CN212420756U - Template environmental protection grinding device for building - Google Patents

Abstract

The utility model relates to a grinding device, more specifically the template environmental protection grinding device for building that says so, including worktable mechenism, bellows mechanism, rotating clamping mechanism, actuating mechanism, area landing leg base, the device can press from both sides tight template, the device can the template of polishing, the device can environmental protection and energy saving remove dust, the device can collect the sweeps of polishing and the collecting process links up, worktable mechenism links to each other with bellows mechanism, bellows mechanism links to each other with rotating clamping mechanism, rotating clamping mechanism links to each other with actuating mechanism, actuating mechanism links to each other with worktable mechenism, worktable mechenism links to each other with taking the landing leg base, takes the landing leg base to link to each other with bellows mechanism.

Description

Template environmental protection grinding device for building

Technical Field

The utility model relates to a grinding device, more specifically the template environmental protection grinding device for building that says so.

Background

In the building work, very important during the quality of template, the cement face of smooth template watering can be smooth and level, and traditional grinding device does not have the dust removal function, and external dust collecting equipment uses and to have the energy waste again, because dust collecting equipment is running always, so design a template environmental protection grinding device for building.

Disclosure of Invention

The utility model provides a template environmental protection grinding device for building, beneficial effect are that the device can press from both sides tight template, and the template can be polished to the device, and the device can environmental protection and energy saving remove dust, and the sweeps that the device can collect and polish just collects the process and links up.

In order to solve the technical problem, the utility model relates to a grinding device, more specifically the template environmental protection grinding device for building that says so, including worktable mechenism, bellows mechanism, rotation clamping mechanism, actuating mechanism, take the landing leg base, the device can press from both sides tight template, and the template can be polished to the device, and the device can environmental protection and energy saving remove dust, and the device can collect the sweeps of polishing and the collecting process links up.

The worktable mechanism comprises a hinged seat, a swinging arm, a driving groove, a gear with a shaft, a convex column, a bent arm support, a step seat, a convex column I, a cantilever, a pull seat with a rod, a clamping seat, a sliding hole, a wedge block movable cavity, a compression spring, a wedge block, an embedded groove, a pushing block, a polishing plate, a wedge-shaped groove, a step groove, a hand wheel, a transmission shaft, a bevel gear I, a threaded rod, a step groove I, a pressing block with a hole, a step slider, a threaded hole A, a suction hole, a step slider with a spring, a passive special-shaped baffle, a step groove II, a platform body, a bent arm support I, a limiting step slider, an opening I, a socket, a support spring, a plug, a motor, a gear I, a groove A and a cavity A, the hinged seat is hinged with the swinging arm, the driving groove is arranged on the swinging arm, the driving groove is in sliding connection with the convex column, the convex column, the platform body is connected with a hinged seat, a curved arm support is connected with the platform body, a stepped seat is connected with a convex column I, the convex column I is connected with a groove A in a sliding manner, the groove A is arranged on a swing arm, the stepped seat is connected with a cantilever, a pull seat with a rod is connected with a sliding hole in a sliding manner, the sliding hole is arranged on a clamping seat, the clamping seat is connected with the cantilever, the pull seat with the rod is connected with a wedge block, the wedge block is connected with a movable cavity of the wedge block in a sliding manner, the movable cavity of the wedge block is arranged on the clamping seat, a compression spring is sleeved on the pull seat with the rod, the compression spring is abutted against the clamping seat and the wedge block, the wedge block is clamped into a wedge groove, the wedge block is arranged on a polishing plate, the polishing plate is embedded into the embedded groove, the embedded groove is arranged on the clamping seat, a pushing block is connected with the clamping seat, a stepped groove is arranged on the curved arm support, the stepped groove is connected with the stepped seat in a sliding manner, bevel gear and bevel gear I are meshed with each other, the bevel gear and bevel gear I are both arranged in a cavity A, the cavity A is arranged on a platform body, the bevel gear I is connected with a threaded rod, the threaded rod is connected with the platform body in a bearing mode, the threaded rod is in threaded connection with a threaded hole A, the threaded hole A is tapped on a stepped slider, the stepped slider is in sliding connection with a stepped groove I, the stepped groove I is formed on the platform body, a pressing block with a hole is connected with the stepped slider, an air suction hole is formed on the platform body, the stepped slider with a spring is connected with a driven special-shaped baffle, the stepped slider with a spring is in sliding connection with a stepped groove II, the stepped groove II is formed on the platform body, the stepped slider with a spring is connected with the platform body, a bent arm support I is connected with the platform body, a limiting stepped slider is in sliding connection with a hole I, the hole I is formed on a socket, the supporting spring is sleeved on the limiting stepped sliding rod and abuts against the socket and the plug, the motor is arranged in the platform body and is connected with a gear I, the gear I is meshed with a gear with a shaft, and the base with the supporting legs is connected with the platform body;

the air box mechanism comprises a belt wheel rotating shaft, a bearing seat, an air box, a negative pressure air wheel, an air wheel belt wheel, an air wheel shaft, a transmission belt, a motor belt wheel, a motor A and a discharge port, wherein the belt wheel rotating shaft is connected with the bearing seat in a bearing mode;

