CN110883925B - Be applied to adjustable nodal pattern cutting equipment after aerated concrete shaping - Google Patents

Abstract

The invention belongs to the technical field of environment-friendly materials, and particularly discloses adjustable cutting equipment applied to aerated concrete after forming, which comprises a cutting seat, a transportation seat, a jacking component, a rotating component and a cutting knife group, wherein the transportation seat is symmetrically arranged on the outer side of the cutting seat, the jacking component is arranged in the cutting seat, the rotating component is arranged on the outer side of the jacking component, and the cutting knife group is arranged at the top end of the rotating component.

Description

Be applied to adjustable nodal pattern cutting equipment after aerated concrete shaping

Technical Field

The invention relates to the technical field of environment-friendly materials, in particular to adjustable cutting equipment applied to aerated concrete after forming.

Background

Along with the continuous development of society, people need more resources to build our homes, people continuously exploit earth resources, so that the earth resources are continuously reduced, people also gradually recognize the importance of protecting our common homes, therefore, the environment-friendly material appears in the visual field of people, the environment-friendly material is changed into valuables, and the aerated concrete is the environment-friendly material for replacing the original concrete;

the production process of the aerated concrete can be completed by processes of batching, stirring, pouring, pre-curing, cutting, autoclaving, curing and the like, wherein the cutting process cuts the block aerated concrete into small blocks, so that the autoclaving and curing are more convenient, the cutting process needs to utilize cutting equipment to cut the aerated concrete, and the traditional aerated concrete cutting equipment has the following defects in use:

1. when the traditional cutting equipment is used for cutting the aerated concrete, only one aerated concrete block can be cut once, only transverse cutting or longitudinal cutting can be selected, the aerated concrete can be cut into small blocks with the same size only by twice cutting of two cutting equipment in different directions, so that the production cost of the aerated concrete cutting process is overlarge, and the aerated concrete is continuously transferred, so that the cutting efficiency of the aerated concrete is low, and the yield is influenced;

2. traditional cutting equipment has two kinds of selections when cutting aerated concrete: (1) the aerated concrete is cut by utilizing a plurality of groups of cutter sets simultaneously, so that the cutting efficiency is improved, but the problem exists that the distance between two blades cannot be independently adjusted, so that the applicability of the cutter sets is low; (2) the two groups of cutter sets are used for cutting the cutting blade at the same time, so that the distance between the two groups of cutter sets can be adjusted, but the cutting efficiency is low; how to adjust the distance between every two groups of knife sets in the multiple groups of knife sets while improving the cutting efficiency becomes a problem to be solved;

therefore, an adjustable cutting device applied after the aerated concrete is formed is urgently needed to solve the problems.

Disclosure of Invention

The invention aims to provide adjustable cutting equipment applied to aerated concrete after forming, and aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: an adjustable cutting device applied to aerated concrete after forming comprises a cutting seat, a transportation seat, a jacking component, a rotating component and a cutting knife set;

transportation seat is installed to cutting seat outside symmetry, the inside jacking part that is provided with of cutting seat, the jacking part outside is provided with rotary part, the cutting knife tackle is installed on the rotary part top, utilizes rotary part's rotation, realizes the change to cutting knife tackle position for can utilize same platform equipment to accomplish aerated concrete piece's horizontal cutting and vertical cutting simultaneously, can the effectual cutting efficiency who improves the aerated concrete piece, can the effectual output that improves the aerated concrete piece.

As preferred technical scheme, rotary part includes the rotary disk, the jacking part outside is located the inside rotary disk that is provided with of cutting seat, the drive cavity has been seted up to the rotary disk below, drive cavity internally mounted has first driving motor, first driving motor and PLC controller electric connection, PLC controller and power electric connection, the rotary disk provides power through first driving motor and rotates, has realized rotating disc pivoted automated control, the effectual human cost of having practiced thrift to, and, make pivoted angle more accurate.

