CN203372826U - Full-automatic pneumatic ice conveying system - Google Patents

Abstract

The utility model provides a full-automatic pneumatic ice conveying system which solves the problems that labor resources are wasted, conveying cost is increased, conveying speed is low, portions among ice products are frozen, and the like in existing ice body conveying devices and modes. The full-automatic pneumatic ice conveying system comprises a spiral metering ice feeder and a spiral conveying shaft arranged in the spiral metering ice feeder in a suspension mode, the two ends of the spiral conveying shaft are connected by weighing sensors in a hoisting mode, the spiral metering ice feeder is connected with a first two-way conveyer, the first two-way conveyer is provided with a plurality of ice discharge ports, one of the ice discharge ports is connected with an ice crusher, an outlet of the ice crusher and other ice discharge ports are connected with a second two-way conveyer, the second two-way conveyer is provided with a near ice feed port and a far ice feed port, the far ice feed port is connected with a rotary ice feeder, the spiral ice feeder is provided with an ice conveying channel, an air inlet of the ice feeding channel is connected with an air blower, and an air outlet of the ice feeding channel is communicated with a conveying pipeline. According to the full-automatic pneumatic ice conveying system, full-automatic mechanical control management is adopted, occupation of labor resources is reduced, ice feeding amount can be accurate, ice use efficiency can be improved, and ice discharge quality can be optimized.

Description

Full automatic penumatic send the ice system

Technical field

The utility model belongs to technical field of refrigeration equipment, relates to a kind of the realization and weighs, send the device of ice and control process step, and particularly a kind of Full automatic penumatic send the ice system.

Background technology

Along with social development and people's production level improve constantly, more and more wider by the industry of ice, more and more higher to the requirements for quality of ice.To " High Performance ", " less trouble " of ice industrial equipment, " wholesomeness ", " production quality and efficiency " etc., require more and more urgent thus.Ice industrial equipment is used widely in the industry such as aquatic products, food, supermarket, dairy products, medicine, chemistry, fresh-keeping of vegetables transportation, marine fishing and business.

In the ice making industry, the production of ice body, storage, the links such as carry, sell and all can affect the quality of ice body, therefore management control each link accurately operation be very important.In conveying process, two-forty, the integraty of maintenance ice body, avoid melting, and the cleanliness of maintenance ice body is some necessary requirement.

In traditional operation, two transportations apart from ice body are all by the manpower conveyance, waste of manpower thus, and bed load function is low, in handling process, easily makes ice body melt, and is difficult to keep the ice body cleanliness.In prior art, adopt in addition machinery to carry out the ice body transmission, but still need a large amount of manpowers to carry out non-productive operation, can not reach automation and control, cause the waste of manpower resource, increase transmission cost; In transmitting procedure, because ice body is stacked state, and speed of transmission is slower, therefore easily cause between ice body, freezes to be connected, and affects the ice body quality, moreover the machinery carrying transmits the cleanliness that is difficult to keep ice body.

Ice transportation equipment of the prior art and mode all can't specifically weigh the weight of sending ice processing, can only probably add and demand percentage by empirical value, there is thus the fugitiveness of each processing parameter ratio, and this error exceeds insignificant scope, and have no experience or the error of the operated generation of staff of lacking experience larger, and then the inaccuracy of adding because of the ice amount, be difficult to ensure stability and the fine quality of final converted products.

The utility model content

The purpose of this utility model is to have the problems referred to above for existing technology, proposed a kind of according to different requirements and then employing different measuring means, reach the automation control and management of sending ice simultaneously to measure, thereby can purposive and accurately send the Full automatic penumatic of ice to send the ice system.

The purpose of this utility model can realize by following technical proposal: Full automatic penumatic send the ice system, it is characterized in that, comprise that being positioned at the spiral metering of carrying top send the ice device, the spiral transmission axle that suspends is sent in the ice device in described spiral metering, and the two ends of spiral transmission axle are hung and are connect by LOAD CELLS, described spiral metering send the ice device to connect the first bidirectional transmission machine, described the first bidirectional transmission facility have some ice mouths, and the one ice mouth connects ice crusher, the outlet of described ice crusher and other ice mouth connect the second bidirectional transmission machine by pipeline again, described the second bidirectional transmission facility have and closely send the ice mouth and far send the ice mouth, describedly far send the ice mouth to connect rotation to send the ice device, described rotation send the ice utensil that channels for transporting ice is arranged, the ventilation inlet of described channels for transporting ice connects blowing engine by air cooler, the air outlet of described channels for transporting ice is communicated with transfer line.