the rotary clamping mechanism comprises a stepped round rod, a matching hole, a sliding box, a bent arm with a rack, a clamping groove, a barrel with a slope, a rotary disc, an opening, a connecting shaft, a barrel I with a slope, an opening I, a bent arm with a rack I, a clamping groove I, a gear I, a servo motor, a matching hole I and a stepped round rod I, wherein the stepped round rod is connected with the matching hole in a sliding way, the matching hole is formed in the sliding box, the stepped round rod is connected with the bent arm with the rack, the bent arm with the rack is meshed with the gear II, the bent arm with the rack is connected with the sliding box in a sliding way, the gear II is connected with the servo motor, the servo motor is arranged in the sliding box, the clamping groove is formed in the bent arm with the rack, the barrel with a slope is connected with the rotary disc, the connecting shaft is formed in the rotary disc, the opening is communicated with the barrel with the slope, the rotary disc is connected with a rotary shaft with a rotary belt wheel, the rotary, the opening I is formed in the rotating disc and communicated with the cylinder I with the slope, a clamping groove I is formed in the bent arm I with the rack, the bent arm I with the rack abuts against the cylinder I with the slope, the bent arm I with the rack is connected with the sliding box in a sliding mode and meshed with the gear II, the stepped round rod I is connected with the matching hole I in a sliding mode, the matching hole I is formed in the sliding box, the bent arm I with the rack is connected with the stepped round rod I, the rotating disc is in contact with the air box, and the discharge port is communicated with the opening I;

the driving mechanism comprises a base body, an incomplete gear, a driving motor, a coupler I, a connecting shaft I, a bevel gear A, a shaft A, a transmission gear, a bevel gear B, a transmission shaft A, a belt pulley A and a belt A, wherein the base body is connected with the connecting shaft I in a bearing manner;

the worktable mechanism is connected with the bellows mechanism, the bellows mechanism is connected with the rotary clamping mechanism, the rotary clamping mechanism is connected with the driving mechanism, the driving mechanism is connected with the worktable mechanism, the worktable mechanism is connected with the base with the supporting legs, and the base with the supporting legs is connected with the bellows mechanism.

As a further optimization of this technical scheme, the utility model relates to a template environmental protection grinding device for building incomplete gear can mesh with the transmission gear after rotating half week.

As the further optimization of this technical scheme, the utility model relates to a template environmental protection grinding device for building when plug and socket are closed, motor A's power is put through.

The utility model relates to a template environmental protection grinding device for building's beneficial effect does:

the utility model relates to a template environmental protection grinding device for building, the device can press from both sides tight template, and the device can the template of polishing, and the device can environmental protection and energy saving remove dust, and the device can collect the sweeps of polishing and collect the process and link up.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the utility model relates to a template environmental protection grinding device for building's overall structure schematic diagram.

Fig. 2 is the utility model relates to a template environmental protection grinding device's for building worktable mechenism 1's a schematic structure diagram.

Fig. 3 is the utility model relates to a template environmental protection grinding device's for building workstation mechanism 1's structural schematic diagram two.

Fig. 4 is the utility model relates to a template environmental protection grinding device's for building worktable mechenism 1's structural schematic diagram is three.

Fig. 5 is the utility model relates to a template environmental protection grinding device's for building workstation mechanism 1's structural schematic diagram four.

Fig. 6 is the utility model relates to a template environmental protection grinding device for building's workstation mechanism 1's structural schematic diagram five.

Fig. 7 is the utility model relates to a template environmental protection grinding device for building's workstation mechanism 1's structural schematic diagram six.

Fig. 8 is a schematic structural diagram of the bellows mechanism 2 of the environmental-friendly polishing device for building templates of the present invention.

Fig. 9 is the utility model relates to a template environmental protection grinding device for building's rotation clamping mechanism 3's schematic structure view.

Fig. 10 is a schematic structural diagram of the driving mechanism 4 of the environmental-friendly polishing device for building templates of the present invention.

In the figure: a table mechanism 1; a hinge base 1-1; 1-2 of a swing arm; driving grooves 1-3; 1-4 of gears with shafts; 1-5 of convex columns; 1-6 of bent arm support; 1-7 of step seats; a convex column I1-8; 1-9 of a cantilever; 1-10 of a pull seat with a rod; 1-11 parts of a clamping seat; 1-12 of a slide hole; 1-13 wedge block movable cavities; 1-14 of a compression spring; 1-15 parts of wedge blocks; 1-16 of embedded groove; pushing blocks 1-17; grinding the plates 1-18; wedge-shaped grooves 1-19; 1-20 parts of a stepped groove; 1-21 parts of a hand wheel; a drive shaft 1-22; bevel gears 1-23; bevel gears I1-24; 1-25 of threaded rod; the stepped grooves I1-26; 1-27 of a compaction block with a hole; 1-28 of a stepped slider; threaded holes A1-29; 1-30 parts of air suction holes; 1-31 parts of a stepped slider with a spring; 1-32 of passive special-shaped baffles; step groove II 1-33; platform bodies 1-34; the bent arm supports I1-35; 1-36 limiting step slide bars; opening I1-37; sockets 1-38; support springs 1-39; 1-40 parts of a plug; motors 1-41; gear I1-42; slots A1-43; cavities A1-44; an air box mechanism 2; a belt pulley rotating shaft 2-1; 2-2 of a bearing seat; 2-3 of an air box; 2-4 parts of negative pressure wind wheel; 2-5 of a wind wheel belt pulley; 2-6 parts of a wind wheel shaft; 2-7 parts of a transmission belt; 2-8 of a motor belt pulley; motor A2-9; 2-10 parts of a discharge port; a rotating clamping mechanism 3; a stepped round bar 3-1; a matching hole 3-2; 3-3 of a sliding box; 3-4 of a bent arm with a rack; 3-5 of a clamping groove; 3-6 parts of a cylinder with a slope; 3-7 of a rotating disc; opening 3-8; connecting shafts 3-9; a sloping cylinder I3-10; opening I3-11; a curved arm I3-12 with a rack; a clamping groove I3-13; gear II 3-14; 3-15 parts of a servo motor; the matching hole I3-16; a stepped round bar I3-17; a drive mechanism 4; a seat body 4-1; incomplete gear 4-2; 4-3 of a driving motor; a coupler I4-4; connecting shaft I4-5; bevel gear A4-6; axis A4-7; transfer gears 4-8; bevel gear B4-9; a transmission shaft A4-10; pulley A4-11; belt A4-12; with a leg base 5.

