CN107549722A - A kind of potato chips production line - Google Patents
A kind of potato chips production line Download PDFInfo
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- CN107549722A CN107549722A CN201710949045.7A CN201710949045A CN107549722A CN 107549722 A CN107549722 A CN 107549722A CN 201710949045 A CN201710949045 A CN 201710949045A CN 107549722 A CN107549722 A CN 107549722A
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Abstract
The invention discloses a kind of potato chips production line.Existing potato chips process units does not often possess the function of self-feeding, can not more realize the accurate control of deep-fat frying time and frying temperature.The present invention includes feed mechanism, fried elevating mechanism and heating system.Fried elevating mechanism includes fried basin, bottom plate, hydraulic cylinder, slide rail and fixed plate.Feed mechanism includes barrel-shaped filter screen, the first delivery wheel, the second delivery wheel, the 3rd delivery wheel, first conveyer belt, the second conveyer belt, the 3rd conveyer belt, the first motor, the second motor, the 3rd motor and mechanical paw group.Heating system includes the first header of heating, the second header, the first pipeline, second pipe, heat-exchanging component, heat-transferring assembly, heat conduction fuel tank, hydraulic pump and temperature sensor.Lifting of the invention by controlling hydraulic cylinder, deep-fat frying time can be accurately controlled, ensures fried quality.The present invention can sustainedly and stably carry out feeding and improve production efficiency and reduce hand labor intensity.
Description
Technical field
The invention belongs to potato chips production equipment technology, and in particular to a kind of potato chips production line.
Background technology
Existing potato chips process units, generally includes heater and deep-frying vessel, the work(for often not possessing self-feeding
Can, it can not more realize the accurate control of deep-fat frying time and frying temperature.The quality of potato chips can not be ensured, and production efficiency is relatively low.
In addition, the heater in existing potato chips process units is located at below deep-frying vessel or in deep-frying vessel, frying is held
Device is built with the oil for frying.Pass through the heating of heater so that oil reaches higher temperature, and oil is to the potato chips in it
Heating.When heater is located in deep-frying vessel, heater is temperature highest place in deep-frying vessel.When heating fills
When outside setting in deep-frying vessel, the region that heater transmits heat with deep-frying vessel is deep-frying vessel temperature highest place,
And this mode of heating, heater are usually located at below deep-frying vessel, therefore deep-frying vessel temperature highest place is generally
For bottom surface.And deep-frying vessel local temperature is too high easilys lead to the rotten of oil so that oil quality after using the shorter time
Just it is difficult to meet requirement, it is necessary to change, is added significantly to production cost.
The content of the invention
It is an object of the invention to provide a kind of potato chips production line.
The present invention includes feed mechanism, fried elevating mechanism and heating system.
Described fried elevating mechanism includes fried basin, bottom plate, hydraulic cylinder, slide rail and fixed plate.The top surface of bottom plate and oil
The bottom surface of fried basin is fixed.Four angles of bottom plate respectively constitute sliding pair with four vertically disposed slide rails.The bottom of four one slide rails
Fixed with fixed plate.Described hydraulic cylinder is fixed in fixed plate.The piston rod of hydraulic cylinder and the center position of bottom plate are fixed.
Described fixed plate is fixed in frame.
Described feed mechanism includes barrel-shaped filter screen, the first delivery wheel, the second delivery wheel, the 3rd delivery wheel, the first conveying
Band, the second conveyer belt, the 3rd conveyer belt, the first motor, the second motor, the 3rd motor and mechanical paw group.Two first conveyings
Wheel, two the second delivery wheels and two the 3rd delivery wheels are supported in frame.Two the first delivery wheels and two second conveyings
The high settings such as wheel.The high settings such as two the 3rd delivery wheels.First conveyer belt is nested with two the first delivery wheels;Second conveyer belt
It is nested with two the second delivery wheels;3rd conveyer belt is nested with two the 3rd delivery wheels.One of them first delivery wheel by
First motor drives;One of them second delivery wheel is driven by the second motor, and one of them second delivery wheel is driven by the second motor
It is dynamic.N mechanical paw group, n >=2 are installed on the 3rd conveyer belt lateral surface.Two machineries that mechanical paw group is set by spacing f
Paw forms, 200mm≤f≤600mm.The spacing of two mechanical paw groups is b, b=s/nf.Wherein, s is the 3rd transmission belt
Length.Mechanical paw is set down.The folding direction of mechanical paw is vertical with the transmission direction of the 3rd conveyer belt.Barrel-shaped filter screen
Upper edge is rounded.The upper edge of barrel-shaped filter screen is provided with two holding rings.The centerline axis parallel of two holding rings and not altogether
Line.The distance of the central axis of two holding rings is equal to the diameter of barrel-shaped filter screen upper edge.Diameter of barrel-shaped filter screen upper edge etc.
