CN207629729U - Main shaft of numerical control machine tool cooling mechanism - Google Patents
Main shaft of numerical control machine tool cooling mechanism Download PDFInfo
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- CN207629729U CN207629729U CN201721747850.3U CN201721747850U CN207629729U CN 207629729 U CN207629729 U CN 207629729U CN 201721747850 U CN201721747850 U CN 201721747850U CN 207629729 U CN207629729 U CN 207629729U
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- China
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- machine tool
- numerically
- controlled machine
- fixedly connected
- tool ontology
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Abstract
The utility model discloses main shaft of numerical control machine tool cooling mechanisms, including numerically-controlled machine tool ontology and main shaft of numerical control machine tool ontology, top on the right side of the numerically-controlled machine tool ontology is fixedly connected with water pump, the water inlet of the water pump is communicated with water inlet pipe, the one end of the water inlet pipe far from water pump is connected to the bottom on the right side of numerically-controlled machine tool ontology, and the water outlet of the water pump is communicated with outlet pipe.The utility model is by being arranged being used cooperatively for water pump, water inlet pipe, outlet pipe, hose, Water outlet, support plate, motor, threaded rod, bearing, thread bush, polished rod, sliding sleeve, connecting rod, partition board and leakage hole, solving existing cooling mechanism can not Homogeneouslly-radiating, cause Spindle's heat emission uneven, shorten the service life of main shaft, the problem of reducing cooling mechanism practicability, the main shaft of numerical control machine tool cooling mechanism has can be with Homogeneouslly-radiating the advantages of, the service life for extending main shaft increases the practicability of cooling mechanism.
Description
Technical field
The utility model is related to cooling mechanism technical fields, specially main shaft of numerical control machine tool cooling mechanism.
Background technology
Numerically-controlled machine tool is the abbreviation of numerically-controlled machine tool, is a kind of automated machine tool equipped with program control system, the control
System processed can be handled logically with control coding or other symbolic instruction regulated procedures, and be decoded, with code
Digital representation, by information carrier input numerical control device, various control signals are sent out by numerical control device through calculation process, control
The action of lathe, shape and size by drawing, automatically processes part, and main shaft of numerical control machine tool is easy in work
Fever is needed to use cooling mechanism and be radiated to main shaft, still, existing cooling mechanism can not Homogeneouslly-radiating, lead to main shaft
It radiates uneven, shortens the service life of main shaft, reduce the practicability of cooling mechanism.
Utility model content
The purpose of this utility model is to provide main shaft of numerical control machine tool cooling mechanism, have can be with Homogeneouslly-radiating the advantages of,
Solve existing cooling mechanism can not Homogeneouslly-radiating, cause Spindle's heat emission uneven, shorten the service life of main shaft, reduce
The problem of cooling mechanism practicability.
For this purpose, the utility model uses following technical scheme::Main shaft of numerical control machine tool cooling mechanism, including numerically-controlled machine tool sheet
Body and main shaft of numerical control machine tool ontology, the top on the right side of the numerically-controlled machine tool ontology are fixedly connected with water pump, the water inlet of the water pump
Mouth is communicated with water inlet pipe, and the one end of the water inlet pipe far from water pump is connected to the bottom on the right side of numerically-controlled machine tool ontology, the water pump
Water outlet be communicated with outlet pipe, the one end of the outlet pipe far from water pump is through numerically-controlled machine tool ontology and extends to numerically-controlled machine tool
The inside of ontology, one end that the outlet pipe is located at numerically-controlled machine tool ontology are communicated with hose, the hose far from outlet pipe one
End is communicated with Water outlet, and the top on the left of the numerically-controlled machine tool ontology is fixedly connected with support plate, is set at the top of the support plate
It is equipped with motor, the output end of the motor is fixedly connected with threaded rod, and the right end of the threaded rod runs through numerically-controlled machine tool ontology simultaneously
The inside for extending to numerically-controlled machine tool ontology is fixedly connected with bearing, the right side of the bearing on the right side of numerically-controlled machine tool inner body wall
Top is fixedly connected, and the thread surface that the threaded rod is located at numerically-controlled machine tool body interior is connected with thread bush, the numerical control machine
Top on the left of bed inner body wall is fixedly connected with polished rod, and the right end of the polished rod and the right side of numerically-controlled machine tool inner body wall are fixed
The surface of connection, the polished rod slidably connects sliding sleeve, and the front of the sliding sleeve is fixedly connected with the back side of Water outlet, the cunning
Connecting rod is fixedly connected at the top of set, the top of the connecting rod is fixedly connected with the bottom of thread bush, the numerically-controlled machine tool
Bottom on the left of inner body wall is fixedly connected with partition board, and the right side of the partition board and the bottom on the right side of numerically-controlled machine tool inner body wall are solid
It is fixed to connect, offer leakage hole at the top of the partition board.