The function that this Full automatic penumatic send the ice system to complete in turn the processing of weighing, classify, send ice to use according to program, at first throw in ice body the spiral metering and send in the ice device, by corresponding manner, carries out weighing operation and outwards carry; According to real needs, ice body is divided to transfer path by the first bidirectional transmission machine and the second bidirectional transmission machine again and carry out corresponding processing or conveying; It is thorough that the final High Voltage wind-force that adopts blowing engine will send by rotation pneumatic the seeing off of ice body of ice device unloading blanking, high pressure wind-force to send ice to have the ice of sending, and not leave over Yu Bing, and transfer rate is fast, reduces the thawing degree of even eliminating ice body.

At above-mentioned Full automatic penumatic, send in the ice system, described spiral metering send the ice device to comprise shell, the top of described shell has the tubaeform ice mouth that advances, described spiral transmission axle is suspended in shell, and the spiral transmission axle is driven and is connected by reducing motor, and described LOAD CELLS and reducing motor are controlled by the master controller Electricity Federation.The spiral transmission axle rotates a circle, and just exports the ice amount of a helicallobe gap element lattice volume, and reducing motor drives the spiral transmission axle to rotate according to same direction all the time.

At above-mentioned Full automatic penumatic, send in the ice system, described the first bidirectional transmission machine comprises shell, horizontal the first spiral bidirectional transmission axle in described shell, and the first spiral bidirectional transmission axle drives and connected by clockwise and anticlockwise motor, and described clockwise and anticlockwise motor is controlled by the master controller Electricity Federation; Described the second bidirectional transmission machine comprises shell, horizontal the second spiral bidirectional transmission axle in described shell, and the second spiral bidirectional transmission axle drives and connected by clockwise and anticlockwise motor, and described clockwise and anticlockwise motor is controlled by the master controller Electricity Federation.Under the driving of clockwise and anticlockwise motor, the first spiral bidirectional transmission axle and the second spiral bidirectional transmission axle all can be realized ice body conveying to the left or to the right, thereby promote the alerting ability that send the regulation and control of ice path.

At above-mentioned Full automatic penumatic, send in the ice system, the shell bottom side of described the first bidirectional transmission machine is offered some ice mouths in turn, described every ice mouth place installs cylinder, the expansion link end of described cylinder be connected can block the switching cover plate of ice mouth, and cylinder is controlled by the master controller Electricity Federation.When selecting the ice body transport path, only have ice mouth on selected path to be spacious logical state, all the other ice mouths are by opening and closing cover closure, and ice body can only outwards transmit by unique ice mouth thus.

At above-mentioned Full automatic penumatic, send in the ice system, described rotation send the ice device to comprise shell, and the top of described shell has feed opening, is in described shell and turns to the hinging rotary sharf, and the pivoting leaf bobbin is driven and is connected by one-way motors, and described one-way motors is controlled by the master controller Electricity Federation.

At above-mentioned Full automatic penumatic, send in the ice system, uniform some vane plates radially on described pivoting leaf bobbin, and form an outer trapezoidal cavity volume of formula between every adjacent two vane plates, described channels for transporting ice is connected in the below of pivoting leaf bobbin, and turns to trapezoidal cavity volume and all hermetic type passages of channels for transporting ice formation ring of below.

At above-mentioned Full automatic penumatic, send in the ice system, the sidepiece of described shell is offered pressure relief opening, and described pressure relief opening is positioned at the clockwise ventilation rear position of pivoting leaf bobbin.Under the driving of one-way motors, the pivoting leaf bobbin remains by direction operation.In rotation, cavity on the pivoting leaf bobbin between the adjacent blades plate turns through channels for transporting ice at first down, be passed on instantaneous after high pressure gas and turn, the cavity that makes it carry high pressure is communicated with pressure relief opening and pressure is disposed to the external world, thus by the batch (-type) pressure release, eliminate the high pressure in cavity between vane plate, avoid ice body to be stressed the top system and affect the blanking operation.

