CN107803481B - A kind of casting plate machine cutter cooling device - Google Patents
A kind of casting plate machine cutter cooling device Download PDFInfo
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- CN107803481B CN107803481B CN201710912591.3A CN201710912591A CN107803481B CN 107803481 B CN107803481 B CN 107803481B CN 201710912591 A CN201710912591 A CN 201710912591A CN 107803481 B CN107803481 B CN 107803481B
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- cooling unit
- plate machine
- coldization
- casting plate
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D25/00—Special casting characterised by the nature of the product
- B22D25/02—Special casting characterised by the nature of the product by its peculiarity of shape; of works of art
- B22D25/04—Casting metal electric battery plates or the like
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D31/00—Cutting-off surplus material, e.g. gates; Cleaning and working on castings
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
Abstract
The invention discloses a kind of casting plate machine cutter cooling device, including the first cooling unit, it is set to the lower end of the casting plate machine cutter cooling device, including coldization channel, coldization water inlet and cold dissolves the mouth of a river;Second cooling unit, is set to the surface of first cooling unit, including spray tube, spray head and tank shell, and second cooling unit is connected with first cooling unit;And unit is leaned on, it is set to the upper end back side of second cooling unit, and be attached with external cutter;And air duct unit, be set to it is described and at the top of unit, and with it is described and formed and be connected to by the inside of unit and second cooling unit.The present invention realizes triple coolings to casting plate machine cutter by the interaction of the first cooling unit and the second cooling unit and the booster action of air duct unit.And be fixed thereon since device depends on, cutter can be followed mobile, cutter is made to continue the cooling effect with recirculated water during the work time.
Description
Technical field
The present invention relates to a kind of storage battery production technical field, especially one kind, and cooling drop can be carried out to casting plate machine cutter
The water cooling plant of temperature.
Background technique
Casting plate machine is also known as grid casting machine, is special equipment indispensable in battery industry, the main work of grid casting machine
It is that finished product required for us is reached by the transport and trimming process of the machine in the lead liquid injection mold that will melt as principle.
The special equipment that casting plate machine is produced as Lead-acid Storage Battery calcium and lead-antimony alloy grid, with it is structurally reasonable, easy to operate,
The advantages that maintenance is easy, production range is big, reliable for operation, energy consumption is few is one of the ideal equipment for producing lead-acid accumulator.The machine
Type specifically includes that casting plate machine one, lead melting furnace one, circulating water cooling system a set of for lead system be a set of and electric-control system.
Multiplely, movement herein is the main motion of the machine for the mechanism and failure that trimming mold mechanism is casting plate machine,
Numerous movement rhythms is determined by cutter part, and main function is that molding grid is removed rim charge to become
Finished product.This mechanism by cutter pull rod (hero of biography power is in cutter), cutter main body (dynamic model, cover half), interior have cooling briquetting (cooling
And flatten rest and reorganization effect), have 2 de- plate buttons and contact pin blend stop on fixed board.
Currently, the cutter that casting plate machine generally uses is that simple blade is mounted on board, cast panel process cutter temperature meeting
It constantly increases, excessively high temperature causes grid to be easy crimping.It is currently to be cooled down by spraying oil emulsion on cutter to cutter,
But oil emulsion can cause a degree of pollution to grid.
Summary of the invention
The purpose of this section is to summarize some aspects of the embodiment of the present invention and briefly introduce some preferable implementations
Example.It may do a little simplified or be omitted to avoid our department is made in this section and the description of the application and the title of the invention
Point, the purpose of abstract of description and denomination of invention it is fuzzy, and this simplification or omit and cannot be used for limiting the scope of the invention.
The problem of in view of above-mentioned and/or existing cutter cooling device, propose the present invention.
Therefore, the one of purpose of the present invention is to provide a kind of casting plate machine cutter cooling device, can reduce cast panel
The temperature of machine-cut knife avoids the case where leading to grid crimping due to the excessively high temperature of cutter itself.
