CN105174696B - Quartz glass system cuts or polish jade with an emery wheel machine - Google Patents

Abstract

The present invention relates to a kind of quartz glass systems to cut or polish jade with an emery wheel machine, is related to machinery equipment field, main purpose is that stone roller machine processed is enable to prepare large-sized quartz glass.The technical solution mainly used are as follows: quartz glass system cuts or polish jade with an emery wheel machine, including pedestal, lifting seat, elevating mechanism and main shaft.Elevating mechanism, on the base, the output end of the elevating mechanism is connect with the lifting seat for setting, to drive the lifting seat to go up and down；Main shaft is rotationally vertically arranged on the lifting seat, and the top of the main shaft is equipped with the interconnecting piece for installing the deposition substrate of quartz glass；Wherein, the interconnecting piece is placed in the top of the quartz glass system stone roller machine.

Description

Quartz glass system cuts or polish jade with an emery wheel machine

Technical field

The present invention relates to mechanical equipment technical fields, cut or polish jade with an emery wheel machine more particularly to a kind of quartz glass system.

Background technique

Oxyhydrogen flame can be used in quartz glass or plasma is heat source, and crystal powder can be used on quartz substrate surface point in raw material Cloth melting is prepared；Or use (the usually SiCl containing silicon precursor₄) SiO of the raw material through hydrolysis or oxidation reaction generation₂Nanometer Particle is prepared in quartz substrate surface depositing molten.It is the key that prepare above-mentioned quartz glass to set that quartz glass system, which cuts or polish jade with an emery wheel machine, Standby, structure directly affects the size, performance and yield rate of quartz glass products.

Quartz glass has special spectral transmission performance, and thermal expansion coefficient is low, high temperature resistant, resistance to damage from laser, resistance to ray It irradiates, is resistant to chemical etching, being led in solar energy and semiconductor industry, super large-scale integration photoetching, laser engineering, aerospace industry etc. Domain all has irreplaceable application advantage.With the continuous improvement that each field optical system requires quartz glass size, and And by the application of large size product coring, silica glass optical uniformity is helped to improve, therefore develop large scale quartz glass Demand increase severely.

Disclose a kind of synthetic quartz glass system stone roller machine in the prior art, it be from top to bottom disposed with driving motor, Spindle box, column and pedestal.It hangs down in column and is equipped with ball-screw, the top of the ball-screw is connect with spindle box, and bottom end is solid Surely there is bearing block.It is arranged with lifting seat on ball-screw, is provided with main shaft and spindle motor on lifting seat.Spindle motor and main shaft It is drivingly connected, is rotated with driving spindle.The interconnecting piece for installing outside deposition substrate, synthetic quartz glass are provided on main shaft Melting process carry out on the deposition substrate.

During stating technical solution in realization, at least there are the following problems in the prior art for inventor's discovery: existing The column of lump maker can generate constraint to the size for the deposition substrate being connected on main shaft, since the size of deposition substrate is by column Limitation so that the glass diameter that deposition substrate can be melting into shape is also limited, so that large-sized quartz glass can not be prepared.

Summary of the invention

In view of this, the present invention provides a kind of quartz glass system stone roller machine, main purpose is that stone roller machine processed is enable to prepare Large-sized quartz glass.

In order to achieve the above objectives, present invention generally provides following technical solutions:

The embodiment of the present invention provides a kind of quartz glass system stone roller machine, comprising:

Pedestal；

Lifting seat；

Elevating mechanism, on the base, the output end of the elevating mechanism is connect with the lifting seat for setting, with driving The lifting seat lifting；

Main shaft is rotationally vertically arranged on the lifting seat, and the top of the main shaft is equipped with interconnecting piece, the connection Portion prepares the deposition substrate of quartz glass for installation；

Wherein, the interconnecting piece is placed in the top of the quartz glass system stone roller machine.

