A kind of sander for building stone of polishing
Technical field
The present invention relates to construction equipment technical field, a kind of sander for building stone of polishing.
Background technology
Stone material is a kind of high-grade construction decoration material, is seen everywhere, using and its extensively.No matter lithotome or synthesize
Stone material, general surface is all relatively rough, it is necessary to which coloured and dazzling effect can just be obtained by polishing.Generally, workmen is hand-held beats
Grinding machine is polished, and labor strength is big, wastes time and energy, the surface irregularity after polishing, and polishing effect is poor, and polishing is accurate
Property it is poor, usually require to carry out unilateral chamfering deburring to some stone materials in building construction process to work, generally polished in sander
After the completion of will polish the stone material completed chamfering deburring, but traditional processing of stone sanding apparatus carried out by chamfer trimmer device
Function is single, can not carry out chamfering deburring work in time after the completion of polishing, generally requires to move to stone material into chamfering again and repaiies
Deburring work is carried out on the machine of side, complex steps, the amount of labour is big, influences construction speed, it is impossible to meet existing needs.
The content of the invention
The technical problems to be solved by the invention are to provide a kind of sander for building stone of polishing, and it can solve the problem that
It is above-mentioned it is existing in the art the problem of.
The present invention is achieved through the following technical solutions:A kind of polishing for building stone of polishing of the present invention
Machine, including two bottom sides are provided with the body of support column, provided with polishing chamber in the body, and the polishing chamber inner left wall is provided with the
One chute, the polishing intracavitary roof is provided with the second chute, the polishing intracavitary bottom wall close to the first chute side and set
There is the first cunning chamber, screw thread on the first threaded rod, first threaded rod is provided with first chute and is connected with the first cunning
It is provided with the right side of block, first sliding block in polishing table, the polishing table bottom end face and is provided with the 4th chute, is set in the polishing table
There is the second cunning chamber, the second cunning intracavitary slide fit is connected with position limiting slide block, and the position limiting slide block left-hand end is fixed with to the left
Extension is described to lead through the polishing table left end face and slide fit connection on the left of extended slide guide bar, the slide guide bar
Slide bar left distal end is fixedly connected with the first sliding block its right end face, and described second on the left of the position limiting slide block slides intracavitary
The slide guide rod outer surface, which is provided with the top of spring, the polishing table, is provided with damping base, and fixture is provided with the top of the damping base,
Screw thread on the second threaded rod, second threaded rod is provided with second chute and is connected with the second sliding block, described second
Provided with polishing motor in slider bottom end face, the polishing motor bottom is provided with the first emery wheel for stretching into the polishing intracavitary, institute
State the first cunning chamber both sides and be arranged with the 3rd chute, the first cunning intracavitary slide fit is connected with top pressure sliding block, the top pressure sliding block
Both sides are fixed with chamfering provided with the convex sliding block that in the 3rd chute and slide fit is connected, the polishing chamber right lateral side inwall is stretched into
Fixing device is provided with edge-neatening apparatus and the dust exhaust apparatus being arranged on above the chamfering edger, the fixture.
Preferably technical scheme, the first threaded rod Longitudinal extending is set, at the top of first threaded rod and institute
State the first chute inner top to be rotatably assorted connection, the first threaded rod bottom and the first motor connection, outside first motor
Surface is embedded in the first chute downside wall and is fixedly connected.
Preferably technical scheme, second threaded rod or so is extended, the second threaded rod left-hand end with
Second motor connection, the second threaded rod right-hand end is rotatably assorted with inwall on the right side of second chute and is connected, and described second
Outer surface of motor is embedded in the second chute inner left wall and is fixedly connected.
Screwed hole, the screwed hole internal thread are provided with preferably technical scheme, the top pressure sliding block bottom end face
The 3rd threaded rod is connected with, the organism bottom end face and the connection that is rotatably assorted, institute are run through in the 3rd threaded rod bottom
The 3rd threaded rod bottom end is stated provided with rotation handle.
The first inclined-plane is provided with preferably technical scheme, the 4th chute, the top pressure sliding block top right side is set
There is the second inclined-plane to be connected with the first inclined-plane top pressure slide fit.