In b.The top surface spacing of the bottom surface of first conveyer belt and the second conveyer belt is c, c=h+e, and wherein h is the height of barrel-shaped filter screen, and e is
The length of mechanical paw.
Described heating system includes the first header of heating, the second header, the first pipeline, second pipe, heat exchange group
Part, heat-transferring assembly, heat conduction fuel tank, hydraulic pump and temperature sensor.Temperature sensor is arranged in fried basin.
Described heat-exchanging component collects outlet including first, heat exchanger and first collects inlet tube.Heat exchanger includes changing
Hot frame, heat exchanger tube and thermal medium pipe.Six roots of sensation thermal medium pipe is parallel to be fixed on heat exchange frame.The thermal medium of six roots of sensation thermal medium pipe flows into end
It is interconnected.The thermal medium outflow end of six roots of sensation thermal medium pipe is interconnected.Six roots of sensation heat exchanger tube is separately positioned on six roots of sensation thermal medium pipe
It is interior.Heat exchanger tube is made up of entrance straight tube, outlet straight tube and ten semiellipse pipes.Ten semiellipse pipes are arranged in order connected.It is adjacent
Two semiellipse pipes it is tangent in junction, tangential direction is heat exchanger tube thickness direction, and the direction of vertical tangent lines is heat exchange pipe range
Spend direction.Axial length of ten semiellipse pipes on heat exchanger tube thickness direction is a, a >=10mm.Ten semiellipse pipes are exchanging heat
Axial length on length of tube direction according to put in order successively byCommon ratio be incremented by.Axial length is most long on heat exchanger tube length direction
Semiellipse pipe outer end connects with outlet straight tube.The most short semiellipse pipe outer end of axial length connects with entrance straight tube on heat exchanger tube length direction
It is logical.Heat exchanger tube length direction is parallel with the central axial direction of thermal medium pipe.Entrance straight tube is arranged on the thermal medium of thermal medium pipe
At outflow end.
Described heat exchanger shares four.The thermal medium of thermal medium pipe flows into end and the first header in four heat exchangers
Four outflow ends pass through the first pipeline communication respectively.The thermal medium outflow end and the second header of thermal medium pipe in four heat exchangers
Four flow into ends difference second pipes connection.First header flows into end and the outlet of thermal medium heat riser.The
The outflow end of two headers connects with the entrance of thermal medium heat riser.
The six roots of sensation in a upper heat exchanger exports straight tube with the six roots of sensation entrance straight tube in next heat exchanger respectively by leading
Deep fat adapter connects.Six roots of sensation entrance straight tube and first in the heat exchanger of head end collect six oil-outs point of inlet tube
Do not connect.Six oilers that six roots of sensation outlet straight tube in the heat exchanger of end collects outlet with second are respectively communicated with.
First collects the oiler of inlet tube connects with the oil-out of hydraulic pump.The oiler of hydraulic pump and the oil-out of heat conduction fuel tank connect
It is logical.The oil-out of heat conduction fuel tank is arranged on the bottom of heat conduction fuel tank.
Described heat-transferring assembly is arranged on the bottom of fried basin;Heat-transferring assembly collects inlet tube including second, second collected
Outlet and eight heat-transfer pipes;Heat-transfer pipe uses flat tube;13 arc plates are equidistantly provided with the two sides of heat-transfer pipe;Circle
The both ends of arcs are fixed with heat-transfer pipe;On the lateral surface of arc plate hemispherical projections group is provided with along arc plate is circumferentially equidistant;
Ten hemispherical projections that hemispherical projections group is placed equidistant by the width along heat-transfer pipe form;The entrance of eight heat-transfer pipes
The oil-out that inlet tube is collected at end with second connects, and the oiler that the port of export collects outlet with second connects;Second collect into
The oiler and the second oil-out for collecting outlet of mouth pipe pass through soft pipe connection;Second collects the oil-out of outlet and heat conduction
The oiler of fuel tank passes through soft pipe connection;The oiler of heat conduction fuel tank is arranged on the top of heat conduction fuel tank.
