CN115366242B

CN115366242B - Uniform sanding device for surface layer of artificial texture stone

Info

Publication number: CN115366242B
Application number: CN202210864890.5A
Authority: CN
Inventors: 魏子龙
Original assignee: Shandong Kangjieli New Material Co ltd
Current assignee: Shandong Kangjieli New Material Co ltd
Priority date: 2022-07-22
Filing date: 2022-07-22
Publication date: 2023-08-22
Anticipated expiration: 2042-07-22
Also published as: CN115366242A

Abstract

The application relates to a sanding device, in particular to a device for uniformly sanding the surface layer of an artificial texture stone. The technical problems are as follows: the artificial texture stone surface layer uniform sanding device can compact the internal structure of the artificial texture stone which is paved with sand, and has long service life. The technical implementation scheme of the application is as follows: the utility model provides an even sanding device in artificial texture stone material top layer, includes installing support, stores up sand frame, first dead lever and first rotating block, and installing support upper right side fixedly connected with stores up sand frame, and the first dead lever of left downside fixedly connected with of sand frame, the first rotating block of all rotating type connection in both sides around the first dead lever. The first stirring plate rotates to stir the neutralized cement in the cement storage cylinder, so that the effect that the neutralized cement cannot be solidified is achieved.

Description

Uniform sanding device for surface layer of artificial texture stone

Technical Field

The application relates to a sanding device, in particular to a device for uniformly sanding the surface layer of an artificial texture stone.

Background

The surface of the stone material which is emphasized in decoration such as culture stone and Lu Fudan is provided with a decorative effect, and the natural texture and granular feel are deliberately produced, and the sand grains are manually scattered in each tray in a mould tray filled with cement and powder.

Patent application CN204585514U, publication day is 2015 08 month 26, discloses a sand equipment is laid to artificial texture stone material, its characterized in that: including the conveyer that is used for utilizing the conveyer belt to convey stone material mould and the sand screening device that is used for automatic sand screening, sand screening device is equipped with range upon range of screen cloth, range upon range of screen cloth stride to be located conveyer belt top, range upon range of screen cloth is including mutual stack and fixed screen cloth and the activity screen cloth that can translate relatively, fixed screen cloth and activity screen cloth all are equipped with the screen cloth face of the stereoplasm of laminating each other, one side of activity screen cloth is equipped with vibrating device, is equipped with the drive arrangement of being connected by the push rod with the adjacent one side of this side, has realized automatic shop sand on the artificial stone production line, but the inside loose of sand that this artificial texture stone sand equipment was spread, is compact inadequately.

Therefore, the artificial texture stone surface layer uniform sanding device which can compact the internal structure and has long service life can be developed.

Disclosure of Invention

In order to overcome the defect that the prior equipment is loose in the sand paved for artificial texture stone and is not compact enough, the technical problem is that: the artificial texture stone surface layer uniform sanding device can compact the internal structure of the artificial texture stone which is paved with sand, and has long service life.

The technical implementation scheme of the application is as follows: the utility model provides an even sanding device in artificial texture stone material top layer, which comprises a mounting support, the sand storage frame, first dead lever, first rotating block, the second rotating block, first torsional spring, first slide bar, the baffle, mechanism and cement unloading mechanism are placed to the material, installing support upper right side fixedly connected with sand storage frame, the first dead lever of fixedly connected with of sand storage frame left side downside, both sides all rotate around the first dead lever and be connected with first rotating block, the first torsional spring of equal fixedly connected with between first rotating block and the sand storage frame, first torsional spring all overlaps on first dead lever, both sides all rotate around the first dead lever and be connected with the second rotating block, second rotating block upper left side is arc structure, second rotating block upper right side all contacts with adjacent first rotating block, sliding connection has first slide bar between the first rotating block, fixedly connected with baffle on the first slide bar, baffle and sand storage frame downside laminating, installing support left side is equipped with the material and places the mechanism, installing support upper left side is equipped with cement unloading mechanism.

In addition, it is particularly preferable that the material placing mechanism comprises a guide rod, a sliding frame and a sliding plate, wherein the guide rod is fixedly connected to the front side and the rear side of the lower side of the mounting bracket, the sliding frame is connected between the guide rods in a sliding manner, the sliding frame is connected with the mounting bracket in a sliding manner, and the sliding plate is connected to the upper left side of the sliding frame in a sliding manner.