Preferably technical scheme, the chamfering edger includes Angle Modulation Motor, coordinated with the Angle Modulation Motor bottom
The worm screw of connection and the rotation dish being arranged on the left of the worm screw, the rotation dish and the body rear wall are rotatably assorted company
Connect, the wrom tooth portion for being used to be connected with the worm screw is provided with the right side of the rotation dish, the rotation dish front end face is provided with deburring
The second emery wheel is connected with the left of motor, the deburring motor.
Preferably technical scheme, the dust exhaust apparatus includes being horizontally connected with the on the left of dust catcher, the dust catcher
One conduit, the first conduit left-hand end be connected with Longitudinal extending setting the second conduit, the second conduit top end and
Bottom end is respectively equipped with to the left extended the 3rd conduit and the 4th conduit, and the 3rd conduit left distal end is provided with the
One cleaner head, the 4th conduit left distal end is provided with the 5th conduit for extending downwardly setting, and the 5th catheter tip is provided with
Second cleaner head, first cleaner head is located at the first emery wheel right positions, and second cleaner head is located on the upside of the second emery wheel
Position, the 3rd conduit is provided with the first control valve, and the 4th conduit is provided with the second control valve.
Preferably technical scheme, the fixing device includes the fix bar being symmetrical set, the fix bar top
End medial surface is provided with constant inclined surface, and described fix bar one end is connected by the first spring with fixed column, in first spring
Side is fixedly connected with the fixed column, and the fixed column is fixedly installed at the top of the damping base, the fix bar and institute
State the connection of damping base top surface slide fit.
The beneficial effects of the invention are as follows:
1. setting the second cunning chamber by being set in polishing table bottom end face in the 4th chute, polishing table, second slides intracavitary slide fit connection limit
Position sliding block, position limiting slide block left-hand end, which is fixed, sets slide guide bar extended to the left, and polishing table is run through in slide guide bar left side extension
Left end face and slide fit are connected, and slide guide bar left distal end is fixedly connected with the first sliding block its right end face, and the on the left of position limiting slide block
The slide guide rod outer surface of two cunning intracavitary sets to set at the top of spring, polishing table sets fixture at the top of damping base, damping base, so as to realize
The fixed polishing and chamfering deburring work of stone material.
2. Angle Modulation Motor, the worm screw with the mating connection of Angle Modulation Motor bottom are included by chamfering edger and snail is arranged on
Rotation dish on the left of bar, rotation dish is rotatably assorted with body rear wall and is connected, and is set on the right side of rotation dish to be connected with worm screw
Wrom tooth portion, rotation dish front end face sets deburring motor, the second emery wheel of connection on the left of deburring motor, so as to realize chamfering grinding angle
Regulation.
3. including the conduit of lateral connection first on the left of dust catcher, dust catcher by dust exhaust apparatus, the first conduit left-hand end connects
The second conduit of Longitudinal extending setting is connect, the second conduit top end and bottom end set the 3rd be extended to the left respectively
Conduit and the 4th conduit, the 3rd conduit left distal end set the first cleaner head, and the 4th conduit left distal end, which is set, extends downwardly setting
5th conduit, the 5th catheter tip sets the second cleaner head, and the first cleaner head is located at the first emery wheel right positions, the second cleaner head position
The second control valve is set on the first control valve, the 4th conduit in being set on the second emery wheel upper side position, the 3rd conduit, so as to prevent airborne dust
Cause environmental pollution.
4. the present invention is simple in construction, reasonable in design, polishing and chamfering deburring work can be automatically performed, while suction can be realized
The regulation of dirt and chamfering deburring angle, it is easy to operate, it is time saving and energy saving, operating efficiency is improved, labor intensity is reduced.
Brief description of the drawings
For ease of explanation, the present invention is described in detail by following specific embodiment and accompanying drawing.
Fig. 1 is a kind of sander internal structure schematic diagram for building stone of polishing of the invention;
Structural representation when Fig. 2 offsets for the second inclined-plane and the first inclined-plane of the present invention;
Structural representation when Fig. 3 compresses for the second inclined-plane and the first inclined-plane of the present invention;
Fig. 4 for the present invention it is a kind of be used for polish building stone sander chamfering deburring when structural representation;
Fig. 5 for the present invention top pressure sliding block away from polishing chamber when structural representation;
Fig. 6 is the mplifying structure schematic diagram of the chamfering edge-neatening apparatus of the present invention;
Fig. 7 is the structural representation of the fixture of the present invention.
