CN208231423U - A kind of numerically-controlled machine tool based on coolant circulation system heat dissipation - Google Patents
A kind of numerically-controlled machine tool based on coolant circulation system heat dissipation Download PDFInfo
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- CN208231423U CN208231423U CN201820603200.XU CN201820603200U CN208231423U CN 208231423 U CN208231423 U CN 208231423U CN 201820603200 U CN201820603200 U CN 201820603200U CN 208231423 U CN208231423 U CN 208231423U
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- fixedly connected
- heat dissipation
- machine tool
- rose box
- numerically
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Abstract
The utility model relates to automated machine tool fields, more specifically to a kind of numerically-controlled machine tool based on coolant circulation system heat dissipation, including shell, left chamber, right chamber and top plate, the left chamber is fixedly connected on shell side, the right chamber is fixedly connected on the shell other side, the top plate is fixedly connected on shell upper end, the top plate inner upper end is fixedly connected with high-pressure pump, the high-pressure pump two sides are respectively arranged with inlet tube and perfusion tube, the left chamber is internally provided with cooling tank and No.1 circulation pipe, the No.1 circulation pipe is located at cooling tank side and No.1 circulation pipe is connect with cooling tank pipeline, the right chamber is internally provided with No. two circulation pipes and Rose Box, the Rose Box is located at No. two circulation pipe sides and No. two circulation pipes are connect with Rose Box pipeline.The efficiency of heat dissipation is effectively raised, also, coolant liquid after cooling can be flowed back into cooling tank by liquid back pipe, is recycled, effectively saves use cost, improve usage economy.
Description
Technical field
The utility model relates to a kind of numerically-controlled machine tools, refer in particular to a kind of numerically-controlled machine tool based on coolant circulation system heat dissipation,
Belong to automated machine tool field.
Background technique
Numerically-controlled machine tool is numerically-controlled machine tool, is a kind of automated machine tool equipped with program control system, the control system
Can logically handle has control coding or other symbolic instruction regulated procedures, and is decoded, with the number of code
It indicates, numerical control device is inputted by information carrier, various control signals are issued by numerical control device through calculation process, control lathe
Movement, shape and size by drawing automatically process part, and numerically-controlled machine tool preferably solves complicated, essence
Close, small mount, multi items part processing problems are a kind of flexible, dynamical automated machine tools, represent modern machine
The developing direction of control technology is a kind of typical electromechanical integrated product.
In the use process of numerically-controlled machine tool, higher heat can be generated, also, cooling velocity is slower, influence work
Efficiency, meanwhile, coolant liquid after prolonged use, can generate dirt, corrosive pipeline or blocking be caused, moreover, by outer
Boundary impact when, be easy to cause inner body to damage, thus design it is a kind of based on coolant circulation system heat dissipation numerically-controlled machine tool very
It is necessary to.
Utility model content
The utility model aim is for overcome the deficiencies in the prior art and provides a kind of scattered based on coolant circulation system
The numerically-controlled machine tool of heat, greatly increases cooling area, effectively raises the efficiency of heat dissipation, also, cooling after cooling
Liquid can be flowed back into cooling tank by liquid back pipe, be recycled, effectively saved use cost, be improved using economical
Property.
In order to achieve the above objectives, the technical solution adopted in the utility model is: one kind is radiated based on coolant circulation system
Numerically-controlled machine tool, including shell, left chamber, right chamber and top plate, the left chamber is fixedly connected on shell side, and the right chamber is fixed to be connected
It is connected to the shell other side, the top plate is fixedly connected on shell upper end.
The top plate inner upper end is fixedly connected with high-pressure pump, and the high-pressure pump two sides are respectively arranged with inlet tube and infusion
Pipe, the left chamber are internally provided with cooling tank and No.1 circulation pipe, and the No.1 circulation pipe is located at cooling tank side and No.1 is followed
Endless tube is connect with cooling tank pipeline, and the right chamber is internally provided with No. two circulation pipes and Rose Box, and the Rose Box is located at No. two
Circulation pipe side and No. two circulation pipes are connect with Rose Box pipeline, is disposed with filtering from bottom to up inside the Rose Box
Layer, primary filter bed of essence and advanced filter bed of essence, the Rose Box upper end are fixedly connected with liquid back pipe, and the left chamber and right chamber side are solid
Determine connecting spring, the spring side is fixedly connected with backplate, and the shell lower end is fixedly connected with pedestal, described right chamber one end table
Face is provided with control panel and control panel and high-pressure pump are electrically connected.
As advanced optimizing for the technical program, a kind of numerical control based on coolant circulation system heat dissipation of the utility model
Backplate described in lathe is the backplate of arcuate shape.