As a preferred technical scheme, the rotary disk lower surface is provided with the driven fluted disc, first driving motor one end is provided with the driving gear, be connected through the sawtooth meshing between driving gear and the driven fluted disc, the rotary disk upper surface is provided with the arc-shaped rotating plate, arc-shaped rotating plate top fixed mounting has the backup pad, the rotary disk top is located the jacking part outside and is provided with spacing seat, the arc-shaped rotating plate rotates in the inside swivelling chute of seting up of cutting seat, utilizes first driving motor to provide power and rotates, utilizes the controller to control first driving motor's rotation, has realized automatic rotation, can effectually alleviate staff's burden, simultaneously, improves the efficiency of work.

According to a preferable technical scheme, the jacking component comprises a telescopic groove, the middle of the cutting seat is provided with the telescopic groove, a telescopic cylinder is arranged in the telescopic groove, and the top end of the telescopic cylinder is provided with a jacking plate;

the cutting knife group comprises a sliding component, a driving component and a cutting blade;

the utility model discloses an aerated concrete cutting device, including rotary part, rotary part top, drive part, cutting blade, jacking part, contact between the aerated concrete piece after the jacking and the cutting knife tackle, the sliding part is installed to rotary part top one side, drive part is installed to rotary part top opposite side, install cutting blade between sliding part and the drive part, utilize the jacking of jacking part to the concrete, utilize the contact between the aerated concrete piece after the jacking and the cutting knife tackle, can realize the cutting to the aerated concrete piece, and, the drive of utilizing drive part and the spacing slip of sliding part to the cutting blade, make can realize the regulation to interval between the cutting blade, make can cut out the aerated concrete piece of equidimension not according to actual.

As a preferred technical scheme, the sliding part comprises a first fixed seat and a limiting sliding rod, and the driving part comprises a second fixed seat, a second driving motor and a driving screw rod;

the first fixing seat is fixedly arranged on a supporting plate on one side of the top end of the rotating part, a limiting slide rod is fixedly arranged in the first fixing seat, the second fixing seat is fixedly arranged on the supporting plate on the other side of the top end of the rotating part, a second driving motor is fixedly arranged at one end of the second fixing seat, the second driving motor is electrically connected with the PLC, and a driving screw rod is fixedly arranged in the second fixing seat;

the cutting blade comprises a sliding seat, a driving seat and a blade;

a sliding seat is arranged on the outer side of the limiting sliding rod, a driving seat is arranged on the outer side of the driving screw rod, and a blade is arranged between the sliding seat and the driving seat;

the sliding seat is internally penetrated and provided with a sliding groove, the sliding groove and the limiting sliding rod slide mutually, the driving seat is internally penetrated and provided with a driving groove, one end of the driving groove is provided with a driving thread, the driving thread is meshed with the thread of the driving screw rod, and the driving groove and the driving screw rod slide mutually.

Utilize second driving motor's rotation to drive screw and rotate, utilize the mutual interlock drive seat of drive screw and drive inslot portion drive screw to remove to utilize between sliding seat and the first fixing base spacing each other, make can realize the change to the blade position, make the interval between the blade adjust, make can utilize a cutting equipment to cut out the aerated concrete piece of equidimension not according to actual production demand, can effectual improvement cutting equipment's suitability.

As a preferred technical scheme, the sliding groove and the driving groove are adjustable type grooves, the length of the sliding groove is equal to that of the driving groove, a pushing handle is fixedly mounted at one end of the sliding seat, the pushing handle is used for pushing a single blade, a driving thread at one end of the single blade can be meshed with a driving screw, the single blade of the cutting blade can be moved, the driving thread is arranged at one end inside the driving groove, the driving thread-free position cannot be meshed with the driving screw, the single blade can be independently adjusted, aerated concrete blocks under different strips can be cut out at the same time by using the same group of cutting blades, the adjustability of the cutting device is further improved, the applicability of the cutting device is further improved, and the market competitiveness of the cutting device is improved.

As a preferred technical scheme, both sides have all seted up spacing fixed slot along whole spacing slide bar about the spacing slide bar, the inside and drive screw thread of sliding tray all is provided with spacing fixed block from top to bottom in the same one end of drive inslot portion, spacing fixed slot and spacing fixed block length and width are all the same, spacing fixed slot and spacing fixed block are used for fixing the position of cutting blade for when utilizing drive screw drive cutting blade to remove, can not break away from each other between drive screw thread and the drive screw thread, can effectually prevent to break away from between cutting blade removal in-process drive screw thread and the drive screw, lead to unable drive screw to utilize the drive screw to remove cutting blade.