At above-mentioned Full automatic penumatic, send in the ice system, the air outlet place of described blowing engine connects air cooler, described air cooler comprises refrigerating unit and evaporator bank, and the air extractor duct place of described air cooler installs temperature sensor, and described temperature sensor connects master controller by circuit.The temperature that is blown out wind by blowing engine probably has the 40-50 degree, and this high warm air is easily fallen ice-out, so wind out of blowing engine drops to the 0-10 degree through air cooler moment, and anti-stagnant ice is melted by wind.The temperature of cooling rear wind is sent to master controller by temperature sensor, constantly according to the start and stop of temperature traverse monitoring air cooler, reaches thus the temperature value of required wind, and this temperature value free setting according to demand.

Send the ice system according to above-mentioned Full automatic penumatic, its control method comprises the following steps:

A), by master controller, the ice body consumption is set, if ice body consumption≤1 ton is to use ice in a small amount, adopt the static weighing mode:

(1), the ice body of single weight send in the ice device by advancing the metering of ice mouth input spiral, master controller is controlled reducing motor and is shut down, the spiral transmission axle is static, LOAD CELLS sensing ice body weight by spiral transmission axle two ends, and weight data is passed to the master controller record that adds up, master controller is controlled reducing motor and is started directional-rotation, to transfer out the single ice body of weighing fully; Again by advancing the ice mouth, to spiral metering, send in the ice device and throw in single weight ice body, repeat the above-mentioned conveying program of weighing, the batch (-type) transmission of weighing thus, stop throwing the ice conveying until the cumulative record in master controller arrives the ice body consumption of initial setting;

(2) if the ice body needed is ice cube, master controller is controlled the running of clockwise and anticlockwise motor forward, and the ice body dextrad that makes to enter in the first bidirectional transmission machine transmits, and by ice mouth, directly enters the second bidirectional transmission machine;

(3) if the ice body needed is trash ice, master controller is controlled clockwise and anticlockwise motor reversion running, the ice body left-hand that makes to enter in the first bidirectional transmission machine transmits, master controller is controlled the ice mouth place cylinder that connects ice crusher and is reclaimed expansion link, drive to open and close the spacious logical ice mouth of cover plate, ice body falls into ice crusher by the ice mouth of this unlatching and carries out the trash ice operation;

(4) if closely need ice, master controller is controlled the second bidirectional transmission machine the ice body entered is transferred to and closely send the ice mouth, by closely sending the ice mouth to connect ice, gets final product;

(5) if need at a distance ice, master controller is controlled the second bidirectional transmission machine the ice body entered is transferred to and far send the ice mouth, and ice body enters rotation and send the ice device, by directional rotating, falls into channels for transporting ice, and the high pressure wind-force produced by blowing engine transmits and transports after cooling;

B), by master controller, the ice body consumption is set, if ice body consumption >=1 ton is to use ice in a large number, adopt the dynamic measurement mode:

(1), by master controller, adjust in advance and established the reducing motor rotating speed that the ice device is sent in the spiral metering, utilize the volume meter of spiral spacer on the spiral transmission axle to calculate unit time conveying ice body weight, thereby extrapolate the ice body consumption required time that reaches setting, ice body send in the ice device by advancing the metering of ice mouth input spiral, master controller is controlled the reducing motor running, make the spiral transmission axle continue directional rotating, ice body is carried continuously to the auto-stop until arrive time of extrapolating;

(2) if the ice body needed is ice cube, master controller is controlled the running of clockwise and anticlockwise motor forward, and the ice body dextrad that makes to enter in the first bidirectional transmission machine transmits, and by ice mouth, directly enters the second bidirectional transmission machine;

(3) if the ice body needed is trash ice, master controller is controlled clockwise and anticlockwise motor reversion running, the ice body left-hand that makes to enter in the first bidirectional transmission machine transmits, master controller is controlled the ice mouth place cylinder that connects ice crusher and is reclaimed expansion link, drive to open and close the spacious logical ice mouth of cover plate, ice body falls into ice crusher by the ice mouth of this unlatching and carries out the trash ice operation;

(4) if closely need ice, master controller is controlled the second bidirectional transmission machine the ice body entered is transferred to and closely send the ice mouth, by closely sending the ice mouth to connect ice, gets final product;

(5) if need at a distance ice, master controller is controlled the second bidirectional transmission machine the ice body entered is transferred to and far send the ice mouth, and ice body enters rotation and send the ice device, by directional rotating, falls into channels for transporting ice, and the high pressure wind-force produced by blowing engine transmits and transports after cooling.