The object of the invention to solve the technical problems also can be used following technical measures and further realize.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, wherein the elevating mechanism includes:

Elevating screw is liftably vertically arranged on the base, and the elevating screw is as the elevating mechanism Output end；

Feed screw nut is set on the elevating screw, and is connect with the outer wall thread of the elevating screw, the lead screw Nut is rotatably arranged on the base, and the feed screw nut includes rotary drive input；

Lifting power plant, output end and the rotary drive input are drivingly connected.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, wherein

The pedestal includes pedestal and the transmission case that is arranged on the pedestal, and the transmission case has inner cavity；

The elevating screw passes through the transmission case；

The upper cavity wall of the inner cavity is equipped with first shaft hole compatible with the upper end of the feed screw nut, the inner cavity Lower cavity wall is equipped with the second axis hole compatible with the lower end of the feed screw nut；

The feed screw nut is placed in inside the transmission case, and the upper end of the feed screw nut is inserted into the first shaft hole, The lower end of the feed screw nut is inserted into second axis hole；

The side wall of the feed screw nut lower end is recessed radially inward forms the first chuck, first chuck and described the The upper surface of two axis holes is rotatably assorted；

The external annulus of the feed screw nut between the ends, which is equipped with, is drivingly connected structure, the drive connection structure conduct The rotary drive input.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, further includes:

Thrust ball bearing is arranged in the transmission case, the inner ring of the thrust ball bearing as second axis hole, Upper surface of the end face of ring as second axis hole on the thrust ball bearing.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, wherein

The lifting power plant includes:

Harmonic wave speed reducing machine is arranged on the transmission case, and the harmonic wave speed reducing machine includes first input end, the second input terminal And output end；Output end of the output end of the harmonic wave speed reducing machine as the lifting power plant；

First lifting motor, output end and the first input end are drivingly connected；

Second lifting motor, output end and second input terminal are drivingly connected.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, wherein

The output end of the harmonic wave speed reducing machine is connected with output shaft；

Driving gear is fixedly equipped on the output shaft；

The drive connection structure is gear structure；

The output end of the lifting power plant is drivingly connected by the driving gear and the drive connection structure.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, further includes:

Guide post, the transmission case are equipped with perforative pilot hole, and the guide post is vertically inserted into the pilot hole, The upper end of the guide post is connect with the lifting seat.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, wherein

The quantity of the guide post be it is multiple, multiple guide posts are uniformly distributed around the elevating screw.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, further includes:

Linear guide is vertically arranged in the transmission case, and the inner ring of the linear guide is as the pilot hole.

Quartz glass system above-mentioned cuts or polish jade with an emery wheel machine, wherein

Both the outer wall of the elevating screw and the outer wall of the guide post are between the lifting seat and the transmission case Part be coated with aluminium foil cloth.

By above-mentioned technical proposal, quartz glass system stone roller machine of the present invention is at least had the advantages that

In technical solution provided in an embodiment of the present invention, since interconnecting piece is placed in the top of quartz glass system stone roller machine of the present invention End, when the connection of the deposition substrate of the interconnecting piece and quartz glass, which is also placed in quartz glass system stone roller machine of the present invention Top, compared with the existing technology, quartz glass system of the present invention stone roller machine due to there is no the limitation of the components such as column, deposition substrate The infinity that outer dimension can theoretically be done also does not limit theoretically so as to the size for the quartz glass prepared System, and then the purpose of quartz glass system stone roller machine preparation large scale quartz glass through the invention may be implemented.

The above description is only an overview of the technical scheme of the present invention, in order to better understand the technical means of the present invention, And can be implemented in accordance with the contents of the specification, the following is a detailed description of the preferred embodiments of the present invention and the accompanying drawings.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram for quartz glass system stone roller machine that one embodiment of the invention provides；

Fig. 2 is a kind of structural schematic diagram of the transmission case for quartz glass system stone roller machine that one embodiment of the invention provides；

Fig. 3 is the enlarged structure schematic diagram in Fig. 2 at A；

Fig. 4 be one embodiment of the invention provide a kind of quartz glass system stone roller machine lifting seat and first slide it is opposite Location diagram；

Fig. 5 is a kind of part of the lubricating system of the transmission case for quartz glass system stone roller machine that one embodiment of the invention provides Structural schematic diagram.

Specific embodiment

It is of the invention to reach the technical means and efficacy that predetermined goal of the invention is taken further to illustrate, below in conjunction with Specific embodiment, structure, feature and its effect applied according to the present invention is described in detail such as in attached drawing and preferred embodiment Afterwards.In the following description, what different " embodiment " or " embodiment " referred to is not necessarily the same embodiment.In addition, one or more Special characteristic, structure or feature in a embodiment can be combined by any suitable form.

