CN205593238U - Continuous -flow type system slab structure - Google Patents
Continuous -flow type system slab structure Download PDFInfo
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- CN205593238U CN205593238U CN201620326120.5U CN201620326120U CN205593238U CN 205593238 U CN205593238 U CN 205593238U CN 201620326120 U CN201620326120 U CN 201620326120U CN 205593238 U CN205593238 U CN 205593238U
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- ice
- trabeculae
- chest
- making sheets
- pod apertures
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Abstract
The utility model provides a continuous -flow type system slab structure which includes the ice chest, sets up trabeculae and perpendicular spacer on the ice chest, the trabeculae forms ice tray one by one with perpendicular spacer, and its characterized in that is in the trabeculae be arranged in every ice tray with the edge that the ice chest is adjacent is provided with the water conservancy diversion hole. The utility model discloses a system slab, whole ice chest, perpendicular spacer can all carry out the heat exchange, and hot exchange area is big, and is efficient, and simple structure, ice -cube binding department is simultaneously melted easily and is deiced.
Description
Technical field
This utility model relates to field of ice machines, refers in particular to the ice making sheets of ice machine.
Background technology
The ratio that running type ice making machine has been applied is wide.Its structure mainly includes ice making sheets, is positioned at the water spraying pipe above ice making sheets, is positioned at the water leg below ice making sheets, and water spraying pipe is linked by pipeline with water leg.The back side of ice making sheets is provided with heat-exchange device, is provided with ice thickness detecting device before ice making sheets.Ice making sheets generally comprises ice chest, and the perpendicular partition being arranged on ice chest and trabeculae form ice making ice tray.Spaced apart at the ice chest of trabeculae place in each ice tray it is provided with two semicircular indentations as pod apertures, is positioned at the intersection of the trabeculae at ice chest and perpendicular partition and offers breach and supply water and flow through.Water in water leg is entered in water spraying pipe by pipeline, then flow to ice making sheets by the discharge orifice of water spraying pipe.The water entering each ice tray flows through pod apertures at ice chest, forms ice cube in the ice tray of ice making sheets.When ice thickness reaches desired thickness, water spraying pipe stops flowing water, and heat-exchange device provides heat energy for ice making sheets, makes ice cube depart from from ice making sheets, enters in ice cube collecting box along leading slab.There are some defects in the ice cube that this ice making sheets prepares in the quality such as hardness, shape.Owing to all offering pod apertures on horizontal, vertical partition, when ice making, the pod apertures of ice making sheets, owing to being half round cut, reduces the actual heat exchange area of ice making sheets;Additionally, the pod apertures of one ice tray typically arranges 4, and owing to perpendicular partition and trabeculae intersection offer half round cut, ice cube in each ice tray links together, when deicing, need system to provide more heat energy to make the ice-out of junction, cause the electromagnetism bypass valve that big orifice must be selected to deice and reduce the hardness of ice cube.
Summary of the invention
Technical problem to be solved in the utility model is to provide a kind of increase ice making sheets heat exchange area, is easier to the ice making sheets deiced simultaneously.
For above-mentioned technical problem, the technical scheme that this utility model provides is to provide a kind of continuous-flow type ice making sheets structure, it includes ice chest, the trabeculae being arranged on described ice chest and perpendicular partition, described trabeculae and perpendicular partition form ice tray one by one, it is characterised in that edge adjacent with described ice chest in described trabeculae is positioned at each ice tray is provided with pod apertures.
Described pod apertures is the recess concaved along the edge of described trabeculae, and described recess is connected with described ice chest.
Described pod apertures in the ice tray of same vertical setting of types forms through flow-guiding channel.
Ice making sheets of the present utility model, when the water in water spraying pipe flows in ice making sheets, and a part of water flows through the pod apertures in ice tray and flows downward to bottom ice tray, it is ensured that water flow to each corner of each ice tray, it is ensured that the ice cube made will not unfilled corner.Owing to each ice tray only existing a pod apertures, therefore only have neighbouring ice cube to link at pod apertures, after iceman completes, when ice-melt deices, only need a small amount of heat energy can melt the ice of pod apertures connecting place, make ice cube be more readily pulled from ice making sheets, and ensure hardness and the shape of the ice cube after deicing.
Ice making sheets of the present utility model, whole ice chest can be carried out heat exchange, and heat exchange area is big, and efficiency is high;And simple in construction.
Accompanying drawing explanation
Fig. 1, this utility model ice machine structural representation.
Fig. 2, this utility model ice making sheets structural representation.
Local A structure for amplifying schematic diagram in Fig. 3, Fig. 2.
Local B structure for amplifying schematic diagram in Fig. 4, Fig. 2.
Detailed description of the invention
Continuous-flow type ice making sheets structure of the present utility model, now lifts a preferred embodiment and combines diagram and be specifically described.Referring to Fig. 1 to Fig. 4, ice making sheets mainly includes ice chest, trabeculae, perpendicular partition, wherein.