In order to solve the above technical problems, the invention provides the following technical scheme: a kind of casting plate machine cutter cooling device, packet
The first cooling unit is included, is set to the lower end of the casting plate machine cutter cooling device, including coldization channel, coldization water inlet and cold
Dissolve the mouth of a river;Second cooling unit is set to the surface of first cooling unit, including spray tube, spray head and box shell
Body, second cooling unit are connected with first cooling unit;And unit is leaned on, it is set to second cooling unit
The upper end back side, and be attached with external cutter;And air duct unit, be set to it is described and at the top of unit, and with it is described simultaneously
It is formed and is connected to by the inside of unit and second cooling unit.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: first cooling unit
Internal non-coldization channel part is solid construction.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: the coldization channel is in institute
It states and forms circuitous path in the first cooling unit, and be connected with coldization water inlet and cold in the upper surface of first cooling unit
Dissolve the mouth of a river.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: the coldization water inlet and
The cold mouth of a river that dissolves is all connected with coldization diversion pipe.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: the spray tube passes through solid
Determine part to be fixed on the inner surface of the tank shell.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: between equal on the spray tube
Ground is provided with spray head, and its end is provided with pipe plug.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: the back side of the tank shell
It is provided with the groove of hexagon socket head cap screw profile on the corresponding cutter.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: the spray tube and described
Coldization diversion pipe both passes through upper surface and the external connection of the tank shell.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: the side of the tank shell
It is provided with discharge outlet, the discharge outlet is pierced by the tank shell and is connected with drainpipe.
A kind of preferred embodiment as casting plate machine cutter cooling device of the present invention, in which: inside the air duct unit
It is provided with Boiler pressure control component.
Beneficial effects of the present invention: the present invention passes through the interaction of the first cooling unit and the second cooling unit, and
The booster action of air duct unit realizes triple coolings to casting plate machine cutter.First cooling unit and the second cooling unit are distinguished
Casting plate machine cutter is acted on using the mode of circulating water and spray cold water, and is fixed thereon since device depends on, it can
To follow cutter mobile, cutter is set to continue the cooling effect with recirculated water during the work time, thus effective temperature-reducing.
Detailed description of the invention
In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment
Attached drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this
For the those of ordinary skill of field, without any creative labor, it can also be obtained according to these attached drawings other
Attached drawing.Wherein:
Fig. 1 is the first cooling unit structural representation described in casting plate machine cutter cooling device one embodiment of the present invention
Figure.
Fig. 2 is overall structure diagram described in second embodiment of casting plate machine cutter cooling device of the present invention.
Fig. 3 is overall structure schematic cross-section described in second and third embodiment of casting plate machine cutter cooling device of the present invention.
Fig. 4 is described in casting plate machine cutter cooling device third embodiment of the present invention and to lean on unit schematic cross-section.
Fig. 5 is buckle structure schematic diagram described in casting plate machine cutter cooling device third embodiment of the present invention.
Fig. 6 is overall structure diagrammatic cross-section described in the 4th embodiment of casting plate machine cutter cooling device of the present invention.
Fig. 7 is that Boiler pressure control component overall structure described in the 4th embodiment of casting plate machine cutter cooling device of the present invention is shown
It is intended to.
Fig. 8 is rebound component structure diagram described in the 4th embodiment of casting plate machine cutter cooling device of the present invention.
Specific embodiment
In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, right with reference to the accompanying drawings of the specification
A specific embodiment of the invention is described in detail.
In the following description, numerous specific details are set forth in order to facilitate a full understanding of the present invention, but the present invention can be with
Implemented using other than the one described here other way, those skilled in the art can be without prejudice to intension of the present invention
In the case of do similar popularization, therefore the present invention is not limited by the specific embodiments disclosed below.
Secondly, " one embodiment " or " embodiment " referred to herein, which refers to, may be included at least one realization side of the invention
A particular feature, structure, or characteristic in formula." in one embodiment " that different places occur in the present specification not refers both to
The same embodiment, nor the individual or selective embodiment mutually exclusive with other embodiments.
It referring to Fig.1, is first embodiment of the invention, the internal structure for providing a kind of casting plate machine cutter cooling device is shown
It is intended to.As seen from the figure, main structure of the invention includes the first cooling unit 100, is set to the cooling dress of the casting plate machine cutter
The lower end set, including coldization channel 101, coldization water inlet 102 and cold dissolve the mouth of a river 103;Second cooling unit 200, is set to
The surface of first cooling unit 100, second cooling unit 200 are connected with first cooling unit 100;With
And and lean on unit 300, be set to the upper end back side of first cooling unit 100.