As shown in Figure 1, a kind of quartz glass system that one embodiment of the present of invention proposes cuts or polish jade with an emery wheel machine, including pedestal 1, lifting seat 8, elevating mechanism and main shaft 17.Elevating mechanism is arranged on pedestal 1, and the output end of elevating mechanism is connect with lifting seat 8, with driving Lifting seat 8 is gone up and down.Main shaft 17 is rotationally vertically arranged on lifting seat 8, and the top of main shaft 17 is equipped with for installing quartzy glass The interconnecting piece 18 of the deposition substrate of glass.The interconnecting piece 18 is placed in the top of quartz glass system stone roller machine.

What needs to be explained here is that: above-mentioned interconnecting piece 18 can be chuck etc., be used to prepare the deposition base of quartz glass Bottom may be mounted on the chuck.

In technical solution provided by the above embodiment, since interconnecting piece 18 is placed in the top of quartz glass system stone roller machine of the present invention End, when the interconnecting piece 18 is connect with the deposition substrate of quartz glass, which is also placed in quartz glass system stone roller of the present invention The top of machine, compared with the existing technology, quartz glass system stone roller machine of the present invention is not due to having the limitation of the components such as column, deposition substrate The infinity that can theoretically do of outer dimension, do not have theoretically so as to the size for the quartz glass prepared yet Limitation, and then the purpose of quartz glass system stone roller machine preparation large scale quartz glass through the invention may be implemented.

Specifically when implementing, as shown in Figures 2 and 3, above-mentioned elevating mechanism may include elevating screw 5, feed screw nut 23 and lifting power plant.Elevating screw 5 is liftably vertically arranged on pedestal 1.The elevating screw 5 is as elevating mechanism Output end is connect with lifting seat 8.Preferably, the top of elevating screw 5 connect (as shown in Figure 1) with lifting seat 8.Feed screw nut 23 It is set on elevating screw 5, and is connect with the outer wall thread of elevating screw 5.Feed screw nut 23 is rotatably arranged in pedestal 1 On, feed screw nut 23 includes rotary drive input.The output end and rotary drive input of lifting power plant are drivingly connected. Wherein, elevating screw 5 and feed screw nut 23 form screw pair.Since feed screw nut 23 is rotatably arranged on pedestal 1, When lifting power plant driving feed screw nut 23 rotates, 5 elevating movement of elevating screw, and then drive 8 one lifting of lifting seat Movement.

Certainly, in an alternative embodiment, elevating mechanism above-mentioned can not also include elevating screw 5, lead screw spiral shell Mother 23 and lifting power plant.In the alternative embodiment, elevating mechanism above-mentioned may include driving cylinder, which can Think hydraulic cylinder or pneumatic cylinder etc..The output shaft of driving cylinder is connect with lifting seat 8, to drive lifting seat 8 to go up and down.Wherein, it goes up and down The specific structure of mechanism can be arranged according to the actual demand of user, as long as guaranteeing that elevating mechanism can drive lifting seat 8 to go up and down Displacement.

Specifically when implementing, as shown in Figures 2 and 3, pedestal 1 above-mentioned may include pedestal 102 and transmission case 101.It passes Dynamic case 101 is arranged on pedestal 102.Transmission case 101 has inner cavity.Feed screw nut 23 is placed in inside transmission case 101, elevating screw 5 pass through the transmission case 101.Pedestal 102 has the lifting space gone up and down for elevating screw 5.In one embodiment, feed screw nut 23 can generally single component, the side wall of 23 lower end of feed screw nut is recessed radially inward to be formed the first chuck and (does not mark in figure Show).The upper cavity wall of inner cavity is equipped with first shaft hole compatible with the upper end of feed screw nut 23 (not indicating in figure).Under inner cavity Cavity wall is equipped with second axis hole compatible with the lower end of feed screw nut 23 (not indicating in figure).The upper end of feed screw nut 23 is inserted into In first shaft hole, the lower end of feed screw nut 23 is inserted into the second axis hole.First chuck and the upper surface of the second axis hole are rotatably assorted. The external annulus of feed screw nut 23 between the ends, which is equipped with, is drivingly connected structure, and the drive connection structure is dynamic as rotation above-mentioned Power input terminal.Wherein, first shaft hole and the second axis hole can guarantee being freely rotated for feed screw nut 23, and can also be to lead screw Nut 23 provides stable radial support.The upper surface of second axis hole provides axial branch to feed screw nut 23 by the first chuck Support.