The static weighing mode is applicable to ice, operate in a small amount, and it can access ice body operational throughput accurately within the acceptable time limit, promotes the precision of ice body demand proportioning, to guarantee the high request quality of ice body converted products.The dynamic measurement mode is applicable to ice, operate in a large number, and it,, in insignificant weighting error scope, can promote the ice body transport efficiency, and realizes sending the ice metering.On the first bidirectional transmission machine, the quantity of ice mouth can be offered according to the actual requirements, and opens arbitrary ice mouth by selection and complete the different operating requirement, and then connects relevant device by corresponding each ice mouth of actual demand.

Signalization sending and receiving unit, calculating unit, memory cell and performance element in master controller, master controller connects remote controllers by circuit or wireless signal.Remote controllers can be realized controlling at a distance, and the remote controllers lower subset that is master controller, therefore it is set by master controller, control authority, ensure and send Ice matter and safety thus.

Compared with prior art, this Full automatic penumatic send the ice system at first according to different requirements and then employing different measuring means, then, again according to different finished product demand division operation path, finally by high pressure wind-force, realizes that complete, fast speed send the ice effect; From weighing, be worked into and send ice all to adopt the management of full automatic mechanical Based Intelligent Control along separate routes, contain the high-end operation technique means of controlling of modernization, significantly economization taking of human resources, precisely send the ice consumption, promoted and used ice efficiency, optimization Ice matter, meet the development in Hi-Tech process.

The accompanying drawing explanation

Fig. 1 is the structural representation of facing that this Full automatic penumatic send the ice system.

In figure, 1, spiral metering send the ice device; 2, LOAD CELLS; 3, the first bidirectional transmission machine; 4, ice crusher; 5, the second bidirectional transmission machine; 6, the ice device is sent in rotation; 7, transfer line; 8, air cooler; 9, blowing engine.

The specific embodiment

Be below specific embodiment of the utility model by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

As shown in Figure 1, this Full automatic penumatic send the ice system to comprise that spiral metering send ice device 1, the first bidirectional transmission machine 3, the second bidirectional transmission machine 5, ice crusher 4, rotation to send ice device 6, blowing engine 9, and the pipeline that the said equipment is connected etc.

The spiral metering send ice device 1 to be positioned at conveying top, the spiral metering send ice device 1 to comprise shell, the top of shell has the tubaeform ice mouth that advances, in shell, put down to the spiral transmission axle that suspends on edge, and the two ends of spiral transmission axle are hung and are connect by LOAD CELLS 2, one end of spiral transmission axle is driven and is connected by reducing motor, and LOAD CELLS 2 is controlled by the master controller Electricity Federation with reducing motor.

Spiral metering is sent ice device 1 to connect the first bidirectional transmission machine 3, the first bidirectional transmission machines 3 to comprise shell, horizontal the first spiral bidirectional transmission axle in shell, and the first spiral bidirectional transmission axle drives and connected by clockwise and anticlockwise motor, and clockwise and anticlockwise motor is controlled by the master controller Electricity Federation.Under the driving of clockwise and anticlockwise motor, the first spiral bidirectional transmission axle can be realized ice body conveying to the left or to the right, thereby promotes the alerting ability that send the regulation and control of ice path.The shell bottom side of the first bidirectional transmission machine 3 is offered some ice mouths in turn, and the one ice mouth connects ice crusher 4.The quantity of ice mouth can be offered according to the actual requirements, and opens arbitrary ice mouth by selection and complete the different operating requirement, and then connects relevant device by corresponding each ice mouth of actual demand.Every ice mouth place installs cylinder, the expansion link end of this cylinder be connected can block the switching cover plate of ice mouth, and cylinder is controlled by the master controller Electricity Federation.When selecting the ice body transport path, only have ice mouth on selected path to be spacious logical state, all the other ice mouths are by opening and closing cover closure, and ice body can only outwards transmit by unique ice mouth thus.

