CN113635431B - Aerated brick location cutting device - Google Patents

Abstract

The invention discloses an aerated brick positioning and cutting device which comprises a conveying device, bricks, a clamping and positioning device, a cutting driving device and a cutting device, wherein the clamping and positioning device is used for clamping and positioning the bricks, the conveying device is used for conveying the bricks, the cutting device is used for cutting the bricks during conveying, and the cutting driving device is used for driving the cutting device to perform reciprocating extending type cutting during cutting.

Description

Aerated brick location cutting device

Technical Field

The invention belongs to the technical field of cutting, and particularly relates to an aerated brick positioning and cutting device.

Background

In the building industry, the aerated brick is a building material which is used in large quantity, and the aerated concrete block is a novel wall material which is prepared by taking stone powder, cement and lime as main raw materials through the steps of raw material preparation, pouring, cutting and forming and high-pressure steam curing. The method is mainly applied to non-bearing wall masonry and frame structure filling. In the aerated brick manufacturing and forming process, the aerated brick needs to be cut into required sizes, but in the actual cutting process, the positioning and clamping are often not accurate enough, and the cutting position and the cutting direction are not adjusted according to the actual requirements when the cutter is used for cutting, so that the unevenness of a cutting surface or the error of the cutting size is larger, even the flatness of the cutting surface is lower, and in order to solve the problems, the aerated brick manufacturing and forming process has the following application numbers: 201710642227X discloses a positioning device for cutting an aerated block, which comprises a bottom plate, wherein two positioning grooves are symmetrically formed in the bottom plate, positioning blocks are arranged in the positioning grooves, and the top ends of the positioning blocks are fixedly connected with a clamping device; the positioning device comprises a positioning groove, a positioning block and a bolt, wherein the positioning groove is arranged on the bottom plate, the bottom plate is provided with a plurality of positioning through holes, the upper sides of two ends of the positioning block are symmetrically provided with two thread grooves, the threads of the thread grooves are connected with the bolts in a threaded manner, and the bolts penetrate through the positioning through holes to extend upwards.

Disclosure of Invention

Aiming at the technical problems, the technical scheme adopted by the invention is as follows: an aerated brick positioning and cutting device comprises a conveying device, bricks, a clamping and positioning device, a cutting driving device and a cutting device; the clamping and positioning device, the cutting driving device and the cutting device are respectively and fixedly arranged on the conveying device, and the cutting driving device is connected with the cutting device.

The conveying device comprises a driving shaft, a poking sheet and a cutting driving shaft, wherein the driving shaft is used for providing power for the clamping and positioning device, the poking sheet is used for providing power for the cutting driving device, and the poking sheet is used for pushing the brick.

The clamping and positioning device comprises a clamping driving wheel and a positioning assembly, the clamping driving wheel is fixedly connected with the driving shaft, and the positioning assembly is used for positioning the bricks.

The cutting driving device comprises a poking wheel, and the poking wheel is fixedly connected with the cutting driving shaft.

The cutting device comprises a cutting assembly and a cutting driving assembly.

Further, conveyor still include braced frame, profile of tooth hold-in range, connecting plate, carry driving pulley and transport V belt, braced frame on fixed mounting have vertical bearing frame and support the riser, the drive shaft rotates and installs in vertical bearing frame, fixed mounting has synchronous pulley in the drive shaft, synchronous pulley and profile of tooth hold-in range intermeshing, connecting plate fixed mounting is on supporting the riser, be provided with the cutting cut on the connecting plate, carry driving pulley fixed mounting on carrying the drive shaft, fixed mounting has synchronous pulley and carries driven pulley in the cutting drive shaft, carry driving pulley and carry driven pulley and pass through transport V belt and connect, the initial mounting mode of carrying the V belt is lax mounting mode.