In addition, particularly preferred, cement unloading mechanism is including cement storage cylinder, the feed inlet, servo motor, first axis of rotation, first stirring board, the striker plate, the third rotary block, fourth rotary block and second torsional spring, the servo motor of upper left rear side fixedly connected with of installing support, fixedly connected with first axis of rotation on the servo motor output shaft, first axis of rotation front side is connected with the upper left side rotation of installing support, fixedly connected with first stirring board on the first axis of rotation, installing support upper left side fixedly connected with cement storage cylinder, cement storage cylinder is connected with first axis of rotation, cement storage cylinder upper portion front side fixedly connected with feed inlet, cement storage cylinder downside rotation is connected with the striker plate, the striker plate is laminated with cement storage cylinder downside, both sides all fixedly connected with third rotary block around the striker plate, all fixedly connected with second between third rotary block and the cement storage cylinder, the third rotary block right side all has protruding structure, all rotary block downside all is connected with fourth rotary block on the first rotary block of fixedly connected with, protruding structure all right side contact fourth rotary block all is located right side with the fourth rotary block, all right side contact with the fourth rotary block.

In addition, particularly preferred is, still including rabbling mechanism, be equipped with rabbling mechanism between installing support and the sand storage frame, rabbling mechanism is including first belt pulley, driving belt, second belt pulley, second axis of rotation and second mix the flitch, first belt pulley of first axis of rotation front side fixedly connected with, the installing support upper right side rotation is connected with the second axis of rotation, second axis of rotation front side fixedly connected with second belt pulley, second axis of rotation middle part fixedly connected with second mix the flitch, the second mix the flitch and be located the inside downside of sand storage frame, around having driving belt between first belt pulley and the second belt pulley.

In addition, particularly preferred is, still including pushing away the material mechanism, be equipped with pushing away the material mechanism between installing support and the slip frame, pushing away the material mechanism and including the second dead lever, the third belt pulley, the fourth belt pulley, even belt, first linkage piece and crank, the front and back both sides of installing support left side downside are all bilateral symmetry rotationally are connected with the second dead lever, the inboard fixedly connected with third belt pulley of second dead lever left front side, the inboard fixedly connected with fourth belt pulley of second dead lever, the third belt pulley is located adjacent fourth belt pulley front side, the driving belt walks around the third belt pulley, all around the flat belt between the fourth belt pulley of horizontal homonymy, all bilateral symmetry rotationally are connected with the crank around the slip frame, all rotationally be connected with first linkage piece on the crank, first linkage piece all with adjacent flat belt fixedly connected.

In addition, particularly preferred is, still including vibrating mechanism, be equipped with vibrating mechanism between installing support and the slip frame, vibrating mechanism is including second slide bar, flange and first spring, the installing support left side downside slidingtype is connected with the flange, flange downside evenly distributed ground fixedly connected with four second slide bars, the second slide bar is connected with the installing support slidingtype, all the cover has first spring on the second slide bar, first spring top all with flange bottom fixed connection, first spring bottom all with installing support fixed connection, after the slip frame moves rightwards, the concave-convex structure of slip frame bottom contacts with the flange top.

In addition, particularly preferred is, still including collecting the mechanism, the installing support right side downside is equipped with collecting the mechanism, and collecting the mechanism and including collecting frame, stopper, handle and scraper blade, both sides all are connected with the stopper in the slip around the installing support right side downside, fixedly connected with collects the frame between the stopper, collects frame right side fixedly connected with handle, installing support right side fixedly connected with scraper blade.

In addition, the device is particularly preferred, the device further comprises a compacting mechanism, the right side of the mounting bracket is provided with the compacting mechanism, the compacting mechanism comprises a third fixing rod, a fifth rotating block, a fourth fixing rod, a second connecting block, a pressing plate, a third sliding rod, a limiting plate and a second spring, the right side of the mounting bracket is rotationally connected with the third fixing rod, the middle part of the third fixing rod is fixedly connected with the fifth rotating block, the left side of the fifth rotating block is movably connected with the fourth fixing rod, the lower side of the fourth fixing rod is fixedly connected with the second connecting block, the bottom of the second connecting block is fixedly connected with the pressing plate, the left side and the right side of the top of the pressing plate are symmetrically and longitudinally connected with third sliding rods, the lower parts of the third sliding rods are connected with the mounting bracket in a sliding mode, the tops of the third sliding rods on the same lateral side are fixedly connected with the limiting plate, the tops of the second springs are fixedly connected with the bottoms of the adjacent limiting plates, the bottoms of the second springs are fixedly connected with the mounting bracket, and the sliding frame is in a right side joint with the lower side of the fifth rotating block after moving.

The beneficial effects are that: 1. the first stirring plate rotates to stir the neutralized cement in the cement storage cylinder, so that the effect that the neutralized cement cannot be solidified is achieved.

2. According to the application, the sliding frame drives the second rotating block and the fourth rotating block to rotate, so that the finished and good automatic discharging of cement and raw sand is achieved, and the effect of saving the manual labor force is achieved.

