers；The stirring Device can extend into the refrigerant and be stirred to the solid particle of freezing；

The cool chamber lower part is provided with solid particle delivery outlet, and the solid particle after freezing can be deposited on the solid Particle equipped at outlet port；

The conveying mechanism is connected with the solid particle delivery outlet, for exporting the solid particle.

2. frozen product manufacturing device according to claim 1, which is characterized in that multiple spoilers are uniformly arranged on On the cool chamber inner wall.

3. frozen product manufacturing device according to claim 1, which is characterized in that be additionally provided with air inlet on the cool chamber Mouth and exhaust outlet, the air inlet and the exhaust outlet are symmetrically disposed on the two sides of dropper group pallet.

4. frozen product manufacturing device according to claim 1, which is characterized in that the conveying mechanism is helical feed Machine；One end of the screw conveyor is provided with feed inlet, and the feed inlet is connected with the solid particle delivery outlet；It is described The other end of screw conveyor is provided with discharge port, and the height of the discharge port is higher than the liquid level of refrigerant in the cool chamber.

5. frozen product manufacturing device according to claim 1, which is characterized in that it further include temperature control device, it is described Temperature control device includes thermocouple and the thermostat that is connected with the thermocouple；The thermocouple is located at the cool chamber It is interior, for detecting the temperature in the cool chamber；The thermostat is set on the cool chamber outer wall, for showing the heat The testing result of galvanic couple.

6. frozen product manufacturing device according to claim 1, which is characterized in that be provided with refrigerant on the cool chamber Entrance, the refrigerant can be entered in the cool chamber by the refrigerant entrance.

7. frozen product manufacturing device according to claim 2, which is characterized in that it is provided with baffle in the cool chamber, The baffle can change the direction that the refrigerant flows into the cool chamber.

8. frozen product manufacturing device according to claim 1, which is characterized in that be additionally provided with sealing on the cool chamber It covers, is provided with visual windows on the sealing cover.

9. frozen product manufacturing device according to claim 1, which is characterized in that the bulkhead of the cool chamber includes inner wall And outer wall, heat-insulating material is filled between the inner and outer wall.

10. a kind of refrigeration system, which is characterized in that including the described in any item frozen product manufacturing devices of claim 1 to 9.