The port of export of described first conveyer belt is located at the underface of the second conveyer belt arrival end;The 3rd described conveyer belt
The port of export be located at the underface of the second conveyer belt port of export.
The rectangular shape of described bottom plate.Described slide rail uses optical axis.
Described hydraulic pump uses regulating flow quantity pump.
Described temperature sensor is immersed in the edible oil in fried basin.
Described heat exchanger tube uses flat tube;The thickness of heat exchanger tube is equal to 0.1a;The width of heat exchanger tube is equal to a.
Axial length of the most short semiellipse pipe of axial length on heat exchanger tube length direction is equal on the heat exchanger tube length direction
0.25a。
Described thermal medium heat riser carries out the heating of thermal medium by gas heater.
Heat exchange frame in four heat exchangers is arranged in order and stacks setting.
Described heat-transfer pipe uses flat tube;The thickness of heat-transfer pipe is equal to 0.1a;The width of heat-transfer pipe is equal to a.
Lifting of the invention by controlling hydraulic cylinder, deep-fat frying time can be accurately controlled, ensures fried quality.
The present invention can sustainedly and stably carry out feeding, life greatly improved by the combination of transmission belt and mechanical paw
Production efficiency simultaneously reduces hand labor intensity.
Heat exchanger tube is arranged to multiple semiellipse pipes that axial length along its length differs in the present invention so that heat exchanger tube is in warm
Heat exchange property at medium outflow end flows into the heat exchange property at end better than thermal medium, and then compensates the temperature that thermal medium is flowed at end
Higher than the temperature of thermal medium outflow end, heat transfer effect is more preferably uniform, is not likely to produce unnecessary thermal stress.
The design of semiellipse pipe make it that the flowing acceleration change of conduction oil is more frequently and quick in the present invention, further
Increase heat exchange performance.
Present invention heating passes through two-stage heat transfer, has isolated the issuable noxious material under heated by natural gas and has eaten
Oil.And then the safe and reliable of edible oil is ensured.
Arc plate in the present invention can greatly increase the area of dissipation of heat-transfer pipe with hemispherical projections.
The both ends of arc plate are fixed with heat-transfer pipe in the present invention, and one end compared to common fin is fixed, and structure is more
It is solid and reliable.
In the present invention in the heating of conduction oil, the flow direction of conduction oil and thermal medium on the contrary, therefore relative velocity is big, heat transfer
Effect is good.
Brief description of the drawings
Fig. 1 is the overall structure diagram of fried elevating mechanism in the present invention.
Fig. 2 is the overall structure diagram of the present invention.
Fig. 3 is the schematic diagram of feed mechanism in the present invention.
Fig. 4 is the schematic diagram of heat-exchanging component in the present invention.
Fig. 5 is the schematic diagram of heat exchanger in the present invention.
Fig. 6 is the schematic top plan view of heat-transferring assembly in the present invention.
Fig. 7 is the front schematic view of heat-transferring assembly in the present invention.
Fig. 8 is the zoomed-in view of part A in Fig. 7.
Embodiment
Below in conjunction with accompanying drawing, the invention will be further described.
As shown in Fig. 2 a kind of potato chips production line, including feed mechanism 6, fried elevating mechanism 8 and heating system.
As illustrated in fig. 1 and 2, fried elevating mechanism 8 includes fried basin 11, bottom plate 8-1, hydraulic cylinder 8-2, slide rail 8-3 and consolidated
Fixed board 8-4.The rectangular shapes of bottom plate 8-1.The bottom surface of bottom plate 8-1 top surface and fried basin is fixed.Bottom plate 8-1 four angles with four
Vertically disposed slide rail 8-3 respectively constitutes sliding pair.Slide rail 8-3 uses optical axis.Four one slide rail 8-3 bottom with fixed plate 8-
4 fix.Hydraulic cylinder 8-2 is fixed on fixed plate 8-4.The center position of hydraulic cylinder 8-2 piston rod and bottom plate 8-1 is fixed.Gu
Fixed board 8-4 is fixed in frame.