3. According to the application, the second stirring plate rotates to stir raw material sand in the sand storage frame, so that the effects of scattering the wetted and agglomerated raw material sand and improving the practicability of the artificial texture stone surface layer uniform sanding device are achieved.

4. According to the application, the cement on the artificial texture stone is vibrated out with the gas in the cement under the vibration action of the sliding frame, so that the effects of no bubbles in the sand paved on the artificial texture stone, compact structure and prolonged service life of the paved artificial texture stone are achieved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present application.

Fig. 2 is a schematic perspective view of a second embodiment of the present application.

Fig. 3 is a schematic perspective view of a third embodiment of the present application.

Fig. 4 is a partial perspective view in cross-section of the present application.

Fig. 5 is a schematic perspective view of a material placement mechanism according to the present application.

Fig. 6 is a partial perspective sectional view of the material placing mechanism of the present application.

Fig. 7 is a schematic perspective view of a cement blanking mechanism of the present application.

Fig. 8 is a perspective structural sectional view of the cement discharging mechanism of the present application.

Fig. 9 is a schematic view of a part of a perspective structure of a cement blanking mechanism of the present application.

Fig. 10 is a schematic perspective view of the stirring mechanism of the present application.

Fig. 11 is a schematic perspective view of a first embodiment of a pushing mechanism of the present application.

Fig. 12 is a schematic view of a second perspective structure of the pushing mechanism of the present application.

Fig. 13 is a schematic view of a third perspective structure of the pushing mechanism of the present application.

Fig. 14 is a schematic view showing a first perspective structure of the vibration mechanism of the present application.

Fig. 15 is a schematic view showing a second perspective structure of the vibration mechanism of the present application.

Fig. 16 is a schematic perspective view of a collecting mechanism according to the present application.

Fig. 17 is a schematic view showing a partial perspective structure of the collecting mechanism of the present application.

Fig. 18 is a schematic view of a first perspective of a compacting mechanism of the present application.

Fig. 19 is a schematic view of a second perspective of the compacting mechanism of the present application.

The marks of the components in the drawings are as follows: 1: mounting bracket, 2: sand storage frame, 3: first dead lever, 4: first rotating block, 5: second rotating block, 6: first torsion spring, 7: first slide bar, 8: baffle, 9: material placement mechanism, 90: guide bar, 91: slide frame, 92: slide plate, 10: cement blanking mechanism, 101: cement storage cylinder, 102: feed inlet, 103: servo motor, 104: first rotation axis, 105: first stirring plate, 106: striker plate, 107: third rotating block, 108: fourth turning block, 109: second torsion spring, 11: stirring mechanism, 111: first pulley, 112: drive belt, 113: second pulley, 114: second rotation shaft, 115: second stirring plate, 12: pushing mechanism, 121: second fixing lever, 122: third pulley, 123: fourth pulley, 124: flat belt, 125: first connection block, 126: crank, 13: vibration mechanism, 131: second slide bar, 132: convex plate, 133: first spring, 14: collection mechanism, 141: collection frame, 142: stopper, 143: handle, 144: scraper blade, 15: compaction mechanism, 151: third fixing lever, 152: fifth rotating block, 153: fourth dead lever, 154: second connection block, 155: platen, 156: third slide bar, 157: limiting plate, 158: and a second spring.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It should be understood that these examples are illustrative of the present application and are not intended to limit the scope of the present application. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

Example 1

The utility model provides an even sanding device in artificial texture stone material top layer, as shown in fig. 1-19, including installing support 1, store up sand frame 2, first dead lever 3, first rotating block 4, second rotating block 5, first torsional spring 6, first slide bar 7, baffle 8, material placement machine constructs 9 and cement unloading mechanism 10, installing support 1 upper right side fixedly connected with stores up sand frame 2, it is used for depositing raw materials sand to store up sand frame 2, store up sand frame 2 left side downside fixedly connected with first dead lever 3, first dead lever 3 front and back both sides all rotate and be connected with first rotating block 4, all fixedly connected with first torsional spring 6 between first rotating block 4 and the sand frame 2, first torsional spring 6 all overlaps on first dead lever 3, both sides all rotate and be connected with second rotating block 5 around the first dead lever 3, the upper left side of second rotating block 5 is arc structure, upper right side all contacts with adjacent first rotating block 4, sliding connection has first slide bar 7 between the first rotating block 4, first slide bar 7 is connected with first slide bar 8, it is used for controlling support 8 to be equipped with material placement machine constructs 2, left side installation machine constructs 1 lower carriage 8 is equipped with left side lower carriage 2, whether the baffle is equipped with left side lower carriage 1 is equipped with baffle 1.