What needs to be explained here is that: above-mentioned pedestal 102 can be made of the material of the heavier-weights such as cement, steel, base The weight of seat 102 is larger, and stable support can be provided for whole equipment.Cement substrate can be embedded in ground, cement base The guide cylinder (not indicating in figure) being inserted into for elevating screw 5 is equipped in seat, which can be oriented to elevating screw 5, to mention The lifting precision of high elevating screw 5.

Further, in order to reduce feed screw nut 23 when rotated, between the first chuck and the upper surface of the second axis hole The quartz glass system stone roller machine of frictional resistance, the embodiment of the present invention can also include thrust ball bearing 231.The thrust ball bearing 231 It is arranged in transmission case 101, the inner ring of thrust ball bearing 231 is as the second axis hole above-mentioned, the end of ring on thrust ball bearing 231 Upper surface of the face as the second axis hole.Pass through the thrust ball bearing 231 of setting, when feed screw nut 23 rotates, feed screw nut 23 The upper ring of thrust ball bearing 231 is driven to rotate together by the first chuck, so as to will be on feed screw nut 23 and the second axis hole Sliding friction between end face is converted into the rolling friction of thrust ball bearing 231, to reduce frictional resistance.

Thrust ball bearing 231 is using the design that can bear thrust load when running at high speed, by the raceway ditch rolled with ball Washer-shaped lasso constitute.Thrust ball bearing 231 can bear axial load, to provide support to feed screw nut 23.

As depicted in figs. 1 and 2, lifting power plant above-mentioned may include harmonic wave speed reducing machine 4,2 and of the first lifting motor Second lifting motor 3.Harmonic wave speed reducing machine 4 is arranged on transmission case 101, and harmonic wave speed reducing machine 4 includes first input end, the second input End and output end.Output end of the output end of harmonic wave speed reducing machine 4 as aforementioned lifting power plant.The output of first lifting motor 2 End is drivingly connected with first input end.The output end of second lifting motor 3 and the second input terminal are drivingly connected.Wherein, harmonic wave subtracts The specific structure of fast machine 4 is common technology in the prior art, can according to need and chooses in the prior art, no longer superfluous herein It states.

Above-mentioned harmonic wave speed reducing machine 4 can be Dual-speed-ratio harmonic wave speed reducing machine, the first lifting motor 2 and the second lifting motor 3 The fast lifting of lifting seat 8 is controlled by the Dual-speed-ratio harmonic wave speed reducing machine respectively and is gone up and down at a slow speed.Show in a specific application In example, the quick deceleration ratio of the harmonic wave speed reducing machine 4 is 20, and reduction ratio is 100,000 at a slow speed.

Above-mentioned the first lifting motor 2 and the second lifting motor 3 can be set on harmonic wave speed reducing machine 4, can also be independent It is arranged in side, can be specifically arranged according to the actual demand of user, as long as guarantees the output end and first of the first lifting motor 2 Input terminal is drivingly connected, and the output end of the second lifting motor 3 and the second input terminal are drivingly connected.

Above-mentioned the first lifting motor 2 and the second lifting motor 3 can be servo motor, user can by PLC and Industrial personal computer controls servo motor, can flexibly work out the running track of deposition base.It wherein, can on the first lifting motor 2 With band band-type brake, to carry out emergency stop control.

As shown in Fig. 2, the output end of harmonic wave speed reducing machine 4 is connected with output shaft.It is fixedly equipped on the output shaft actively Gear 21.Drive connection structure on aforementioned feed screw nut 23 is gear structure.The output end of harmonic wave speed reducing machine 4 passes through the active Gear 21 and drive connection structure are drivingly connected.Wherein, it is drivingly connected using gear, transmission accuracy is higher.

As shown in Figures 2 and 3, the quartz glass system stone roller machine of the embodiment of the present invention may include rotary encoder 24.Rotation Encoder 24 is arranged on transmission case 101.The output end of harmonic wave speed reducing machine 4 and the input shaft of rotary encoder 24 are drivingly connected. Because of lifting of the harmonic wave speed reducing machine 4 also as the power input device of elevating mechanism, by rotary encoder 24 to elevating mechanism Position measures positioning.