Detailed Description

The first embodiment is as follows:

the following description of this embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, the utility model relates to a grinding device, more specifically the template environmental protection grinding device for building that says so, including worktable mechenism 1, bellows mechanism 2, rotation clamping mechanism 3, actuating mechanism 4, take landing leg base 5, the device can press from both sides tight template, and the template can be polished to the device, and the device can environmental protection and energy saving remove dust, and the device can collect the sweeps of polishing and the collection process links up.

The worktable mechanism 1 comprises a hinged seat 1-1, a swing arm 1-2, a driving groove 1-3, a gear with a shaft 1-4, a convex column 1-5, a bent arm support 1-6, a step seat 1-7, a convex column I1-8, a cantilever 1-9, a pull seat with a rod 1-10, a clamping seat 1-11, a slide hole 1-12, a wedge block movable cavity 1-13, a compression spring 1-14, a wedge block 1-15, an embedded groove 1-16, a pushing block 1-17, a polishing plate 1-18, a wedge groove 1-19, a step groove 1-20, a hand wheel 1-21, a transmission shaft 1-22, a bevel gear 1-23, a bevel gear I1-24, a threaded rod 1-25, a step groove I1-26, a compression block with a hole 1-27, and a step slider 1-28, The device comprises a threaded hole A1-29, an air suction hole 1-30, a stepped slider with a spring 1-31, a passive special-shaped baffle 1-32, a stepped groove II1-33, a platform body 1-34, a bent arm support I1-35, a limiting stepped slider 1-36, an opening I1-37, a socket 1-38, a support spring 1-39, a plug 1-40, a motor 1-41, a gear I1-42, a groove A1-43 and a cavity A1-44, wherein a hinged seat 1-1 is hinged with a swing arm 1-2, a driving groove 1-3 is arranged on the swing arm 1-2, the driving groove 1-3 is connected with a convex column 1-5 in a sliding manner, the convex column 1-5 is connected with a gear with a shaft 1-4, the gear with the shaft 1-4 is connected with the platform body 1-34 in a bearing manner, the platform body 1-34 is connected with the hinged seat 1-1, the curved boom support 1-6 is connected with the platform body 1-34, the step seat 1-7 is connected with the convex column I1-8, the convex column I1-8 is connected with the groove A1-43 in a sliding way, the groove A1-43 is arranged on the swing arm 1-2, the step seat 1-7 is connected with the cantilever 1-9, the pull seat with the rod 1-10 is connected with the slide hole 1-12 in a sliding way, the slide hole 1-12 is arranged on the clamping seat 1-11, the clamping seat 1-11 is connected with the cantilever 1-9, the pull seat with the rod 1-10 is connected with the wedge block 1-15, the wedge block 1-15 is connected with the wedge block movable cavity 1-13 in a sliding way, the wedge block movable cavity 1-13 is arranged on the clamping seat 1-11, the compression spring 1-14 is sleeved on the pull seat with the rod 1-10, the pressing springs 1-14 are abutted against the clamping seats 1-11 and the wedges 1-15, the wedges 1-15 are clamped into the wedge-shaped grooves 1-19, the wedge-shaped grooves 1-19 are formed on the polishing plates 1-18, the polishing plates 1-18 are embedded into the embedded grooves 1-16, the embedded grooves 1-16 are formed on the clamping seats 1-11, the pushing blocks 1-17 are connected with the clamping seats 1-11, the stepped grooves 1-20 are formed on the bent arm supports 1-6, the stepped grooves 1-20 are connected with the stepped seats 1-7 in a sliding manner, the hand wheels 1-21 are connected with the transmission shafts 1-22, the transmission shafts 1-22 are connected with the platform bodies 1-34 in a bearing manner, the transmission shafts 1-22 are connected with the bevel gears 1-23, the bevel gears 1-23 are meshed with the bevel gears I1-24, bevel gears 1-23 and bevel gears I1-24 are all arranged in cavities A1-44, cavities A1-44 are arranged on platform bodies 1-34, bevel gears I1-24 are connected with threaded rods 1-25, the threaded rods 1-25 are connected with the platform bodies 1-34 in a bearing mode, the threaded rods 1-25 are in threaded connection with threaded holes A1-29, threaded holes A1-29 tap on stepped sliders 1-28, stepped sliders 1-28 are in sliding connection with stepped grooves I1-26, stepped grooves I1-26 are arranged on the platform bodies 1-34, perforated pressing blocks 1-27 are connected with the stepped sliders 1-28, air suction holes 1-30 are arranged on the platform bodies 1-34, and stepped sliders 1-31 with springs are connected with driven special-shaped baffles 1-32, step sliding blocks 1-31 with springs are connected with step grooves II1-33 in a sliding mode, step grooves II1-33 are formed in platform bodies 1-34, step sliding blocks 1-31 with springs are connected with platform bodies 1-34, bent arm supports I1-35 are connected with platform bodies 1-34, limiting step sliding rods 1-36 are connected with openings I1-37 in a sliding mode, openings I1-37 are formed in sockets 1-38, sockets 1-38 are connected with bent arm supports I1-35, limiting step sliding rods 1-36 are connected with plugs 1-40, supporting springs 1-39 are sleeved on limiting step sliding rods 1-36, supporting springs 1-39 abut against sockets 1-38 and plugs 1-40, motors 1-41 are arranged in platform bodies 1-34, motors 1-41 are connected with gears I1-42, gears I1-42 are meshed with gears 1-4 with shafts, a base 5 with supporting legs is connected with platform bodies 1-34, a template to be polished is placed on the platform bodies 1-34, then hand wheels 1-21 are rotated clockwise, the hand wheels 1-21 drive bevel gears 1-23 to rotate through transmission shafts 1-22, the bevel gears 1-23 rotate to drive bevel gears I1-24 to rotate, the bevel gears I1-24 rotate to drive threaded rods 1-25 to rotate, the threaded rods 1-25 rotate to drive stepped sliding blocks 1-28 to move through the matching of threaded holes A1-29, the stepped sliding blocks 1-28 move to drive pressing blocks 1-27 with holes to move leftwards, so that the template is clamped between the pressing blocks 1-27 with holes and the platform bodies 1-34, after polishing, the hand wheel 1-21 can be rotated reversely, the gear I1-42 is driven to rotate by the operation of the motor 1-41, the gear I1-42 rotates to drive the gear 1-4 to rotate, the gear 1-4 rotates to drive the convex column 1-5 to rotate, the convex column 1-5 rotates to drive the swing arm 1-2 to reciprocate around the hinge base 1-1 by the cooperation of the driving groove 1-3, the swing arm 1-2 swings to drive the convex column I1-8 to linearly reciprocate by the groove A1-43, the convex column I1-8 linearly reciprocates to drive the clamping base 1-11 to linearly reciprocate by the cantilever 1-9, the clamping base 1-11 linearly reciprocates to drive the polishing plate 1-18 to linearly reciprocate, the polishing plates 1-18 can polish the tightened template, if the polishing plates 1-18 are worn, only the pull seats with the rods 1-10 are pulled to two sides, the pull seats with the rods 1-10 can drive the wedges 1-15 to slide out of the wedge-shaped grooves 1-19, and therefore the polishing plates 1-18 can be taken down for replacement;

