CN213034307U - Multi-station stone polishing machine - Google Patents

Abstract

The utility model provides a multistation stone material polisher, including frame subassembly, upset crossbeam, upset motor and a plurality of host computer of polishing, the host computer of polishing includes backup pad and two polishing subassemblies, fixedly connected with guide arm in the backup pad, each the cover is equipped with two guide pin bushings respectively on the guide arm, is located same two on the guide arm a pair of fixed connection is respectively at two for the guide pin bushing on the polishing subassembly, each the guide arm is being located corresponding two position department between the guide pin bushing can be dismantled and be connected with solid fixed ring, and each guide pin bushing both ends are provided with the cover respectively and establish corresponding spring on the guide arm. The utility model discloses a polisher can realize polishing of different precisions on same platform equipment, and production efficiency is higher relatively, not only can all-round regulation angle of polishing, can realize polishing in proper order to the base of taking base stone ball and spheroidal grinding apparatus according to the different fast switch-over difference at the position of polishing moreover, and need not to carry out artifical polishing or change equipment.

Description

Multi-station stone polishing machine

Technical Field

The utility model relates to a stone material processing equipment, especially a multistation stone material polisher.

Background

The stone ball with the base is also called a roadblock stone ball and is widely applied to various places such as parks, districts, squares and the like. After the cutting process is completed, the stone with the base is usually required to be polished to ensure the color and luster of the stone, the polishing is usually required to be sequentially performed from rough grinding to fine grinding, grinding tools with different precisions required for polishing are different, even if the stone is polished on the same polisher, the grinding tool is required to be continuously better, the production efficiency is relatively low, and in any case, because the shape characteristic difference between the ball part and the base part of the stone ball with the base is large, the existing stone polishing equipment can only polish the ball part or the base part of the stone ball, for example, the polishing device disclosed in the Chinese invention patent application with the publication number of CN104942676A can only polish the ball part of the stone ball with the base, and the base part needs to be polished manually, and for example, the polishing processing device disclosed in the Chinese utility model with the publication number of CN209887239U can only polish the base part of the stone ball with the base, need rely on artifical the polishing to spheroid position, production efficiency is lower relatively.

In view of the above, the applicant has made intensive studies to solve the above problems and has made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a production efficiency multistation stone material polisher higher relatively.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a multistation stone material polisher, rotates respectively including frame subassembly, both ends and connects upset crossbeam on the frame subassembly, be used for the drive the rotatory upset motor of upset crossbeam and a plurality of edge the length direction of upset crossbeam is equidistant the host computer of polishing of arranging in proper order, the host computer of polishing includes backup pad and two back of the body polishing subassembly of arranging mutually, fixedly connected with more than one guide arm in the backup pad, each the cover is equipped with two guide pin bushings respectively on the guide arm, is located same two on the guide arm a pair of fixed connection is respectively two on the guide pin bushing, each the guide arm is being located corresponding two position department between the guide pin bushing can be dismantled and be connected with solid fixed ring, and each guide pin bushing both ends are provided with the cover respectively and establish corresponding spring on the guide.

As an improvement of the utility model, the polishing component is the polishing motor of angle grinder or output shaft fixedly connected with polishing piece.

As an improvement of the utility model, it is same can dismantle on the guide arm and be connected with two gu fixed ring.

As an improvement of the utility model, the frame subassembly includes vertical first stand and the second stand of arranging, first stand with vertical sliding connection has the lift seat, each respectively on the second stand respectively horizontal sliding connection has the sideslip seat on the lift seat, the both ends of upset crossbeam are rotated respectively and are connected on the sideslip seat, the frame subassembly is still including being used for the drive the lift seat relative to first stand or the gliding elevator motor of second stand and being used for the drive the sideslip seat relative the gliding sideslip motor of lift seat.

As an improvement of the utility model, a top beam is connected between the top of the first upright and the top of the second upright.

As an improvement of the utility model, the first stand or be provided with the profiling mould clamping device on the second stand, be provided with on the sideslip seat with profiling mould clamping device complex profile modeling induction system.

As an improvement of the utility model, the profile modeling grinds clamping device includes fixed connection in first stand or on the second stand and vertical fixed plate, a plurality of screwed connection of arranging in bolt on the fixed plate and alternate simultaneously and respectively fly leaf on the bolt, the fly leaf is located each the nut of bolt with between the fixed plate.

As an improvement of the utility model, the profile modeling induction system include the profile modeling motor, with the lead screw reducer and the fixed connection of the output shaft of profile modeling motor are in the output lead screw orientation of lead screw reducer the inductor of profile modeling clamping device's one end.