As preferred technical scheme, promote the inboard embedding of handle and install drive button, spacing fixed block is located accomodates inslot portion, it is provided with expanding spring to accomodate between groove top and the spacing fixed block, spacing fixed block top is located to promote and is connected through the connecting wire between the inside position of handle with drive button, utilize drive button drive connecting wire to drive spacing fixed block and accomodate the groove in, make expanding spring compress, make spacing fixed block can follow spacing fixed slot inside and break away from, make after cutting blade removes targetting in place, make mutual separation between drive screw thread and the drive screw, can't reuse drive screw promptly and remove cutting blade, make the process that whole removal and break away from quick and convenient more, the operation of being convenient for.

According to the preferable technical scheme, the upper surfaces of the cutting seat and the conveying seat are provided with a plurality of sliding rails, sliding plates are slidably mounted above the sliding rails, the aerated concrete blocks are placed above the sliding plates, and the sliding plates and the sliding rails are arranged to transfer and convey the aerated concrete blocks, so that the aerated concrete blocks can be moved more smoothly, and the phenomenon of dumping cannot occur in the moving process.

As a preferred technical scheme, cutting seat and transportation seat junction have seted up spacing draw-in groove, the arc-shaped rotating plate bottom is provided with spacing subassembly, spacing subassembly includes spacing spout, spacing spout has been seted up to arc-shaped rotating plate bottom, spacing spout internally mounted has electric telescopic handle, electric telescopic handle and PLC controller electric connection, spacing fixture block is installed to the electric telescopic handle bottom, the setting of spacing draw-in groove and spacing subassembly for rotary part can fix rotary part's position after rotating ninety degrees, avoids first driving motor's rotation to lead to rotary part to appear the rotation of small angle, leads to appearing the deviation on the angle to the cutting of aerated concrete piece, can effectually guarantee cutting equipment when cutting the aerated concrete piece, whole cutting equipment's stability.

Compared with the prior art, the invention has the beneficial effects that:

1. be provided with rotary part, utilize rotary part's rotation, make can realize the rotation to the cutting knife tackle angle after the transverse cutting, make and to utilize same equipment to accomplish transverse cutting and the vertical cutting to the aerated concrete piece simultaneously, the effectual cutting efficiency that improves the aerated concrete piece, and simultaneously, can also utilize the rotary part after spacing draw-in groove and the spacing subassembly pairing rotation to fix and spacing, can effectually prevent that first driving motor's rotation from leading to the position of cutting knife tackle to change, lead to the cutting angle of aerated concrete piece incorrect, the angle that can effectually guarantee aerated concrete piece side after the cutting is unanimous, make whole cutting device more stable when the cutting.

2. Be provided with the cutting knife tackle, utilize sliding part and driver part, can remove the position of cutting blade, make can adjust the distance between the cutting blade according to actual conditions, make can cut out the aerated concrete piece of different specification sizes according to actual conditions, cutting device's suitability has been improved, utilize the drive screw thread of adjustable sliding tray and driving groove and the inside one end of driving groove, make can realize the removal to single cutting blade, and when removing single cutting blade, all the other cutting blades can not take place to remove, make the distance between two liang of cutting blades can not be inequality, make can once cut out the aerated concrete block of different specification sizes according to actual conditions, further cutting device's suitability has been improved.

3. Utilize the rotation of rotary part rotation realization cutting knife tackle, utilize the jacking of jacking subassembly for the mode of cutting carries out between aerated concrete piece and the cutting knife tackle not only can realize horizontal cutting and vertical cutting, simultaneously, has avoided the jacking board to rotate, and the centrifugal force when having avoided the jacking board to rotate leads to the aerated concrete piece after once cutting to take place the phenomenon of empting, makes the more stable of cutting of aerated concrete piece.

4. Utilize the mutual block between spacing fixed block and the spacing fixed slot for when removing cutting blade, can not break away from each other between drive screw and the drive screw thread, make cutting blade's removal stability more, simultaneously, utilize the spacing fixed block income of drive button drive to accomodate the groove, make to the more rapid of the interlock of relieving between drive screw thread and the drive screw, convenient and fast.