The outlet of ice crusher 4 and other ice mouth connect the second bidirectional transmission machine 5 by pipeline again, and described the second bidirectional transmission machine 5 has and closely send the ice mouth and far send the ice mouth.The second bidirectional transmission machine 5 comprises shell, horizontal the second spiral bidirectional transmission axle in shell, and the second spiral bidirectional transmission axle drives and connected by clockwise and anticlockwise motor, and clockwise and anticlockwise motor is controlled by the master controller Electricity Federation.Under the driving of clockwise and anticlockwise motor, the second spiral bidirectional transmission axle can be realized ice body conveying to the left or to the right, by the ice body after the processing of top items of equipment, all can select closely to go out ice or go out at a distance ice thus.

Ice device 6 is sent in the ice mouth connection rotation of far sending of the second bidirectional transmission machine 5, and rotation send ice device 6 to comprise shell, and the top of shell has feed opening, far send the ice mouth to be communicated with this feed opening.Turn to the hinging rotary sharf along level in shell, the pivoting leaf bobbin is driven and is connected by one-way motors, and one-way motors is controlled by the master controller Electricity Federation.Uniform some vane plates radially on the pivoting leaf bobbin, and form an outer trapezoidal cavity volume of formula between every adjacent two vane plates, the trapezoidal cavity volume that turns to top is connected feed opening; The below of pivoting leaf bobbin has the channels for transporting ice that is the linking connection, and turns to trapezoidal cavity volume and all hermetic type passages of channels for transporting ice formation ring of below.

The ventilation inlet of channels for transporting ice connects blowing engine 9, and the air outlet of channels for transporting ice is communicated with transfer line 7.The air outlet place of blowing engine 9 connects air cooler 8, after air cooler 8, connects by pipeline the channels for transporting ice that ice device 6 is sent in rotation again.Air cooler 8 comprises refrigerating unit and evaporator bank, and the air extractor duct place of air cooler 8 installs temperature sensor, and this temperature sensor connects master controller by circuit.The temperature that is blown out wind by blowing engine 9 probably has the 40-50 degree, and this high warm air is easily fallen ice-out, so wind out of blowing engine 9 drops to the 0-10 degree through 8 moments of air cooler, and anti-stagnant ice is melted by wind.The temperature of cooling rear wind is sent to master controller by temperature sensor, constantly according to the start and stop of temperature traverse monitoring air cooler 8, reaches thus the temperature value of required wind, and this temperature value free setting according to demand.

Rotation send the sidepiece of ice device 6 shells to offer pressure relief opening, and this pressure relief opening is positioned at the clockwise ventilation rear position of pivoting leaf bobbin.

Signalization sending and receiving unit, calculating unit, memory cell and performance element in master controller, wherein calculating unit comprises the analog quantity that LOAD CELLS 2 transmission data adopt.Master controller connects remote controllers by circuit or wireless signal.Remote controllers can be realized controlling at a distance, and the remote controllers lower subset that is master controller, therefore it is set by master controller, control authority, ensure and send Ice matter and safety thus.

Send the ice system according to above-mentioned Full automatic penumatic, its control method comprises the following steps:

A), by master controller, the ice body consumption is set, if ice body consumption≤1 ton is to use ice in a small amount, adopt the static weighing mode:

(1), the ice body of single weight send in ice device 1 by advancing the metering of ice mouth input spiral, master controller is controlled reducing motor and is shut down, the spiral transmission axle is static, LOAD CELLS 2 sensing ice body weight by spiral transmission axle two ends, and weight data is passed to the master controller record that adds up, master controller is controlled reducing motor and is started directional-rotation, to transfer out the single ice body of weighing fully; Again by advancing the ice mouth, to spiral metering, send the interior input single of ice device 1 weight ice body, repeat the above-mentioned conveying program of weighing, the batch (-type) transmission of weighing thus, stop throwing the ice conveying until the cumulative record in master controller arrives the ice body consumption of initial setting;

(2) if the ice body needed is ice cube, master controller is controlled the running of clockwise and anticlockwise motor forward, and the ice body dextrad that makes to enter in the first bidirectional transmission machine 3 transmits, and by ice mouth, directly enters the second bidirectional transmission machine 5;

