CN112571644A - Gypsum brick production is with tailorring device - Google Patents

Abstract

The invention discloses a cutting device for gypsum brick production, which belongs to the technical field of gypsum brick cutting and comprises a floor, a bearing component, a moving component, a lifting rotating component, a cutting component and a dust collection component, wherein the floor is laid on a horizontal plane, the bearing component is vertically arranged on the floor, the moving component is vertically arranged at the top of the bearing component, the lifting rotating component is arranged at the bottom of the moving component, the cutting component is arranged at the bottom of the lifting rotating component and is positioned at the upper end of the bearing component, one end of the dust collection component is arranged at the back of the bearing component, and the other end of the dust collection component is arranged on the floor. The cutting device can finish cutting the gypsum bricks through the components, can change the radian direction in the cutting process, and can absorb dust generated in the cutting process, thereby achieving high-efficiency and high-level cutting, avoiding dust pollution to the production environment and being very environment-friendly.

Description

Gypsum brick production is with tailorring device

Technical Field

The invention relates to the technical field of cutting of gypsum bricks, in particular to a cutting device for producing gypsum bricks.

Background

A gypsum brick, also called gypsum block, is a light building gypsum product made up by using building gypsum as main raw material through the processes of adding water, stirring, casting and drying, and can be divided into solid gypsum block and hollow gypsum block. The gypsum brick has the characteristics of safety, comfort, rapidness, environmental protection, difficult cracking, good processability and high cost performance.

According to the good characteristics of gypsum brick processing nature, often need tailor various gypsum bricks in practical application, thereby be convenient for to the use of gypsum brick, it is more convenient to make the construction, the most forms that adopt fixed saw of current gypsum brick, only can surpass a direction and tailor, and still need artifical propelling movement change gypsum brick and just can accomplish tailorring to the gypsum brick, unusual inconvenient, the effect of tailorring is poor, and is inefficient, the type is few, and is with high costs, a large amount of gypsum dust that produces simultaneously at the in-process of tailorring, can not obtain effectual processing, the easy pollution production environment, harm staff's healthy.

Disclosure of Invention

The embodiment of the invention provides a cutting device for gypsum brick production, which aims to solve the technical problems in the background technology.

The embodiment of the invention adopts the following technical scheme: the utility model provides a gypsum brick production is with tailorring device, includes floor, carrier assembly, removal subassembly, lifting and drop rotating assembly, cutting unit and dust absorption subassembly, the floor is laid on the horizontal plane, carrier assembly is vertical to be installed on the floor, the vertical top of installing at carrier assembly of removal subassembly, lifting and drop rotating assembly installs in the bottom of removing the subassembly, cutting unit installs in lifting and drop rotating assembly's bottom and is located carrier assembly's upper end, the back at carrier assembly is installed to dust absorption subassembly one end, dust absorption assembly's the other end setting is on the floor.

Further, the bearing component comprises a workbench, a clamping mechanism, a supporting plate, four bearing supporting legs and a plurality of cutting cushion blocks, wherein the bearing supporting legs are rectangular and vertically erected on a floor, the supporting plate is arranged at the tops of the two bearing supporting legs at the inner side, the workbench is horizontally arranged on the bearing supporting legs at the supporting plate and two outer sides, the clamping mechanism is arranged on the workbench, the cutting cushion blocks are cylindrical, and the cutting cushion blocks are arranged at the middle positions of the top of the workbench in a rectangular equidistant mode.

Further, the clamping mechanism comprises a clamping motor, a clamping motor seat, a clamping gear, two clamping racks, two clamping connecting blocks, two clamping fixing blocks, two limiting frames, two pushing blocks and six clamping supporting rods, wherein the two clamping fixing blocks are respectively installed at the top of the workbench and positioned at two side ends, the six clamping supporting rods are horizontally and inwardly installed on the two clamping fixing blocks in two groups, each three clamping supporting rods are in sliding fit with the corresponding clamping fixing block, the pushing blocks are connected to the inner sides of the three clamping supporting rods at the same end, each pushing block is provided with a shock pad, the outer side ends of the three clamping supporting rods at the same end are connected with the upper ends of the inner side surfaces of the clamping connecting blocks, the two clamping racks are correspondingly installed at the lower ends of the inner side surfaces of the two clamping connecting blocks, and the clamping motor seat is installed at the middle position of the bottom of the workbench, the clamping motor is installed on the clamping motor base, a main shaft of the clamping motor vertically penetrates through the clamping motor base upwards, the clamping gear is installed on the main shaft of the clamping motor, the clamping racks penetrate through the inside of the clamping motor base respectively and are meshed with the clamping gear, and the limiting frames are installed at two ends of the bottom of the workbench respectively and are sleeved outside the two clamping racks respectively.