In the present embodiment, casting plate machine cutter cooling device of the present invention includes the first cooling unit 100.First cooling unit
100 play the role of circulating water cooling in single unit system.Its lower end for being set to the casting plate machine cutter cooling device,
It is set to the lower end of the second cooling unit 200.The structure of first cooling unit 100 includes coldization channel 101, coldization water inlet
Mouthfuls 102 and cold dissolve the mouth of a river 103.Coldization channel 101 is set to the inside of the second cooling unit 200, plays the logical of transmission cold water
Road effect.In the first cooling unit 100, coldization channel 101 is hollow channel, and coldization channel 101 is first cooling single
First 100 inside hollow outs are formed, therefore, in the present embodiment, with reference to Fig. 1 it is found that the inside of the first cooling unit 100 removes coldization
The structure division in channel 101, complementary space are solid construction.
About 101 coldization channel inside first cooling unit 100 is unrolled extension, forms the path of a detour, and cold
Change channel 101 and all has port in the upper end of the first cooling unit 100.Specifically, coldization channel 101 is in the first cooling unit
100 inside formed a detour circulation loops after, thereon surface be connected with coldization water inlet 102 and it is cold dissolve the mouth of a river 103,
And coldization water inlet 102 and it is cold dissolve that the mouth of a river 103 is close to each other, be respectively positioned on 100 upper side of the first cooling unit one of them
End position.Further, coldization water inlet 102 and the cold mouth of a river 103 that dissolves are all connected with coldization diversion pipe 104.
In the present invention, coldization water inlet 102 plays the role of importing cold water stream in the structure, by coldization diversion pipe
104 are attached with one of port in coldization channel 101.Cold water is through supercoolingization diversion pipe 104 from coldization water inlet 102
Coldization channel 101 is flowed into, through discharging into another coldization diversion pipe 104 from the cold mouth of a river 103 that dissolves after circulation.It needs herein
It is to be noted that: coldization water inlet 102 and it is cold dissolve the mouth of a river 103 and meanwhile connection coldization diversion pipe 104 be not same root pipeline,
But the two is separately connected mutual independent two coldization diversion pipes 104.
Opposite with coldization water inlet 102, the cold mouth of a river 103 that dissolves plays the role of that cold water stream is discharged in the structure, will
Coldization diversion pipe 104 and another port in coldization channel 101 are attached.Cold water through supercoolingization diversion pipe 104 from coldization into
The mouth of a river 102 flows into coldization channel 101, through discharging into another coldization diversion pipe 104 from the cold mouth of a river 103 that dissolves after circulation.
Coldization diversion pipe 104 plays the role of undertaking circulating water flow in the present invention, is imported and is discharged to water flow.
It is second embodiment of the invention, the embodiment is different from one embodiment: first referring to Fig. 2,3
Cooling unit 100 is mainly using the cooling effect of circulating water cooling, and the second cooling unit 200 is mainly using spray cold water
The cooling effect of cooling.
In the present embodiment, main structure of the present invention mainly includes three parts, respectively the first cooling unit 100,
Two cooling units 200 and and lean on unit 300.First cooling unit 100 is set to the bottom of the second cooling unit 200, and in
Second cooling unit 200 interconnects, but is not connected to.And the upper end back side of the second cooling unit 200 is set to by unit 300,
And it is attached with external cutter 400.Wherein, the first cooling unit 100 plays the work of circulating water cooling in single unit system
With.Its lower end for being set to the casting plate machine cutter cooling device, namely it is set to the lower end of the second cooling unit 200.First
The structure of cooling unit 100 includes coldization channel 101, coldization water inlet 102 and cold dissolves the mouth of a river 103.Coldization channel 101 is set
It is placed in the inside of the second cooling unit 200, plays the channeling of transmission cold water.In the first cooling unit 100, Leng Huatong
Road 101 is hollow channel, and coldization channel 101 is that 100 inside hollow out of the first cooling unit is formed, therefore, in the present embodiment
In, with reference to Fig. 1 it is found that the inside of the first cooling unit 100 removes the structure division in coldization channel 101, complementary space is reality
Core structure.