Drawings

FIG. 1 is a schematic structural diagram of an adjustable cutting device applied to aerated concrete molding according to the present invention;

FIG. 2 is a schematic partial cross-sectional view of a jacking component and a rotating component of an adjustable cutting device applied to aerated concrete forming according to the present invention;

FIG. 3 is a partially cut-away bottom view of a jacking component and a rotating component of an adjustable cutting device applied to aerated concrete forming according to the present invention;

FIG. 4 is a schematic structural diagram of a cutting knife set of an adjustable cutting device applied to aerated concrete molding according to the present invention;

FIG. 5 is a schematic view of a mounting structure of a cutting blade of an adjustable cutting device applied to aerated concrete forming according to the present invention;

FIG. 6 is a schematic structural diagram of a cutting blade of an adjustable cutting device applied to aerated concrete molding according to the present invention;

FIG. 7 is a schematic view of the internal structure of a sliding component of an adjustable cutting device applied to aerated concrete forming according to the present invention;

FIG. 8 is a schematic structural view of an adjustable cutting apparatus of the present invention shown in the area B of FIG. 7 after forming aerated concrete;

fig. 9 is a schematic structural view of an adjustable cutting device applied to aerated concrete molding in the area a in fig. 1.

Reference numbers in the figures: 1. a cutting seat; 2. a transport base;

3. a jacking component; 301. a telescopic groove; 302. a telescopic cylinder; 303. a jacking plate;

4. a rotating member; 401. rotating the disc; 402. a driven fluted disc; 403. a drive chamber; 404. a first drive motor; 405. a driving gear; 406. a limiting seat; 407. a rotating tank; 408. an arc-shaped rotating plate; 409. a support plate;

5. a cutting knife set;

501. a sliding member; 5011. a first fixed seat; 5012. a limiting slide bar; 5013. a limiting fixing groove;

502. a drive member; 5021. a second fixed seat; 5022. a second drive motor; 5023. a drive screw;

503. a cutting blade; 5031. a sliding seat; 5032. a driving seat; 5033. a blade; 5034. a sliding groove; 5035. a drive slot; 5036. pushing the handle; 5037. a drive button; 5038. a connecting wire; 5039. a receiving groove; 50310. a limit fixing block; 50311. a tension spring; 50312. a drive screw;

6. a slide rail; 7. a sliding plate; 8. an aerated concrete block; 9. a limiting clamping groove;

10. a limiting component; 1001. a limiting chute; 1002. an electric telescopic rod; 1003. and a limiting clamping block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Example (b): as shown in fig. 1, an adjustable cutting device applied to aerated concrete after forming comprises a cutting base 1, a transportation base 2, a jacking component 3, a rotating component 4 and a cutting knife group 5;

the aerated concrete block cutting device is characterized in that conveying seats 2 are symmetrically installed on the outer side of a cutting seat 1, an integrally formed structure is formed between the cutting seat 1 and the conveying seats 2, the conveying seats 2 are used for conveying aerated concrete blocks 8, so that the aerated concrete blocks 8 can be cut and transferred more rapidly, the cutting efficiency of the aerated concrete blocks 8 can be improved, jacking parts 3 are arranged inside the cutting seat 1, the jacking parts 3 are used for jacking the aerated concrete blocks 8, the aerated concrete blocks 8 can be cut by utilizing the contact between jacking force and a cutting knife set 5, rotating parts 4 are arranged on the outer sides of the jacking parts 3, the rotating parts 4 are used for rotating the cutting knife set 5, the cutting knife set 5 can be rotated ninety degrees integrally, the aerated concrete blocks 8 can be cut longitudinally after the aerated concrete blocks 8 are cut transversely, and the cutting efficiency of the aerated concrete blocks 8 can be effectively improved, simultaneously, utilize and carry out the secondary cutting after 5 rotations of cutting knife tackle and carry out the secondary cutting after 3 rotations of non-jacking parts, be in order to avoid aerated concrete piece 8 after carrying out a cutting, the phenomenon appears empting because the effect of centrifugal force when carrying out the secondary cutting in the rotation again, can be so that aerated concrete piece 8 is more stable at the in-process of whole cutting, cutting knife tackle 5 is installed on 4 tops of rotary part, cutting knife tackle 5 is used for carrying out horizontal cutting and vertical cutting to aerated concrete piece 8.