Further, the moving assembly comprises a transverse sliding seat, a rack, a transverse gear, a transverse motor, a transverse sliding block, a transverse shaft, two transverse connecting blocks, two longitudinal motors, two longitudinal motor bases, two longitudinal sliding seats, two longitudinal sliding blocks, two longitudinal screw shafts, two longitudinal limiting heads and four moving supporting legs, the four moving supporting legs are vertically arranged at the top of the workbench in a rectangular distribution mode, the two longitudinal sliding seats are respectively arranged on the four moving supporting legs and are symmetrically designed, a slide way is arranged in the middle of each longitudinal sliding seat, the two longitudinal sliding blocks are of an I-shaped structure, the two longitudinal sliding blocks are respectively clamped on the two longitudinal sliding seats, the two longitudinal screw shafts respectively penetrate through the two longitudinal sliding blocks and two ends of the two longitudinal sliding seats, the two longitudinal screw shafts are respectively in rotating fit with the two longitudinal sliding seats and are in threaded fit with the two longitudinal sliding blocks, the two longitudinal limiting heads are respectively arranged at the same side end of the two longitudinal screw shafts, the two longitudinal motor bases are respectively arranged at the other ends of the two longitudinal screw shafts and are arranged on the side surface of the longitudinal sliding base, the two longitudinal motors are respectively arranged on the two longitudinal motor bases, and the main shaft is respectively connected with the two longitudinal screw shafts, the transverse sliding seat is connected with the inner side ends of the two longitudinal sliding blocks through two transverse connecting blocks, a slideway is arranged in the transverse sliding seat, the transverse sliding block is of an I-shaped structure and is clamped in the transverse sliding seat, the transverse shaft penetrates through the transverse sliding seat and the side end of the transverse sliding block, the transverse motor is arranged on the top of the transverse sliding block, the transverse gear is arranged on a main shaft of the transverse motor, the rack is arranged at the top of the transverse sliding seat and close to one side of the transverse motor spindle, and the rack is meshed with the transverse gear.

Further, the lifting and rotating assembly comprises a rotating motor box, a rotating motor, a cross pin, a lifting rod, a stabilizing block, a lifting side plate, a lifting motor, a lifting gear and a lifting bottom plate, the rotating motor box is installed at the bottom of the transverse sliding block, the lifting side plate is installed on the side face of the rotating motor box, the rotating motor is installed in the rotating motor box and fixed on the side wall of the rotating motor box, the cross pin is a cross-shaped columnar pin block, the cross pin is vertically installed on a main shaft of the rotating motor, a cross-shaped groove is formed in the bottom of the lifting rod, the bottom of the lifting rod is sleeved on the cross pin and vertically matched with the cross pin in a sliding mode, the lower end of the lifting rod penetrates through the bottom of the rotating motor box, a plurality of tooth sockets are formed in the outer portion of the lifting rod, the lifting motor is installed at the middle position of the inner side of the lifting side plate, the lifting gear meshes with tooth's socket on the lifter, lifting bottom plate installs perpendicularly in the bottom of lift curb plate and lies in same one side of rotating electrical machines case, the lower extreme of lifter runs through lifting bottom plate and downwardly extending and is connected with cutting assembly, stabilize the piece cover and establish in the lifting bottom plate's bottom in the lifting rod upper end outside, the lifter respectively with rotating electrical machines roof portion, stabilizing block, lifting bottom plate clearance fit.

Further, the cutting component comprises a cutting saw blade, a cutting frame, a cutting head, a pushing rod, a pushing frame, an installing head, a cutting motor base, an adjusting rod, an adjusting frame, an adjusting pulley, a transmission rod, an upper rotary table, a lower rotary table, a rotating shaft, a mounting frame, a fixing block, a concave frame, two fixing plates, two bevel gears and three guide wheels, wherein the cutting frame is of a rectangular structure, the cutting frame is installed at the bottom of the lifting rod, the mounting frame is of a U-shaped structure and is installed at the upper end in the cutting frame, the open end of the mounting frame is connected with the bottom in the cutting frame, the mounting plate is vertically installed on the side wall in the cutting frame, the installing head is installed at the bottom of the cutting frame and is positioned in the opening of the mounting frame, the cutting motor base is installed at the bottom of the cutting motor base, and a main shaft of the, the two fixing plates are sleeved on a main shaft of the cutting motor and are vertically arranged on the mounting plate, one bevel gear is vertically sleeved on the main shaft of the cutting motor, the other bevel gear is vertically arranged and is meshed with the other bevel gear, the transmission rod is vertically arranged on the side surface of the bevel gear in the vertical direction, the lower rotary disc is of an oval structure, the lower rotary disc is sleeved and fixed on the transmission rod, the upper rotary disc is arranged at the top of the transmission rod, the rotation shaft is arranged at the edge position of the top of the upper rotary disc, the fixing block is arranged in the mounting frame and is sleeved outside the upper rotary disc, the pushing frame is arranged at the top of the fixing block, one end of the pushing rod is L-shaped, the other end of the pushing rod is T-shaped, the pushing rod penetrates through the pushing frame and extends into the mounting head from the lower end to the upper end, the lower extreme of propelling movement pole is articulated with the cutting head, the upper end of propelling movement pole is equipped with the slip hole of rectangle, the last pot head of propelling movement pole is established outside the axis of rotation, the bottom at the fixed block is installed perpendicularly to the adjustment frame, the adjustment frame is run through downwards to the adjustment pole, the lower extreme of adjustment pole is articulated with the cutting head through the slide on the cutting head, the adjustment pulley install in the upper end of adjustment pole and with adjustment pole normal running fit, adjustment pulley and lower carousel contact, the cutting saw blade is installed in the lower extreme of cutting head and is run through the bottom of cutting frame downwards, concave type frame is installed in the bottom of cutting frame and is located cutting saw blade side, and is three the leading wheel all installs on concave type frame and all with concave type frame normal running fit, and is three the leading wheel sets up at two sides.