Furthermore, the clamping and positioning device further comprises a driving rack, the positioning assembly comprises a clamping moving plate, a driving connecting rod, a sliding plate, a middle connecting rod and a T-shaped guide rail, a T-shaped sliding block is arranged at the bottom of the sliding plate and is in sliding connection with the T-shaped guide rail, one end of the driving connecting rod is fixedly installed on the sliding plate, the other end of the driving connecting rod is rotatably installed on the clamping moving plate, the driving rack is fixedly connected with the sliding plate, the driving rack is meshed with the clamping driving wheel, two ends of the middle connecting rod are respectively rotatably installed on the sliding plate and the clamping moving plate, the T-shaped guide rail is fixedly installed on the connecting plate, a plurality of rubber wheels are arranged on the clamping moving plate, and the clamping moving plate, the driving connecting rod, the middle connecting rod and the rubber wheels are symmetrically arranged in a left-right two groups.

Furthermore, the cutting driving device further comprises an installation block and a connecting rod, the installation block is rotatably installed on the cutting driving shaft, a connecting shaft and a poking pin are fixedly installed on the installation block, and two ends of the connecting rod are hinged to the connecting shaft and the sliding rod.

Further, the cutting assembly comprises a vertical plate, a cutting blade, a cutting triangular belt, a motor mounting plate, a driving motor, an adjusting plate, a fixing plate, a conveying driving shaft and a driving shaft mounting block, wherein an arc-shaped groove is formed in the vertical plate, the cutting blade is fixedly mounted on the conveying driving shaft, the conveying driving shaft is rotatably mounted on the driving shaft mounting block, a cutting driven belt wheel is fixedly mounted on the conveying driving shaft, the motor mounting plate is fixedly mounted on a supporting frame, the driving motor is fixedly mounted on the motor mounting plate, a motor shaft is fixedly mounted on an output shaft of the driving motor, a cutting driving belt wheel is fixedly mounted on the motor shaft, the cutting driving belt wheel is connected with the cutting driven belt wheel through the cutting triangular belt, the adjusting plate is rotatably connected with the fixing plate through a rotating shaft, a connecting ring is mounted at the bottom of the adjusting plate, the fixing plate is fixedly mounted on the supporting frame, the conveying driving shaft is slidably connected with the arc-shaped groove, and the driving shaft mounting block is fixedly mounted on the adjusting plate.

Further, cutting drive assembly include slide bar, link, reset spring, optical axis deflector, guide block and cutting connecting rod, slide bar slidable mounting on the link, fixed mounting has holding ring and slurcam on the slide bar, link fixed mounting is on braced frame, reset spring's both ends respectively with holding ring and link fixed connection, fixed mounting has the optical axis on the slurcam, optical axis slidable mounting is on the optical axis deflector, the equal fixed mounting of optical axis deflector and guide block is on the fixed plate, fixed mounting has the slider on the optical axis, the slider and the guide block sliding fit of optical axis, fixed mounting has the go-between on optical axis and the slider, the both ends of cutting connecting rod are articulated with two go-between respectively through the pin.

Furthermore, the plurality of stirring pieces are arranged and are fixedly installed on the toothed synchronous belt.

Furthermore, the length of the driving connecting rod is greater than that of the middle connecting rod.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the invention, the positioning and clamping of the aerated bricks before cutting are realized through a flexible positioning and adjusting mechanism by combining the structural characteristics of the aerated bricks, so that the cutting tool setting is accurate; (2) The invention adopts a combined motion structure to transmit power, so that the cutter disc can rotate at high speed for cutting, and meanwhile, the self-generated feed amount is ensured, and the flatness of a cutting surface is improved; (3) The conveying device and the cutting adjusting device are coaxial and cannot generate mutual interference of power torque, so that the continuity and effectiveness of movement are ensured; (4) The pneumatic brick positioning device is high in automation degree and accurate in positioning, the pneumatic brick is longitudinally limited through the tooth-shaped clamping groove of the feeding belt, and the transverse and vertical positioning of the pneumatic brick is guaranteed through the positioning and clamping device.

Drawings

Fig. 1 is a schematic view of the overall structure of the invention.

Fig. 2 is a schematic structural view of the conveying device of the invention.

Fig. 3 is a schematic structural view of the clamping and positioning device of the invention.

Fig. 4 is a schematic structural diagram of the cutting driving device of the invention.

Fig. 5 is a schematic structural view of the cutting device of the present invention.