As advanced optimizing for the technical program, a kind of numerical control based on coolant circulation system heat dissipation of the utility model
Inlet tube described in lathe is connect by No.1 circulation pipe with cooling tank pipeline.
As advanced optimizing for the technical program, a kind of numerical control based on coolant circulation system heat dissipation of the utility model
Perfusion tube described in lathe is connect by No. two circulation pipes with Rose Box pipeline.
As advanced optimizing for the technical program, a kind of numerical control based on coolant circulation system heat dissipation of the utility model
Liquid back pipe described in lathe is connect through top plate with cooling tank pipeline.
Due to the application of the above technical scheme, the utility model has the advantage that compared with prior art
A kind of numerically-controlled machine tool based on coolant circulation system heat dissipation of the utility model, manually on the control panel
Start high-pressure pump after, the coolant liquid in cooling tank is drawn by high-pressure pump by inlet tube recycled in No.1 circulation pipe after,
It enters in perfusion tube, is entered in No. two circulation pipes by perfusion tube, while carrying out circulating cooling heat dissipation, greatly by inlet tube
Big increases cooling area, effectively raises the efficiency of heat dissipation, also, coolant liquid after cooling can be by returning liquid
Pipe, flows back into cooling tank, is recycled, effectively saves use cost, improve usage economy, flows back in coolant liquid
When, it can first pass through in Rose Box, by filter layer, primary filter bed of essence and advanced filter bed of essence through filtering, will can effectively cool down
Impurity in liquid filters out, and effectively improves the pure property of coolant liquid, greatly improves cooling effect, strengthen cooling
Quality reduces time and the cost of manual maintenance, effectively improves cooling efficiency meanwhile, it is capable to avoid line clogging,
The service life of pipeline is greatly extended, after backplate can effectively be kept out extraneous impact force, using spring
Retraction carries out unloading power, can effectively avoid foreign impacts power excessive, after causing left chamber or right chamber damaged, internal part damage
It is bad, it causes normally cool down heat dissipation, effectively strengthens the protecting effect to equipment, improve the service life of equipment.
Detailed description of the invention
Technical solutions of the utility model are described further with reference to the accompanying drawing:
Attached drawing 1 is a kind of overall structure signal of the numerically-controlled machine tool based on coolant circulation system heat dissipation of the utility model
Figure.
Attached drawing 2 is a kind of internal structure signal of the numerically-controlled machine tool based on coolant circulation system heat dissipation of the utility model
Figure.
Attached drawing 3 is a kind of guard board structure signal of the numerically-controlled machine tool based on coolant circulation system heat dissipation of the utility model
Figure.
Wherein: shell 1, left chamber 2, right chamber 3, top plate 4, pedestal 5, control panel 6, high-pressure pump 7, inlet tube 8, perfusion tube 9,
10, No. two circulation pipes 11 of No.1 circulation pipe, cooling tank 12, Rose Box 13, filter layer 14, primary filter bed of essence 15, advanced filter bed of essence
16, liquid back pipe 17, spring 18, backplate 19.
Specific embodiment
With reference to the accompanying drawing and specific embodiment the utility model is described in further detail.
A kind of numerically-controlled machine tool based on coolant circulation system heat dissipation described in the utility model as illustrated in the accompanying drawings from 1 to 3,
It include: shell 1, left chamber 2, right chamber 3 and top plate 4, the left chamber 2 is fixedly connected on 1 side of shell, and the right chamber 3 is fixedly connected
In 1 other side of shell, the top plate 4 is fixedly connected on 1 upper end of shell.
4 inner upper end of top plate is fixedly connected with high-pressure pump 7, and 7 two sides of high-pressure pump are respectively arranged with inlet tube 8 and defeated
Liquid pipe 9, the left chamber 2 are internally provided with cooling tank 12 and No.1 circulation pipe 10, and the No.1 circulation pipe 10 is located at cooling tank 12
Side and No.1 circulation pipe 10 is connect with 12 pipeline of cooling tank, the right chamber 3 is internally provided with No. two circulation pipes 11 and Rose Box
13, the Rose Box 13 is located at No. two 11 sides of circulation pipe and No. two circulation pipes 11 are connect with 13 pipeline of Rose Box, the filtering
Filter layer 14, primary filter bed of essence 15 and advanced filter bed of essence 16 are disposed with inside case 13 from bottom to up, on the Rose Box 13
End is fixedly connected with liquid back pipe 17, and the left chamber 2 and 3 side of right chamber are fixedly connected with spring 18, and 18 side of spring is fixed
Backplate 19 is connected, 1 lower end of shell is fixedly connected with pedestal 5, and 3 end surface of right chamber is provided with control panel 6 and controls
Panel 6 and high-pressure pump 7 are electrically connected;The backplate 19 is the backplate of arcuate shape, and the inlet tube 8 is recycled by No.1
Pipe 10 is connect with 12 pipeline of cooling tank, and the perfusion tube 9 is connect by No. two circulation pipes 11 with 13 pipeline of Rose Box, described
Liquid back pipe 17 is connect through top plate 4 with 12 pipeline of cooling tank.