Further, the dust collection assembly comprises a dust collection port, a pipeline, a retention box, a suction fan, a dust storage chamber and a dust storage drawer, the dust collection port is formed in the supporting plate, the dust collection port is connected to one end of the pipeline, the retention box is connected to the other end of the pipeline in a downward inclined mode, the suction fan is arranged at the bottom of the retention box and communicated with the bottom of the retention box, the dust storage chamber is arranged at the bottom of the suction fan and communicated with the bottom of the suction fan, and the dust storage drawer is arranged in the dust storage chamber.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, the moving assembly provided by the invention drives the transverse sliding block to continuously move and adjust the position through the cooperation of the transverse motor and the longitudinal motor, so that the cutting position of the gypsum brick can be continuously adjusted, the cutting position can be greatly changed conveniently in the cutting process when large gypsum bricks are cut, the cutting thrust is provided, the gypsum brick is not required to be manually moved again, and the labor and the time are saved.

Secondly, the lifting rotating assembly is provided with the lifting motor for adjusting the cutting depth and the rotating motor for adjusting the cutting angle, so that the cutting angle and depth can be adjusted, the cutting angle and depth can be changed according to actual requirements, the trouble of manually moving gypsum bricks is avoided, the cutting effect is good, the precision is high, the radian curve can be cut, the types of cutting shapes are various, and the application range is wider.

Thirdly, the bearing assembly is supported by the plurality of cutting cushion blocks at intervals, so that the cutting of the worktable can be avoided while the cutting is carried out, the cutting saw blade is prevented from being damaged, and meanwhile, the clamping mechanism can realize synchronous approaching, so that the way of clamping the gypsum bricks is firmer and more convenient.

Fourthly, the cutting assembly is arranged, the upper rotary table is driven to rotate through the cutting motor, the push rod can downwards drive the cutting head to do continuous reciprocating motion downwards under the action of the rotating shaft, so that the cutting saw blade can cut and cut back and forth up and down, the gypsum brick with large thickness can be cut and cut in the cutting mode, the application range in practical application is wide, meanwhile, under the cooperation of the lower rotary table and the adjusting rod, the angle of the cutting head can be adjusted when the cutting head is upwards retracted, the angle of the corresponding cutting saw blade can also be opened, therefore, the cutting saw blade can not be easily clamped by a cutting seam of the gypsum brick, in addition, under the cooperation of the three guide wheels, the whole cutting and cutting process is more stable, and the flatness of the cutting surface is more complete.

Fifthly, the dust collection assembly provided by the invention can be used for rapidly collecting and absorbing gypsum dust generated in cutting, so that the production environment can be well protected, workers can be prevented from sucking a large amount of dust and harming health, the collected gypsum powder can be used as a raw material for reuse, and the energy is saved, and the environment is protected.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a disassembled view of the load bearing assembly of the present invention;

FIG. 3 is a schematic perspective view of a moving assembly according to the present invention;

FIG. 4 is a schematic perspective view of the lifting/lowering assembly of the present invention;

FIG. 5 is a schematic perspective view of a cutting assembly according to the present invention;

FIG. 6 is a cross-sectional view of the cutting assembly of the present invention;

figure 7 is an exploded view of the suction assembly of the present invention.

Reference numerals

Floor 1, bearing component 2, moving component 3, lifting and rotating component 4, cutting component 5, dust suction component 6, workbench 20, clamping mechanism 21, supporting plate 22, bearing leg 23, cutting cushion block 24, clamping motor 210, clamping motor base 211, clamping gear 212, clamping rack 213, clamping connecting block 214, clamping fixing block 215, limit frame 216, pushing block 217, clamping supporting rod 218, shock pad 219, transverse sliding seat 30, rack 31, transverse gear 32, transverse motor 33, transverse sliding block 34, transverse shaft 35, transverse connecting block 36, longitudinal motor 37, longitudinal motor base 38, longitudinal sliding seat 39, longitudinal sliding block 310, longitudinal screw shaft 311, longitudinal limit head 312, moving support leg 313, rotating motor box 40, rotating motor 41, cross pin 42, lifting rod 43, stabilizing block 44, lifting side plate 45, lifting motor 46 and lifting gear 47, the cutting device comprises a lifting bottom plate 48, a cutting saw blade 50, a cutting frame 51, a cutting head 52, a pushing rod 53, a pushing frame 54, a mounting head 55, a cutting motor 56, a cutting motor seat 57, an adjusting rod 58, an adjusting frame 59, an adjusting pulley 510, a transmission rod 511, an upper rotary disc 512, a lower rotary disc 513, a rotating shaft 514, a mounting plate 515, a mounting frame 516, a fixing block 517, a concave frame 518, a fixing plate 519, a bevel gear 520, a guide wheel 521, a dust suction port 60, a pipeline 61, a retention box 62, a suction fan 63, a dust storage chamber 64 and a dust storage drawer 65.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 7, an embodiment of the present invention provides a cutting device for gypsum brick production, including a floor 1, a bearing assembly 2, a moving assembly 3, a lifting and rotating assembly 4, a cutting assembly 5 and a dust collection assembly 6, wherein the floor 1 is laid on a horizontal plane, the bearing assembly 2 is vertically installed on the floor 1, the moving assembly 3 is vertically installed on the top of the bearing assembly 2, the lifting and rotating assembly 4 is installed on the bottom of the moving assembly 3, the cutting assembly 5 is installed on the bottom of the lifting and rotating assembly 4 and is located at the upper end of the bearing assembly 2, one end of the dust collection assembly 6 is installed on the back of the bearing assembly 2, and the other end of the dust collection assembly 6 is installed on the floor 1, such that cutting of gypsum bricks can be completed through the above assemblies, and dust generated during cutting can be absorbed, such that high efficiency, high, The high-level cutting can avoid dust pollution to the production environment, and is very environment-friendly.