Rotary encoder 24 can be achieved on the device of high precision velocity and displacement measurement, and photoelectric rotary coder 24 is logical Photoelectric conversion is crossed, the mechanical quantities such as the angular displacement of output shaft, angular speed can be converted into corresponding electric pulse with digital output (REP).24 precision of rotary encoder is high, it is small in size, be easy to seal, long service life in industrial settings.Rotary encoder 24 Specific structure be common technology in the prior art, can according to need and chosen in the prior art, it is no longer superfluous herein It states.

Specifically when implementing, as shown in Figures 2 and 3, can fixedly it be nested on the input shaft of above-mentioned rotary encoder 24 There is the first ranging gear 262.Driving gear 21 and the first ranging gear 262 on harmonic wave speed reducing machine 4 are drivingly connected.

From the description above, as shown in Figures 2 and 3, the quartz glass system stone roller machine of the embodiment of the present invention may include first Transmission shaft 25, the first transmission shaft 25 are rotatably arranged on transmission case 101.It is respectively fixedly equipped on first transmission shaft 25 First transmission gear 222 and the second ranging gear 261.262 engaged transmission of second ranging gear 261 and the first ranging gear.The One transmission gear 222 is placed between driving gear 21 and gear structure, and driving gear 21 and the transmission of the first transmission gear 222 connect It connects, the first transmission gear 222 and gear structure engaged transmission.

Further, as shown in Figures 2 and 3, the quartz glass system stone roller machine of above-described embodiment can also include the second transmission Axis (does not indicate) in figure, and second driving shaft is rotatably arranged on transmission case 101.Is fixedly equipped on second driving shaft Two transmission gears 221, the second transmission gear 221 are placed between the first transmission gear 222 and driving gear 21.Driving gear 21 with Second transmission gear, 221 engaged transmission, 222 engaged transmission of the second transmission gear 221 and the first transmission gear.Wherein, on the one hand, Driving gear 21 can pass sequentially through the second transmission gear 221, the first transmission gear 222, the second ranging gear 261 and first and survey Rotary encoder 24 is driven to rotate away from gear 262.On the other hand, driving gear 21 can pass sequentially through the second transmission gear 221, First transmission gear 222 and gear structure driving feed screw nut 23 rotate.In the present embodiment, it is driven, is passed by gear Dynamic precision is higher.

As depicted in figs. 1 and 2, the quartz glass system stone roller machine of the embodiment of the present invention can also include guide post 6.Transmission case 101 are equipped with perforative pilot hole (not indicating in figure).Guide post 6 is vertically inserted into pilot hole, the upper end of guide post 6 and liter Seat 8 is dropped to connect.In the present embodiment, guide post 6 can be oriented to for the lifting of lifting seat 8, to improve the lifting essence of lifting seat 8 Degree.

Further, the quartz glass system stone roller machine of the embodiment of the present invention can also include linear guide, which sets It sets in transmission case 101, the inner ring of linear guide can be used as pilot hole above-mentioned.Guide post 6 is inserted into the inner ring of linear guide, And it can relative rectilinear lifting rail.Wherein, the specific structure of linear guide is common technology in the prior art, can be according to need It to be chosen in the prior art, details are not described herein.

What needs to be explained here is that: as shown in figure 5, the quantity of aforementioned guide post 6 be can be multiple, multiple guide post 6 It is uniformly distributed around elevating screw 5.Multiple guide post 6 is oriented to jointly for lifting seat 8, and guiding accuracy is preferable.

As shown in Figure 1, the outer wall of aforementioned elevating screw 5 and both the outer wall of guide post 6 are in lifting seat 8 and transmission case 101 Between part be coated with aluminium foil cloth 7.Sleeve can be made in aluminium foil cloth 7 by the way of sewing, to be set in lifting silk On thick stick 5 and guide post 6, with fire prevention, dust-proof technical effect, it is possible to reduce equipment fault extends service life of equipment, and should 7 shield of aluminium foil cloth is easily changed.

Specifically when implementing, quartz glass system of the invention stone roller machine can also include automatic lubricant pump as shown in Figure 1 and Figure 5 19 and separator 27.The delivery outlet of automatic lubricant pump 19 is connect with the input port of separator 27, and being used for will be in automatic lubricant pump 19 Grease pump to separator 27 inside.Lubricating oil is transmitted separately to elevating screw by oil pipe 20 by the delivery outlet of separator 27 5 and guide post 6.The automatic lubricant pump 19 can be by separator 27 to lead screw 5 and the intermittent automatic oiling of guide post 6, operation Simply, manual operation, high lubricating effect are eliminated.