(3) if the ice body needed is trash ice, master controller is controlled clockwise and anticlockwise motor reversion running, the ice body left-hand that makes to enter in the first bidirectional transmission machine 3 transmits, master controller is controlled the ice mouth place cylinder that connects ice crusher 4 and is reclaimed expansion link, drive to open and close the spacious logical ice mouth of cover plate, ice body falls into ice crusher 4 by the ice mouth of this unlatching and carries out the trash ice operation;

(4) if closely need ice, master controller is controlled the second bidirectional transmission machine 5 ice body entered is transferred to and closely send the ice mouth, by closely sending the ice mouth to connect ice, gets final product;

(5), if need at a distance ice, master controller is controlled the second bidirectional transmission machine 5 ice body entered is transferred to and far send the ice mouth, and ice body enters rotation and send ice device 6, under the driving of one-way motors, the pivoting leaf bobbin remains by direction operation, cavity on the pivoting leaf bobbin between the adjacent blades plate turns through channels for transporting ice at first down, by two vane plates, with rotation, send the bottom enclosure corral of ice device 6 to become the leak tightness passage, the high pressure wind-force that blowing engine 9 produces blows whole ice bodies to transport by the sealing passage fast after cooling, cavity between two adjacent vane plates is passed on instantaneous after high pressure gas and turns, the cavity that makes it carry high pressure is communicated with pressure relief opening and pressure is disposed to the external world, thus by the batch (-type) pressure release, eliminate the high pressure in cavity between vane plate, avoid ice body to be stressed the top system and affect the blanking operation,

B), by master controller, the ice body consumption is set, if ice body consumption >=1 ton is to use ice in a large number, adopt the dynamic measurement mode:

(1), adjust in advance and established the reducing motor rotating speed that ice device 1 is sent in the spiral metering by master controller, utilize the volume meter of spiral spacer on the spiral transmission axle to calculate unit time conveying ice body weight, being specially the spiral transmission axle rotates a circle, just export the ice amount of a helicallobe gap element lattice volume, thereby extrapolate the ice body consumption required time that reaches setting, ice body send in ice device 1 by advancing the metering of ice mouth input spiral, master controller is controlled the reducing motor running, make the spiral transmission axle continue directional rotating, ice body is carried continuously to the auto-stop until arrive time of extrapolating,

(2) if the ice body needed is ice cube, master controller is controlled the running of clockwise and anticlockwise motor forward, and the ice body dextrad that makes to enter in the first bidirectional transmission machine 3 transmits, and by ice mouth, directly enters the second bidirectional transmission machine 5;

(3) if the ice body needed is trash ice, master controller is controlled clockwise and anticlockwise motor reversion running, the ice body left-hand that makes to enter in the first bidirectional transmission machine 3 transmits, master controller is controlled the ice mouth place cylinder that connects ice crusher 4 and is reclaimed expansion link, drive to open and close the spacious logical ice mouth of cover plate, ice body falls into ice crusher 4 by the ice mouth of this unlatching and carries out the trash ice operation;

(4) if closely need ice, master controller is controlled the second bidirectional transmission machine 5 ice body entered is transferred to and closely send the ice mouth, by closely sending the ice mouth to connect ice, gets final product;

(5), if need at a distance ice, master controller is controlled the second bidirectional transmission machine 5 ice body entered is transferred to and far send the ice mouth, and ice body enters rotation and send ice device 6, under the driving of one-way motors, the pivoting leaf bobbin remains by direction operation, cavity on the pivoting leaf bobbin between the adjacent blades plate turns through channels for transporting ice at first down, by two vane plates, with rotation, send the bottom enclosure corral of ice device 6 to become the leak tightness passage, the high pressure wind-force that blowing engine 9 produces blows whole ice bodies to transport by the sealing passage fast after cooling, cavity between two adjacent vane plates is passed on instantaneous after high pressure gas and turns, the cavity that makes it carry high pressure is communicated with pressure relief opening and pressure is disposed to the external world, thus by the batch (-type) pressure release, eliminate the high pressure in cavity between vane plate, avoid ice body to be stressed the top system and affect the blanking operation.