Preferably, as shown in fig. 2, the bearing assembly 2 includes a workbench 20, a clamping mechanism 21, a supporting plate 22, four bearing legs 23 and a plurality of cutting pads 24, four of the bearing legs 23 are distributed in a rectangular shape and vertically erected on the floor 1, the supporting plate 22 is installed on the tops of two bearing legs 23 on the inner side, the workbench 20 is horizontally installed on the supporting plate 22 and the bearing legs 23 on two outer sides, the clamping mechanism 21 is installed on the workbench 20, the cutting pads 24 are all cylindrical, and the cutting pads 24 are arranged in a rectangular equidistant manner and installed at the middle position of the top of the workbench 20, so that bearing and fixing can be provided for gypsum bricks to be cut, and meanwhile, the cutting pads 24 are arranged, so that the workbench 20 can be prevented from being cut while cutting, and damage to the cutting assembly 5 is also avoided.

Preferably, referring to fig. 2, the clamping mechanism 21 includes a clamping motor 210, a clamping motor base 211, a clamping gear 212, two clamping racks 213, two clamping connection blocks 214, two clamping fixing blocks 215, two limiting frames 216, two pushing blocks 217 and six clamping support bars 218, wherein the two clamping fixing blocks 215 are respectively installed at the top of the workbench 20 and located at two side ends, the six clamping support bars 218 are installed on the two clamping fixing blocks 215 in two groups horizontally and inwardly, each three clamping support bars 218 are in sliding fit with the corresponding clamping fixing blocks 215, the pushing blocks 217 are connected to the inner sides of the three clamping support bars 218 at the same end, each pushing block 217 is provided with a shock-absorbing pad 219, so that the phenomenon of damaging gypsum bricks in direct clamping can be prevented, the outer ends of the three clamping support bars 218 at the same end are connected to the upper ends of the inner side faces of the clamping connection blocks 214, two what clamp rack 213 corresponds installs the lower extreme at the medial surface of two tight connecting blocks 214 of clamp, the bottom intermediate position at workstation 20 is installed to clamp motor seat 211, clamp motor 210 installs on clamp motor seat 211 and the vertical upwards through clamp motor seat 211 of the main shaft of clamp motor 210, clamp gear 212 installs on clamp motor 210's main shaft, two clamp rack 213 runs through the inside of clamp motor seat 211 respectively and all meshes mutually with clamp gear 212, two limit frame 216 installs respectively at the both ends of workstation 20 bottom and overlaps respectively and establish outside two clamp racks 213, can drive two clamp racks 213 through clamp motor 210 like this and be close to or keep away from in step, and corresponding two propelling movement pieces 217 also can realize being close to in step, the mode of the tight gypsum brick like this, more firm and convenient.

Preferably, referring to fig. 3, the moving assembly 3 includes a transverse slide 30, a rack 31, a transverse gear 32, a transverse motor 33, a transverse slide block 34, a transverse shaft 35, two transverse connecting blocks 36, two longitudinal motors 37, two longitudinal motor bases 38, two longitudinal slides 39, two longitudinal slide blocks 310, two longitudinal screw shafts 311, two longitudinal limiting heads 312 and four moving support legs 313, the four moving support legs 313 are vertically installed on the top of the workbench 20 in a rectangular distribution, the two longitudinal slides 39 are respectively installed on the four moving support legs 313 and are symmetrically designed, a slide way is provided in the middle of each longitudinal slide block 39, the two longitudinal slide blocks 310 are both in an i-shaped structure, the two longitudinal slide blocks 310 are respectively clamped on the two longitudinal slide blocks 39, the two longitudinal screw shafts 311 respectively penetrate through the two longitudinal slide blocks 310 and the two longitudinal slide blocks 39, the two longitudinal screw shafts 311 are respectively in running fit with the two longitudinal sliding blocks 39 and in threaded fit with the two longitudinal sliding blocks 310, the two longitudinal limiting heads 312 are respectively arranged at the same side ends of the two longitudinal screw shafts 311, the two longitudinal motor bases 38 are respectively arranged at the other ends of the two longitudinal screw shafts 311 and are arranged on the side surfaces of the longitudinal sliding blocks 39, the two longitudinal motors 37 are respectively arranged on the two longitudinal motor bases 38, main shafts are respectively connected with the two longitudinal screw shafts 311, the transverse sliding block 30 is connected to the inner side ends of the two longitudinal sliding blocks 310 through two transverse connecting blocks 36, a slide way is arranged in the transverse sliding block 30, the transverse sliding block 34 is in an I-shaped structure and is clamped in the transverse sliding block 30, the transverse shaft 35 penetrates through the transverse sliding block 30 and the side ends of the transverse sliding block 34, and the transverse motor 33 is arranged at the top of, transverse gear 32 installs on transverse motor 33's main shaft, rack 31 installs at transverse slide 30's top and is close to one side of transverse motor 33 main shaft, rack 31 and transverse gear 32 mesh can constantly adjust the position of tailorring to the gypsum brick like this, when tailorring to some bold gypsum bricks, have made things convenient for greatly to the transform of tailorring the in-process to the position of tailorring, have avoided manual operation to remove the trouble of gypsum brick again, have saved manpower and time.