The upper surfaces of the cutting seat 1 and the transportation seat 2 are provided with a plurality of sliding rails 6, a sliding plate 7 is slidably mounted above the sliding rails 6, and an aerated concrete block 8 is arranged above the sliding plate 7.

As shown in fig. 2-4, the rotating member 4 includes a rotating disk 401, a rotating disk 401 is disposed inside the cutting seat 1 and outside the jacking member 3, the rotating disk 401 is used for completing the rotation of the whole rotating member 4, a driving chamber 403 is disposed below the rotating disk 401, a first driving motor 404 is mounted inside the driving chamber 403, the first driving motor 404 is electrically connected with the PLC controller, the PLC controller is electrically connected with a power supply, and the rotating disk 401 is rotated by the power supplied by the first driving motor 404.

The lower surface of the rotating disc 401 is provided with a driven fluted disc 402, one end of the first driving motor 404 is provided with a driving gear 405, the driving gear 405 is in key connection with the first driving motor 404, the driving gear 405 is in sawtooth meshing connection with the driven fluted disc 402 and is used for transmitting power generated by the first driving motor 404 to the rotating disc 401 to rotate, the upper surface of the rotating disc 401 is provided with an arc-shaped rotating plate 408, the top end of the arc-shaped rotating plate 408 is fixedly provided with a supporting plate 409, the arc-shaped rotating plate 408 and the supporting plate 409 are used for transmitting the whole rotation to the cutting knife set 5 and finally realizing the rotation of the cutting knife set 5, a limiting seat 406 is arranged above the rotating disc 401 and positioned outside the jacking part 3 and is used for preventing the whole rotating part 4 from being jacked up when the jacking part 3 jacks up the aerated concrete block 8 to cut, so that the rotating part, the arc-shaped rotating plate 408 rotates inside the rotating groove 407 formed inside the cutting base 1, and the rotation of the arc-shaped rotating plate 408 is limited due to the arrangement of the rotating groove 407, so that the arc-shaped rotating plate 408 is more stable in the rotating process.

The jacking component 3 comprises a telescopic groove 301, the middle part of the cutting seat 1 is provided with the telescopic groove 301, a telescopic cylinder 302 is arranged in the telescopic groove 301, the telescopic cylinder 302 is used for providing jacking power for cutting the aerated concrete block 8, the top end of the telescopic cylinder 302 is provided with a jacking plate 303, and the jacking plate 303 is used for supporting the aerated concrete block 8;

the cutter group 5 includes a slide member 501, a drive member 502, and a cutting blade 503;

sliding part 501 is installed to rotary part 4 top one side, and sliding part 501 is used for carrying out spacing slip to the regulation of cutting knife tackle 5 interval, and driving part 502 is installed to rotary part 4 top opposite side, and driving part 502 is used for providing power to the regulation of cutting knife tackle 5 interval, installs cutting blade 503 between sliding part 501 and the driving part 502, and cutting blade 503 is used for cutting aerated concrete piece 8.

As shown in fig. 4-7, the sliding member 501 includes a first fixed seat 5011 and a limit slide 5012, and the driving member 502 includes a second fixed seat 5021, a second driving motor 5022 and a driving screw 5023;

the first fixing seat 5011 is fixedly installed on a supporting plate 409 on one side of the top end of the rotating component 4, a limiting sliding rod 5012 is fixedly installed inside the first fixing seat 5011, the limiting sliding rod 5012 is used for limiting sliding of the cutting blade 503, shaking of the cutting blade 503 in the moving process is avoided, the second fixing seat 5021 is fixedly installed on the supporting plate 409 on the other side of the top end of the rotating component 4, one end of the second fixing seat 5021 is fixedly provided with a second driving motor 5022, the second driving motor 5022 is electrically connected with a PLC (programmable logic controller), the second driving motor 5022 is used for providing a power source for moving of the cutting blade 503, a driving screw 5023 is fixedly installed inside the second fixing seat 5021, the driving screw 5023 is connected with one end of the second driving motor 5022 through a key, and the driving screw 5023 is used for being mutually meshed with the cutting;