As shown in Figure 1,2 and 3, feed mechanism 6 include barrel-shaped filter screen 6-1, the first delivery wheel 6-2, the second delivery wheel 6-3,
3rd delivery wheel 6-4, first conveyer belt 6-5, the second conveyer belt 6-6, the 3rd conveyer belt 6-7, the first motor, the second motor,
Three motors and mechanical paw group.Two the first delivery wheel 6-2, two the second delivery wheel 6-3 and two the 3rd delivery wheel 6-4 are propped up
Hold in frame.The high settings such as two the first delivery wheel 6-2 and two the second delivery wheel 6-3.Two the 3rd delivery wheel 6-4 are contour
Set.First conveyer belt 6-5 is nested with two the first delivery wheel 6-2;Second conveyer belt 6-6 is nested with two the second delivery wheels
On 6-3;3rd conveyer belt 6-7 is nested with two the 3rd delivery wheel 6-4.The port of export of first conveyer belt is located at the second conveyer belt
The underface of arrival end;The port of export of 3rd conveyer belt is located at the underface of the second conveyer belt port of export.One of them is first defeated
Wheel 6-2 is sent to be driven by the first motor;One of them second delivery wheel 6-3 is driven by the second motor, one of them second delivery wheel
6-3 is driven by the second motor.N mechanical paw group is installed on 3rd conveyer belt 6-7 lateral surfaces.Mechanical paw group is by spacing f
The two mechanical paws composition set, f=400mm.The spacing of two mechanical paw groups is b, b=s/n-f.Wherein, s is the 3rd biography
The length of defeated band.Mechanical paw 6-8 is set down.Mechanical paw 6-8 folding direction and the 3rd conveyer belt 6-7 transmission direction
Vertically.Barrel-shaped filter screen 6-1 upper edge is rounded.Barrel-shaped filter screen 6-1 upper edge is provided with two holding rings.Two holding rings
Centerline axis parallel and not conllinear.The distance of the central axis of two holding rings is equal to the diameter of barrel-shaped filter screen 6-1 upper edges.
The diameter of barrel-shaped filter screen 6-1 upper edges is equal to b.First conveyer belt 6-5 bottom surface and the second conveyer belt 6-6 top surface spacing are c,
C=h+e, wherein h are barrel-shaped filter screen 6-1 height, and e is mechanical paw 6-8 length.Gripper is clamped to be placed on
Barrel-shaped filter screen 6-1 holding ring in first transmission belt.
Heating system includes the first header 1 of heating, the second header 2, the first pipeline 3, second pipe 4, heat-exchanging component
5th, heat-transferring assembly 7, heat conduction fuel tank 9, hydraulic pump 10 and temperature sensor 12.Hydraulic pump 10 uses regulating flow quantity pump.Temperature passes
Sensor 12 is arranged in fried basin, and is immersed in edible oil.
As shown in Fig. 2,3 and 4, heat-exchanging component 5 collects outlet 5-1, heat exchanger 5-2 and first including first and collects entrance
Pipe 5-3.Heat exchanger 5-2 includes heat exchange frame 5-2-1, heat exchanger tube 5-2-2 and thermal medium pipe 5-2-3.Six roots of sensation thermal medium pipe 5-2-3 is put down
Row is fixed on heat exchange frame 5-2-1.Six roots of sensation thermal medium pipe 5-2-3 thermal medium flows into end 5-2-5 and is interconnected.Six roots of sensation thermal medium pipe
5-2-3 thermal medium outflow end 5-2-4 is interconnected.Six roots of sensation heat exchanger tube 5-2-2 is separately positioned on six roots of sensation thermal medium pipe 5-2-3
It is interior.Heat exchanger tube 5-2-2 is made up of entrance straight tube, outlet straight tube and ten semiellipse pipes.Ten semiellipse pipes are arranged in order connected.