Fig. 6 is a partially enlarged structural schematic view of the cutting device of the invention.

Reference numerals: 1-a conveying device; 2-clamping the positioning device; 3-a cutting drive; 4-a cutting device; 5-brick making; 101-a support frame; 102-toothed synchronous belt; 103-a drive shaft; 104-vertical bearing seat; 105-a timing pulley; 106-supporting a vertical plate; 107-toggle pieces; 108-a web; 109-cutting openings; 110-a transport driving pulley; 111-conveying V-belts; 112-a transport driven pulley; 113-cutting the drive shaft; 201-clamping the moving plate; 202-a drive link; 203-a sliding plate; 204-a drive rack; 205-clamping the drive wheel; 206-intermediate link; 207-T-shaped guide rails; 208-a rubber wheel; 301-a mounting block; 302-a dial wheel; 303-a connecting rod; 304-a connecting shaft; 305-poke the pin; 401-sliding bar; 402-a positioning ring; 403-a connecting frame; 404-a return spring; 405-a push plate; 406-a riser; 407-cutting slices; 408-an arc-shaped slot; 409-cutting the V-belt; 410-cutting driving pulley; 411-motor shaft; 412-motor mounting plate; 413-a drive motor; 414-an adjustment plate; 415-a fixing plate; 416-a delivery drive shaft; 417-drive shaft mounting block; 418-optical axis; 419-optical axis guide plate; 420-cutting the driven pulley; 421-a guide block; 422-cutting connecting rod; 423-connecting ring.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Wherein the showings are for the purpose of illustration only and not for the purpose of limiting the same, the same is shown by way of illustration only and not in the form of limitation; to better explain the embodiments of the present invention, some components in the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product, and it may be understood that some well-known structures in the drawings and descriptions thereof may be omitted to those skilled in the art.

Example (b): the aerated brick positioning and cutting device shown in fig. 1-6 comprises a conveying device 1, bricks 5, a clamping and positioning device 2, a cutting driving device 3 and a cutting device 4; the clamping and positioning device 2, the cutting driving device 3 and the cutting device 4 are respectively and fixedly arranged on the conveying device 1, and the cutting driving device 3 is connected with the cutting device 4; the conveying device 1 comprises a driving shaft 103, a poking sheet 107 and a cutting driving shaft 113, wherein the driving shaft 103 is used for providing power for the clamping and positioning device 2, the poking sheet 107 is used for providing power for the cutting driving device 3, and the poking sheet 107 is used for pushing the brick 5; the clamping and positioning device 2 comprises a clamping and driving wheel 205 and a positioning assembly, wherein the clamping and driving wheel 205 is fixedly connected with the driving shaft 103, and the positioning assembly is used for positioning the brick 5; the cutting driving device 3 comprises a toggle wheel 302, and the toggle wheel 302 is fixedly connected with the cutting driving shaft 113; the cutting device 4 comprises a cutting assembly and a cutting drive assembly. The brick 5 is clamped and positioned through the clamping and positioning device 2, the brick 5 is conveyed through the conveying device 1, the brick 5 is cut through the cutting device 4 while the brick is conveyed, and the cutting device 4 is driven by the cutting driving device 3 to perform reciprocating extending type cutting during cutting.

The conveying device 1 further comprises a supporting frame 101, a toothed synchronous belt 102, a connecting plate 108, a conveying driving pulley 110 and a conveying triangular belt 111, wherein a vertical bearing seat 104 and a supporting vertical plate 106 are fixedly installed on the supporting frame 101, a driving shaft 103 is rotatably installed in the vertical bearing seat 104, a synchronous pulley 105 is fixedly installed on the driving shaft 103, the synchronous pulley 105 is meshed with the toothed synchronous belt 102, the connecting plate 108 is fixedly installed on the supporting vertical plate 106, a cutting opening 109 is formed in the connecting plate 108, the conveying driving pulley 110 is fixedly installed on a conveying driving shaft 416, the synchronous pulley 105 and a conveying driven pulley 112 are fixedly installed on the cutting driving shaft 113, and the conveying driving pulley 110 is connected with the conveying driven pulley 112 through the conveying triangular belt 111. The initial installation mode of the conveying triangular belt 111 is a loose installation mode. During operation, can drive through the rotation of carrying drive shaft 416 and carry drive pulley 110 to rotate, carry drive pulley 110 to rotate and can drive and carry V belt 111 and carry driven pulley 112 to rotate, carry driven pulley 112 to rotate and can drive cutting drive shaft 113 to rotate, cutting drive shaft 113's rotation provides power for cutting drive arrangement 3, can drive synchronous pulley 105 simultaneously and rotate, synchronous pulley 105 is rotatory can drive profile of tooth hold-in range 102 and rotate, rotation through synchronous pulley 105 and profile of tooth hold-in range 102 can drive shaft 103 rotatory, drive shaft 103 is rotatory can provide power for pressing from both sides tight positioner 2.