cutting blade 503 includes sliding seat 5031, drive seat 5032 and blade 5033;

a sliding seat 5031 is arranged at the outer side of the limiting sliding rod 5012, a driving seat 5032 is arranged at the outer side of the driving screw 5023, and a blade 5033 is arranged between the sliding seat 5031 and the driving seat 5032;

a sliding groove 5034 is formed in the sliding seat 5031 in a penetrating manner, the sliding groove 5034 slides with the limit sliding rod 5012, a driving groove 5035 is formed in the driving seat 5032 in a penetrating manner, a driving thread 50312 is formed at one end of the driving groove 5035 in the driving seat, the driving thread 50312 is engaged with the thread of the driving screw 5023, and the driving groove 5035 and the driving screw 5023 slide with each other.

The sliding groove 5034 and the driving groove 5035 are both adjustable grooves, the length of the sliding groove 5034 is equal to the length of the driving groove 5035, so that the sliding groove 5034 and the driving groove 5035 move synchronously, a pushing handle 5036 is fixedly arranged at one end of the sliding seat 5031, and the pushing handle 5036 is used for pushing the blade 5033 to move, so that the corresponding driving thread 50312 can be engaged with the driving screw 5023.

Both the upper side and the lower side of the limiting slide bar 5012 are provided with a limiting fixing groove 5013 along the whole limiting slide bar 5012, the upper end and the lower end of the same end of the inside of the sliding groove 5034 as the driving thread 50312 in the driving groove 5035 are provided with a limiting fixing block 50310, and the length and the width of the limiting fixing groove 5013 and the length and the width of the limiting fixing block 50310 are the same.

As shown in fig. 7-8, a driving button 5037 is embedded inside the pushing handle 5036, a fixing block 50310 is located inside the receiving groove 5039, an expansion spring 50311 is disposed between the top end of the receiving groove 5039 and the fixing block 50310, the expansion spring 50311 is used for ejecting the fixing block 50310 from the receiving groove 5039, so that the fixing block 50310 and the fixing groove 5013 can be engaged with each other, the top end of the fixing block 50310 and the driving button 5037 located inside the pushing handle 5036 are connected by a connecting line 5038, and the connecting line 5038 is tightened when the expansion spring 50311 is extended to the longest.

As shown in fig. 9, spacing draw-in groove 9 has been seted up with transport seat 2 junction to cutting seat 1, arc rotor plate 408 bottom is provided with spacing subassembly 10, spacing subassembly 10 includes spacing spout 1001, spacing spout 1001 has been seted up to arc rotor plate 408 bottom, spacing spout 1001 internally mounted has electric telescopic handle 1002, electric telescopic handle 1002 and PLC controller electric connection, electric telescopic handle 1002 is used for extension and shrink, the realization is to the decline and the rising of spacing fixture block 1003, spacing fixture block 1003 is installed to electric telescopic handle 1002 bottom, the length of spacing fixture block 1003, width and height all equal to the length of spacing draw-in groove 9, width and degree of depth, make spacing fixture block 1003 can block completely in spacing draw-in groove 9.

The working principle is as follows: firstly, placing an aerated concrete block 8 to be cut on a sliding plate 7, sliding the sliding plate 7 to the position of a lifting plate 303 by using a sliding rail 6, then contacting the aerated concrete block 8 with a cutting knife set 5 by using the extension of a telescopic cylinder 302, cutting the aerated concrete block 8 by using the cutting knife set 5, after the aerated concrete block 8 is cut once by using the cutting knife set 5, separating the aerated concrete block 8 from the cutting knife set 5 by using the contraction of the telescopic cylinder 302, then driving a driving gear 405 to rotate by using the rotation of a first driving motor 404, driving a driven fluted disc 402 to rotate by using the rotation of the driving gear 405, and engaging and connecting the driving gear 405 and the driven fluted disc 402 to rotate a rotating disc 401 so as to realize the rotation of the whole rotating part 4, after the whole rotating part 4 rotates ninety degrees, the first driving motor 404 stops rotating, at the moment, the limiting clamping block 1003 is clamped into the limiting clamping groove 9 by means of extension of the electric telescopic rod 1002, the position of the rotating component 4 is fixed, the first motor is prevented from rotating 404 to cause instability of the whole rotating component 4, then the telescopic cylinder 302 is used again for extension, the aerated concrete block 8 after primary cutting is contacted with the cutting knife tackle 5 again, the cutting knife tackle 5 is used for achieving secondary cutting on the aerated concrete block 8, cutting in two different directions can be achieved on the aerated concrete block 8 by means of one device, after the secondary cutting is finished, the limiting clamping block 1003 and the limiting clamping groove 9 are separated from each other by means of contraction of the electric telescopic rod 1002, and the rotating component 4 is restored to the original position by means of rotation of the first driving motor 404 again;