Two adjacent semiellipse pipes are tangent in junction, and tangential direction is heat exchanger tube 5-2-2 thickness directions, and the direction of vertical tangent lines is
Heat exchanger tube 5-2-2 length directions.Axial length of ten semiellipse pipes on heat exchanger tube 5-2-2 thickness directions is a, a value take a >=
10mm, preferably 30mm.Heat exchanger tube 5-2-2 uses flat tube.Heat exchanger tube 5-2-2 thickness is equal to 0.1a.Heat exchanger tube 5-2-2's
Width is equal to a.Axial length of ten semiellipse pipes on heat exchanger tube 5-2-2 length directions according to put in order successively byPublic affairs
Than being incremented by.The axial length of the most short semiellipse pipe of axial length on heat exchanger tube 5-2-2 length directions etc. on heat exchanger tube 5-2-2 length directions
In 0.25a.The most long semiellipse pipe outer end of axial length connects with outlet straight tube on heat exchanger tube 5-2-2 length directions.Heat exchanger tube 5-2-2
The most short semiellipse pipe outer end of axial length connects with entrance straight tube on length direction.Heat exchanger tube 5-2-2 length directions and thermal medium pipe
5-2-3 central axial direction is parallel.Entrance straight tube is arranged at thermal medium pipe 5-2-3 thermal medium outflow end 5-2-4.
As shown in figure 5, heat exchanger 5-2 shares four.Thermal medium pipe 5-2-3 thermal medium flows into four heat exchanger 5-2
End 5-2-5 is connected by the first pipeline 3 respectively with four outflow ends of the first header 1.Thermal medium pipe in four heat exchanger 5-2
5-2-3 thermal medium outflow end 5-2-4 distinguishes second pipe 4 with four inflow ends of the second header 2 and connected.First header
1 outlet for flowing into end and thermal medium heat riser.The outflow end of second header 2 and the entrance of thermal medium heat riser
Connection.Thermal medium heat riser carries out the heating of thermal medium by gas heater.Heat exchange frame 5- in four heat exchanger 5-2
2-1 is arranged in order and stacks setting.
Six roots of sensation outlet straight tube in a upper heat exchanger 5-2 is distinguished with the six roots of sensation entrance straight tube in next heat exchanger 5-2
Connected by conduction oil adapter.Six roots of sensation entrance straight tube and first in the heat exchanger 5-2 of head end collect inlet tube 5-3's
Six oil-outs are respectively communicated with.Six roots of sensation outlet straight tube and second in the heat exchanger 5-2 of end collects the six of outlet 5-1
Individual oiler is respectively communicated with.First oiler for collecting inlet tube 5-3 connects with the oil-out of hydraulic pump 10.Hydraulic pump 10 enters
Hydraulic fluid port connects with the oil-out of heat conduction fuel tank 9.The oil-out of heat conduction fuel tank 9 is arranged on the bottom of heat conduction fuel tank 9.
As shown in Fig. 2,6,7 and 8, heat-transferring assembly 7 is arranged on the bottom of fried basin 11.Filled in fried basin 11 for frying
The oil of food.Heat-transferring assembly 7 collects inlet tube 7-1 including second, second collects outlet 7-2 and eight heat-transfer pipe 7-3.Heat transfer
Pipe 7-3 uses flat tube.Heat-transfer pipe 7-3 thickness is equal to 0.1a.Heat-transfer pipe 7-3 width is equal to a.Heat-transfer pipe 7-3 two sides
On be equidistantly provided with 13 arc plate 7-4.Arc plate 7-4 both ends are fixed with heat-transfer pipe 7-3.Arc plate 7-4's is outer
On side hemispherical projections group is provided with along arc plate 7-4 is circumferentially equidistant.Hemispherical projections group is by along heat-transfer pipe 7-3 width side
Formed to ten hemispherical projections 7-5 being placed equidistant.Arc plate 7-4 and hemispherical projections 7-5 can greatly increase heat-transfer pipe
7-3 area of dissipation.Arc plate 7-4 both ends are fixed with heat-transfer pipe 7-3, and one end compared to common fin is fixed, structure
It is more solid and reliable.The oil-out that eight heat-transfer pipe 7-3 arrival end collects inlet tube 7-1 with second connects, the port of export and
Two collect outlet 7-2 oiler connection.Second, which collects inlet tube 7-1 oiler and second, collects going out for outlet 5-1
Hydraulic fluid port passes through soft pipe connection.Second collects outlet 7-2 oil-out passes through soft pipe connection with the oiler of heat conduction fuel tank 9.It is soft
Pipe does not influence oil circuit transmission when fried basin is moved up and down.The oiler of heat conduction fuel tank 9 is arranged on the top of heat conduction fuel tank 9.