The clamping and positioning device 2 further comprises a driving rack 204, the positioning assembly comprises a clamping moving plate 201, a driving connecting rod 202, a sliding plate 203, an intermediate connecting rod 206 and a T-shaped guide rail 207, a T-shaped sliding block is arranged at the bottom of the sliding plate 203 and is in sliding connection with the T-shaped guide rail 207, one end of the driving connecting rod 202 is fixedly arranged on the sliding plate 203, the other end of the driving connecting rod 202 is rotatably arranged on the clamping moving plate 201, the driving rack 204 is fixedly connected with the sliding plate 203, the driving rack 204 is meshed with a clamping driving wheel 205, two ends of the intermediate connecting rod 206 are respectively rotatably arranged on the sliding plate 203 and the clamping moving plate 201, the T-shaped guide rail 207 is fixedly arranged on the connecting plate 108, and a plurality of rubber wheels 208 are arranged on the clamping moving plate 201. The clamp moving plate 201, the drive link 202, the intermediate link 206 and the rubber wheel 208 are symmetrically provided with a left group and a right group. The clamping driving wheel 205 can be driven to rotate by rotation of the driving shaft 103, the driving rack 204 can be driven to translate by rotation of the clamping driving wheel 205, the sliding plate 203 can be driven to move along the direction of the T-shaped guide rail 207 by translation of the driving rack 204, the clamping moving plates 201, the driving connecting rods 202, the middle connecting rod 206 and the rubber wheel 208 can be driven to move along with the movement of the clamping moving plates, because the length of the driving connecting rods 202 is larger than that of the middle connecting rods 206, the two clamping moving plates 201 incline inwards on the side where the rubber wheel 208 is installed, when the rubber wheel 208 is in contact with the brick 5, friction force can be generated, the middle connecting rods 206 can swing along with the movement of the clamping moving plates 201, and the connecting points of the connecting rods 202 and the clamping moving plates 201 can rotate inwards, so that the brick 5 can be clamped and positioned while moving.

The cutting driving device 3 further comprises a mounting block 301 and a connecting rod 303, the mounting block 301 is rotatably mounted on the cutting driving shaft 113, a connecting shaft 304 and a toggle pin 305 are fixedly mounted on the mounting block 301, and two ends of the connecting rod 303 are hinged to the connecting shaft 304 and the sliding rod 401. The rotation of the cutting driving shaft 113 can drive the toggle wheel 302 to rotate, when the toggle wheel 302 rotates to contact with the toggle pin 305, the toggle wheel can drive the mounting block 301 to rotate, and the rotation of the mounting block 301 can drive the swing of the connecting rod 303, so that power is provided for the cutting driving assembly.