About 101 coldization channel inside first cooling unit 100 is unrolled extension, forms the path of a detour, and cold
Change channel 101 and all has port in the upper end of the first cooling unit 100.Specifically, coldization channel 101 is in the first cooling unit
100 inside formed a detour circulation loops after, thereon surface be connected with coldization water inlet 102 and it is cold dissolve the mouth of a river 103,
And coldization water inlet 102 and it is cold dissolve that the mouth of a river 103 is close to each other, be respectively positioned on 100 upper side of the first cooling unit one of them
End position.Further, coldization water inlet 102 and the cold mouth of a river 103 that dissolves are all connected with coldization diversion pipe 104.
In the present invention, coldization water inlet 102 plays the role of importing cold water stream in the structure, by coldization diversion pipe
104 are attached with one of port in coldization channel 101.Cold water is through supercoolingization diversion pipe 104 from coldization water inlet 102
Coldization channel 101 is flowed into, through discharging into another coldization diversion pipe 104 from the cold mouth of a river 103 that dissolves after circulation.It needs herein
It is to be noted that: coldization water inlet 102 and it is cold dissolve the mouth of a river 103 and meanwhile connection coldization diversion pipe 104 be not same root pipeline,
But the two is separately connected mutual independent two coldization diversion pipes 104.
Opposite with coldization water inlet 102, the cold mouth of a river 103 that dissolves plays the role of that cold water stream is discharged in the structure, will
Coldization diversion pipe 104 and another port in coldization channel 101 are attached.Cold water through supercoolingization diversion pipe 104 from coldization into
The mouth of a river 102 flows into coldization channel 101, through discharging into another coldization diversion pipe 104 from the cold mouth of a river 103 that dissolves after circulation.
Coldization diversion pipe 104 plays the role of undertaking circulating water flow in the present invention, is imported and is discharged to water flow.
In the present invention, the second cooling unit 200 is set to the surface of the first cooling unit 100, including spray tube
201, spray head 202 and tank shell 203, second cooling unit 200 are connected with first cooling unit 100.Specifically
, the lower surface of the second cooling unit 200 and the upper surface of the first cooling unit 100 are attached, but inside the two without
Connection.The main function components of second cooling unit 200 include spray tube 201, spray head 202 and tank shell 203.Wherein,
Tank shell 203 is set to the periphery of the second cooling unit 200, play protection internal structure, prevents shower water from spilling or overflowing
Situation.Spray tube 201 is set to the inside of the second cooling unit 200, and spray tube 201 is important as the second cooling unit 200
Component has the function of the effect of water conservancy diversion and hydrops.Spray tube 201 is fixed on the interior of the tank shell 203 by fixing piece 204
On side surface.204 one end of fixing piece is ring-type, and for entangling and tightening spray tube 201, the other end of fixing piece 204 is fixed on
On the inner sidewall of tank shell 203.
Spray head 202 is set on the tube wall of spray tube 201, and the inside of spray head 202 has hole, and and spray tube
201 interconnect.In the present invention, spray head 202 is provided with multiple, and is equally spacedly to be arranged.Spray head 202 is in structure
In play the role of spray cold water.External cold water is transferred in each spray head 202 through spray tube 201, then from spray head 202
It erupts, and is sprayed on tank shell 203 in pore, since 203 outer surface of tank shell is directly directly contacted with cutter 400,
Therefore heat can be absorbed.Further, the end of spray tube 201 is provided with pipe plug 205, in this way, water flow is in spray tube 201
End just can not overflow.
Further, there are screw holes on casting plate machine cutter 400, are fixed on the machine seat face by hexagon socket head cap screw, then
There is the hexagon socket head cap screw of protrusion in the outer surface of cutter 400.And the tank shell 203 of the second cooling unit 200 in order to
It is bonded with 400 outer surface of cutter, the back side of tank shell 203 is provided with the groove of hexagon socket head cap screw profile on corresponding cutter 400
206.Further, the side of 200 tank shell 203 of the second cooling unit is provided with discharge outlet 207, and discharge outlet 207 is pierced by described
Tank shell 203 is connected with drainpipe.Discharge outlet 207 has the extra ponding sprayed inside the second cooling unit 200 of discharge
Effect.
In the present invention, the coldization diversion pipe 104 of the spray tube 201 of the second cooling unit 200 and the first cooling unit 100
The upper surface and outside for both passing through tank shell 203 are attached.
It is third embodiment of the invention referring to Fig. 3~5, the embodiment is different from second embodiment: second
Cooling unit 200 passes through together with the first cooling unit 100 and is attached by unit 300 and external cutter 400.And lean on unit
300 are set to the back side of the upper end of the second cooling unit 200.