The embodiment of the present invention can provide following embodiment: spindle box 12 as shown in Figure 1 can be arranged directly on liter It drops on seat 8, worm-gear speed reducer (not indicating in figure) and rotating electric machine 13 can be set on the spindle box 12.The worm and gear Speed reducer includes input terminal and output end, and the output end of rotating electric machine 13 and the input terminal of worm-gear speed reducer are drivingly connected, The output end and main shaft 17 of worm-gear speed reducer are drivingly connected, with the rotation of driving spindle 17.Wherein, it can be set on spindle box 12 It is equipped with oil filler point 15, oil leak hole 16 and oil-level gauge 14, in order to be lubricated to 12 internal mechanism of spindle box.

The quartz glass system stone roller machine of the embodiment of the present invention can also be slided including first slide 91, first driving device, second Seat 92 and the second driving device.Spindle box 12 may be provided in second slide 92.First slide 91 is arranged on lifting seat 8.The The output end and first slide 91 of one driving device are drivingly connected, and first driving device can drive first slide 91 in lifting seat It moves along a straight line on 8 along the first track.Second slide 92 is arranged in first slide 91, the output end of the second driving device and second Slide 92 is drivingly connected, and the second driving device can drive second slide 92 to transport in first slide 91 along the second track straight line It is dynamic.The direction of second track is vertical with the direction of the first track.Main shaft 17 is rotationally vertically arranged in second slide 92.

In the above-described embodiments, the direction that can define the first track is X-direction, and the direction of the second track is Y-axis side To the direction of lifting is Z-direction.X-direction, Y direction and Z-direction three are mutually perpendicular to.

Since first driving device can drive first slide 91 to move along a straight line on lifting seat 8 along the first track, second Driving device can drive second slide 92 to move along a straight line in first slide 91 along the second track, and because main shaft 17 can be rotated Ground is vertically arranged in second slide 92, so that main shaft 17 not only can be by 8 elevating movement of lifting seat, but also can be slided by first Seat 91 moves along a straight line along the first track, and can be moved along a straight line by second slide 92 along the second track, and can rotate, in turn It move the deposition substrate connecting with main shaft 17 can along X-Y-Z axis, and rotate about the z axis, the depositional plane of deposition substrate expands, SiO₂ More evenly, temperature field is also more evenly distributed distribution of particles, so that the optical homogeneity for the quartz glass products prepared is preferable.Its In, the optical homogeneity of the quartz glass of quartz glass system stone roller machine synthesis is by 1 × 10 through the embodiment of the present invention^-5Be increased to (2~ 5)×10^-6。

Specifically when implementing, as shown in figure 4, first driving device above-mentioned may include the first translation lead screw 28 and first Translation motor 10.First translation lead screw 28 is rotatably arranged on lifting seat 8.First translation motor 10 is arranged in lifting seat 8 On.The output end of first translation motor 10 and the first translation lead screw 28 are drivingly connected, for driving the first translation lead screw 28 to rotate. First slide 91 above-mentioned is set on the outer wall of the first translation lead screw 28, and is threadedly coupled with the first translation lead screw 28, first Translation lead screw 28 forms the first track above-mentioned.In the present embodiment, first slide 91 and the first translation lead screw 28 cooperate, And constitute feed screw nut auxiliary structure.When first translation motor 10 driving the first translation lead screw 28 rotates, first slide 91 is along first It is mobile to translate lead screw 28.

Certainly, in an alternative embodiment, first driving device above-mentioned can not also include the first translation lead screw 28 and first translation motor 10.In the alternative embodiment, first driving device may include the first driving cylinder, the first driving Cylinder can be hydraulic cylinder or pneumatic cylinder etc..The output shaft of first driving cylinder is connect with first slide 91, to drive first slide 91 It moves along a straight line along the first track, which is the telescopic direction of the output shaft of the first driving cylinder.Wherein, first driving device Specific structure can be arranged according to the actual demand of user, as long as guarantee first driving device first slide 91 can be driven to exist It moves along a straight line on lifting seat 8 along the first track.