Preferably, referring to fig. 4, the lifting and rotating assembly 4 includes a rotating electrical machine box 40, a rotating electrical machine 41, a cross pin 42, a lifting rod 43, a stabilizing block 44, a lifting side plate 45, a lifting electrical machine 46, a lifting gear 47 and a lifting bottom plate 48, the rotating electrical machine box 40 is installed at the bottom of the transverse sliding block 34, the lifting side plate 45 is installed at the side of the rotating electrical machine box 40, the rotating electrical machine 41 is installed in the rotating electrical machine box 40 and fixed on the side wall of the rotating electrical machine box 40, the cross pin 42 is a cross-shaped cylindrical pin block, the cross pin 42 is vertically installed on the main shaft of the rotating electrical machine 41, a cross-shaped groove is formed at the bottom of the lifting rod 43, the bottom of the lifting rod 43 is sleeved on the cross pin 42 and vertically and slidably engaged with the cross pin 42, the lower end of the lifting rod 43 penetrates through the bottom of the rotating electrical machine box 40, a, the lifting motor 46 is installed at the middle position of the inner side of the lifting side plate 45, the lifting gear 47 is installed on the main shaft of the lifting motor 46, the lifting gear 47 is engaged with a tooth groove on the lifting rod 43, the lifting bottom plate 48 is vertically installed at the bottom of the lifting side plate 45 and located at the same side of the rotating electric machine case 40, the lower end of the lifting rod 43 penetrates through the lifting bottom plate 48 and extends downwards to be connected with the cutting assembly 5, the second stabilizing block 49 is sleeved outside the upper end of the lifting rod 43 and is arranged at the bottom of the lifting bottom plate 48, the lifting rod 43 is respectively movably matched with the top of the rotating motor box 40, the stabilizing block 44 and the lifting bottom plate 48, thus, the cutting angle and depth can be adjusted and changed according to the actual requirement, the trouble of manually moving the gypsum brick is avoided, meanwhile, the cutting effect is good, the precision is high, the radian curve can be cut, and the application range is wider.

Preferably, referring to fig. 5 and 6, the cutting assembly 5 includes a cutting saw blade 50, a cutting frame 51, a cutting head 52, a pushing rod 53, a pushing frame 54, a mounting head 55, a cutting motor 56, a cutting motor base 57, an adjusting rod 58, an adjusting frame 59, an adjusting pulley 510, a transmission rod 511, an upper rotary plate 512, a lower rotary plate 513, a rotating shaft 514, a mounting plate 515, a mounting frame 516, a fixing block 517, a concave frame 518, two fixing plates 519, two bevel gears 520 and three guide wheels 521, the cutting frame 51 is mounted at the bottom of the lifting rod 43, the mounting frame 516 is U-shaped and mounted at the upper end inside the cutting frame 51, the open end of the mounting frame 516 is connected to the bottom inside the cutting frame 51, the mounting plate 515 is vertically mounted on the side wall inside the cutting frame 51, the mounting head 55 is mounted at the bottom of the cutting frame 51 and is located in the opening of the mounting frame 516, the cutting motor seat 57 is vertically installed on the installation plate 515, the cutting motor 56 is installed at the bottom of the cutting motor seat 57, the main shaft of the cutting motor 56 vertically penetrates through the cutting motor seat 57, the two fixing plates 519 are sleeved on the main shaft of the cutting motor 56 and are vertically installed on the installation plate 515, one bevel gear 520 is vertically sleeved on the main shaft of the cutting motor 56, the other bevel gear 520 is vertically arranged and two bevel gears 520 are meshed with each other, the transmission rod 511 is vertically installed on the side surface of the vertical bevel gear 520, the lower rotary plate 513 is of an elliptical structure, the lower rotary plate 513 is sleeved and fixed on the transmission rod 511, the upper rotary plate 512 is installed at the top of the transmission rod 511, the rotating shaft 514 is installed at the edge position of the top of the upper rotary plate 512, the fixing block 517 is installed in the installation frame 516 and, the utility model discloses a cutting device, including cutting blade 52, propelling movement frame 54, cutting head 52, adjusting rod 58, cutting head 59, propelling movement frame 54, propelling movement pole 53, propelling movement frame 54, the lower end of cutting head 52, the upper end of cutting head 52, adjusting rod 58, adjusting rod 510, adjusting saw blade 50, cutting head 52, cutting head 51, propelling movement frame 54, propelling movement frame 53, the top of cutting head 517 is installed at the top of fixed block 517, propelling movement pole 53 runs through propelling movement frame 54 and extends to in the mounting head 55 to the lower extreme, the upper end of propelling movement pole 53 is established outside axis of rotation 514, adjusting rod 59 is installed perpendicularly in the bottom of fixed block 517, adjusting rod 58 runs through adjusting frame 59 downwards, the lower extreme of adjusting rod 58 passes through the slide on cutting head 52 and is articulated with cutting head 52, adjusting pulley 510 is installed in the upper end of adjusting rod 58 and is rotated with adjusting rod 58 and is cooperated, adjusting pulley 510 contacts, the concave frame 518 is installed at the bottom of the cutting frame 51 and located beside the cutting saw blade 50, the three guide wheels 521 are installed on the concave frame 518 and are in running fit with the concave frame 518, the three guide wheels 521 are arranged on two side surfaces and the back surface of the cutting saw blade 50, so that the upper turntable 512 can be driven to rotate by the cutting motor 56, the push rod 53 can drive the cutting head 52 to continuously reciprocate downwards under the action of the rotating shaft 514, and the cutting saw blade 50 can be cut back and forth, therefore, the cutting mode can well cut gypsum bricks with large thickness, the application range in practical application is wide, meanwhile, under the cooperation of the lower turntable 513 and the adjusting rod 58, the angle of the cutting head 52 can be adjusted when the cutting head 52 is retracted upwards, the corresponding angle of the cutting saw blade 50 can also be opened, and therefore, the cutting saw blade 50 cannot be easily clamped by the cutting seam of the gypsum brick, in addition, under the cooperation of the three guide wheels 521, the whole cutting process is more stable, and the flatness of the cutting surface is more complete.