Ice making sheets 1, is positioned at the lower section of water spraying pipe 2.Water spraying pipe 2 is connected with the water leg 3 being positioned at below ice making sheets by pipeline.Water in water leg 3 is pumped in water spraying pipe by water pump 4.Offering discharge orifice in water spraying pipe, the water in water spraying pipe flow to ice making sheets through discharge orifice and carries out ice making.The electrode 5 of sensing ice thickness it is provided with in ice making sheets front.
Ice making sheets includes ice chest 6, perpendicular partition 7 and trabeculae 8.Ice chest is the metallic plate of good heat conductivity, has heat-exchange device (not shown) ice chest is disposed behind.It is perpendicular that partition is spaced and parallel is vertically set on ice chest front, spaced and parallel on trabeculae offering assembling technology groove, when trabeculae is horizontally spaced about on ice chest front, perpendicular partition is plugged in the technology groove of trabeculae, trabeculae and perpendicular partition are arranged in a crossed manner, form ice tray one by one on ice chest.Several recess is offered respectively in the side edge that trabeculae is connected with ice chest, i.e. pod apertures 9, when trabeculae is arranged on ice chest, a pod apertures it is distributed with in each ice tray, and the pod apertures in the ice tray being connected up and down is positioned on straight line, i.e. the pod apertures from the top ice tray of same vertical setting of types is to the pod apertures of bottom ice tray, forms a through water conservancy diversion runner.Water in water spraying pipe flows in ice tray, in a portion ice tray below pod apertures flows into, it is ensured that any position in each ice tray has current to pass through.
The operation principle of ice making sheets of the present utility model: the water being positioned in the water spraying pipe above ice making sheets flows in the ice tray of ice making sheets, near the position of ice chest in a portion ice tray below pod apertures flows into, make all to be filled by water before ice tray and near the position of ice chest.Up and down the pod apertures of ice tray forms through flow-guiding channel, can make that water is smooth and easy flows through pod apertures, makes the ice tray of bottom also have current to pass through near the position of ice chest.Carry out heat exchange by the heat-exchange device disposed behind with ice chest again, ice tray is formed ice cube.When reaching required ice thickness, sprinkler stops supplying water.The reverse operation of heat-exchange device, provides heat energy to ice making sheets, makes the ice melting disengaging ice chest at ice making sheets, and the ice melting realization simultaneously making upper and lower ice tray link at pod apertures deices.
Due to only one of which pod apertures in each ice tray of the present utility model, therefore when ice making, the ice cube in upper and lower ice tray is only capable of at pod apertures linking, and owing to pod apertures is smaller, link ratio relatively thin, when deicing herein, it is easy to melt, makes the ice cube in each ice tray be not attached to mutually.And owing to ice chest is an entire plate, be not provided with recess etc. thereon, ensure that the heat exchange area of ice chest to greatest extent, improve heat exchanger effectiveness.
Claims (3)
1. a continuous-flow type ice making sheets structure, it includes ice chest, the trabeculae being arranged on described ice chest and perpendicular partition, described trabeculae and perpendicular partition form ice tray one by one, it is characterised in that edge adjacent with described ice chest in described trabeculae is positioned at each ice tray is provided with pod apertures.
Continuous-flow type ice making sheets structure the most according to claim 1, it is characterised in that described pod apertures is the recess concaved along the edge of described trabeculae, and described recess is connected with described ice chest.
Continuous-flow type ice making sheets structure the most according to claim 1, it is characterised in that the described pod apertures in the ice tray of same vertical setting of types forms through flow-guiding channel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620326120.5U CN205593238U (en) | 2016-04-19 | 2016-04-19 | Continuous -flow type system slab structure |
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CN201620326120.5U CN205593238U (en) | 2016-04-19 | 2016-04-19 | Continuous -flow type system slab structure |
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CN205593238U true CN205593238U (en) | 2016-09-21 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106931697A (en) * | 2017-04-21 | 2017-07-07 | 合肥梦飞电器有限公司 | Ice maker |
CN106949685A (en) * | 2017-04-21 | 2017-07-14 | 合肥梦飞电器有限公司 | Ice making equipment |
CN110411087A (en) * | 2018-04-25 | 2019-11-05 | 上海浪拓制冷设备有限公司 | A kind of integrated form ice making evaporator |
-
2016
- 2016-04-19 CN CN201620326120.5U patent/CN205593238U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106931697A (en) * | 2017-04-21 | 2017-07-07 | 合肥梦飞电器有限公司 | Ice maker |
CN106949685A (en) * | 2017-04-21 | 2017-07-14 | 合肥梦飞电器有限公司 | Ice making equipment |
CN110411087A (en) * | 2018-04-25 | 2019-11-05 | 上海浪拓制冷设备有限公司 | A kind of integrated form ice making evaporator |
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