the air box mechanism 2 comprises a belt wheel rotating shaft 2-1, a bearing seat 2-2, an air box 2-3, a negative pressure air wheel 2-4, an air wheel belt pulley 2-5, an air wheel shaft 2-6, a transmission belt 2-7, a motor belt pulley 2-8, a motor A2-9 and a discharge hole 2-10, the belt wheel rotating shaft 2-1 is connected with the bearing seat 2-2 through a bearing, the bearing seat 2-2 is connected with the air box 2-3, the air box 2-3 is connected with a platform body 1-34, the air box 2-3 is connected with a base 5 with support legs, the negative pressure air wheel 2-4 is connected with the air wheel shaft 2-6, the air wheel shaft 2-6 is connected with the air box 2-3 through a bearing, the air wheel shaft 2-6 is connected with the air wheel belt pulley 2-5, the wind wheel belt pulley 2-5 is in friction connection with the transmission belt 2-7, the transmission belt 2-7 is in friction connection with the motor belt pulley 2-8, the motor belt pulley 2-8 is connected with the motor A2-9, the motor A2-9 is connected with the air box 2-3, the discharge port 2-10 is arranged on the air box 2-3, when the clamping seat 1-11 performs reciprocating linear motion, the clamping seat 1-11 polishes the template when moving rightwards, and simultaneously pushes the polished scraps to move rightwards, the clamping seat 1-11 pushes the plug 1-40 through the pushing block 1-17, the polishing plate 1-18 pushes the passive special-shaped baffle plate 1-32, the suction hole 1-30 leaks out when the passive special-shaped baffle plate 1-32 is pushed, and simultaneously the pushed pushing plug 1-40 is closed with the socket 1-38, the power supply of the motor A2-9 is switched on, the motor A2-9 can drive the motor belt pulley 2-8 to rotate, the motor belt pulley 2-8 can drive the wind wheel belt pulley 2-5 to rotate through the transmission belt 2-7, the wind wheel belt pulley 2-5 can drive the negative pressure wind wheel 2-4 to rotate through the wind wheel shaft 2-6, the negative pressure wind wheel 2-4 can rotate to form negative pressure, pushed scraps are sucked into the wind box 2-3 from the air suction hole 1-30 and then discharged from the discharge hole 2-10, when the clamping seat 1-11 moves leftwards, under the resilience effect of the supporting spring 1-39, the plug 1-40 is separated from the socket 1-38, negative pressure is stopped to form, and electric energy is saved;