Preferably, referring to fig. 7, the dust suction assembly 6 of the present invention includes a dust suction port 60, a pipe 61, a retention box 62, a suction fan 63, a dust storage chamber 64, and a dust storage drawer 65, wherein the dust suction port 60 is disposed on the support plate 22, one end of the pipe 61 is connected to the dust suction port 60, the other end of the pipe 61 is connected to the retention box 62 in a downward-inclined manner, the suction fan 63 is disposed at the bottom of the retention box 62 and is communicated with each other, the dust storage chamber 64 is disposed at the bottom of the suction fan 63 and is communicated with each other, and the dust storage drawer 65 is disposed in the dust storage chamber 64, so that gypsum dust generated during cutting and cutting can be rapidly collected and absorbed, thereby not only protecting the production environment well and preventing workers from sucking a large amount of dust and damaging health, but also reusing the collected gypsum powder as a raw material, and being very energy-saving and.

The working principle of the invention is as follows: when the gypsum brick needs to be cut, the two clamping racks 213 are driven to approach by the clamping gear 212, the corresponding two pushing blocks 217 approach to each other to clamp the gypsum brick, then the transverse motor 33 and the two longitudinal motors 37 are started to drive the transverse sliding seat 30 to move longitudinally, the transverse sliding block 34 moves transversely, the position of the transverse sliding block 34 is adjusted according to the actual cutting requirement, then the lifting motor 46 is started, the lifting rod 43 is driven to descend by the lifting gear 47, correspondingly, the cutting saw blade 50 also descends onto the gypsum brick along with the lifting rod 43, the cutting motor 56 is started to drive the upper rotary disc 512 and the lower rotary disc 513 to rotate, the pushing rod 53 drives the cutting head 52 downwards under the action of the rotating shaft 514 to stop cutting, the gypsum brick is firstly placed on the cutting cushion block 24 of the workbench 20, the clamping motor 210 is started to perform broken reciprocating downward movement, so that the cutting saw blade 50 cuts back and forth, meanwhile, under the matching of the lower rotary table 513 and the adjusting rod 58, when the cutting head 52 is retracted upwards, the angle of the cutting head 52 is adjusted, the corresponding angle of the cutting saw blade 50 is also opened, the longitudinal motor 37 or the transverse motor 33 is started according to the cutting direction, so that the cutting saw blade 50 is driven to cut along the appointed direction, at the moment, the suction fan 63 is started, gypsum ash and the like on the surface of the workbench 20 are absorbed and collected, the gypsum ash is sucked into the dust storage drawer 65 through the dust suction port 60, the reutilization is convenient, when the cutting angle needs to be changed in the cutting process, the rotating motor 41 can be started, so that the lifting rod 43 is driven to rotate, the corresponding cutting direction of the cutting saw blade 50 can also follow the lifting rod 43 to slowly rotate, the angle is continuously adjusted, meanwhile, the longitudinal motor 37 and the transverse motor 33 are started, the cutting of the cutting saw blade 50 is controlled, and the cutting requirements of, and finally, after cutting, starting the clamping motor 210, loosening the cut gypsum brick, and finishing cutting the gypsum brick.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a gypsum brick production is with tailorring device, includes floor (1), carrier assembly (2), removal subassembly (3), lifting and drop rotating assembly (4), cutting component (5) and dust absorption subassembly (6), floor (1) is laid on the horizontal plane, carrier assembly (2) are vertical to be installed on floor (1), the vertical top of installing at carrier assembly (2) of removal subassembly (3), the bottom at removal subassembly (3) is installed in lifting and drop rotating assembly (4), cutting component (5) are installed in the bottom of lifting and drop rotating assembly (4) and are located the upper end of carrier assembly (2), the back at carrier assembly (2) is installed to dust absorption subassembly (6) one end, the other end setting of dust absorption subassembly (6) is on floor (1).