As shown in figure 3, and include the first body 301 and the second body 302 by unit 300, the first body 301 is mutual with the second body 302
It fits, the first body 301 is located at the upside of the second body 302.Wherein 301 main body of the first body is hollow structure, cooling single with second
Interconnected inside member 200, and 302 main body of the second body is solid construction, the upper surface of lower surface and casting plate machine cutter 400 into
Row connection, connection type are used and are fixedly connected.It is attached between first body 301 and the second body 302 using connector 303.Even
Fitting 303 includes buckle 303a, card slot 303b and locking pin 303c.Buckle 303a is set to the lower surface of the first body 301, is
The structure of one is attached on the outer surface of first body, 301 shell, global sections are " L " shape.Card slot 303b is in the second body
302 upper side progress is recessed, and the shape corresponding to buckle 303a is also " L " shape.Unlike but: the L shape of card slot 303b
The width of vertical slot is equal to the bottom width of entire buckle 303a, so that buckle 303a integrally can be direct from the upper end card slot 303b
It puts down.When buckling 303a and being placed in card slot 303b, inwardly push, as shown in figure 4, buckle 303a can be catered to just pair
The shape answered is stuck in inside card slot 303b.Preferably, side will one piece of vacancy behind after buckle 303a is inwardly pushed
Locking pin 303c is inserted into block-like space inside vacancy, and such whole system is just fixed, can be completed the first body 301 with
Second body 302 is fixedly connected.Due to a part of structure that the first body 301 is 200 back side of the second cooling unit, the second body 302
It is fixedly connected with 400 phase of cutter, therefore aforesaid way also achieves the second cooling unit 200 (and first cooling unit 100)
With the connection of cutter 400.
It is the 4th embodiment of the invention referring to Fig. 6~8, which is different from third embodiment: this hair
Bright main structure further includes air duct unit 500, be set to it is described and by 300 top of unit, and with it is described and by unit 300 with
And the inside of second cooling unit 200 forms connection.
In the present embodiment, as shown in fig. 6, and be more than the second body 302 by 301 length of the first body of unit 300, and
And lean on unit 300 the second body of rear side packet 302, also more than part be also cavity structure, can be with the second cooling unit 200
Form internal connection.Such mode is advantageous in that: the fixation of single unit system is more advantageous to, herein except above-mentioned connector 303
Other than fixing together, the first body 301, which becomes another road to the hook of 302 rear side of the second body, to be fixed, therefore has dual fixation.
Further, it is respectively the first locking pin 303c-1 and the second locking pin that the locking pin 303c in the present embodiment, which has at two,
303c-2, wherein the first position as described in embodiment three locking pin 303c-1, but since the first body 301 surpasses in the present embodiment
The presence of part out, so that buckle 303a is in insertion, the whereabouts generating unit of the rear end of the second body 302 to 301 rear end of the first body
Another vacancy insertion second for dividing and hindering, therefore slot milling is used for the insertion of the second body 302, and generated after fastening
Locking pin 303c-2, as shown in Figure 6.
In the present embodiment, as shown in fig. 6, and being additionally provided with air duct unit by 301 upper surface of the first body of unit 300
500.Air duct unit 500 plays in the structure is passed through air-flow, accelerates the work of the evaporation of 200 inside shower water of the second cooling unit
With to promote the speed of absorbing and cooling temperature.Air duct unit 500 includes Boiler pressure control component 501, air piping 502 and magnetic flexible
503.Wherein, air piping 502 generally bends form, and one end and the top of the first body 301 are attached, the first body 301
Top opens up hole as air inlet 504, for divulging information in junction.The other end of air piping 502 and external blower carry out
Connection to be passed through air-flow, while being provided with exhaust outlet in the upper Angle Position of the second cooling unit 200.
Boiler pressure control component 501 is set to the top of 301 upper surface hole of the first body, while magnetic flexible 503 is set to
In air piping 502 right above Boiler pressure control component 501.Magnetic flexible 503 is one piece of circular magnet, and Boiler pressure control component 501 is used
In adjusting the size for being passed through throughput, in the present embodiment, magnetic flexible 503 is used cooperatively with Boiler pressure control component 501.