As an improvement of the utility model, still include the workstation subassembly, the workstation subassembly includes that base, a plurality of rotation are connected on the base and with each the host computer one-to-one complex supporting disc of polishing, be used for driving each supporting disc pivoted supporting motor, fixed connection are in lifting cylinder, the fixed connection that arrange up on the base and the piston rod is vertical lifting frame, cylinder body on the piston rod of lifting cylinder rotate to be connected step cylinder and horizontal sliding connection on the lifting frame are in slide on the lifting frame, step cylinder's piston rod rotates to be connected on the slide.

As an improvement of the utility model, be provided with on the slide with each the one-to-one complex is to heart device of supporting disk, including increasing the frame to the heart device, it has the slider to increase to put up horizontal sliding connection, just it is used for the drive to increase to be provided with on the frame the slider for increase and put up gliding auxiliary motor or supplementary hand wheel, it is connected with two depended wheels, two to rotate on the slide depended wheel's array direction with the slip direction of slider is perpendicular.

Adopt above-mentioned technical scheme, the utility model discloses following beneficial effect has:

1. through setting up the upset crossbeam and set up a plurality of host computers of polishing on the roll-over stand, can realize polishing of different precisions on same equipment, production efficiency is higher relatively, simultaneously because the upset crossbeam can the rotation, and every host computer of polishing has two back of the body and arranges the subassembly of polishing mutually, not only can all-round regulation angle of polishing, and can be according to the different grinding apparatus of the different fast switch-over at the position of polishing, can realize polishing in proper order of base and the spheroid of taking the base stone ball, and need not to carry out artifical polishing or change equipment, further improve production efficiency.

2. The utility model provides a workstation subassembly can realize the automatic aversion of work piece between two adjacent stations, and degree of automation is higher relatively.

Drawings

Fig. 1 is a schematic structural view of the multi-station stone sander of the present invention, wherein a lifting motor and a traversing motor are omitted;

fig. 2 is a schematic view of a partial structure of the multi-station stone sander at another viewing angle, in which parts such as columns are omitted;

fig. 3 is a schematic structure of the profiling clamping device and the profiling induction device of the multi-station stone sander of the present invention;

fig. 4 is a partially enlarged view of fig. 1.

The designations in the figures correspond to the following:

10-a rack assembly; 11-a first upright;

12-a second upright; 13-a lifting seat;

14-a traversing seat; 15-top beam;

20-turning the beam; 21-a turnover motor;

22-a drive gear; 23-a driven gear;

30-grinding the main machine;

31-a support plate; 32-a grinding assembly;

33-a guide rod; 34-a guide sleeve;

36-a spring;

40-a pattern clamping device; 41-fixing plate;

42-bolt; 43-a movable plate;

50-a profiling sensing device; 51-a profiling motor;

52-screw reducer; 53-a sensor;

60-profiling a template; 70-a table assembly;

71-a base; 72-a support tray;

73-support the motor; 74-a sled;

75-a lifting frame; 76-a stepping oil cylinder;

77-fixing the disc; 80-a centering device;

81-heightening frame; 82-a slide block;

83-auxiliary handwheels; 84-wheel by wheel.

Detailed Description

The utility model is further explained by the following specific embodiments:

as shown in fig. 1-4, the working position stone sander provided in this embodiment includes a frame assembly 10, an overturning beam 20 with two ends respectively rotatably connected to the frame assembly 10, an overturning motor 21 for driving the overturning beam 20 to rotate, and a plurality of sanding main machines 30 sequentially arranged along the length direction of the overturning beam 20 at equal intervals.

The rack assembly 10 includes a first upright column 11 and a second upright column 12 which are vertically arranged, the number of the first upright column 11 and the second upright column 12 can be determined according to actual requirements, in the embodiment, one of the first upright column 11 and one of the second upright column 12 are taken as an example, and a top beam 15 is connected between the top of the first upright column 11 and the top of the second upright column 12, so as to improve the stability of the rack assembly 10. The vertical sliding connection has lift seat 13 on stand 11 and the second stand 12 respectively, it should be noted that, when first stand 11 or second stand 12 have a plurality ofly, corresponding lift seat 13 is vertical sliding connection simultaneously on each first stand 11 or second stand 12, and lift seat 13 only has two promptly. The two traverse seats 14 are horizontally and slidably connected to each of the lifting seats 13, that is, there are two traverse seats 14, and two ends of the turning beam 20 are rotatably connected to the two traverse seats 14, so as to connect the turning beam 20 and the rack assembly 10, and the rack assembly 10 further includes a lifting motor (not shown) for driving the lifting seats 13 to slide with respect to the first upright post 11 or the second upright post 12, and a traverse motor (not shown) for driving the traverse seats 14 to slide with respect to the lifting seats 13.