As supplement to above-mentioned technical proposal and perfect, the utility model further includes following technical characteristic.
The bottom of the numerically-controlled machine tool ontology is fixedly connected with non-slip mat, and the bottom of the non-slip mat is provided with anti-skid chequer.
The bottom of the motor is fixedly connected with beam, and the top of the beam and the top of support plate, which are fixed, to be connected
It connects.
The both sides on the polished rod surface are arranged with bumper, and the bumper is close to the side of numerically-controlled machine tool ontology and number
The inner wall of control machine body is fixedly connected.
The surface of the threaded rod is provided with external screw thread, and the thread bush is internally provided in compatible with external screw thread
Screw thread.
It can reach following advantageous effect using the utility model:
1, the utility model is by being arranged water pump, water inlet pipe, outlet pipe, hose, Water outlet, support plate, motor, screw thread
Bar, bearing, thread bush, polished rod, sliding sleeve, connecting rod, partition board and leakage hole are used cooperatively, solve existing cooling mechanism without
Method Homogeneouslly-radiating causes Spindle's heat emission uneven, shortens the service life of main shaft, reduces asking for cooling mechanism practicability
Topic, the main shaft of numerical control machine tool cooling mechanism have can be with Homogeneouslly-radiating the advantages of, extend the service life of main shaft, increase scattered
The practicability of heat engine structure.
2, the utility model can increase the frictional force of numerically-controlled machine tool ontology, prevent numerically-controlled machine tool by the way that non-slip mat is arranged
Ontology moves on the ground, by the way that beam is arranged, can slow down the vibrations of motor, extend the service life of motor, pass through
Bumper is set, sliding sleeve, the inner wall of anti-anti-skid sheath and numerically-controlled machine tool ontology can be protected impingement phenomenon occur, extend sliding sleeve
Service life.
Description of the drawings
FIG. 1 is a schematic structural view of the utility model.
Fig. 2 is the utility model partial structurtes left view.
Specific implementation mode
Specific embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings.
As shown in Figs. 1-2, the utility model includes numerically-controlled machine tool ontology 1 and main shaft of numerical control machine tool ontology 7, numerically-controlled machine tool sheet
The bottom of body 1 is fixedly connected with non-slip mat 18, and the bottom of non-slip mat 18 is provided with anti-skid chequer, can be with by the way that non-slip mat 18 is arranged
The frictional force for increasing numerically-controlled machine tool ontology 1, prevents numerically-controlled machine tool ontology 1 from moving on the ground, the top on 1 right side of numerically-controlled machine tool ontology
Portion is fixedly connected with water pump 2, and the water inlet of water pump 2 is communicated with water inlet pipe 3, water inlet pipe 3 one end and numerically-controlled machine tool far from water pump 2
The water outlet of the bottom connection on 1 right side of ontology, water pump 2 is communicated with outlet pipe 4, and numerical control is run through in the one end of outlet pipe 4 far from water pump 2
Machine body 1 and the inside for extending to numerically-controlled machine tool ontology 1, one end that outlet pipe 4 is located at numerically-controlled machine tool ontology 1 are communicated with hose
5, the one end of hose 5 far from outlet pipe 4 is communicated with Water outlet 6, and the top in 1 left side of numerically-controlled machine tool ontology is fixedly connected with support plate
8, the top of support plate 8 is provided with motor 9, and the bottom of motor 9 is fixedly connected with beam 19, the top of beam 19 and support
The top of plate 8 is fixedly connected, and by setting beam 19, can be slowed down the vibrations of motor 9, be extended the service life of motor 9,