the rotary clamping mechanism 3 comprises a stepped round rod 3-1, a matching hole 3-2, a sliding box 3-3, a bent arm with a rack 3-4, a clamping groove 3-5, a cylinder with a slope 3-6, a rotary disc 3-7, an opening 3-8, a connecting shaft 3-9, a cylinder with a slope I3-10, an opening I3-11, a bent arm with a rack I3-12, a clamping groove I3-13, a gear II3-14, a servo motor 3-15, a matching hole I3-16, a stepped round rod I3-17, the stepped round rod 3-1 is in sliding connection with the matching hole 3-2, the matching hole 3-2 is arranged on the sliding box 3-3, the stepped round rod 3-1 is connected with the bent arm with the rack 3-4, the bent arm with the rack 3-4 is meshed with the gear II3-14, the curved arm 3-4 with a rack is connected with the sliding box 3-3 in a sliding way, the gear II3-14 is connected with the servo motor 3-15, the servo motor 3-15 is arranged in the sliding box 3-3, the clamping groove 3-5 is arranged on the curved arm 3-4 with the rack, the cylinder 3-6 with a slope is connected with the rotating disc 3-7, the rotating disc 3-7 is provided with an opening 3-8, the opening 3-8 is communicated with the cylinder 3-6 with the slope, the rotating disc 3-7 is connected with the rotating shaft 2-1 with the belt wheel, the rotating disc 3-7 is connected with the connecting shaft 3-9, the connecting shaft 3-9 is connected with the sliding box 3-3, the cylinder I3-10 with the rotating disc 3-7, the opening I3-11 is arranged on the rotating disc 3-7, the opening I3-11 is communicated with the cylinder I3-10 with the slope, a clamping groove I3-13 is arranged on a bent arm I3-12 with a rack, the bent arm I3-12 with the rack is abutted against a cylinder I3-10 with a slope, the bent arm I3-12 with the rack is connected with a sliding box 3-3 in a sliding way, the bent arm I3-12 with the rack is meshed with a gear II3-14, a stepped round rod I3-17 is connected with a matching hole I3-16 in a sliding way, the matching hole I3-16 is arranged on the sliding box 3-3, the bent arm I3-12 with the rack is connected with a stepped round rod I3-17, a rotating disc 3-7 is contacted with an air box 2-3, and a discharge port 2-10 is communicated with an opening I3-11;

the driving mechanism 4 comprises a seat body 4-1, an incomplete gear 4-2, a driving motor 4-3, a coupling I4-4, a connecting shaft I4-5, a bevel gear A4-6, a shaft A4-7, a transmission gear 4-8, a bevel gear B4-9, a transmission shaft A4-10, a belt pulley A4-11 and a belt A4-12, the seat body 4-1 is connected with the connecting shaft I4-5 in a bearing manner, the connecting shaft I4-5 is connected with the coupling I4-4, the coupling I4-4 is connected with the driving motor 4-3, the I4-5 is connected with the connecting shaft of the incomplete gear 4-2, the bevel gear A4-6 is connected with the shaft A4-7, the shaft A4-7 is connected with the transmission gear 4-8, the bevel gear A4-6 is meshed with the bevel gear B4-9, bevel gear B4-9 is connected with transmission shaft A4-10, transmission shaft A4-10 is connected with seat body 4-1 by bearing, transmission shaft A4-10 is connected with belt pulley A4-11, belt pulley A4-11 is connected with belt A4-12 by friction, belt A4-12 is connected with belt pulley rotating shaft 2-1 by friction, seat body 4-1 is connected with driving motor 4-3, seat body 4-1 is connected with platform body 1-34, before using, the device clamps the cloth bag for collecting the sweeps between belt slope cylinder I3-10 and curved arm I3-12 with rack, thus can receive the sweeps sucked by negative pressure, when the sweeps in the cloth bag are fully accumulated, the driving motor 4-3 and servo motor 3-15 are synchronously operated, the driving motor 4-3 can drive the incomplete gear 4-2 to rotate for a circle, the incomplete gear 4-2 rotates to drive the transmission gear 4-8 to rotate, the transmission gear 4-8 rotates to drive the belt wheel rotating shaft 2-1 to rotate through the bevel gear B4-9, the transmission shaft A4-10, the belt pulley A4-11 and the belt A4-12, the belt wheel rotating shaft 2-1 rotates to drive the rotating clamping mechanism 3 to rotate, when the rotating clamping mechanism 3 rotates for half a circle, the driving motor 4-3 stops rotating, so that the opening 3-8 is communicated with the discharge port 2-10, meanwhile, when the rotating clamping mechanism 3 rotates, the servo motor 3-15 operates to drive the gear II3-14 to rotate, the gear II3-14 rotates to drive the rack bending arm I3-12 to move downwards, so that the fastened cloth bag can be separated, after collection is completed, the waste scraps can be transported away, the gear II3-14 rotates to drive the rack-provided bent arm 3-4 to move upwards, so that a cloth bag is sleeved on the clamping groove 3-5 in advance, and the rack-provided bent arm 3-4 moves upwards to tighten a new cloth bag, so that the waste scraps from the discharge hole 2-10 are collected;

the worktable mechanism 1 is connected with the bellows mechanism 2, the bellows mechanism 2 is connected with the rotary clamping mechanism 3, the rotary clamping mechanism 3 is connected with the driving mechanism 4, the driving mechanism 4 is connected with the worktable mechanism 1, the worktable mechanism 1 is connected with the base with the supporting legs 5, and the base with the supporting legs 5 is connected with the bellows mechanism 2.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, and the present embodiment further describes the first embodiment, in which the incomplete gear 4-2 meshes with the transmission gear 4-8 after half a rotation.