Specifically, Boiler pressure control component 501 includes the first matching piece 501a, the second matching piece 501b, rebound component 501c
And fixing piece 501d.The interspersed connection of first matching piece 501a and the second matching piece 501b, the first matching piece 501a pass through rebound
Component 501c is arranged on fixing piece 501d, and the second matching piece 509 and fixing piece 501d is interconnected.
Specifically, the first matching piece 501a plays the role of that the second matching piece 501b is pushed to carry out eccentric rotary.First matches
Component 501a includes that circle magnetic patch 501a-1 and interlocking bar 501a-2, round magnetic patch 501a-1 have magnetism, and planform is circle
Shape, middle position have a circular hole.Interlocking bar 501a-2 has four, and wherein one end of interlocking bar 501a-2 is fixed on circle
On magnetic patch 501a-1, other end is inclined outwardly in a corresponding plane, and the plane is by interlocking bar 501a-2 in circle
On the straight line that contact point and the center of circle on magnetic patch 501a-1 are linked to be, and the plane is perpendicular to flat where round magnetic patch 501a-1
Face.Four interlocking bar 501a-2 are evenly distributed on the surface of round magnetic patch 501a-1, preferably, four interlocking bar 501a-2
Tilt angle it is identical, be centrosymmetric mutually, and four contact points also simultaneously be distributed on the certain circumference of diameter.
Second matching piece 501b, which has, covers air inlet 504, determines the effect of gas flow size.Second matching piece 501b
For circular contour, correspond to there are four interlocking bar 501a-2 similarly has, and four shape and structures are identical.It passes through shaft
501b-1 is connect with fixing piece 501d bias, and can be eccentrically rotated around shaft 501b-1.Second matching piece 501b exists
There is hole 501b-2, the outer end of four interlocking bar 501a-2, which respectively corresponds, stretches where shaft 501b-1 on the other side of diameter
Enter into four hole 501b-2 of the second matching piece 501b, forms linkage.
Rebound component 501c has the function of carrying out the first matching piece 501a and the second matching piece 501b into rebound playback.It returns
Playing component 501c includes telescopic shaft 501c-1, pedestal 501c-2, compressed spring 501c-3 and spring leaf 501c-4.Telescopic shaft
One end of 501c-1 is connected with pedestal 501c-2, and fixed, and the other end is provided with a port, and port is circle, and diameter is big
In the outer diameter of telescopic shaft 501c-1.Compressed spring 501c-3 is sheathed on telescopic shaft 501c-1, both ends by pedestal 501c-2 and
The port of telescopic shaft 501c-1 is limited.Spring leaf 501c-4 corresponds to there are four four the second matching piece 501b tools, and shape
It is identical, it is " V " shape spring leaf.One side of spring leaf 501c-4 is longer, and shorter on one side, shorter one end is fixed on pedestal
The edge of 501c-2, longer one end deviates from pedestal 501c-2, towards outside, and is against corresponding second matching piece 501b's
Outer edge.In structure, the spring leaf 501c-4 after fixing is in inverted " v ".It should be pointed out that the first matching piece 501a's
On round magnetic patch 501a-1, Circularhole diameter is slightly larger than the outer diameter of telescopic shaft 501c-1.Meanwhile round magnetic patch 501a-1 passes through
Circular hole thereon is sheathed on telescopic shaft 501c-1, resists the port of telescopic shaft 501c-1 on one side, and another side resists compressed spring
501c-3。
Fixing piece 501d has the function of that fixed entire Boiler pressure control component 501, outer profile are circle, mutually at two
Vertical diametrically has connecting rod, and two connecting rods are vertically compared to the center of circle, and the center point has certain space to put
Set and fix the pedestal 501c-2 of rebound component 501c.Space between connecting rod is used for the circulation of gas.
In the present embodiment, Boiler pressure control component 501 can control the first matching piece 501a by the effect of external magnetic field
Movement, thus by linkage mechanisms influence air flow rate size.Detailed process includes the following steps:
One, external magnetic field (magnetic flexible 503) enhances, be sheathed on round magnetic patch 501a-1 on telescopic shaft 501c-1 by
The repulsive force effect of magnetic flexible 503 is moved inward along telescopic shaft 501c-1.