Embodiment
As shown in Fig. 1-Fig. 7, a kind of sander for building stone of polishing of the invention, including two bottom sides are provided with branch
Provided with polishing chamber 41 in the body 4 of dagger 45, the body 4, polishing chamber 41 inner left wall is provided with the first chute 43, described
The inner roof wall of chamber 41 of polishing is provided with the second chute 44, polishing chamber 41 inner bottom wall provided with the close to the side of the first chute 43
Screw thread on the first threaded rod 431, first threaded rod 431 is provided with one cunning chamber 42, first chute 43 to be connected with
First sliding block 8, the right side of the first sliding block 8, which is provided with polishing table 82, the bottom end face of polishing table 82, is provided with the 4th chute
822, the polishing table 82 is interior to slide chamber 821 provided with second, and described second, which slides slide fit in chamber 821, is connected with position limiting slide block 811, described
The left-hand end of position limiting slide block 811 is fixed with slide guide bar 81 extended to the left, and the left side extension of slide guide bar 81 is run through
The left end face of polishing table 82 and slide fit connection, the left distal end of slide guide bar 81 are consolidated with its right end face of the first sliding block 8
Fixed connection, described second outer surface of slide guide bar 81 slided in chamber 821 in the left side of position limiting slide block 811 is provided with spring 812,
The top of polishing table 82 is provided with damping base 83, and the top of damping base 83 is provided with fixture 84, second chute 44
Provided with the second threaded rod 441, screw thread is connected with the second sliding block 7, the bottom of the second sliding block 7 on second threaded rod 441
Provided with polishing motor 71 in end surface, polishing motor 71 bottom is provided with the first emery wheel 72 stretched into the polishing chamber 41,
First cunning chamber 42 both sides are arranged with slide fit in the 3rd chute 421, the first cunning chamber 42 and are connected with top pressure sliding block 422,
The both sides of top pressure sliding block 422 be provided with stretch into the 3rd chute 421 and slide fit connection convex sliding block 4221, the polishing chamber
41 right lateral side inwalls are fixed with chamfering edge-neatening apparatus 6 and are arranged on the dust exhaust apparatus 5 of the top of chamfering edger 6, institute
State in fixture 84 and be provided with fixing device.
Wherein, the Longitudinal extending of the first threaded rod 431 is set, and the top of the first threaded rod 431 is slided with described first
The inner top of groove 43 is rotatably assorted connection, and the bottom of the first threaded rod 431 is connected with the first motor 432, first motor 432
Outer surface is embedded in the downside wall of the first chute 43 and is fixedly connected, so as to realize the fortune up and down for automatically controlling the first sliding block 8
It is dynamic.
Wherein, second threaded rod 441 or so is extended, the left-hand end of the second threaded rod 441 and the second motor
442 connections, the right-hand end of the second threaded rod 441 is rotatably assorted with the right side inwall of the second chute 44 and is connected, and described second
The outer surface of motor 442 is embedded in the inner left wall of the second chute 44 and is fixedly connected, and the second sliding block 7 is automatically controlled so as to realize
Side-to-side movement work.
Wherein, screwed hole 4223, the screw-internal thread fit of screwed hole 4223 are provided with the bottom end face of top pressure sliding block 422
The 3rd threaded rod 423 is connected with, the bottom end face of body 4 and the connection that is rotatably assorted are run through in the bottom of the 3rd threaded rod 423,
The bottom end of 3rd threaded rod 423 is provided with handle 424 is rotated, so as to realize the lifting work of control top pressure sliding block 422 manually
Make.
Wherein, the first inclined-plane 823 is provided with the 4th chute 822, the top right side of top pressure sliding block 422, which is provided with, to be used to
Match somebody with somebody the second inclined-plane 4222 being connected with the jacking sliding of the first inclined-plane 823.
Wherein, the chamfering edger 6 includes Angle Modulation Motor 61, the worm screw being connected with the bottom of Angle Modulation Motor 61
62 and the rotation dish 63 in the left side of the worm screw 62 is arranged on, the rotation dish 63 and the rear wall of body 4 are rotatably assorted company
Connect, the right side of rotation dish 63 is provided with the wrom tooth portion 631 for being used to be connected with the worm screw 62, the front end face of rotation dish 63
Provided with deburring motor 64, the left side of deburring motor 64 is connected with the second emery wheel 641, so as to realize the tune of chamfering grinding angle
Section.