The third concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, and the present embodiment further describes the first embodiment, wherein when the plugs 1 to 40 and the sockets 1 to 38 are closed, the power supply of the motors a2 to 9 is turned on.

The utility model discloses a theory of operation is: the device can clamp the template, place the template to be polished on the platform body 1-34, then the hand wheel 1-21 is rotated clockwise, the hand wheel 1-21 drives the bevel gear 1-23 to rotate through the transmission shaft 1-22, the bevel gear 1-23 rotates to drive the bevel gear I1-24 to rotate, the bevel gear I1-24 rotates to drive the threaded rod 1-25 to rotate, the threaded rod 1-25 rotates to drive the step slide block 1-28 to move through the matching of the threaded hole A1-29, the step slide block 1-28 moves to drive the holed pressing block 1-27 to move to the left side, thus, the template is clamped between the perforated pressing blocks 1-27 and the platform bodies 1-34, and the hand wheels 1-21 can be rotated reversely after polishing is finished; the device can polish a template, a gear I1-42 is driven to rotate by the operation of a motor 1-41, a gear I1-42 rotates to drive a gear 1-4 to rotate, the gear 1-4 rotates to drive a convex column 1-5 to rotate, the convex column 1-5 rotates to drive a swing arm 1-2 to reciprocate around a hinge base 1-1 through the cooperation of a driving groove 1-3, the swing arm 1-2 swings to drive a convex column I1-8 to linearly reciprocate through a groove A1-43, the convex column I1-8 linearly reciprocates to drive a clamping base 1-11 to linearly reciprocate through a cantilever 1-9, and the clamping base 1-11 linearly reciprocates to drive a polishing plate 1-18 to linearly reciprocate, the polishing plates 1-18 can polish the tightened template, if the polishing plates 1-18 are worn, only the pull seats with the rods 1-10 are pulled to two sides, the pull seats with the rods 1-10 can drive the wedges 1-15 to slide out of the wedge-shaped grooves 1-19, and therefore the polishing plates 1-18 can be taken down for replacement; the device can remove dust in an environment-friendly and energy-saving manner, when the clamping seat 1-11 moves in a reciprocating linear manner, the clamping seat 1-11 moves rightwards, the template can be polished, meanwhile, polished scraps can be pushed to move rightwards, the clamping seat 1-11 can push the plug 1-40 through the pushing block 1-17, the polishing plate 1-18 can push the passive special-shaped baffle 1-32, the air suction hole 1-30 can be leaked out when the passive special-shaped baffle 1-32 is pushed, meanwhile, the pushed pushing plug 1-40 can be closed with the socket 1-38, the power supply of the motor A2-9 is switched on, the motor A2-9 can drive the motor belt pulley 2-8 to rotate, the motor belt pulley 2-8 rotates and can drive the wind wheel belt pulley 2-5 to rotate through the transmission belt 2-7, the wind wheel belt pulley 2-5 rotates to drive the negative pressure wind wheel 2-4 to rotate through the wind wheel shaft 2-6, the negative pressure wind wheel 2-4 rotates to form negative pressure, pushed scraps are sucked into the wind box 2-3 from the air suction hole 1-30 and then discharged from the discharge hole 2-10, when the clamping seat 1-11 moves leftwards, under the resilience effect of the supporting spring 1-39, the plug 1-40 is separated from the socket 1-38, the negative pressure is stopped to be formed, and electric energy is saved; the device can collect polished scraps and has continuous collection process, before the device is used, a cloth bag for collecting the scraps is clamped between a slope-carrying cylinder I3-10 and a rack-carrying bent arm I3-12, so that the scraps sucked by negative pressure can be connected, when the scraps in the cloth bag are fully accumulated, a driving motor 4-3 and a servo motor 3-15 are synchronously operated, the driving motor 4-3 can drive an incomplete gear 4-2 to rotate for a circle, the incomplete gear 4-2 can drive a transmission gear 4-8 to rotate, the transmission gear 4-8 can drive a belt wheel rotating shaft 2-1 to rotate through a bevel gear B4-9, a transmission shaft A4-10, a belt pulley A4-11 and a belt A4-12, and the belt wheel rotating shaft 2-1 can drive a rotating clamping mechanism 3 to rotate, when the rotary clamping mechanism 3 rotates for half a circle, the driving motor 4-3 stops rotating, so that the opening 3-8 is communicated with the discharge port 2-10, meanwhile, when the rotary clamping mechanism 3 rotates, the servo motor 3-15 rotates to drive the gear II3-14 to rotate, the gear II3-14 rotates to drive the bent arm I3-12 with the rack to move downwards, so that the tightened cloth bag is separated out to finish collection and can be transported away, the gear II3-14 rotates to drive the bent arm 3-4 with the rack to move upwards, so that the cloth bag is sleeved on the clamping groove 3-5 in advance, and the bent arm 3-4 with the rack moves upwards to tighten a new cloth bag, so that waste scraps from the discharge port 2-10 are collected.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or replacements made by those skilled in the art within the scope of the present invention also belong to the protection scope of the present invention.