The cutting assembly comprises a vertical plate 406, a cutting blade 407, a cutting triangular belt 409, a motor mounting plate 412, a driving motor 413, an adjusting plate 414, a fixing plate 415, a conveying driving shaft 416 and a driving shaft mounting block 417, wherein the vertical plate 406 is provided with an arc-shaped groove 408, the cutting blade 407 is fixedly mounted on the conveying driving shaft 416, the conveying driving shaft 416 is rotatably mounted on the driving shaft mounting block 417, the conveying driving shaft 416 is fixedly mounted with a cutting driven pulley 420, the motor mounting plate 412 is fixedly mounted on the supporting frame 101, the driving motor 413 is fixedly mounted on the motor mounting plate 412, an output shaft of the driving motor 413 is fixedly mounted with a motor shaft 411, the motor shaft 411 is fixedly mounted with a cutting driving pulley 410, the cutting driving pulley 410 is connected with the cutting driven pulley 420 through the cutting triangular belt 409, the adjusting plate 414 is rotatably connected with the fixing plate 415 through a rotating shaft, a connecting ring 423 is mounted at the bottom of the adjusting plate 414, the fixing plate 415 is fixedly mounted on the supporting frame 101, the conveying driving shaft 416 is slidably connected with the arc-shaped groove 408, and the driving shaft mounting block 417 is fixedly mounted on the adjusting plate 414. During operation, the work of driving motor 413 can drive motor shaft 411 rotatory, and motor shaft 411 rotates and to drive cutting driving pulley 410 rotatory, thereby cutting driving pulley 410 drives cutting V belt 409 and cutting driven pulley 420 and rotates, and cutting driven pulley 420 rotates and can drive and carry drive shaft 416 rotatory, carries drive shaft 416 rotatory and then drives cutting piece 407 rotatory to realize the effect of cutting.

The cutting driving assembly comprises a sliding rod 401, a connecting frame 403, a reset spring 404, an optical axis guide plate 419, a guide block 421 and a cutting connecting rod 422, wherein the sliding rod 401 is slidably mounted on the connecting frame 403, a positioning ring 402 and a pushing plate 405 are fixedly mounted on the sliding rod 401, the connecting frame 403 is fixedly mounted on the supporting frame 101, two ends of the reset spring 404 are respectively fixedly connected with the positioning ring 402 and the connecting frame 403, an optical axis 418 is fixedly mounted on the pushing plate 405, the optical axis 418 is slidably mounted on the optical axis guide plate 419, the optical axis guide plate 419 and the guide block 421 are both fixedly mounted on a fixing plate 415, a sliding block is fixedly mounted on the optical axis 418, the sliding block of the optical axis 418 is in sliding fit with the guide block 421, the optical axis 418 and the sliding block are fixedly mounted with the connecting rings 423, and two ends of the cutting connecting rod 422 are respectively hinged to the two connecting rings 423 through pins. The swing through connecting rod 303 can drive slide bar 401 and slide in link 403, slide bar 401 slides thereby drive push plate 405 and remove, thereby push plate 405 promotes optical axis 418 and slides in optical axis deflector 419, simultaneously the slip of optical axis 418 slides in guide block 421, thereby drive connecting ring 423 on the optical axis deflector 419 and remove, drive cutting connecting rod 422 swing simultaneously in the removal, swing drive adjusting plate 414 through cutting connecting rod 422 uses the pivot to upwards rotate as the center, drive transport drive shaft 416 slides along arc wall 408 simultaneously in the adjusting plate 414 pivoted, thereby the lift of drive cutting piece 407, thereby realize the cutting to brick 5 through the lift of cutting piece 407.

The plurality of the poking sheets 107 are arranged, and the plurality of the poking sheets 107 are fixedly arranged on the tooth-shaped synchronous belt 102.

The length of the drive link 202 is greater than the length of the intermediate link 206.

Claims (3)

1. The utility model provides an air entrainment brick location cutting device, includes conveyor, brick, its characterized in that: the cutting machine also comprises a clamping and positioning device, a cutting driving device and a cutting device; the clamping and positioning device, the cutting driving device and the cutting device are respectively and fixedly arranged on the conveying device, and the cutting driving device is connected with the cutting device;

the conveying device comprises a driving shaft, a poking piece and a cutting driving shaft, wherein the driving shaft is used for providing power for the clamping and positioning device, the cutting driving shaft is used for providing power for the cutting driving device, the poking piece is used for pushing bricks, the conveying device further comprises a supporting frame, a toothed synchronous belt, a connecting plate, a conveying driving belt wheel and a conveying triangular belt, a vertical bearing seat and a supporting vertical plate are fixedly installed on the supporting frame, the driving shaft is rotatably installed in the vertical bearing seat, the driving shaft and the cutting driving shaft are respectively and fixedly provided with a synchronous belt wheel, the synchronous belt wheel is mutually meshed with the toothed synchronous belt, the connecting plate is fixedly installed on the supporting vertical plate, a cutting opening is formed in the connecting plate, the conveying driving belt wheel is fixedly installed on the conveying driving shaft, a conveying driven belt wheel is also fixedly installed on the cutting driving shaft, and the conveying driving belt wheel is connected with the conveying driven belt wheel through the conveying triangular belt;