Wherein, the dust exhaust apparatus 5 includes dust catcher 51, and the left side of dust catcher 51 is horizontally connected with the first conduit 52,
The left-hand end of first conduit 52 is connected with the second conduit 53 of Longitudinal extending setting, the top end of the second conduit 53 and bottom
Portion end is respectively equipped with the 3rd conduit 54 and the 4th conduit 55 extended to the left, and the left distal end of the 3rd conduit 54 is set
There is the first cleaner head 56, the left distal end of the 4th conduit 55 is provided with the 5th conduit 57 for extending downwardly setting, and the described 5th leads
The end of pipe 57 is provided with the second cleaner head 58, and first cleaner head 56 is located at the right positions of the first emery wheel 72, second dust suction
First 58 are located at the upper side position of the second emery wheel 641, and the 3rd conduit 54 is provided with the first control valve 541, the 4th conduit 55
The second control valve 551 is provided with, so as to prevent airborne dust from causing environmental pollution.
Wherein, the fixing device includes the fix bar 844 being symmetrical set, the top inner side face of fix bar 844
Constant inclined surface 841 is provided with, described one end of fix bar 844 is connected by the first spring 843 with fixed column 842, first bullet
The medial extremity of spring 843 is fixedly connected with the fixed column 842, and the fixed column 842 is fixedly installed on the top of damping base 83,
The fix bar 844 is connected with the top surface slide fit of damping base 83.
During original state, the 3rd threaded rod 423 is driven to rotate by rotating handle 424 first, by the band of the 3rd threaded rod 423
Dynamic top pressure sliding block 422 moves to the lowest position of the first cunning chamber 42, and now, convex sliding block 4221 moves to the 3rd most bottom of chute 421
Portion position, meanwhile, the top end face of top pressure sliding block 422 is in same level, now, the first sliding block 8 with polishing chamber 41 inner bottom wall
Drive the first threaded rod 431 to rotate by the first motor 432, the first sliding block 8 is located at the lowest position of the first chute 43, together
When, the slide guide bar 81 on the first sliding block 8 drives polishing table 82 to be located at polishing chamber 41 in lowest position, and polishing table 82 is by spring
812 elastic pressure on top surface, makes the left end face of polishing table 82 be abutted against with its right end face of the first sliding block 8, now, the first control valve
541 and second control valve 551 be closed mode.
Embodiment 1:
When needing automatically grinding and automatic chamfering deburring works, building stones are installed in fixture 84, then pass through the first electricity
Machine 432 drives the first threaded rod 431 to invert, and the first threaded rod 431 is driven beating for the first sliding block 8 and the right side of the first sliding block 8
Mill platform 82 is moved upwards along the first chute 43, until end face is abutted against with the first emery wheel 72 at the top of building stones, now, control first is controlled
Valve 541 processed is opened and the second control valve 551 is closed, meanwhile, the left/right rotation of the second threaded rod 441 is driven by the second motor 442
It is dynamic, so as to realize side-to-side movement polishing work, now, drive the 3rd threaded rod 423 to invert by rotating handle 424, make the 3rd
Threaded rod 423 drives the motion upwards of top pressure sliding block 422, until convex sliding block 4221 moves to the top position of the 3rd chute 421, this
When, top pressure sliding block 422 is at utmost stretched into polishing chamber 41, after the completion of polishing, and the second motor 442 of control stops operating, so
Drive the first threaded rod 431 to rotate by the first motor 432 afterwards, make the first threaded rod 431 drive the first sliding block 8 and first to slide
The polishing table 82 on the right side of block 8 is moved downward along the first chute 43, until the right side section of the first inclined-plane 823 as shown in Figure 2 and second oblique
Face 4222 is abutted against, now, and the first control valve 541 of control is closed and the second control valve 551 is opened, meanwhile, continue to control the
One motor 432 drives the first threaded rod 431 to rotate, and the first threaded rod 431 is driven the first sliding block 8 and the right side of the first sliding block 8
Polishing table 82 moved downward along the first chute 43, now, the second inclined-plane 4222 and the top pressure of the first inclined-plane 823 coordinate, and make polishing
Platform 82 overcomes the active force of spring 812 gradually to be moved towards right side as shown in figure 3, continuing to control the first motor 432 to drive the first spiral shell
Rasp bar 431 is rotated, and the first threaded rod 431 is driven the first sliding block 8 and the polishing table 82 on the right side of the first sliding block 8 along the first chute
43 continue to move downward, until make the first sliding block 8 as shown in Figure 4 positioned at the lowest position of the first chute 43, meanwhile, first slides
Slide guide bar 81 on block 8 drives polishing table 82 to be located at polishing chamber 41 in lowest position, now completes chamfering polishing work.