Claims (3)

1. The utility model provides a template environmental protection grinding device for building, includes workstation mechanism (1), bellows mechanism (2), rotates clamping mechanism (3), actuating mechanism (4), takes landing leg base (5), its characterized in that: the workbench mechanism (1) comprises a hinge seat (1-1), a swing arm (1-2), a driving groove (1-3), a gear with a shaft (1-4), a convex column (1-5), a bent arm support (1-6), a step seat (1-7), a convex column I (1-8), a cantilever (1-9), a pull seat with a rod (1-10), a clamping seat (1-11), a slide hole (1-12), a wedge block movable cavity (1-13), a compression spring (1-14), a wedge block (1-15), an embedded groove (1-16), a pushing block (1-17), a polishing plate (1-18), a wedge groove (1-19), a step groove (1-20), a hand wheel (1-21), a transmission shaft (1-22), a bevel gear (1-23), Bevel gear I (1-24), threaded rods (1-25), stepped grooves I (1-26), pressing blocks with holes (1-27), stepped sliders (1-28), threaded holes A (1-29), air suction holes (1-30), stepped sliders with springs (1-31), passive special-shaped baffles (1-32), stepped grooves II (1-33), platform bodies (1-34), bent arm supports I (1-35), limiting stepped sliders (1-36), holes I (1-37), sockets (1-38), supporting springs (1-39), plugs (1-40), motors (1-41), gears I (1-42), grooves A (1-43) and cavities A (1-44), wherein a hinged seat (1-1) is hinged with a swing arm (1-2), the swing arm (1-2) is provided with a driving groove (1-3), the driving groove (1-3) is connected with a convex column (1-5) in a sliding manner, the convex column (1-5) is connected with a gear (1-4) with a shaft, the gear (1-4) with the shaft is connected with a platform body (1-34) in a bearing manner, the platform body (1-34) is connected with a hinged seat (1-1), a bent arm support (1-6) is connected with the platform body (1-34), a step seat (1-7) is connected with a convex column I (1-8), the convex column I (1-8) is connected with a groove A (1-43) in a sliding manner, the groove A (1-43) is arranged on the swing arm (1-2), the step seat (1-7) is connected with a cantilever (1-9), a pull seat (1-10) with a pull rod is connected with a sliding hole (1-12) in a sliding manner, the slide hole (1-12) is arranged on the clamping seat (1-11), the clamping seat (1-11) is connected with the cantilever (1-9), the pull seat with the rod (1-10) is connected with the wedge block (1-15), the wedge block (1-15) is connected with the movable cavity of the wedge block (1-13) in a sliding way, the movable cavity of the wedge block (1-13) is arranged on the clamping seat (1-11), the compression spring (1-14) is sleeved on the pull seat with the rod (1-10), the compression spring (1-14) is propped against the clamping seat (1-11) and the wedge block (1-15), the wedge block (1-15) is clamped in the wedge-shaped groove (1-19), the wedge-shaped groove (1-19) is arranged on the polishing plate (1-18), the polishing plate (1-18) is embedded in the embedded groove (1-16), and the embedded groove (1-16) is arranged on the clamping seat (1-11), the pushing block (1-17) is connected with the clamping seat (1-11), the stepped groove (1-20) is arranged on the bent arm support (1-6), the stepped groove (1-20) is connected with the stepped seat (1-7) in a sliding way, the hand wheel (1-21) is connected with the transmission shaft (1-22), the transmission shaft (1-22) is connected with the platform body (1-34) in a bearing way, the transmission shaft (1-22) is connected with the bevel gear (1-23), the bevel gear (1-23) is meshed with the bevel gear I (1-24), the bevel gear (1-23) and the bevel gear I (1-24) are both arranged in the cavity A (1-44), the cavity A (1-44) is arranged on the platform body (1-34), the bevel gear I (1-24) is connected with the threaded rod (1-25), the threaded rod (1-25) is connected with the platform body (1-34) in a bearing way, the threaded rod (1-25) is in threaded connection with a threaded hole A (1-29), the threaded hole A (1-29) is tapped on a step slide block (1-28), the step slide block (1-28) is in sliding connection with a step groove I (1-26), the step groove I (1-26) is formed on the platform body (1-34), a pressing block (1-27) with a hole is connected with the step slide block (1-28), an air suction hole (1-30) is formed on the platform body (1-34), a step slide block (1-31) with a spring is connected with a driven special-shaped baffle plate (1-32), the step slide block (1-31) with the spring is in sliding connection with a step groove II (1-33), the step groove II (1-33) is formed on the platform body (1-34), the stepped sliding block with the spring (1-31) is connected with the platform body (1-34), the bent arm support I (1-35) is connected with the platform body (1-34), the limiting stepped sliding rod (1-36) is connected with the opening I (1-37) in a sliding manner, the opening I (1-37) is arranged on the socket (1-38), the socket (1-38) is connected with the bent arm support I (1-35), the limiting stepped sliding rod (1-36) is connected with the plug (1-40), the supporting spring (1-39) is sleeved on the limiting stepped sliding rod (1-36), the supporting spring (1-39) abuts against the socket (1-38) and the plug (1-40), the motor (1-41) is arranged in the platform body (1-34), the motor (1-41) is connected with the gear I (1-42), the gears I (1-42) are meshed with the gears (1-4) with shafts, and the base (5) with the supporting legs is connected with the platform body (1-34);