Need exist for supplement: as shown in figure 4, the quartz glass system stone roller machine of the embodiment of the present invention can also include first Line slide rail 30.The first straight line sliding rail 30 is arranged on lifting seat 8, the side in the direction of first straight line sliding rail 30 and the first track To parallel.First slide 91 is connect with the sliding block of first straight line sliding rail 30.The first straight line sliding rail 30 can assist the first translation Lead screw 28 provides support and guiding to first slide 91, keeps first slide 91 operably more steady.Preferably, first is straight The quantity of line sliding rail 30 can be even number, which is symmetrical arranged about the first translation lead screw 28, Further to provide support and guiding to first slide 91.

In order to realize that aforementioned first translation lead screw 28 is rotatably arranged in the purpose on lifting seat 8, the embodiment of the present invention There is provided following embodiment: lifting seat 8 is equipped with first bearing seat (not indicating in figure).It inserts one end of first translation lead screw 28 Enter in the axis hole of first bearing seat.First translation motor 10 includes the first output shaft, and the first output shaft is as the first translation motor 10 output end.The other end of first translation lead screw 28 passes through shaft coupling and the first output axis connection.In the present embodiment, first Bearing block can provide support for the first translation lead screw 28, and 28 OQ t seat 8 of the first translation lead screw is enable to rotate.Wherein, The specific structure of first bearing seat is common technology in the prior art, can according to need and is chosen in the prior art, Details are not described herein.

Specifically when implementing, as shown in figure 4, the second driving device above-mentioned may include the second translation lead screw 29 and second Translation motor 11.Second translation lead screw 29 is rotatably arranged in first slide 91.Second translation motor 11 is arranged first On slide 91.The output end of second translation motor 11 and the second translation lead screw 29 are drivingly connected, for driving the second translation lead screw 29 rotations.Second slide 92 is set on the outer wall of the second translation lead screw 29, and is threadedly coupled with the second translation lead screw 29.Specifically Ground, second slide 92 are set on the second translation lead screw 29 by nut seat 32, and are threadedly coupled with the second translation lead screw 29.The Two translation lead screws 29 form the second track above-mentioned.In the present embodiment, second slide 92 and the second translation 29 phase interworking of lead screw It closes, and constitutes feed screw nut auxiliary structure.When second translation motor 11 driving the second translation lead screw 29 rotates, second slide 92 is along the Two translation lead screws 29 are mobile.

Certainly, in an alternative embodiment, the second driving device above-mentioned can not also include the second translation lead screw 29 and second translation motor 11.In the alternative embodiment, the second driving device may include the second driving cylinder, the second driving Cylinder can be hydraulic cylinder or pneumatic cylinder etc..The output shaft of second driving cylinder is connect with second slide 92, to drive second slide 92 It moves along a straight line along the second track, which is the telescopic direction of the output shaft of the second driving cylinder.Wherein, the second driving device Specific structure can be arranged according to the actual demand of user, as long as guarantee the second driving device second slide 92 can be driven to exist It moves along a straight line on lifting seat 8 along the second track.

Need exist for supplement: as shown in figure 4, the quartz glass system stone roller machine of the embodiment of the present invention can also include second Line slide rail 31.The second straight line sliding rail 31 is arranged in first slide 91, the direction of second straight line sliding rail 31 and the second track Direction it is parallel.Second slide 92 is connect with the sliding block of second straight line sliding rail 31.The second straight line sliding rail 31 can assist second It translates lead screw 29 and provides support and guiding to second slide 92, keep second slide 92 operably more steady.Preferably, The quantity of two line slide rails 31 can be even number, which symmetrically sets about the second translation lead screw 29 It sets, to provide support and guiding to second slide 92 into two steps.

In order to realize that aforementioned second translation lead screw 29 is rotatably arranged in the purpose in first slide 91, the present invention is implemented Example provides following embodiment: as shown in figure 4, first slide 91 is equipped with second bearing seat 33.Second translation lead screw 29 One end is inserted into the axis hole of second bearing seat 33.Second translation motor 11 includes the second output shaft, and the second output shaft is as second The output end of translation motor 11.The other end of second translation lead screw 29 passes through shaft coupling and the second output axis connection.In this implementation In example, second bearing seat 33 can provide support for the second translation lead screw 29, keep the second translation lead screw 29 opposite first sliding Seat 91 rotates.Wherein, the specific structure of second bearing seat 33 is common technology in the prior art, be can according to need existing It is chosen in technology, details are not described herein.