The material placing mechanism 9 comprises guide rods 90, a sliding frame 91 and a sliding plate 92, wherein the guide rods 90 are fixedly connected to the front side and the rear side of the lower side of the mounting bracket 1, the sliding frame 91 is connected between the guide rods 90 in a sliding mode, the sliding frame 91 is connected with the mounting bracket 1 in a sliding mode, and the sliding plate 92 used for placing artificial texture stones is connected to the upper left side of the sliding frame 91 in a sliding mode.

The cement discharging mechanism 10 comprises a cement storage cylinder 101, a feeding port 102, a servo motor 103, a first rotating shaft 104, a first mixing plate 105, a baffle plate 106, a third rotating block 107, a fourth rotating block 108 and a second torsion spring 109, wherein the servo motor 103 is fixedly connected to the left rear side of the upper portion of the mounting bracket 1, the first rotating shaft 104 is fixedly connected to the output shaft of the servo motor 103, the front side of the first rotating shaft 104 is rotatably connected to the left upper side of the mounting bracket 1, the first mixing plate 105 is fixedly connected to the first rotating shaft 104, the first mixing plate 105 is used for mixing cement, the left upper side of the mounting bracket 1 is fixedly connected with the cement storage cylinder 101, the cement storage cylinder 101 is used for containing cement and is rotatably connected to the first rotating shaft 104, the front side of the cement storage cylinder 101 is fixedly connected with the feeding port 102, the lower side of the cement storage cylinder 101 is rotatably connected with the baffle plate 106, the lower side of the baffle plate 106 is attached to the lower side of the cement storage cylinder 101, the front side and the rear side of the baffle plate 106 is fixedly connected to the left upper side of the mounting bracket 1, the first mixing plate 105 is fixedly connected to the first rotating block 108, the right side of the third rotating block 107 is rotatably connected to the right side of the third rotating block 107, the third rotating block 107 is rotatably connected to the right side of the fourth rotating block 107, and the right side of the third rotating block 107 is rotatably connected to the right side of the fourth rotating block 107 is rotatably connected to the fourth rotating block 107, and is rotatably connected to the right side of the rotating block 107.

When the artificial texture stone surface layer uniform sanding device is used, in an initial state, the sliding frame 91 is positioned at the left limit position, the baffle plate 8 is attached to the lower side of the sand storage frame 2, the baffle plate 106 is attached to the lower side of the cement storage cylinder 101, the sliding frame 91 is separated from the fourth rotating block 108, the sliding frame 91 is separated from the second rotating block 5, firstly, sufficient and good cement is added into the cement storage cylinder 101 through the feeding hole 102, then sufficient raw material sand is added onto the sand storage frame 2, then the servo motor 103 is started, the output shaft of the servo motor 103 drives the first rotating shaft 104 to rotate, the first stirring plate 105 is driven to rotate, then the artificial texture stone is placed on the upper side of the sliding plate 92, the sliding frame 91 is driven to move rightward by hand, the sliding plate 92 is driven to move rightward, so that the artificial texture stone on the sliding plate 92 moves rightward, at the same time, the sliding frame 91 moves to be contacted with the fourth rotating block 108, the fourth rotating block 108 is driven to rotate, under the action of the protruding structure on the third rotating block 107, the third rotating block 107 rotates to drive the baffle plate 106 to rotate, the second torsion spring 109 deforms to enable the baffle plate 106 to be dislocated with the lower side of the cement storage cylinder 101, under the action of gravity, the neutralized cement in the cement storage cylinder 101 moves downwards to fall on the artificial texture stone on the sliding plate 92, when the sliding frame 91 moves rightwards to be separated from the fourth rotating block 108, under the action of restoring force of the second torsion spring 109, the third rotating block 107 rotates to reset, under the action of gravity, the fourth rotating block 108 rotates to reset, the third rotating block 107 drives the baffle plate 106 to rotate to reset, so that the baffle plate 106 is attached to the lower side of the cement storage cylinder 101 again, the neutralized cement in the cement storage cylinder 101 cannot move downwards to fall on the artificial texture stone on the sliding plate 92, at this time, the sliding frame 91 continues to move rightward, when the sliding frame 91 moves rightward until contacting the second rotating block 5, the first rotating block 4 is driven to rotate, the first torsion spring 6 deforms, so that the first slide rod 7 moves leftward, the baffle 8 is driven to move leftward, the baffle 8 and the lower side of the sand storage frame 2 are dislocated, under the action of gravity, raw sand in the sand storage frame 2 moves downward, so that the raw sand falls on cement on the artificial texture stone, when the sliding frame 91 moves rightward until separating from the second rotating block 5, under the action of restoring the original state of the first torsion spring 6, the first rotating block 4 rotates to reset, under the action of gravity, the first rotating block 4 drives the first slide rod 7 to move rightward to reset, the baffle 8 is driven to move rightward to reset, the baffle 8 is attached to the lower side of the sand storage frame 2 again, so that the raw sand in the sand storage frame 2 cannot move downward again, then the sliding plate 92 is pulled leftwards by hand to enable the sliding plate 92 to be misplaced with the sliding frame 91, then the artificial texture stone material with the sand paved on the sliding plate 92 is removed, then the sliding frame 91 is pushed leftwards to reset, because the upper left side of the second rotating block 5 is of an arc-shaped structure, when the sliding frame 91 is contacted with the second rotating block 5 to drive the second rotating block 5 to rotate reversely, the first rotating block 4 is not influenced, because the protruding structure is positioned on the right side of the fourth rotating block 108, when the sliding frame 91 is contacted with the fourth rotating block 108 to drive the fourth rotating block 108 to rotate reversely, the fourth rotating block 108 is not influenced, the servo motor 103 is turned off when the artificial texture stone material is not used, the first stirring plate 105 rotates, so that the cement in the cement storage cylinder 101 is stirred, and the cement is not solidified, in the above process, the sliding frame 91 drives the second rotating block 5 and the fourth rotating block 108 to rotate, so that automatic discharging of cement and raw sand is completed, and the manual labor is saved.