The operation principle of the present invention is as follows:
First motor, the second motor and the 3rd motor rotate.Continue that the will be placed into equipped with the barrel-shaped filter screen 6-1 for treating chrips
On one conveyer belt 6-5.So that two neighboring barrel-shaped filter screen 6-1 spacing is b, and the central axis of all holding rings is with first
Conveyer belt 6-5 transmission directions are vertical.Barrel-shaped filter screen 6-1 on first conveyer belt 6-5 is transferred to the first conveyer belt 6-5 ports of export
When, two mechanical paw 6-8 in a mechanical paw group clamp two holding rings on barrel-shaped filter screen 6-1 respectively.Barrel-shaped filter
Net 6-1 moves with the second conveyer belt 6-6, departs from first conveyer belt 6-5.Now, hydraulic cylinder 8-2 is in retracted mode, barrel-shaped filter
The bottom surface for netting 6-1 is higher than the upper edge of fried basin.Therefore barrel-shaped filter screen 6-1 can reach the surface of fried basin.
After one barrel-shaped filter screen 6-1 reaches the surface of fried basin, the first motor, the second motor and the 3rd motor stop
Turn.Hydraulic cylinder 8-2 is released so that fried basin moves upwards.Barrel-shaped filter screen 6-1, which is immersed in the edible oil in fried basin, carries out oil
It is fried.After the completion of barrel-shaped filter screen 6-1 fryings, hydraulic cylinder 8-2 retracts, and waits next barrel-shaped filter screen 6-1 to be released again after reaching.The
One motor, the second motor and the 3rd motor rotate, and the barrel-shaped filter screen 6-1 through frying moves to the 3rd transmission belt.Barrel-shaped filter screen
After 6-1 reaches the arrival end of the 3rd transmission belt, corresponding two mechanical paw 6-8 unclamp, and barrel-shaped filter screen 6-1 is with the 3rd transmission belt
It is transferred at fried finished product collection.
The heating means of edible oil are as follows in fried basin:
Thermal medium heat riser starts.Thermal medium after heating flows into end 5-2-5 through the thermal medium on thermal medium pipe 5-2-3 and flowed into
Thermal medium pipe 5-2-3, and flowed out from thermal medium pipe 5-2-3 thermal medium outflow end 5-2-4.Meanwhile hydraulic pressure pump startup, conduction oil
Conduction oil in case collects inlet tube 5-3 through first and enters the entrance straight tube being located in the heat exchanger of head end.Due to conduction oil with
For the flow direction of thermal medium on the contrary, event relative velocity is big, the effect of heat transfer is good.Further, since the heat that thermal medium is flowed at the 5-2-5 of end
Medium temperature is higher than the heat medium temperature at thermal medium outflow end 5-2-4, if therefore heat exchanger tube 5-2-2 profile is equal along its length
Even setting, then thermal medium certainly will be caused to flow into uneven with the heat exchange at thermal medium outflow end 5-2-4 at the 5-2-5 of end, and this
In invention, heat exchanger tube is arranged to multiple semiellipse pipes that axial length along its length differs so that heat exchanger tube flows out in thermal medium
The heat exchange property at 5-2-5 is held to flow into end 5-2-4 heat exchange property better than thermal medium, heat transfer effect is more preferably uniform, is not likely to produce
Unnecessary thermal stress.And the design of semiellipse pipe make it that the flowing acceleration change of conduction oil is more frequently and quick, further
Increase heat exchange performance.
Conduction oil is completed to collect outlet 5-1 outflows from second after heating, into eight heat-transfer pipe 7-3.Conduction oil
Heat rapidly enters the oil in fried basin so that the oil heating in fried basin carrys out fry.If temperature is too high in fried basin,
Reduce the output flow of hydraulic pump or close hydraulic pump, slow down to heating oily in fried basin.