2. The cutting device for producing the gypsum bricks, according to claim 1, is characterized in that the bearing component (2) comprises a workbench (20), a clamping mechanism (21), a supporting plate (22), four bearing legs (23) and a plurality of cutting cushion blocks (24), wherein the four bearing legs (23) are distributed in a rectangular shape and vertically erected on the floor (1), the supporting plate (22) is installed on the tops of two bearing legs (23) on the inner side, the workbench (20) is horizontally installed on the supporting plate (22) and the two outer bearing legs (23), the clamping mechanism (21) is installed on the workbench (20), the plurality of cutting cushion blocks (24) are all cylindrical, and the plurality of cutting cushion blocks (24) are arranged in a rectangular equidistant mode and installed in the middle positions of the tops of the workbench (20).

3. The cutting device for producing the gypsum bricks, according to claim 2, characterized in that the clamping mechanism (21) comprises a clamping motor (210), a clamping motor seat (211), a clamping gear (212), two clamping racks (213), two clamping connection blocks (214), two clamping fixing blocks (215), two limiting frames (216), two pushing blocks (217) and six clamping support rods (218), wherein the two clamping fixing blocks (215) are respectively installed at the top of the workbench (20) and located at the two side ends, the six clamping support rods (218) are installed on the two clamping fixing blocks (215) in two groups horizontally inwards, each three clamping support rods (218) are in sliding fit with the corresponding clamping fixing block (215), the pushing blocks (217) are connected to the inner sides of the three clamping support rods (218) at the same end, and a shock pad (219) is arranged on each pushing block (217), the same end three the upper end of the medial surface of clamping connecting block (214) is connected to the outside end of pressing from both sides tight bracing piece (218), two the lower extreme at the medial surface of two clamping connecting blocks (214) is installed in what clamp rack (213) corresponded, the bottom intermediate position at workstation (20) is installed in tight motor cabinet (211), press from both sides tight motor cabinet (211) and the vertical upwards through of main shaft that presss from both sides tight motor (210) of tight motor (210) is installed in tight motor cabinet (210), press from both sides tight gear (212) and install on the main shaft that presss from both sides tight motor (210), two press from both sides tight rack (213) and run through the inside of pressing from both sides tight motor cabinet (211) respectively and all mesh mutually with pressing from both sides tight gear (212), two spacing frame (216) are installed respectively at the both ends of workstation (20) bottom and are established respectively and are established outside two tight.

4. The cutting device for producing the gypsum bricks, according to the claim 2, is characterized in that the moving component (3) comprises a transverse sliding base (30), a rack (31), a transverse gear (32), a transverse motor (33), a transverse sliding block (34), a transverse shaft (35), two transverse connecting blocks (36), two longitudinal motors (37), two longitudinal motor bases (38), two longitudinal sliding bases (39), two longitudinal sliding blocks (310), two longitudinal screw shafts (311), two longitudinal limiting heads (312) and four moving supporting legs (313), wherein the four moving supporting legs (313) are vertically arranged on the top of the workbench (20) in a rectangular distribution mode, the two longitudinal sliding bases (39) are respectively arranged on the four moving supporting legs (313) and are designed symmetrically, a slide way is arranged in the middle of each longitudinal sliding base (39), and the two longitudinal sliding blocks (310) are both in an I-shaped structure, the two longitudinal sliding blocks (310) are respectively clamped on the two longitudinal sliding seats (39), the two longitudinal screw shafts (311) respectively penetrate through the two longitudinal sliding blocks (310) and the two ends of the two longitudinal sliding seats (39), the two longitudinal screw shafts (311) are respectively in running fit with the two longitudinal sliding seats (39) and in threaded fit with the two longitudinal sliding blocks (310), the two longitudinal limiting heads (312) are respectively arranged at the same side end of the two longitudinal screw shafts (311), the two longitudinal motor bases (38) are respectively arranged at the other ends of the two longitudinal screw shafts (311) and are arranged on the side surfaces of the longitudinal sliding seats (39), the two longitudinal motors (37) are respectively arranged on the two longitudinal motor bases (38), the main shafts are respectively connected with the two longitudinal screw shafts (311), the transverse sliding seat (30) is connected to the inner side ends of the two longitudinal sliding blocks (310) through two transverse connecting blocks (36), be equipped with the slide in horizontal slide (30), horizontal slider (34) are established in horizontal slide (30) for I shape structure and card, the side of horizontal slide (30) and horizontal slider (34) is run through in horizontal axle (35), the top at horizontal slider (34) is installed in horizontal motor (33), install on the main shaft of horizontal motor (33) horizontal gear (32), rack (31) are installed at the top of horizontal slide (30) and are close to one side of horizontal motor (33) main shaft, rack (31) and horizontal gear (32) meshing.