Still including rabbling mechanism 11, be equipped with rabbling mechanism 11 between installing support 1 and the sand storage frame 2, rabbling mechanism 11 is including first belt pulley 111, driving belt 112, second belt pulley 113, second axis of rotation 114 and second mix flitch 115, first belt pulley 111 of first axis of rotation 104 front side fixedly connected with, installing support 1 upper right side rotation is connected with second axis of rotation 114, second axis of rotation 114 front side fixedly connected with second belt pulley 113, second axis of rotation 114 middle part fixedly connected with is used for breaking up the second mix flitch 115 of raw materials sand, second mix flitch 115 is located the inside downside of sand storage frame 2, around driving belt 112 between first belt pulley 111 and the second belt pulley 113.

The automatic feeding device is characterized by further comprising a feeding mechanism 12, wherein the feeding mechanism 12 is arranged between the mounting bracket 1 and the sliding frame 91, the feeding mechanism 12 comprises a second fixing rod 121, a third belt pulley 122, a fourth belt pulley 123, a flat belt 124, a first connecting block 125 and a crank 126, the second fixing rod 121 is rotationally connected to the front side and the rear side of the left lower side of the mounting bracket 1 in a bilateral symmetry manner, the third belt pulley 122 is fixedly connected to the inner side of the left front side of the second fixing rod 121, the fourth belt pulley 123 is fixedly connected to the inner side of the second fixing rod 121, the third belt pulley 122 is positioned on the front side of the fourth belt pulley 123 adjacent to the third belt pulley 122, the flat belt 124 is wound between the fourth belt pulleys 123 on the same side in a transverse direction, the crank 126 is rotationally connected to the front side and the rear side of the sliding frame 91 in a bilateral symmetry manner, the first connecting block 125 is rotationally connected to the crank 126 in a bilateral symmetry manner, and the first connecting block 125 is fixedly connected to the flat belt 124 adjacent to the fourth belt pulley.

When the artificial texture stone surface layer uniform sanding device is used, after the servo motor 103 is opened, the output shaft of the servo motor 103 drives the first rotating shaft 104 to rotate, the first belt pulley 111 to rotate, the second belt pulley 113 is driven by the driving belt 112 to rotate, and then the second rotating shaft 114 is driven to rotate, so that the second stirring plate 115 is rotated, at the same time, the driving belt 112 drives the third belt pulley 122 to rotate, and then drives the fourth belt pulley 123 on the left front side to rotate, and the fourth belt pulley 123 on the right front side is driven by the fourth belt pulley 123 on the left front side to rotate, and then drives the first connecting block 125 on the front side to move to the right side, drives the crank 126 to move to the right side, and then drives the crank 126 on the rear side to move to the right side, the first connecting block 125 of driving the rear side moves to the right side, and then the flat belt 124 of the rear side is enabled to rotate, the fourth belt pulley 123 of the rear side is enabled to rotate, when the sliding frame 91 moves to the right side to the limit position, under the action of the flat belt 124, the first connecting block 125 swings downwards by 180 degrees, the crank 126 is driven to rotate 180 degrees, and then the sliding frame 91 is driven to move leftwards, when the sliding frame 91 moves leftwards to the limit position, under the action of the flat belt 124, the first connecting block 125 swings upwards to reset by 180 degrees, the crank 126 is driven to rotate 180 degrees again to reset, through the above operation, the sliding frame 91 is not required to be driven by hands, the labor force is saved, the second stirring plate 115 rotates, the raw sand in the sand storage frame 2 is stirred, the raw sand of the damp agglomeration is scattered, and the practicability of the artificial texture stone surface layer uniform sanding device is improved.