Claims (10)
1. a kind of potato chips production line, including feed mechanism, fried elevating mechanism and heating system;It is characterized in that:Described oil
Fried elevating mechanism includes fried basin, bottom plate, hydraulic cylinder, slide rail and fixed plate;The bottom surface of the top surface of bottom plate and fried basin is fixed;Bottom
Four angles of plate respectively constitute sliding pair with four vertically disposed slide rails;The bottom of four one slide rails is fixed with fixed plate;Institute
The hydraulic cylinder stated is fixed in fixed plate;The piston rod of hydraulic cylinder and the center position of bottom plate are fixed;Described fixed plate is fixed
In frame;
Described feed mechanism includes barrel-shaped filter screen, the first delivery wheel, the second delivery wheel, the 3rd delivery wheel, first conveyer belt, the
Two conveyer belts, the 3rd conveyer belt, the first motor, the second motor, the 3rd motor and mechanical paw group;Two the first delivery wheels, two
Individual second delivery wheel and two the 3rd delivery wheels are supported in frame;Two the first delivery wheels and two the second delivery wheels are contour
Set;The high settings such as two the 3rd delivery wheels;First conveyer belt is nested with two the first delivery wheels;Second conveyer belt is nested with
On two the second delivery wheels;3rd conveyer belt is nested with two the 3rd delivery wheels;One of them first delivery wheel is by the first electricity
Machine drives;One of them second delivery wheel is driven by the second motor, and one of them second delivery wheel is driven by the second motor;3rd
N mechanical paw group, n >=2 are installed on conveyer belt lateral surface;Two mechanical paw groups that mechanical paw group is set by spacing f
Into 200mm≤f≤600mm;The spacing of two mechanical paw groups is b, b=s/nf;Wherein, s is the length of the 3rd transmission belt;Machine
Tool paw is set down;The folding direction of mechanical paw is vertical with the transmission direction of the 3rd conveyer belt;The upper edge of barrel-shaped filter screen
It is rounded;The upper edge of barrel-shaped filter screen is provided with two holding rings;The centerline axis parallel of two holding rings and not conllinear;Two
The distance of the central axis of holding ring is equal to the diameter of barrel-shaped filter screen upper edge;The diameter of barrel-shaped filter screen upper edge is equal to b;First
The top surface spacing of the bottom surface of conveyer belt and the second conveyer belt is c, c=h+e, and wherein h is the height of barrel-shaped filter screen, and e is mechanical paw
Length;
Described heating system includes the first header of heating, the second header, the first pipeline, second pipe, heat-exchanging component, biography
Hot component, heat conduction fuel tank, hydraulic pump and temperature sensor;Temperature sensor is arranged in fried basin;
Described heat-exchanging component collects outlet including first, heat exchanger and first collects inlet tube;Heat exchanger include heat exchange frame,
Heat exchanger tube and thermal medium pipe;Six roots of sensation thermal medium pipe is parallel to be fixed on heat exchange frame;It is mutual that the thermal medium of six roots of sensation thermal medium pipe flows into end
Connection;The thermal medium outflow end of six roots of sensation thermal medium pipe is interconnected;Six roots of sensation heat exchanger tube is separately positioned in six roots of sensation thermal medium pipe;Change
Heat pipe is made up of entrance straight tube, outlet straight tube and ten semiellipse pipes;Ten semiellipse pipes are arranged in order connected;Adjacent two
Semiellipse pipe is tangent in junction, and tangential direction is heat exchanger tube thickness direction, and the direction of vertical tangent lines is heat exchanger tube length direction;
Axial length of ten semiellipse pipes on heat exchanger tube thickness direction is a, a >=10mm;Ten semiellipse pipes are in heat exchanger tube length side
Upward axial length according to put in order successively byCommon ratio be incremented by;The most long semiellipse pipe of axial length on heat exchanger tube length direction
Outer end connects with outlet straight tube;The most short semiellipse pipe outer end of axial length connects with entrance straight tube on heat exchanger tube length direction;Heat exchange
Length of tube direction is parallel with the central axial direction of thermal medium pipe;Entrance straight tube is arranged on the thermal medium outflow end of thermal medium pipe
Place;
Described heat exchanger shares four;The thermal medium of thermal medium pipe flows into four of end and the first header in four heat exchangers