5. The cutting device for producing the gypsum bricks is characterized in that the lifting and rotating assembly (4) comprises a rotating motor box (40), a rotating motor (41), a cross pin (42), a lifting rod (43), a stabilizing block (44), a lifting side plate (45), a lifting motor (46), a lifting gear (47) and a lifting bottom plate (48), the rotating motor box (40) is installed at the bottom of the transverse sliding block (34), the lifting side plate (45) is installed on the side surface of the rotating motor box (40), the rotating motor (41) is installed in the rotating motor box (40) and fixed on the side wall of the rotating motor box (40), the cross pin (42) is a cross-shaped cylindrical pin block, the cross pin (42) is vertically installed on a main shaft of the rotating motor (41), a cross-shaped groove is formed at the bottom of the lifting rod (43), the utility model discloses a cutting machine, including lifter (43), lifting rod (43) bottom cover establish on cross round pin (42) and with the vertical sliding fit of cross round pin (42), the lower extreme of lifter (43) runs through the bottom of rotating electrical machines case (40), the outside of lifter (43) is equipped with a plurality of tooth's socket, the inboard intermediate position at lift curb plate (45) is installed to lifter (46), lifting gear (47) are installed on the main shaft of lifter (46), lifting gear (47) and the tooth's socket meshing on lifter (43), lifting bottom plate (48) are installed perpendicularly in the bottom of lift curb plate (45) and are located the same one side of rotating electrical machines case (40), the lower extreme of lifter (43) runs through lifting bottom plate (48) and downwardly extending is connected with cutting assembly (5), stabilizing block (44) cover establish in lifter (43) upper end outside and install the bottom at lifting bottom plate (48), the lifting rod (43) is respectively movably matched with the top of the rotating motor box (40), the stabilizing block (44) and the lifting bottom plate (48).

6. The cutting device for producing gypsum bricks, according to claim 5, characterized in that the cutting component (5) comprises a cutting saw blade (50), a cutting frame (51), a cutting head (52), a pushing rod (53), a pushing frame (54), a mounting head (55), a cutting motor (56), a cutting motor base (57), an adjusting rod (58), an adjusting frame (59), an adjusting pulley (510), a transmission rod (511), an upper rotary disk (512), a lower rotary disk (513), a rotating shaft (514), a mounting plate (515), a mounting frame (516), a fixed block (517), a concave frame (518), two fixing plates (519), two bevel gears (520) and three guide wheels (521), the cutting frame (51) is rectangular in structure, the cutting frame (51) is mounted at the bottom of the lifting rod (43), the mounting frame (516) is U-shaped in structure and mounted at the upper end inside the cutting frame (51), the opening end of the mounting frame (516) is connected with the bottom in the cutting frame (51), the mounting plate (515) is vertically mounted on the side wall in the cutting frame (51), the mounting head (55) is mounted at the bottom of the cutting frame (51) and is positioned in the opening of the mounting frame (516), the cutting motor base (57) is vertically mounted on the mounting plate (515), the cutting motor (56) is mounted at the bottom of the cutting motor base (57) and the main shaft of the cutting motor (56) vertically penetrates through the cutting motor base (57), two fixing plates (519) are sleeved on the main shaft of the cutting motor (56) and are vertically mounted on the mounting plate (515), one bevel gear (520) is vertically sleeved on the main shaft of the cutting motor (56), the other bevel gear (520) is vertically arranged and two bevel gears (520) are mutually meshed, the transmission rod (511) is vertically mounted on the side face of the bevel gear (520) in the vertical direction, the lower turntable (513) is of an oval structure, the lower turntable (513) is sleeved and fixed on the transmission rod (511), the upper turntable (512) is installed at the top of the transmission rod (511), the rotating shaft (514) is installed at the edge position of the top of the upper turntable (512), the fixed block (517) is installed in the installation frame (516) and sleeved outside the upper turntable (512), the pushing frame (54) is installed at the top of the fixed block (517), one end of the pushing rod (53) is L-shaped, the other end of the pushing rod (53) is T-shaped, the pushing rod (53) penetrates through the pushing frame (54) and extends into the installation head (55) from the lower end to the lower end, the cutting head (52) is designed to be large at the lower end and small at the middle, two symmetrical slide ways are arranged at the upper end of the cutting head (52), the lower end of the pushing rod (53) is hinged to the cutting head (52), and a rectangular sliding hole is arranged at the, the upper end of the push rod (53) is sleeved outside the rotating shaft (514), the adjusting frame (59) is vertically arranged at the bottom of the fixed block (517), the adjusting rod (58) penetrates through the adjusting frame (59) downwards, the lower end of the adjusting rod (58) is hinged with the cutting head (52) through a slideway on the cutting head (52), the adjusting pulley (510) is arranged at the upper end of the adjusting rod (58) and is in rotating fit with the adjusting rod (58), the adjusting pulley (510) is contacted with the lower turntable (513), the cutting saw blade (50) is arranged at the lower end of the cutting head (52) and downwards penetrates through the bottom of the cutting frame (51), concave type frame (518) are installed in the bottom of cutting frame (51) and are located cutting saw blade (50) side, three leading wheel (521) all install on concave type frame (518) and all with concave type frame (518) normal running fit, three leading wheel (521) set up at two sides and the back of cutting saw blade (50).

7. The cutting device for producing the gypsum bricks, according to claim 2, is characterized in that the dust suction assembly (6) comprises a dust suction port (60), a pipeline (61), a retention box (62), a suction fan (63), a dust storage chamber (64) and a dust storage drawer (65), the dust suction port (60) is arranged on the supporting plate (22), one end of the pipeline (61) is connected with the dust suction port (60), the other end of the pipeline (61) is connected with the retention box (62) in a downward inclined mode, the suction fan (63) is arranged at the bottom of the retention box (62) and communicated with each other, the dust storage chamber (64) is arranged at the bottom of the suction fan (63) and communicated with each other, and the dust storage drawer (65) is arranged in the dust storage chamber (64).

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