when the position of the cutter group 5 needs to be adjusted, when the position of a single cutting blade 5 needs to be adjusted, the handle 5036 is pushed by holding a hand, the driving button 5037 is pressed, the driving button 5037 is contracted towards the inside of the handle 5036, the connecting line 5038 is tightened, the limit fixing block 50310 is driven to extrude the telescopic spring 50311, the limit fixing block 50310 is received in the receiving groove 5039, at the same time, the cutting blade 503 is pushed towards one end of the driving part 502, the driving screw 5023 is engaged with the driving thread 50312 at one end of the driving seat 5032, at the same time, the driving button 5037 is loosened, the limit fixing block 50310 extends out of the receiving groove 5039 under the action of the telescopic spring 50311 and is clamped in the limit fixing groove 5033, so that the position of the whole cutting blade 503 is fixed, at the same time, the driving screw 5023 is driven to rotate by the rotation of the second driving motor 5022, the cutting blade 503 engaged with the thread is driven by the rotation of the driving screw 5023, so that the individual movement of the individual cutting blades 503 among the plurality of cutting blades 503 can be achieved, so that the position of the cutting blades 503 can be adjusted at will steplessly, after the cutting blades 503 are moved in place, the push knob 5036 is held again, the drive button 5037 is pressed, so that the limit fixing block 50310 is again received in the receiving groove 5039, and the cutting blades 503 are pulled back, at this time, the drive screw 5023 and the drive screw 50312 are separated from each other, so that the rotation of the drive screw 5023 does not cause the movement of the cutting blades 503, and then each cutting blade 503 is moved in turn, and after the aerated concrete block 8 is cut, the aerated concrete block 8 after cutting is sent out again by using the slide rail 6 and the slide plate 7.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an adjustable nodal pattern cutting equipment after being applied to aerated concrete shaping which characterized in that: the cutting equipment comprises a cutting seat (1), a transportation seat (2), a jacking component (3), a rotating component (4) and a cutting knife group (5);

the conveying seats (2) are symmetrically arranged on the outer side of the cutting seat (1), a jacking component (3) is arranged in the cutting seat (1), a rotating component (4) is arranged on the outer side of the jacking component (3), and a cutting knife group (5) is arranged at the top end of the rotating component (4);

the rotating part (4) comprises a rotating disc (401), the rotating disc (401) is arranged on the outer side of the jacking part (3) and located inside the cutting seat (1), a driving cavity (403) is formed below the rotating disc (401), a first driving motor (404) is installed inside the driving cavity (403), the first driving motor (404) is electrically connected with a PLC (programmable logic controller), the PLC is electrically connected with a power supply, and the rotating disc (401) rotates by being powered by the first driving motor (404);

a driven fluted disc (402) is arranged on the lower surface of the rotating disc (401), a driving gear (405) is arranged at one end of the first driving motor (404), the driving gear (405) is meshed with the driven fluted disc (402) through sawteeth, an arc-shaped rotating plate (408) is arranged on the upper surface of the rotating disc (401), a supporting plate (409) is fixedly installed at the top end of the arc-shaped rotating plate (408), a limiting seat (406) is arranged on the outer side of the jacking part (3) above the rotating disc (401), and the arc-shaped rotating plate (408) rotates in a rotating groove (407) formed in the cutting seat (1);

the jacking component (3) comprises a telescopic groove (301), the middle of the cutting seat (1) is provided with the telescopic groove (301), a telescopic cylinder (302) is arranged in the telescopic groove (301), and the top end of the telescopic cylinder (302) is provided with a jacking plate (303);