The specific transmission connection between the lifting motor and the lifting base 13 and between the traverse motor and the traverse base 14 may be a conventional structure, such as a screw transmission structure, a chain transmission structure or a belt transmission structure, in the embodiment, a screw transmission structure is taken as an example for explanation, specifically, the top beam 15 is a hollow beam, the lifting motor is a motor with double output shafts, the lifting motor is positioned inside the top beam 15, two output shafts of the lifting motor are respectively connected with a transmission rod, a first upright post 11 and a second upright post 12 are respectively and rotatably connected with a lifting screw rod, the two lifting screw rods are respectively in one-to-one transmission connection with the two transmission rods through bevel gears, each lifting screw rod is sleeved with a lifting screw rod nut, and the two lifting screw rod nuts are respectively in one-to-one fixed connection with the two lifting seats 13, so that the two lifting seats 13 can be controlled to synchronously act through the lifting motor; a transverse moving motor is respectively installed on each lifting seat 13, namely the number of the transverse moving motors is two, an output shaft of each transverse moving motor is connected with a transverse moving screw rod which is rotatably connected to the corresponding lifting seat 13, transverse moving screw rod nuts are sleeved on the two transverse moving screw rods, the two transverse moving screw rod nuts are respectively fixedly connected with the two transverse moving seats 14 in a one-to-one mode, the control module controls the two transverse moving motors to synchronously act, and therefore the two transverse moving seats 14 synchronously act.

The turning motors 21 and the turning beams 20 can be in transmission connection through a direct connection, preferably, in order to reduce the power at the moment of starting the turning motors 21, in this embodiment, there are two turning motors 41, which are respectively and fixedly mounted on the two traverse seats 14 one by one, and the two turning motors 21 are also controlled by the control module to synchronously operate, and the transmission connection structures between the two turning motors 21 and the turning beams 20 are completely the same, and one of them is taken as an example here for explanation: a driving gear 22 is fixedly connected to an output shaft of the turnover motor 21, a driven gear 23 meshed with the driving gear 22 is fixedly connected to the turnover beam 20, and a central shaft of the driven gear 23 is coaxially arranged with a rotating shaft of the turnover beam 20.

The host computer 30 of polishing includes backup pad 31 and two grinding assembly 32 of arranging mutually back on the other hand, wherein, grinding assembly 32 is the angle grinder of the hand-held type that can directly purchase the acquisition from the market or the grinding motor of output shaft fixedly connected with grinding piece, in this embodiment, in two grinding assembly 32 on the same host computer 30 of polishing, one is the angle grinder, another is the grinding motor of output shaft fixedly connected with grinding piece, can make the grinding piece of connecting on the grinding motor and the grinding piece on the angle grinder arrange perpendicularly like this, be convenient for polish the base position and the spheroid position of taking base stone ball respectively.

More than one guide rod 33 is fixedly connected to the supporting plate 31, in this embodiment, there are two guide rods 33, the two guide rods 33 are arranged in parallel, two guide sleeves 34 are respectively sleeved on each guide rod 33, that is, there are four guide sleeves 34, the two guide sleeves 34 located on the same guide rod 33 are respectively and fixedly connected to the two polishing assemblies 32 one by one, that is, the polishing motors are indirectly mounted on the supporting plate 31 through being fixedly connected to the corresponding guide sleeves 34. Each guide rod 33 is detachably connected with a fixing ring (not shown) at a position between the corresponding two guide sleeves 34, and each guide rod 33 is preferably provided with two fixing rings, i.e., two fixing rings are detachably connected to the same guide rod 33. The fixed ring is detachably connected in a bolt connection mode. The two ends of each guide sleeve 34 are respectively provided with a spring 36 sleeved on the corresponding guide rod 33, one end of each spring 36 is abutted against the corresponding guide sleeve 34, the other end of each spring 36 is abutted against the corresponding fixing ring or the corresponding support plate 31, so that flexible polishing can be realized, the spring can be compressed under the action of a reaction force when a harder part is touched in the polishing process, then the spring can be automatically reset under the action of elasticity, and meanwhile, certain elastic pretightening force can be applied in the polishing process conveniently. In addition, a cooling water pipe 37 connected with an external water source and provided with a valve is fixedly connected to the support plate 31 beside each grinding assembly 32, when in use, one end of the cooling water pipe 37 faces the corresponding grinding tool of the grinding assembly 32 so as to cool the grinding part of the workpiece during grinding, and it should be noted that when the cooling water pipe 37 is provided, the turning angle of the turning cross beam 20 preferably does not exceed 360 degrees so as to avoid the cooling water pipe from winding.