The above described is only a preferred embodiment of the present invention, be not intended to limit the present invention in any form, according to According to technical spirit any simple modification, equivalent change and modification to the above embodiments of the invention, this hair is still fallen within In the range of bright technical solution.

Claims (9)

1. a kind of quartz glass system cuts or polish jade with an emery wheel machine characterized by comprising

Pedestal, including pedestal and transmission case；

Lifting seat；

Elevating mechanism, on the base, the output end of the elevating mechanism is connect with the lifting seat for setting, described in driving Lifting seat lifting；

Main shaft is rotationally vertically arranged on the lifting seat, and the top of the main shaft is equipped with interconnecting piece, and the interconnecting piece is used The deposition substrate of quartz glass is prepared in installation；

Wherein, the interconnecting piece is placed in the top of the quartz glass system stone roller machine.

2. quartz glass system as described in claim 1 cuts or polish jade with an emery wheel machine, which is characterized in that the elevating mechanism includes:

Elevating screw is liftably vertically arranged on the base, output of the elevating screw as the elevating mechanism End；

Feed screw nut is set on the elevating screw, and is connect with the outer wall thread of the elevating screw, the feed screw nut It is rotatably arranged on the base, the feed screw nut includes rotary drive input；

Lifting power plant, output end and the rotary drive input are drivingly connected.

3. quartz glass system as claimed in claim 2 cuts or polish jade with an emery wheel machine, which is characterized in that

The pedestal includes pedestal and the transmission case that is arranged on the pedestal, and the transmission case has inner cavity；

The elevating screw passes through the transmission case；

The upper cavity wall of the inner cavity is equipped with first shaft hole compatible with the upper end of the feed screw nut, the cavity of resorption of the inner cavity Wall is equipped with the second axis hole compatible with the lower end of the feed screw nut；

The feed screw nut is placed in inside the transmission case, and the upper end of the feed screw nut is inserted into the first shaft hole, described The lower end of feed screw nut is inserted into second axis hole；

The side wall of the feed screw nut lower end is recessed radially inward forms the first chuck, first chuck and second axis The upper surface in hole is rotatably assorted；

The external annulus of the feed screw nut between the ends, which is equipped with, is drivingly connected structure, described in the drive connection structure conduct Rotary drive input.

4. quartz glass system as claimed in claim 3 cuts or polish jade with an emery wheel machine, which is characterized in that further include:

Thrust ball bearing is arranged in the transmission case, and the inner ring of the thrust ball bearing is described as second axis hole Upper surface of the end face of ring as second axis hole on thrust ball bearing.

5. quartz glass system as described in claim 3 or 4 cuts or polish jade with an emery wheel machine, which is characterized in that

The lifting power plant includes:

Harmonic wave speed reducing machine is arranged on the transmission case, and the harmonic wave speed reducing machine includes first input end, the second input terminal and defeated Outlet；Output end of the output end of the harmonic wave speed reducing machine as the lifting power plant；

First lifting motor, output end and the first input end are drivingly connected；

Second lifting motor, output end and second input terminal are drivingly connected.

6. quartz glass system as claimed in claim 5 cuts or polish jade with an emery wheel machine, which is characterized in that

The output end of the harmonic wave speed reducing machine is connected with output shaft；

Driving gear is fixedly equipped on the output shaft；

The drive connection structure is gear structure；

The output end of the lifting power plant is drivingly connected by the driving gear and the drive connection structure.

7. the quartz glass system as described in claim 3 or 4 or 6 cuts or polish jade with an emery wheel machine, which is characterized in that further include:

Guide post, the transmission case are equipped with perforative pilot hole, and the guide post is vertically inserted into the pilot hole, described The upper end of guide post is connect with the lifting seat.

8. quartz glass system as claimed in claim 7 cuts or polish jade with an emery wheel machine, which is characterized in that

The quantity of the guide post be it is multiple, multiple guide posts are uniformly distributed around the elevating screw.

9. quartz glass system as claimed in claim 7 cuts or polish jade with an emery wheel machine, which is characterized in that further include:

Linear guide is vertically arranged in the transmission case, and the inner ring of the linear guide is as the pilot hole.