Embodiment 2:
When only need to be performed polishing work at the top of building stones, building stones are installed in fixture 84, then pass through the band of the first motor 432
Dynamic first threaded rod 431 is inverted, and the first threaded rod 431 is driven the edge of polishing table 82 on the first sliding block 8 and the right side of the first sliding block 8
First motion upwards of chute 43, until end face is abutted against with the first emery wheel 72 at the top of building stones, now, controls the first control valve 541
Open and the second control valve 551 is closed, meanwhile, the left-right rotation of the second threaded rod 441 is driven by the second motor 442, when beating
After the completion of mill, then the first motor 432 drives the first threaded rod 431 to rotate, and the first sliding block 8 is located at the most bottom of the first chute 43
Portion position, finally takes out stone material.
Embodiment 3:
When only needing to chamfering deburring work, building stones are installed in fixture 84, the 3rd threaded rod is driven by rotating handle 424
423 reversions, make the 3rd threaded rod 423 drive the motion upwards of top pressure sliding block 422, top pressure sliding block 422 is gradually stretched into the 4th chute
In 822, until the second inclined-plane 4222 abuts against with the right side section of the first inclined-plane 823, now, control the first control valve 541 to close with
And second control valve 551 open, continue through rotation handle 424 drive the 3rd threaded rod 423 invert, make the 3rd threaded rod 423
The motion upwards of top pressure sliding block 422 is driven, now, the second inclined-plane 4222 and the top pressure of the first inclined-plane 823 coordinate, and overcome polishing table 82
The active force of spring 812 is gradually moved towards right side, until the top end face of top pressure sliding block 422 offsets with the inner roof wall of the 4th chute 822
When connecing, chamfering deburring work is now completed.
The beneficial effects of the invention are as follows:
1. setting the second cunning chamber by being set in polishing table bottom end face in the 4th chute, polishing table, second slides intracavitary slide fit connection limit
Position sliding block, position limiting slide block left-hand end, which is fixed, sets slide guide bar extended to the left, and polishing table is run through in slide guide bar left side extension
Left end face and slide fit are connected, and slide guide bar left distal end is fixedly connected with the first sliding block its right end face, and the on the left of position limiting slide block
The slide guide rod outer surface of two cunning intracavitary sets to set at the top of spring, polishing table sets fixture at the top of damping base, damping base, so as to realize
The fixed polishing and chamfering deburring work of stone material.
2. Angle Modulation Motor, the worm screw with the mating connection of Angle Modulation Motor bottom are included by chamfering edger and snail is arranged on
Rotation dish on the left of bar, rotation dish is rotatably assorted with body rear wall and is connected, and is set on the right side of rotation dish to be connected with worm screw
Wrom tooth portion, rotation dish front end face sets deburring motor, the second emery wheel of connection on the left of deburring motor, so as to realize chamfering grinding angle
Regulation.
3. including the conduit of lateral connection first on the left of dust catcher, dust catcher by dust exhaust apparatus, the first conduit left-hand end connects
The second conduit of Longitudinal extending setting is connect, the second conduit top end and bottom end set the 3rd be extended to the left respectively
Conduit and the 4th conduit, the 3rd conduit left distal end set the first cleaner head, and the 4th conduit left distal end, which is set, extends downwardly setting
5th conduit, the 5th catheter tip sets the second cleaner head, and the first cleaner head is located at the first emery wheel right positions, the second cleaner head position
The second control valve is set on the first control valve, the 4th conduit in being set on the second emery wheel upper side position, the 3rd conduit, so as to prevent airborne dust
Cause environmental pollution.
4. the present invention is simple in construction, reasonable in design, polishing and chamfering deburring work can be automatically performed, while suction can be realized
The regulation of dirt and chamfering deburring angle, it is easy to operate, it is time saving and energy saving, operating efficiency is improved, labor intensity is reduced.
The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any
The change or replacement expected without creative work, should all be included within the scope of the present invention.Therefore, it is of the invention
Protection domain should be determined by the scope of protection defined in the claims.