Two, the magnetic flexible 503 moved drives the interlocking bar 501a-2 being fixed thereon to be moved simultaneously, due to interlocking bar
The other end of 501a-2 is interspersed in the hole 501b-2 of the second matching piece 501b, therefore drives the second matching piece 501b around the shaft
501b-1 carries out eccentric rotary, and the direction of rotation is the inside of device.
Three, the second matching piece 501b of eccentric rotary gradually blocks the area of a part of air inlet 504 inwardly, thus
Affect the size of gas flow.
Four, continue to increase magnetic field, until repulsive force caused by external magnetic field is equal to the bounce of spring leaf 501c-4 or waits
In the sum of the holding power that the bounce and pedestal 501c-2 of spring leaf 501c-4 provide, the flow of gas is minimum at this time.
Five, reduce magnetic field, repulsive force caused by magnetic field is opposite to be reduced, and the first matching piece 501a is by compressed spring 501c-3
Bounce move out, while effect outside eccentric rotary of the second matching piece 501b by spring leaf 501c-4 bounce,
Whole device gradually playbacks.
Six, during device playback, the area that the second matching piece 501b covers air inlet 504 is reduced, and gas flow becomes
Greatly.
It is important that, it should be noted that the construction and arrangement of the application shown in multiple and different exemplary implementation schemes is only
It is illustrative.Although several embodiments are only described in detail in this disclosure, refering to the personnel of the displosure content
It should be easily understood that many changes under the premise of substantially without departing from the novel teachings and advantage of theme described in this application
Type is possible (for example, the size of various elements, scale, structure, shape and ratio and parameter value are (for example, temperature, pressure
Deng), mounting arrangements, the use of material, color, the variation of orientation etc.).It can be by more for example, being shown as integrally formed element
A part or element are constituted, and the position of element can be squeezed or change in other ways, and the property or number of discrete component
Or position can be altered or changed.Therefore, all such remodeling are intended to be comprised in the scope of the present invention.It can be according to replacing
The embodiment in generation changes or the order or sequence of resequence any process or method and step.In the claims, any " dress
Set plus function " clause be intended to and be covered on the structure described herein for executing the function, and it is equivalent to be not only structure
It but also is equivalent structure.Without departing from the scope of the invention, can exemplary implementation scheme design, operation
Other replacements are made in situation and arrangement, remodeling, are changed and are omitted.Therefore, the present invention is not limited to specific embodiments, and
It is to extend to a variety of remodeling still fallen within the scope of the appended claims.
In addition, all spies of actual implementation scheme can not be described in order to provide the terse description of exemplary implementation scheme
Sign is (that is, with execution those incoherent features of optimal mode of the invention for currently considering, or in realizing that the present invention is incoherent
Those features).
It should be understood that in the development process of any actual implementation mode, it, can such as in any engineering or design object
A large amount of specific embodiment is made to determine.Such development effort may be complicated and time-consuming, but for those benefits
For the those of ordinary skill of the displosure content, do not need excessively to test, the development effort will be one design, manufacture and
The routine work of production.
It should be noted that the above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although referring to preferable
Embodiment describes the invention in detail, those skilled in the art should understand that, it can be to technology of the invention
Scheme is modified or replaced equivalently, and without departing from the spirit and scope of the technical solution of the present invention, should all be covered in this hair
In bright scope of the claims.
Claims (10)
1. a kind of casting plate machine cutter cooling device, it is characterised in that: including,
First cooling unit (100), is set to the lower end of the casting plate machine cutter cooling device, including coldization channel (101), cold
Change water inlet (102) and cold dissolves the mouth of a river (103);
Second cooling unit (200) is set to the surface of first cooling unit (100), including spray tube (201), spray
Leaching head (202) and tank shell (203), second cooling unit (200) are connected with first cooling unit (100);
And unit (300) are leaned on, it is set to the upper end back side of second cooling unit (200), and carry out with external cutter (400)
Connection;And
Air duct unit (500), be set to it is described and at the top of unit (300), and with it is described and by unit (300) and described the
The inside of two cooling units (200) forms connection;
It is described and include the first body (301) and the second body (302), first body (301) and the second body by unit (300)
(302) it mutually fitting, first body (301) is located at the upside of the second body (302), and first body (301) is hollow structure,
It is interconnected with inside second cooling unit (200), lower surface and the cutter (400) of second body (302)
Upper surface is attached, and is attached between first body (301) and the second body (302) using connector (303);
The connector (303) includes buckle (303a), card slot (303b) and locking pin (303c), buckle (303a) setting
In the lower surface of the first body (301), the card slot (303b) is recessed in the upper side progress of the second body (302), corresponds to described
Buckle the shape of (303a).