the air box mechanism (2) comprises a belt wheel rotating shaft (2-1), a bearing seat (2-2), an air box (2-3), a negative pressure air wheel (2-4), a wind wheel belt pulley (2-5), a wind wheel shaft (2-6), a transmission belt (2-7), a motor belt pulley (2-8), a motor A (2-9) and a discharge hole (2-10), the belt wheel rotating shaft (2-1) is connected with the bearing seat (2-2) in a bearing mode, the bearing seat (2-2) is connected with the air box (2-3), the air box (2-3) is connected with a platform body (1-34), the air box (2-3) is connected with a base (5) with supporting legs, and the negative pressure air wheel (2-4) is connected with the wind wheel shaft (2-6), the wind wheel shaft (2-6) is connected with the wind box (2-3) in a bearing mode, the wind wheel shaft (2-6) is connected with a wind wheel belt pulley (2-5), the wind wheel belt pulley (2-5) is in friction connection with a transmission belt (2-7), the transmission belt (2-7) is in friction connection with a motor belt pulley (2-8), the motor belt pulley (2-8) is connected with a motor A (2-9), the motor A (2-9) is connected with the wind box (2-3), and a discharge hole (2-10) is formed in the wind box (2-3);

the rotary clamping mechanism (3) comprises a stepped round rod (3-1), a matching hole (3-2), a sliding box (3-3), a bent arm with a rack (3-4), a clamping groove (3-5), a barrel with a slope (3-6), a rotating disc (3-7), an opening (3-8), a connecting shaft (3-9), a barrel with a slope (I) (3-10), an opening I (3-11), a bent arm with a rack (I) (3-12), a clamping groove I (3-13), a gear II (3-14), a servo motor (3-15), a matching hole I (3-16) and a stepped round rod I (3-17), wherein the stepped round rod (3-1) is connected with the matching hole (3-2) in a sliding manner, and the matching hole (3-2) is formed in the sliding box (3-3), the stepped round rod (3-1) is connected with a curved arm (3-4) with a rack, the curved arm (3-4) with the rack is meshed with a gear II (3-14), the curved arm (3-4) with the rack is connected with a sliding box (3-3) in a sliding way, the gear II (3-14) is connected with a servo motor (3-15), the servo motor (3-15) is arranged in the sliding box (3-3), a clamping groove (3-5) is formed in the curved arm (3-4) with the rack, a cylinder (3-6) with a slope is connected with a rotating disc (3-7), an opening (3-8) is formed in the rotating disc (3-7), the opening (3-8) is communicated with the cylinder (3-6) with the slope, the rotating disc (3-7) is connected with a rotating shaft (2-1) with the belt wheel, the rotating disc (3-7) is connected with the connecting shaft (3-9), the connecting shaft (3-9) is connected with the sliding box (3-3), the cylinder I (3-10) with a slope is connected with the rotating disc (3-7), the opening I (3-11) is arranged on the rotating disc (3-7), the opening I (3-11) is communicated with the cylinder I (3-10) with a slope, the bent arm I (3-12) with a rack is provided with a clamping groove I (3-13), the bent arm I (3-12) with a rack is propped against the cylinder I (3-10) with a slope, the bent arm I (3-12) with a rack is connected with the sliding box (3-3) in a sliding way, the bent arm I (3-12) with a rack is meshed with the gear II (3-14), the stepped circular rod I (3-17) is connected with the matching hole I (3-16) in a sliding way, the matching hole I (3-16) is arranged on the sliding box (3-3), the bent arm I (3-12) with the rack is connected with the step round rod I (3-17), the rotating disc (3-7) is contacted with the air box (2-3), and the discharge hole (2-10) is communicated with the opening I (3-11);

the driving mechanism (4) comprises a seat body (4-1), an incomplete gear (4-2), a driving motor (4-3), a coupler I (4-4), a connecting shaft I (4-5), a bevel gear A (4-6), a shaft A (4-7), a transmission gear (4-8), a bevel gear B (4-9), a transmission shaft A (4-10), a belt pulley A (4-11) and a belt A (4-12), the seat body (4-1) and the connecting shaft I (4-5) are connected in a bearing mode, the connecting shaft I (4-5) is connected with the coupler I (4-4), the coupler I (4-4) is connected with the driving motor (4-3), and the connecting shaft I (4-5) is connected with the incomplete gear (4-2), the bevel gear A (4-6) is connected with the shaft A (4-7), the shaft A (4-7) is connected with the transmission gear (4-8), the bevel gear A (4-6) is meshed with the bevel gear B (4-9), the bevel gear B (4-9) is connected with the transmission shaft A (4-10), the transmission shaft A (4-10) is connected with the base body (4-1) in a bearing mode, the transmission shaft A (4-10) is connected with the belt pulley A (4-11), the belt pulley A (4-11) is in friction connection with the belt A (4-12), the belt A (4-12) is in friction connection with the belt pulley rotating shaft (2-1), the base body (4-1) is connected with the driving motor (4-3), and the base body (4-1) is connected with the platform body (1-34);

the workbench mechanism (1) is connected with the bellows mechanism (2), the bellows mechanism (2) is connected with the rotary clamping mechanism (3), the rotary clamping mechanism (3) is connected with the driving mechanism (4), the driving mechanism (4) is connected with the workbench mechanism (1), the workbench mechanism (1) is connected with the base (5) with the supporting legs, and the base (5) with the supporting legs is connected with the bellows mechanism (2).

2. The environment-friendly grinding device for the building templates as claimed in claim 1, wherein: the incomplete gear (4-2) will mesh with the transmission gear (4-8) after half a revolution.

3. The environment-friendly grinding device for the building templates as claimed in claim 1, wherein: when the plug (1-40) and the socket (1-38) are closed, the power supply of the motor A (2-9) is switched on.

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