Outflow end passes through the first pipeline communication respectively;The four of the thermal medium outflow end of thermal medium pipe and the second header in four heat exchangers
Individual inflow end difference second pipe connection;First header flows into end and the outlet of thermal medium heat riser;Second collection
The outflow end of flow tube connects with the entrance of thermal medium heat riser;
Six roots of sensation outlet straight tube in a upper heat exchanger passes through conduction oil respectively with the six roots of sensation entrance straight tube in next heat exchanger
Adapter connects;Six oil-outs that six roots of sensation entrance straight tube in the heat exchanger of head end collects inlet tube with first connect respectively
It is logical;Six oilers that six roots of sensation outlet straight tube in the heat exchanger of end collects outlet with second are respectively communicated with;First
Collect the oiler of inlet tube to connect with the oil-out of hydraulic pump;The oiler of hydraulic pump connects with the oil-out of heat conduction fuel tank;
The oil-out of heat conduction fuel tank is arranged on the bottom of heat conduction fuel tank;
Described heat-transferring assembly is arranged on the bottom of fried basin;Heat-transferring assembly collects inlet tube including second, second collects outlet
Pipe and eight heat-transfer pipes;13 arc plates are equidistantly provided with the two sides of heat-transfer pipe;The both ends of arc plate with heat transfer
Pipe is fixed;On the lateral surface of arc plate hemispherical projections group is provided with along arc plate is circumferentially equidistant;Hemispherical projections group is passed by edge
Ten hemispherical projections composition that the width of heat pipe is placed equidistant;The arrival end and second of eight heat-transfer pipes collects inlet tube
Oil-out connection, the oiler that the port of export collects outlet with second connects;Second collects the oiler of inlet tube and second
The oil-out for collecting outlet passes through soft pipe connection;Second oiler for collecting the oil-out of outlet and heat conduction fuel tank passes through soft
Pipe connects;The oiler of heat conduction fuel tank is arranged on the top of heat conduction fuel tank.
A kind of 2. potato chips production line according to claim 1, it is characterised in that:The port of export position of described first conveyer belt
In the underface of the second conveyer belt arrival end;The port of export of the 3rd described conveyer belt be located at the second conveyer belt port of export just under
Side.
A kind of 3. potato chips production line according to claim 1, it is characterised in that:The rectangular shape of described bottom plate;Described
Slide rail uses optical axis.
A kind of 4. potato chips production line according to claim 1, it is characterised in that:Described hydraulic pump uses regulating flow quantity
Pump.
A kind of 5. potato chips production line according to claim 1, it is characterised in that:Described temperature sensor is immersed in frying
In edible oil in basin.
A kind of 6. potato chips production line according to claim 1, it is characterised in that:Described heat exchanger tube uses flat tube;Heat exchange
The thickness of pipe is equal to 0.1a;The width of heat exchanger tube is equal to a.
A kind of 7. potato chips production line according to claim 1, it is characterised in that:Axial length is most on the heat exchanger tube length direction
Axial length of the short semiellipse pipe on heat exchanger tube length direction is equal to 0.25a.
A kind of 8. potato chips production line according to claim 1, it is characterised in that:Described thermal medium heat riser passes through day
Right hot-air heater carries out the heating of thermal medium.
A kind of 9. potato chips production line according to claim 1, it is characterised in that:Heat exchange frame in four heat exchangers is arranged successively
Arrange and stack setting.
A kind of 10. potato chips production line according to claim 1, it is characterised in that:Described heat-transfer pipe uses flat tube;Heat transfer
The thickness of pipe is equal to 0.1a;The width of heat-transfer pipe is equal to a.
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105627634A (en) * | 2014-10-31 | 2016-06-01 | 丹佛斯微通道换热器(嘉兴)有限公司 | Heat exchanger |
CN105661410A (en) * | 2016-01-01 | 2016-06-15 | 西昌学院 | Potato chip production device |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN105627634A (en) * | 2014-10-31 | 2016-06-01 | 丹佛斯微通道换热器(嘉兴)有限公司 | Heat exchanger |
CN105661410A (en) * | 2016-01-01 | 2016-06-15 | 西昌学院 | Potato chip production device |
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