Preferably, the first upright post 11 or the second upright post 12 is provided with a profiling die clamping device 40, and the traverse seat 14 is provided with a profiling induction device 50 matched with the profiling die clamping device 40, so that profiling processing can be realized; the copying mill clamping device 40 comprises a fixed plate 41 which is fixedly connected to the first upright post 11 or the second upright post 12 and is vertically arranged, a plurality of bolts 42 which are spirally connected to the fixed plate 41, and a movable plate 43 which is simultaneously inserted in each bolt 42, wherein the movable plate 43 is positioned between the nut of each bolt 42 and the fixed plate 41, so that the copying template 60 can be clamped between the movable plate 43 and the fixed plate 41 through the bolts 42; the profile sensing device 50 includes a profile motor 51, a lead screw reducer 52 connected to an output shaft of the profile motor 51, and a sensor 53 fixedly connected to an end of the output lead screw of the lead screw reducer 52 facing the profile holding device 40, wherein the lead screw reducer 52 is also called a lead screw lifter, and an output shaft thereof is an output lead screw movable in a length direction thereof, and such a lead screw reducer 52 is directly commercially available.

Preferably, the multi-station stone sander provided by the present embodiment further includes a workbench assembly 70, where the workbench assembly 70 includes a base 71, a plurality of supporting discs 72 rotatably connected to the base 71 and one-to-one engaged with each sanding main machine 30, a supporting motor 73 for driving each supporting disc 72 to rotate, a lift cylinder (not shown in the drawings) fixedly connected to the base 71 and having a piston rod arranged vertically upward, a lifting frame 75 fixedly connected to the piston rod of the lift cylinder, a step cylinder 76 rotatably connected to the lifting frame 75, and a sliding plate 74 horizontally slidably connected to the lifting frame 75, where the piston rod of the step cylinder 76 is horizontally arranged and rotatably connected to the sliding plate 74, and a sliding direction of the sliding plate 74 is a length direction of the turnover beam 20. In addition, the base 71 is further provided with a fixed disk 77 positioned at one end of a straight line formed by the arrangement of the support disks 72, the slide plate 74 is respectively provided with avoidance holes at positions corresponding to the fixed disk 77 and the support disks 72, and two adjacent avoidance holes are communicated with each other through the avoidance grooves. As for the specific transmission connection structure between the support motor 73 and each support disc 72, the structure is widely applied to various stone processing equipment, and is not the focus of the embodiment, and is not described in detail herein.

The center of the supporting disk 72 is usually provided with a positioning rod, the workpiece is provided with a positioning hole matched with the positioning rod, so as to ensure that the rotation center of the workpiece is coaxial with the central axis of the workpiece after polishing, however, in practical production, the positioning hole on the workpiece is usually larger, so that a larger gap may exist between the side wall of the positioning hole and the positioning rod, for this reason, in this embodiment, the sliding plate 74 is provided with centering devices 80 matched with the supporting disks 72 one to one, each centering device 80 has the same structure, taking one centering device 80 as an example, the centering device 80 comprises a height increasing rack 81, the height increasing rack 81 is horizontally and slidably connected with a sliding block 82, the height increasing rack 81 is provided with an auxiliary motor or an auxiliary hand wheel 83 for driving the sliding block 82 to slide relative to the height increasing rack 81, the sliding block 82 is rotatably connected with two idler wheels 84, the arrangement direction of the two idler wheels 84 is perpendicular to the sliding, the circle center position of the workpiece is convenient to finely adjust, and the side wall of the upper positioning hole of the workpiece is enabled to abut against the positioning rod.