The output end of motor 9 is fixedly connected with threaded rod 10, and the surface of threaded rod 10 is provided with external screw thread, the inside setting of thread bush 12
There are internal thread compatible with external screw thread, the right end of threaded rod 10 through numerically-controlled machine tool ontology 1 and to extend to numerically-controlled machine tool ontology 1
Inside be fixedly connected with bearing 11, the right side of bearing 11 is fixedly connected with the top on the right side of 1 inner wall of numerically-controlled machine tool ontology, screw thread
Bar 10 is located at the thread surface inside numerically-controlled machine tool ontology 1 and is connected with thread bush 12, the top on the left of 1 inner wall of numerically-controlled machine tool ontology
It is fixedly connected with polished rod 13, the both sides on 13 surface of polished rod are arranged with bumper 20, and bumper 20 is close to numerically-controlled machine tool ontology 1
Side is fixedly connected with the inner wall of numerically-controlled machine tool ontology 1, by the way that bumper 20 is arranged, can protect sliding sleeve 14, anti-anti-skid sheath 14
There is impingement phenomenon with the inner wall of numerically-controlled machine tool ontology 1, extends the service life of sliding sleeve 14, the right end and numerical control machine of polished rod 13
It is fixedly connected on the right side of bed 1 inner wall of ontology, the surface of polished rod 13 slidably connects sliding sleeve 14, front and the Water outlet 6 of sliding sleeve 14
The back side be fixedly connected, the top of sliding sleeve 14 is fixedly connected with connecting rod 15, the bottom at the top and thread bush 12 of connecting rod 15
It is fixedly connected, the bottom on the left of 1 inner wall of numerically-controlled machine tool ontology is fixedly connected with partition board 16, right side and the numerically-controlled machine tool sheet of partition board 16
Bottom on the right side of 1 inner wall of body is fixedly connected, and the top of partition board 16 offers leakage hole 17, by the way that water pump 2 is arranged, water inlet pipe 3, goes out
Water pipe 4, hose 5, Water outlet 6, support plate 8, motor 9, threaded rod 10, bearing 11, thread bush 12, polished rod 13, sliding sleeve 14, connection
Bar 15, partition board 16 and leakage hole 17 are used cooperatively, solve existing cooling mechanism can not Homogeneouslly-radiating, lead to Spindle's heat emission
It is uneven, the problem of shortening the service life of main shaft, reduce cooling mechanism practicability, the main shaft of numerical control machine tool cooling mechanism
Have can be with Homogeneouslly-radiating the advantages of, extends the service life of main shaft, increase the practicability of cooling mechanism.
In use, user opens water pump 2 and motor 9 by peripheral control unit, water pump 2 is by water inlet pipe 3 by numerical control machine
Water extraction inside bed ontology 1, then passed to inside Water outlet 6 by outlet pipe 4 and hose 5, water is sprayed by Water outlet 6,
Threaded rod 10 is driven to rotate by motor 9, the rotation of threaded rod 10 drives thread bush 12 to move, and the movement of thread bush 12 drives connecting rod
15 movements, the movement of connecting rod 15 drive sliding sleeve 14 to be moved on polished rod 13, and the movement of sliding sleeve 14 drives Water outlet 6 to move, by going out
The movement of head 6 carries out Homogeneouslly-radiating to main shaft of numerical control machine tool ontology 7, and the water after heat dissipation flows into numerically-controlled machine tool sheet by leakage hole 17
The bottom of 1 inner cavity of body.
In summary:The main shaft of numerical control machine tool cooling mechanism passes through water pump 2, water inlet pipe 3, outlet pipe 4, hose 5, water outlet
First 6, support plate 8, motor 9, threaded rod 10, bearing 11, thread bush 12, polished rod 13, sliding sleeve 14, connecting rod 15, partition board 16 and leakage
The cooperation in water hole 17, solve existing cooling mechanism can not Homogeneouslly-radiating, cause Spindle's heat emission uneven, shorten main shaft
Service life, the problem of reducing cooling mechanism practicability.