The static weighing mode is applicable to ice, operate in a small amount, and it can access ice body operational throughput accurately within the acceptable time limit, promotes the precision of ice body demand proportioning, to guarantee the high request quality of ice body converted products.The dynamic measurement mode is applicable to ice, operate in a large number, and it,, in insignificant weighting error scope, can promote the ice body transport efficiency, and realizes sending the ice metering.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Although this paper has more been used spiral, ice device 1 is sent in metering; LOAD CELLS 2; The first bidirectional transmission machine 3; Ice crusher 4; The second bidirectional transmission machine 5; Ice device 6 is sent in rotation; Transfer line 7; Air cooler 8; Blowing engine 9 terms such as grade, but do not get rid of the possibility of using other term.Using these terms is only in order to describe more easily and explain essence of the present utility model; They are construed to any additional restriction is all contrary with the utility model spirit.

Claims (8)

1. Full automatic penumatic send the ice system, it is characterized in that, comprise that being positioned at the spiral metering of carrying top send the ice device, the spiral transmission axle that suspends is sent in the ice device in described spiral metering, and the two ends of spiral transmission axle are hung and are connect by LOAD CELLS, described spiral metering send the ice device to connect the first bidirectional transmission machine, described the first bidirectional transmission facility have some ice mouths, and the one ice mouth connects ice crusher, the outlet of described ice crusher and other ice mouth connect the second bidirectional transmission machine by pipeline again, described the second bidirectional transmission facility have and closely send the ice mouth and far send the ice mouth, describedly far send the ice mouth to connect rotation to send the ice device, described rotation send the ice utensil that channels for transporting ice is arranged, the ventilation inlet of described channels for transporting ice connects blowing engine by air cooler, the air outlet of described channels for transporting ice is communicated with transfer line.

2. Full automatic penumatic according to claim 1 send the ice system, it is characterized in that, described spiral metering send the ice device to comprise shell, the top of described shell has the tubaeform ice mouth that advances, described spiral transmission axle is suspended in shell, and the spiral transmission axle is driven and is connected by reducing motor, and described LOAD CELLS and reducing motor are controlled by the master controller Electricity Federation.

3. Full automatic penumatic according to claim 1 send the ice system, it is characterized in that, described the first bidirectional transmission machine comprises shell, horizontal the first spiral bidirectional transmission axle in described shell, and the first spiral bidirectional transmission axle is driven and is connected by clockwise and anticlockwise motor, and described clockwise and anticlockwise motor is controlled by the master controller Electricity Federation; Described the second bidirectional transmission machine comprises shell, horizontal the second spiral bidirectional transmission axle in described shell, and the second spiral bidirectional transmission axle drives and connected by clockwise and anticlockwise motor, and described clockwise and anticlockwise motor is controlled by the master controller Electricity Federation.

4. Full automatic penumatic according to claim 3 send the ice system, it is characterized in that, the shell bottom side of described the first bidirectional transmission machine is offered some ice mouths in turn, described every ice mouth place installs cylinder, the expansion link end of described cylinder be connected can block the switching cover plate of ice mouth, and cylinder is controlled by the master controller Electricity Federation.

5. Full automatic penumatic according to claim 1 send the ice system, it is characterized in that, described rotation send the ice device to comprise shell, the top of described shell has feed opening, be in described shell and turn to the hinging rotary sharf, and the pivoting leaf bobbin is driven and is connected by one-way motors, and described one-way motors is controlled by the master controller Electricity Federation.

6. Full automatic penumatic according to claim 5 send the ice system, it is characterized in that, uniform some vane plates radially on described pivoting leaf bobbin, and form an outer trapezoidal cavity volume of formula between every adjacent two vane plates, described channels for transporting ice is connected in the below of pivoting leaf bobbin, and turns to trapezoidal cavity volume and all hermetic type passages of channels for transporting ice formation ring of below.

7. Full automatic penumatic according to claim 5 send the ice system, it is characterized in that, the sidepiece of described shell is offered pressure relief opening, and described pressure relief opening is positioned at the clockwise ventilation rear position of pivoting leaf bobbin.

8. Full automatic penumatic according to claim 1 send the ice system, it is characterized in that, the air outlet place of described blowing engine connects air cooler, described air cooler comprises refrigerating unit and evaporator bank, the air extractor duct place of described air cooler installs temperature sensor, and described temperature sensor connects master controller by circuit.