Still including vibrating mechanism 13, be equipped with vibrating mechanism 13 between installing support 1 and the sliding frame 91, vibrating mechanism 13 is including second slide bar 131, flange 132 and first spring 133, installing support 1 left side downside slidingtype is connected with flange 132, flange 132 is used for making sliding frame 91 vibrate, flange 132 downside evenly distributed ground fixedly connected with four second slide bars 131, second slide bar 131 is connected with installing support 1 slidingtype, all the cover has first spring 133 on the second slide bar 131, first spring 133 is used for driving flange 132 to reset, first spring 133 top all with flange 132 bottom fixed connection, first spring 133 bottom all with installing support 1 fixed connection, the concave-convex structure of sliding frame 91 bottom contacts with flange 132 top after the sliding frame 91 moves rightwards.

When the artificial texture stone surface layer uniform sanding device is used, in an initial state, the concave-convex structure is separated from the convex plate 132, when the sliding frame 91 moves rightwards, the concave-convex structure is contacted with the top of the convex plate 132, under the interaction of the concave-convex structure and the convex plate 132, the first spring 133 is enabled to stretch out and draw back adaptively, meanwhile, the sliding frame 91 is enabled to vibrate, when the sliding frame 91 moves rightwards to separate the concave-convex structure from the convex plate 132, under the action of the first spring 133 to restore the original state, the convex plate 132 is driven to reset, when the sliding frame 91 moves leftwards to reset, the concave-convex structure is enabled to stretch out and draw back adaptively when the concave-convex structure is contacted with the top of the convex plate 132, meanwhile, the sliding frame 91 is enabled to vibrate, when the sliding frame 91 moves leftwards to separate the concave-convex structure from the convex plate 132, the first spring 133 is driven to restore the original state under the action of the first spring 133, after the artificial texture stone on the sliding frame 92 is dropped, and gas in the good cement is vibrated out, and the artificial texture stone is enabled to vibrate out, thus the artificial stone is enabled to have compact and the service life of the artificial stone is prolonged, and the artificial stone is free of paving of bubbles.

Still including collecting mechanism 14, installing support 1 right side downside is equipped with collecting mechanism 14, and collecting mechanism 14 is including collecting frame 141, stopper 142, handle 143 and scraper 144, and both sides all slidingtype are connected with stopper 142 around the installing support 1 right side downside, fixedly connected with collects frame 141 between the stopper 142, and collecting frame 141 is used for collecting cement and raw materials sand, collects frame 141 right side fixedly connected with handle 143, installing support 1 right side fixedly connected with scraper 144.

When the artificial texture stone surface layer is used for uniformly spreading sand, when the sliding frame 91 drives the artificial texture stone fully spread cement and raw material sand to move to the right to the lower side of the scraping plate 144, the scraping plate 144 scrapes the cement and the raw material sand on the artificial texture stone, so that the excessive cement and the raw material sand are blocked by the scraping plate 144, when the sliding frame 91 drives the artificial texture stone fully spread cement and the raw material sand to move to the right to be misplaced with the scraping plate 144, the excessive cement and the raw material sand are blocked by the scraping plate 144 to drop into the collecting frame 141 under the action of gravity, so that the surface of the artificial texture stone for spreading sand is smooth, the attractiveness of the artificial texture stone for spreading sand is improved, when the collecting frame 141 is filled with the cement and the raw material sand, the handle 143 is driven by hands to move to the right, the limiting block 142 is driven to move to the right, people can clean the cement and the raw material sand in the collecting frame 141 conveniently, and after cleaning, the handle 143 is driven to move to the left to reset, and the limiting block 142 is driven to move to the left.

The device comprises a mounting bracket 1, a compaction mechanism 15 is arranged on the right side of the mounting bracket 1, the compaction mechanism 15 comprises a third fixing rod 151, a fifth rotating block 152, a fourth fixing rod 153, a second connecting block 154, a pressing plate 155, a third sliding rod 156, a limiting plate 157 and a second spring 158, the third fixing rod 151 is rotatably connected to the right side of the mounting bracket 1, the fifth rotating block 152 is fixedly connected to the middle part of the third fixing rod 151, the fourth fixing rod 153 is movably connected to the left side of the fifth rotating block 152, the second connecting block 154 is fixedly connected to the lower side of the fourth fixing rod 153, the pressing plate 155 is fixedly connected with a pressing plate 155, cement and raw sand on artificial texture stone are extruded by the pressing plate 155, the left side and the right side of the pressing plate 155 are symmetrically connected with a third sliding rod 156 in a sliding mode, the lower portion of the third sliding rod 156 is slidably connected with the mounting bracket 1, the limiting plate 157 is fixedly connected to the top of the third sliding rod 156 on the same side in a transverse direction, the third spring 158 is sleeved on the third sliding rod 158, the top of the second spring 158 is fixedly connected to the bottom of the adjacent pressing plate 153, and the bottom of the second sliding rod is fixedly connected to the bottom of the mounting bracket 1 in a sliding mode, and the bottom of the limiting plate 157 is fixedly contacted with the bottom spring 158 is fixedly connected to the bottom of the bottom frame 91.