Claims (5)
1. main shaft of numerical control machine tool cooling mechanism, including numerically-controlled machine tool ontology(1)With main shaft of numerical control machine tool ontology(7), feature exists
In:The numerically-controlled machine tool ontology(1)Water pump is fixedly connected at the top of right side(2), the water pump(2)Water inlet be communicated with into
Water pipe(3), the water inlet pipe(3)Far from water pump(2)One end and numerically-controlled machine tool ontology(1)The bottom on right side is connected to, the water
Pump(2)Water outlet be communicated with outlet pipe(4), the outlet pipe(4)Far from water pump(2)One end run through numerically-controlled machine tool ontology
(1)And extend to numerically-controlled machine tool ontology(1)Inside, the outlet pipe(4)Positioned at numerically-controlled machine tool ontology(1)One end be communicated with
Hose(5), the hose(5)Far from outlet pipe(4)One end be communicated with Water outlet(6), the numerically-controlled machine tool ontology(1)Left side
Top be fixedly connected with support plate(8), the support plate(8)Top be provided with motor(9), the motor(9)Output
End is fixedly connected with threaded rod(10), the threaded rod(10)Right end run through numerically-controlled machine tool ontology(1)And extend to numerical control machine
Bed ontology(1)Inside be fixedly connected with bearing(11), the bearing(11)Right side and numerically-controlled machine tool ontology(1)On the right side of inner wall
Top be fixedly connected, the threaded rod(10)Positioned at numerically-controlled machine tool ontology(1)Internal thread surface is connected with thread bush
(12), the numerically-controlled machine tool ontology(1)Top on the left of inner wall is fixedly connected with polished rod(13), the polished rod(13)Right end with
Numerically-controlled machine tool ontology(1)It is fixedly connected on the right side of inner wall, the polished rod(13)Surface slidably connect sliding sleeve(14), the cunning
Set(14)Front and Water outlet(6)The back side be fixedly connected, the sliding sleeve(14)Top be fixedly connected with connecting rod(15),
The connecting rod(15)Top and thread bush(12)Bottom be fixedly connected, the numerically-controlled machine tool ontology(1)On the left of inner wall
Bottom is fixedly connected with partition board(16), the partition board(16)Right side and numerically-controlled machine tool ontology(1)Bottom on the right side of inner wall is fixed
Connection, the partition board(16)Top offer leakage hole(17).
2. main shaft of numerical control machine tool cooling mechanism according to claim 1, it is characterised in that:The numerically-controlled machine tool ontology(1)
Bottom be fixedly connected with non-slip mat(18), the non-slip mat(18)Bottom be provided with anti-skid chequer.
3. main shaft of numerical control machine tool cooling mechanism according to claim 1, it is characterised in that:The motor(9)Bottom it is solid
Surely it is connected with beam(19), the beam(19)Top and support plate(8)Top be fixedly connected.
4. main shaft of numerical control machine tool cooling mechanism according to claim 1, it is characterised in that:The polished rod(13)The two of surface
Side is arranged with bumper(20), the bumper(20)Close to numerically-controlled machine tool ontology(1)Side and numerically-controlled machine tool ontology(1)
Inner wall be fixedly connected.
5. main shaft of numerical control machine tool cooling mechanism according to claim 1, it is characterised in that:The threaded rod(10)Surface
It is provided with external screw thread, the thread bush(12)Be internally provided with internal thread compatible with external screw thread.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721747850.3U CN207629729U (en) | 2017-12-14 | 2017-12-14 | Main shaft of numerical control machine tool cooling mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721747850.3U CN207629729U (en) | 2017-12-14 | 2017-12-14 | Main shaft of numerical control machine tool cooling mechanism |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207629729U true CN207629729U (en) | 2018-07-20 |
Family
ID=62863026
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721747850.3U Expired - Fee Related CN207629729U (en) | 2017-12-14 | 2017-12-14 | Main shaft of numerical control machine tool cooling mechanism |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207629729U (en) |
-
2017
- 2017-12-14 CN CN201721747850.3U patent/CN207629729U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180720 Termination date: 20181214 |
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CF01 | Termination of patent right due to non-payment of annual fee |