2. casting plate machine cutter cooling device as described in claim 1, it is characterised in that: in first cooling unit (100)
The non-coldization channel (101) in portion is partially solid construction.
3. casting plate machine cutter cooling device as claimed in claim 2, it is characterised in that: the coldization channel (101) is described
Form circuitous path in first cooling unit (100), and the upper surface of first cooling unit (100) be connected with coldization into
The mouth of a river (102) and cold dissolve the mouth of a river (103).
4. casting plate machine cutter cooling device as claimed in claim 3, it is characterised in that: the coldization water inlet (102) and cold
It dissolves the mouth of a river (103) and is all connected with coldization diversion pipe (104).
5. casting plate machine cutter cooling device as claimed in claim 4, it is characterised in that: the spray tube (201) passes through fixation
Part (204) is fixed on the inner surface of the tank shell (203).
6. casting plate machine cutter cooling device as claimed in claim 5, it is characterised in that: equidistant on the spray tube (201)
Ground is provided with spray head (202), and its end is provided with pipe plug (205).
7. casting plate machine cutter cooling device as claimed in claim 6, it is characterised in that: the back side of the tank shell (203) is set
It is equipped with the groove (206) of hexagon socket head cap screw profile on the corresponding cutter (400).
8. casting plate machine cutter cooling device as claimed in claim 7, it is characterised in that: the spray tube (201) and described cold
Change upper surface and external connection that diversion pipe (104) both pass through the tank shell (203).
9. casting plate machine cutter cooling device as claimed in claim 8, it is characterised in that: the side of the tank shell (203) is set
It is equipped with discharge outlet (207), the discharge outlet (207) is pierced by the tank shell (203) and is connected with drainpipe.
10. casting plate machine cutter cooling device as claimed in claim 9, it is characterised in that: set inside the air duct unit (500)
It is equipped with Boiler pressure control component (501).
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CN201710912591.3A CN107803481B (en) | 2017-09-29 | 2017-09-29 | A kind of casting plate machine cutter cooling device |
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CN201710912591.3A CN107803481B (en) | 2017-09-29 | 2017-09-29 | A kind of casting plate machine cutter cooling device |
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CN107803481B true CN107803481B (en) | 2019-09-27 |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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GB1278046A (en) * | 1968-06-21 | 1972-06-14 | Chloride Overseas Ltd | Improvements relating to machines for trimming lead-acid battery electrode grids |
CN203578730U (en) * | 2013-11-20 | 2014-05-07 | 河南超威电源有限公司 | Grid casting machine provided with positioning cutter with cooling device |
CN104180588A (en) * | 2014-07-30 | 2014-12-03 | 西安奥邦科技有限责任公司 | Automatic heat tracing type closed water cooling equipment |
CN205985235U (en) * | 2016-08-24 | 2017-02-22 | 天能电池集团(安徽)有限公司 | Lead acid battery grid casting machine cutter cooling mechanism |
CN107159961A (en) * | 2017-05-27 | 2017-09-15 | 天能电池(芜湖)有限公司 | Automatically the battery grid casting shearing device cooled down |
-
2017
- 2017-09-29 CN CN201710912591.3A patent/CN107803481B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1278046A (en) * | 1968-06-21 | 1972-06-14 | Chloride Overseas Ltd | Improvements relating to machines for trimming lead-acid battery electrode grids |
CN203578730U (en) * | 2013-11-20 | 2014-05-07 | 河南超威电源有限公司 | Grid casting machine provided with positioning cutter with cooling device |
CN104180588A (en) * | 2014-07-30 | 2014-12-03 | 西安奥邦科技有限责任公司 | Automatic heat tracing type closed water cooling equipment |
CN205985235U (en) * | 2016-08-24 | 2017-02-22 | 天能电池集团(安徽)有限公司 | Lead acid battery grid casting machine cutter cooling mechanism |
CN107159961A (en) * | 2017-05-27 | 2017-09-15 | 天能电池(芜湖)有限公司 | Automatically the battery grid casting shearing device cooled down |
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CN107803481A (en) | 2018-03-16 |
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