the cutting knife group (5) comprises a sliding component (501), a driving component (502) and a cutting blade (503);

a sliding component (501) is installed on one side of the top end of the rotating component (4), a driving component (502) is installed on the other side of the top end of the rotating component (4), and a cutting blade (503) is installed between the sliding component (501) and the driving component (502);

the sliding component (501) comprises a first fixed seat (5011) and a limiting sliding rod (5012), and the driving component (502) comprises a second fixed seat (5021), a second driving motor (5022) and a driving screw (5023);

the first fixing seat (5011) is fixedly installed on a supporting plate (409) on one side of the top end of the rotating component (4), a limiting slide bar (5012) is fixedly installed inside the first fixing seat (5011), the second fixing seat (5021) is fixedly installed on the supporting plate (409) on the other side of the top end of the rotating component (4), one end of the second fixing seat (5021) is fixedly installed with a second driving motor (5022), the second driving motor (5022) is electrically connected with the PLC, and a driving screw (5023) is fixedly installed inside the second fixing seat (5021);

the cutting blade (503) comprises a sliding seat (5031), a driving seat (5032) and a blade (5033);

a sliding seat (5031) is arranged at the outer side of the limiting sliding rod (5012), a driving seat (5032) is arranged at the outer side of the driving screw rod (5023), and a blade (5033) is arranged between the sliding seat (5031) and the driving seat (5032);

a sliding groove (5034) penetrates through the inside of the sliding seat (5031), the sliding groove (5034) and the limiting sliding rod (5012) slide with each other, a driving groove (5035) penetrates through the inside of the driving seat (5032), a driving thread (50312) is formed at one end of the inside of the driving groove (5035), the driving thread (50312) is engaged with the thread of the driving screw (5023), and the driving groove (5035) and the driving screw (5023) slide with each other.

2. The adjustable cutting equipment applied to the formed aerated concrete as claimed in claim 1, wherein: the sliding groove (5034) and the driving groove (5035) are both adjustable grooves, the length of the sliding groove (5034) is equal to that of the driving groove (5035), and one end of the sliding seat (5031) is fixedly provided with a pushing handle (5036).

3. The adjustable cutting equipment applied to the formed aerated concrete as claimed in claim 2, wherein: the upper side and the lower side of the limiting slide rod (5012) are both provided with limiting fixing grooves (5013) along the whole limiting slide rod (5012), the upper end and the lower end of the end, in the driving groove (5035), of the inside of the sliding groove (5034) and the end, in the driving groove (50312), which is the same as the driving thread (50312) are both provided with limiting fixing blocks (50310), and the length and the width of each limiting fixing groove (5013) and the corresponding limiting fixing block (50310) are the same.

4. The adjustable cutting equipment applied to the formed aerated concrete as claimed in claim 3, wherein: a driving button (5037) is embedded in the inner side of the pushing handle (5036), the limiting fixing block (50310) is positioned in the accommodating groove (5039), a telescopic spring (50311) is arranged between the top end of the accommodating groove (5039) and the limiting fixing block (50310), and the top end of the limiting fixing block (50310) is connected with the driving button (5037) positioned in the pushing handle (5036) through a connecting line (5038).

5. The adjustable cutting equipment applied to the formed aerated concrete as claimed in claim 1, wherein: the cutting seat (1) and the upper surface of the transportation seat (2) are provided with a plurality of sliding rails (6), a sliding plate (7) is slidably mounted above the sliding rails (6), and aerated concrete blocks (8) are arranged above the sliding plate (7).

6. The adjustable cutting equipment applied to the formed aerated concrete as claimed in claim 1, wherein: spacing draw-in groove (9) have been seted up with transport seat (2) junction in cutting seat (1), arc rotor plate (408) bottom is provided with spacing subassembly (10), spacing subassembly (10) are including spacing spout (1001), spacing spout (1001) have been seted up to arc rotor plate (408) bottom, spacing spout (1001) internally mounted has electric telescopic handle (1002), electric telescopic handle (1002) and PLC controller electric connection, spacing fixture block (1003) are installed to electric telescopic handle (1002) bottom.

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