When the artificial texture stone surface layer uniform sanding device is used, in an initial state, the sliding frame 91 is separated from the fifth rotating block 152, when the sliding frame 91 drives the artificial texture stone fully paved with cement and raw material sand to move rightwards to be in contact with the fifth rotating block 152, the fifth rotating block 152 is driven to rotate, the upper left side of the fifth rotating block 152 swings downwards, the fourth fixing rod 153 is driven to move downwards, the second connecting block 154 is driven to move downwards, the pressing plate 155 is driven to move downwards, the third sliding rod 156 is driven to move downwards, the limiting plate 157 is driven to move downwards, the second springs 158 are compressed, when the sliding frame 91 moves leftwards to reset, the sliding frame 91 is separated from the fifth rotating block 152, under the action force of restoring the second springs 158, the limiting plate 157 moves upwards to reset, the third sliding rod 156 moves upwards to reset, when the pressing plate 155 moves downwards, further the cement and the raw material sand on the artificial texture stone are compressed, the internal structure of the artificial texture stone is further made compact, the service life of the artificial texture stone is prolonged, the thickness of the artificial texture stone is limited, and the thickness of the artificial texture stone is controlled in the pressing plate is controlled.

While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the application as disclosed herein. Accordingly, the scope of the application should be limited only by the attached claims.

Claims

1. An artificial texture stone surface layer uniform sanding device is characterized in that: including installing support (1), sand storage frame (2), first dead lever (3), first rotating block (4), second rotating block (5), first torsional spring (6), first slide bar (7), baffle (8), mechanism (9) and cement unloading mechanism (10) are placed to the material, installing support (1) upper right side fixedly connected with sand storage frame (2), sand storage frame (2) left side downside fixedly connected with first dead lever (3), first rotating block (4) are all rotationally connected with in both sides around first dead lever (3), all fixedly connected with first torsional spring (6) between first rotating block (4) and Chu Shakuang (2), first torsional spring (6) all overlap on first dead lever (3), both sides all rotate around first dead lever (3) are connected with second rotating block (5), upper left side of second rotating block (5) is arc structure, upper right side all contacts with adjacent first rotating block (4), first rotating block (4) are connected with first sliding connection (7) between first rotating block (4) and Chu Shakuang), first slide bar (8) are placed to the material, upper left side (35) are connected with baffle (8), a cement blanking mechanism (10) is arranged on the left side of the upper part of the mounting bracket (1);

the material placing mechanism (9) comprises guide rods (90), sliding frames (91) and sliding plates (92), wherein the guide rods (90) are fixedly connected to the front side and the rear side of the lower side of the mounting bracket (1), the sliding frames (91) are connected between the guide rods (90) in a sliding mode, the sliding frames (91) are connected with the mounting bracket (1) in a sliding mode, and the sliding plates (92) are connected to the upper left side of the sliding frames (91) in a sliding mode;

the cement discharging mechanism (10) comprises a cement storage cylinder (101), a feed inlet (102), a servo motor (103), a first rotating shaft (104), a first stirring plate (105), a baffle plate (106), a third rotating block (107), a fourth rotating block (108) and a second torsion spring (109), wherein the servo motor (103) is fixedly connected to the left rear side of the upper part of the mounting bracket (1), the first rotating shaft (104) is fixedly connected to an output shaft of the servo motor (103), the front side of the first rotating shaft (104) is rotatably connected to the left upper side of the mounting bracket (1), the first rotating shaft (104) is fixedly connected with a first stirring plate (105), the left upper side of the mounting bracket (1) is fixedly connected with the cement storage cylinder (101), the cement storage cylinder (101) is rotatably connected with the feed inlet (102) to the lower side of the cement storage cylinder (101), the baffle plate (106) is rotatably connected to the lower side of the cement storage cylinder (101), the baffle plate (106) is fixedly connected to the lower side of the cement storage cylinder (101) through the torsion spring (107), the first rotating blocks (107) are fixedly connected to the right side of the third rotating block (107), the lower sides of the third rotating blocks (107) are rotationally connected with fourth rotating blocks (108), the protruding structures on the third rotating blocks (107) are located on the right sides of the adjacent fourth rotating blocks (108), the sliding frames (91) move rightwards and then contact with the fourth rotating blocks (108), and the sliding frames (91) move rightwards and then contact with the second rotating blocks (5);