the clamping and positioning device comprises a clamping driving wheel and a positioning assembly, the clamping driving wheel is fixedly connected with a driving shaft, the positioning assembly is used for positioning bricks, the clamping and positioning device also comprises a driving rack, the positioning assembly comprises a clamping moving plate, a driving connecting rod, a sliding plate, a middle connecting rod and a T-shaped guide rail, a T-shaped sliding block is arranged at the bottom of the sliding plate and is slidably connected with the T-shaped guide rail, one end of the driving connecting rod is fixedly arranged on the sliding plate, the other end of the driving connecting rod is rotatably arranged on the clamping moving plate, the driving rack is fixedly connected with the sliding plate and is meshed with the clamping driving wheel, two ends of the middle connecting rod are respectively rotatably arranged on the sliding plate and the clamping moving plate, the T-shaped guide rail is fixedly arranged on the connecting plate, and a plurality of rubber wheels are arranged on the clamping moving plate;

the cutting driving device comprises a poking wheel, the poking wheel is fixedly connected with a cutting driving shaft, the cutting driving device further comprises an installation block and a connecting rod, the installation block is rotatably installed on the cutting driving shaft, a connecting shaft and a poking pin are fixedly installed on the installation block, and two ends of the connecting rod are hinged with the connecting shaft and the sliding rod;

the cutting device comprises a cutting assembly and a cutting driving assembly, the cutting assembly comprises a vertical plate, a cutting blade, a cutting triangular belt, a motor mounting plate, a driving motor, an adjusting plate, a fixing plate, a conveying driving shaft and a driving shaft mounting block, the vertical plate is provided with an arc-shaped groove, the cutting blade is fixedly arranged on the conveying driving shaft, the conveying driving shaft is rotatably arranged on the driving shaft mounting block, the conveying driving shaft is fixedly provided with a cutting driven belt pulley, the motor mounting plate is fixedly arranged on the supporting frame, the driving motor is fixedly arranged on the motor mounting plate, the output shaft of the driving motor is fixedly provided with a motor shaft, the motor shaft is fixedly provided with a cutting driving belt pulley, the cutting driving belt pulley is connected with the cutting driven belt pulley through a cutting triangular belt, the adjusting plate is rotatably connected with the fixed plate through a rotating shaft, the bottom of the adjusting plate is provided with a connecting ring, the fixed plate is fixedly arranged on the supporting frame, the conveying driving shaft is slidably connected with the arc-shaped groove, the driving shaft mounting block is fixedly arranged on the adjusting plate, the cutting driving component comprises a sliding rod, a connecting frame, a return spring, an optical axis guide plate, a guide block and a cutting connecting rod, slide bar slidable mounting on the link, fixed mounting has holding ring and slurcam on the slide bar, link fixed mounting is on braced frame, reset spring's both ends respectively with holding ring and link fixed connection, fixed mounting has the optical axis on the slurcam, optical axis slidable mounting is on the optical axis deflector, the equal fixed mounting of optical axis deflector and guide block is on the fixed plate, fixed mounting has the slider on the optical axis, the slider and the guide block sliding fit of optical axis, fixed mounting has the go-between respectively on adjusting plate and the slider of fixed mounting on the optical axis, the both ends of cutting connecting rod are passed through the pin and are articulated with two go-between respectively.

2. The aerated brick positioning and cutting device according to claim 1, wherein: the poking pieces are arranged in a plurality and are fixedly arranged on the tooth-shaped synchronous belt.

3. The aerated brick positioning and cutting device according to claim 1, wherein: the length of the driving connecting rod is greater than that of the middle connecting rod.

Images