When the polishing machine is used, a workpiece is placed on the fixed disc 77, the lifting frame 75 is driven to jack up the workpiece through the lifting oil cylinder to enable the workpiece to be separated from the fixed disc 77, then the piston rod of the stepping oil cylinder 76 extends out to push the sliding plate 74 to slide relative to the base 71, so that the workpiece is conveyed to the position above the supporting disc 72 close to the fixed disc 77, then the lifting oil cylinder is reset to enable the workpiece to be placed on the corresponding supporting disc 72, then the stepping oil cylinder 76 is reset to complete one feeding action, the workpiece is processed through the corresponding polishing main machine 30 at the moment, meanwhile, one workpiece can be placed on the fixed disc 77, after the polishing main machine 30 completes processing of the workpiece, the feeding action is repeated, so that the workpiece is sequentially polished from rough grinding to fine grinding, and the workpiece after the final fine grinding is taken away from the supporting disc 72 far away from the fixed disc 77. When each grinding host 30 is used for grinding a workpiece, the base part can be firstly ground, then the turnover beam 20 is turned over, the other grinding component 32 is used for grinding the spherical part, in the grinding process, the movement of the lifting seat 13 is controlled according to the preset value through the control system, and the movement of the transverse moving seat 14 is controlled according to the signal provided by the profiling induction device 50 through the control system.

The present invention has been described in detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can modify the present invention according to the prior art, for example, the partial motor is changed into the cylinder, and these all belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a multistation stone material polisher, its characterized in that rotates respectively including frame subassembly, both ends and connects upset crossbeam on the frame subassembly, be used for the drive upset motor and a plurality of edge the length direction of upset crossbeam is equidistant the host computer of polishing of arranging in proper order, the host computer of polishing includes backup pad and two back of the body polishing subassembly of arranging mutually, fixedly connected with more than one guide arm in the backup pad, each the cover is equipped with two guide pin bushings respectively on the guide arm, is located same two on the guide arm a pair of fixed connection is two respectively on the guide pin bushing on the polishing subassembly, each the guide arm is being located two that correspond position department between the guide pin bushing can be dismantled and be connected with solid fixed ring, and each the guide pin bushing both ends are provided with the cover respectively and establish correspond spring on the.

2. A multi-station stone sander as set forth in claim 1, wherein said sanding assembly is an angle grinder or a sanding motor having a sanding disc fixedly attached to an output shaft.

3. A multi-station stone sander as set forth in claim 1, wherein two said retainer rings are removably attached to the same guide bar.

4. A multi-station stone sander as set forth in claim 1, wherein said frame assembly comprises a first upright and a second upright vertically disposed, said first upright and said second upright vertically slidably connected to a lifting base, said lifting base horizontally slidably connected to a traversing base, said turnover beam rotatably connected at both ends to said traversing base, said frame assembly further comprising a lifting motor for driving said lifting base to slide relative to said first upright or said second upright, and a traversing motor for driving said traversing base to slide relative to said lifting base.

5. The machine of claim 4, wherein a top beam is connected between the top of said first column and the top of said second column.

6. A multi-station stone sander as set forth in claim 4, wherein said first column or said second column is provided with a pattern clamping means, and said traverse mount is provided with a pattern sensing means cooperating with said pattern clamping means.

7. A multi-station stone sander as set forth in claim 6, wherein said profile grinder holding means comprises a vertically disposed fixed plate fixedly attached to said first column or said second column, a plurality of bolts threadedly attached to said fixed plate, and a movable plate simultaneously threaded onto each of said bolts, said movable plate being located between the nut of each of said bolts and said fixed plate.

8. A multi-station stone sander as set forth in claim 6, wherein said profiling sensing means comprises a profiling motor, a lead screw reducer connected to an output shaft of said profiling motor, and a sensor fixedly attached to an end of an output lead screw of said lead screw reducer facing said profiling holding means.

9. A multi-station stone sander as set forth in any one of claims 1 to 8, further comprising a table assembly, said table assembly comprising a base, a plurality of supporting discs rotatably connected to said base and cooperating with each of said sanding machines in a one-to-one manner, a supporting motor for driving each of said supporting discs to rotate, a lift cylinder fixedly connected to said base and having a piston rod arranged vertically upward, a lifting frame fixedly connected to a piston rod of said lift cylinder, a stepping cylinder rotatably connected to said lifting frame, and a slide plate horizontally slidably connected to said lifting frame, said piston rod of said stepping cylinder being rotatably connected to said slide plate.

10. A multi-station stone sander as set forth in claim 9, wherein the slide plate is provided with centering means which are engaged with the supporting discs one to one, the centering means comprises a heightening frame, the heightening frame is horizontally slidably connected with a slide block, the heightening frame is provided with an auxiliary motor or an auxiliary hand wheel for driving the slide block to slide relative to the heightening frame, the slide plate is rotatably connected with two idler wheels, and the arrangement direction of the two idler wheels is perpendicular to the sliding direction of the slide block.

Images