the sand storage device is characterized by further comprising a stirring mechanism (11), wherein the stirring mechanism (11) is arranged between the mounting bracket (1) and the sand storage frame (2), the stirring mechanism (11) comprises a first belt pulley (111), a transmission belt (112), a second belt pulley (113), a second rotating shaft (114) and a second stirring plate (115), the first belt pulley (111) is fixedly connected to the front side of the first rotating shaft (104), the second rotating shaft (114) is rotatably connected to the right upper side of the mounting bracket (1), the second belt pulley (113) is fixedly connected to the front side of the second rotating shaft (114), the second stirring plate (115) is fixedly connected to the middle part of the second rotating shaft (114), the second stirring plate (115) is positioned on the lower side inside the sand storage frame (2), and the transmission belt (112) is wound between the first belt pulley (111) and the second belt pulley (113);

the device also comprises a pushing mechanism (12), wherein the pushing mechanism (12) is arranged between the mounting bracket (1) and the sliding frame (91), the pushing mechanism (12) comprises a second fixing rod (121), a third belt pulley (122), a fourth belt pulley (123), a flat belt (124), a first connecting block (125) and a crank (126), the front side and the rear side of the left lower side of the mounting bracket (1) are symmetrically and rotationally connected with the second fixing rod (121), the inner side of the left front side of the second fixing rod (121) is fixedly connected with the third belt pulley (122), the inboard all fixedly connected with fourth belt pulley (123) of second dead lever (121), third belt pulley (122) are located adjacent fourth belt pulley (123) front side, third belt pulley (122) are walked around in driving belt (112), all around have flat belt (124) between fourth belt pulley (123) of horizontal homonymy, both sides all bilateral symmetry rotation are connected with crank (126) around sliding frame (91), all rotation are connected with first connecting block (125) on crank (126), first connecting block (125) all with adjacent flat belt (124) fixed connection.

2. The artificial grain stone surface layer uniform sanding device as defined in claim 1, wherein: still including vibrating mechanism (13), be equipped with vibrating mechanism (13) between installing support (1) and sliding frame (91), vibrating mechanism (13) are including second slide bar (131), flange (132) and first spring (133), installing support (1) left side downside slidingtype is connected with flange (132), four second slide bars (131) of flange (132) downside evenly distributed ground fixedly connected with, second slide bar (131) are connected with installing support (1) slidingtype, all be overlapped on second slide bar (131) first spring (133), first spring (133) top all with flange (132) bottom fixed connection, first spring (133) bottom all with installing support (1) fixed connection, after sliding frame (91) remove to the right, concave-convex structure and flange (132) top contact of sliding frame (91) bottom.

3. The artificial grain stone surface layer uniform sanding device as defined in claim 2, wherein: the device is characterized by further comprising a collecting mechanism (14), wherein the collecting mechanism (14) is arranged on the right lower side of the mounting bracket (1), the collecting mechanism (14) comprises a collecting frame (141), limiting blocks (142), handles (143) and scraping plates (144), the limiting blocks (142) are connected to the front side and the rear side of the right lower side of the mounting bracket (1) in a sliding mode, the collecting frame (141) is fixedly connected between the limiting blocks (142), the handles (143) are fixedly connected to the right side of the collecting frame (141), and the scraping plates (144) are fixedly connected to the right side of the mounting bracket (1).

4. A device for uniformly sanding a surface layer of an artificial grain stone as claimed in claim 3, wherein: the device comprises a mounting bracket (1), the right side of the mounting bracket is provided with a compaction mechanism (15), the compaction mechanism (15) comprises a third fixing rod (151), a fifth rotating block (152), a fourth fixing rod (153), a second connecting block (154), a pressing plate (155), a third sliding rod (156), a limiting plate (157) and a second spring (158), the right side of the mounting bracket (1) is rotationally connected with the third fixing rod (151), the middle part of the third fixing rod (151) is fixedly connected with the fifth rotating block (152), the left side of the fifth rotating block (152) is movably connected with the fourth fixing rod (153), the lower side of the fourth fixing rod (153) is fixedly connected with a second connecting block (154), the bottom of the second connecting block (154) is fixedly connected with a pressing plate (155), the left side and the right side of the top of the pressing plate (155) are symmetrically connected with a third sliding rod (156) in a sliding mode, the lower part of the third sliding rod (156) is fixedly connected with the third sliding plate (156) of the mounting bracket (1), the top of the third sliding rod (156) is fixedly connected with the limiting plate (157), the top of the third sliding rod (156) is fixedly connected with the second spring (158) of the adjacent bottom of the second sliding rod (158), the third sliding rod (156) is fixedly connected with the top of the second sliding rod (158), the sliding frame (91) moves rightwards and contacts with the lower side of the fifth rotating block (152).