After manually starting high-pressure pump 7 on control panel 6, high-pressure pump 7 passes through inlet tube 8 for the coolant liquid in cooling tank 12
It is drawn into after being recycled in No.1 circulation pipe 10, is entered in perfusion tube 9 by inlet tube 8, enter two by perfusion tube 9
In number circulation pipe 11, while circulating cooling heat dissipation is carried out, also, coolant liquid after cooling can be flowed back by liquid back pipe 17
It in cooling tank 12, is recycled, in coolant liquid reflux, can first pass through in Rose Box 13, pass through filter layer 14, primary filter bed of essence
15 and advanced filter bed of essence 16 through filtering, effectively the impurity in coolant liquid can be filtered out, when being impacted, backplate 19 can have
After the impact force by the external world of effect is kept out, carries out unloading power using the retraction of spring 18, can effectively avoid foreign impacts
Power is excessive, causes left chamber 2 or right chamber 3 damaged.
The above is only the specific application examples of the utility model, do not constitute any limit to the protection scope of the utility model
System.Any technical scheme formed by adopting equivalent transformation or equivalent replacement, all fall within the utility model rights protection scope it
It is interior.
Claims (5)
1. a kind of numerically-controlled machine tool based on coolant circulation system heat dissipation, including shell (1), left chamber (2), right chamber (3) and top plate
(4), the left chamber (2) is fixedly connected on shell (1) side, and the right chamber (3) is fixedly connected on shell (1) other side, described
Top plate (4) is fixedly connected on shell (1) upper end, it is characterised in that: and top plate (4) inner upper end is fixedly connected with high-pressure pump (7),
High-pressure pump (7) two sides are respectively arranged with inlet tube (8) and perfusion tube (9), and the left chamber (2) is internally provided with cooling tank
(12) and No.1 circulation pipe (10), the No.1 circulation pipe (10) be located at cooling tank (12) side and No.1 circulation pipe (10) with it is cold
But tank (12) pipeline connects, and the right chamber (3) is internally provided with No. two circulation pipes (11) and Rose Box (13), the Rose Box
(13) it is located at No. two circulation pipe (11) sides and No. two circulation pipes (11) connect with Rose Box (13) pipeline, the Rose Box (13)
Inside is disposed with filter layer (14), primary filter bed of essence (15) and advanced filter bed of essence (16), the Rose Box from bottom to up
(13) upper end is fixedly connected liquid back pipe (17), and the left chamber (2) and right chamber (3) side are fixedly connected with spring (18), the bullet
Spring (18) side is fixedly connected with backplate (19), and shell (1) lower end is fixedly connected pedestal (5), described right chamber (3) one end table
Face is provided with control panel (6) and control panel (6) and high-pressure pump (7) are electrically connected.
2. a kind of numerically-controlled machine tool based on coolant circulation system heat dissipation according to claim 1, it is characterised in that: described
Backplate (19) be arcuate shape backplate.
3. a kind of numerically-controlled machine tool based on coolant circulation system heat dissipation according to claim 1, it is characterised in that: described
Inlet tube (8) connect with cooling tank (12) pipeline by No.1 circulation pipe (10).
4. a kind of numerically-controlled machine tool based on coolant circulation system heat dissipation according to claim 1, it is characterised in that: described
Perfusion tube (9) connect with Rose Box (13) pipeline by No. two circulation pipes (11).
5. a kind of numerically-controlled machine tool based on coolant circulation system heat dissipation according to claim 1, it is characterised in that: described
Liquid back pipe (17) connect with cooling tank (12) pipeline through top plate (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820603200.XU CN208231423U (en) | 2018-04-26 | 2018-04-26 | A kind of numerically-controlled machine tool based on coolant circulation system heat dissipation |
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CN201820603200.XU CN208231423U (en) | 2018-04-26 | 2018-04-26 | A kind of numerically-controlled machine tool based on coolant circulation system heat dissipation |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111251065A (en) * | 2020-03-09 | 2020-06-09 | 朱爱华 | Self-circulation cooling heat abstractor for machining |
-
2018
- 2018-04-26 CN CN201820603200.XU patent/CN208231423U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111251065A (en) * | 2020-03-09 | 2020-06-09 | 朱爱华 | Self-circulation cooling heat abstractor for machining |
CN112917240A (en) * | 2020-03-09 | 2021-06-08 | 苏州普轮电子科技有限公司 | Self-circulation cooling heat dissipation device for machining |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181214 Termination date: 20190426 |