CN112297204B

CN112297204B - Air entrainment slat cutting mechanism

Info

Publication number: CN112297204B
Application number: CN202011226052.2A
Authority: CN
Inventors: 施剑涛
Original assignee: Hubei Bo Yue Jia Industrial Co ltd
Current assignee: Hubei Bo Yue Jia Industrial Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2022-03-15
Anticipated expiration: 2040-11-05
Also published as: CN112297204A

Abstract

The invention provides a gas-entrapping slat cutting mechanism, which comprises a cutting table, a cutting device, a positioning device and a driving device, wherein the cutting device comprises a cutting table body and a cutting table body; a first strip-shaped hole is horizontally formed in the middle of the cutting table, and sliding rails parallel to the first strip-shaped hole are respectively arranged on two sides of the first strip-shaped hole; the cutting device comprises a cutting wheel arranged in the first strip-shaped hole, and the bottom of the cutting table is provided with a driving motor for driving the cutting wheel to rotate; the positioning device comprises a bearing seat, the bearing seat comprises a horizontal plate and a vertical plate which are vertically connected, the horizontal plate is connected with a slide rail in a sliding way, the middle parts of the horizontal plate and the vertical plate are provided with a channel for a cutting wheel to pass through, the horizontal plate is provided with a plurality of roller assemblies capable of rolling along the length direction of the horizontal plate, and the top of the vertical plate is provided with an indication strip for aligning the cutting wheels; the driving device is arranged at the bottom of the cutting table and used for driving the bearing seat to move towards the direction of the cutting wheel. When the cutting mechanism is used for manually adjusting the cutting position of the air entrainment batten, time and labor are saved, and the cutting position can be quickly and accurately adjusted.

Description

Air entrainment slat cutting mechanism

Technical Field

The invention relates to the technical field of concrete plate processing, in particular to an aerated batten cutting mechanism.

Background

The aerated batten is a porous concrete forming plate (wherein the plate needs to be reinforced by treated reinforcing steel bars) which is formed by curing fly ash (or silica sand), cement, lime and the like serving as main raw materials through high-pressure steam; can be used as wall material and roof boarding, and is a new building material with excellent performance.

With the implementation of the national wall-changing policy and the vigorous development of the real estate industry, the development of the production scale of the aerated concrete product is driven, so that the cutting device for cutting the aerated concrete blank is correspondingly and rapidly developed. However, the existing cutting device usually has the defects of large size, heavy weight, complex structure and inconvenience in operation, and influences the use of people, and when the air-entrapping slat is cut, the air-entrapping slat is heavy in weight, and after the air-entrapping slat is placed on the cutting device, time and labor are wasted in manually adjusting the cutting position of the air-entrapping slat, the position adjustment is inaccurate, the cutting size deviation can be caused, and finally the cut air-entrapping slat is unqualified in size.

Disclosure of Invention

In view of the above, the invention provides a cutting mechanism for air-entraining slats, which solves the problems that manual adjustment of air-entraining slats in the prior art is time-consuming and labor-consuming, the position adjustment is inaccurate, and the cutting size is deviated.

The technical scheme of the invention is realized as follows: the invention provides a gas-entrapping slat cutting mechanism, which comprises a cutting table, a cutting device, a positioning device and a driving device, wherein the cutting device comprises a cutting table body and a cutting table body; wherein,

a first strip-shaped hole is horizontally formed in the middle of the cutting table, and sliding rails parallel to the first strip-shaped hole are respectively arranged on two sides of the first strip-shaped hole;

the cutting device comprises a cutting wheel arranged in the first strip-shaped hole, and a driving motor for driving the cutting wheel to rotate is arranged at the bottom of the cutting table;

the positioning device comprises a bearing seat, the bearing seat comprises a horizontal plate and a vertical plate which are vertically connected, the horizontal plate is connected with a sliding rail in a sliding manner, a channel for a cutting wheel to pass through is arranged in the middle of the horizontal plate and the vertical plate, a plurality of roller assemblies capable of rolling along the length direction of the horizontal plate are arranged on the horizontal plate, and indicator strips for aligning the cutting wheels are arranged at the top of the vertical plate;

the driving device is arranged at the bottom of the cutting table and used for driving the bearing seat to move towards the direction of the cutting wheel.

On the basis of the technical scheme, preferably, the upper surface of the horizontal plate is linearly provided with a plurality of accommodating grooves for installing the roller assemblies, the roller assemblies are provided with a rotating shaft and at least one roller, two ends of the rotating shaft are fixedly connected with the inner side walls of the accommodating grooves, the rollers are sleeved on the rotating shaft, and the rollers can roll along the length direction of the horizontal plate.

On the basis of the technical scheme, preferably, the positioning device further comprises two groups of clamping assemblies which are respectively arranged on the horizontal plates at the two sides of the channel, each clamping assembly comprises a screw rod, a pressing plate and two guide rods, the two guide rods are horizontally fixed on the side walls of the horizontal plates at the two sides of the slide rail and are all parallel to the slide rail, the screw rods are arranged between the two guide rods in parallel, one end of each screw rod is rotatably connected with the horizontal plate, the other end of each screw rod is fixedly provided with an adjusting knob, the pressing plate is vertically arranged on one side of the horizontal plate and penetrates through the screw rods and the guide rods, and the pressing plates are in threaded connection with the screw rods and are in sliding connection with the guide rods.

Further, preferably, the opposite surfaces of the compression plate and the vertical plate are provided with anti-skid convex strips.

On the basis of the technical scheme, the gas filling machine further comprises a pushing device, the pushing device comprises an ejection assembly and a pushing assembly, the ejection assembly is arranged at the bottom of the horizontal plate and used for lifting gas filling battens on the horizontal plate, and the pushing assembly is arranged on the side wall of the vertical plate and used for horizontally pushing the gas filling battens on the horizontal plate.

Preferably, the ejection assemblies are four groups, each two of the ejection assemblies are arranged at the bottoms of the horizontal plates on the two sides of the channel, each ejection assembly comprises a first air cylinder and a top plate, each horizontal plate is provided with a first movable hole, each top plate is arranged in each first movable hole, and each first air cylinder is fixed at the bottom of each horizontal plate and used for driving each top plate to move up and down along each first movable hole.

Further, it is preferred, the push-out subassembly is provided with two sets ofly, sets up respectively on the vertical board at passageway both sides place, the push-out subassembly includes second cylinder, push pedal and backup pad, the backup pad level is fixed on vertical board, has seted up the second activity hole on the vertical board, and the push pedal sets up in the second activity hole, and the second cylinder level is fixed in the backup pad for drive push pedal is along second activity hole horizontal migration.

Preferably, the bottom of the horizontal plate is also provided with a sliding block connected with the sliding rail.

Preferably, drive arrangement is provided with two sets ofly, is located the cutting bed bottom at cutting wheel both sides place respectively, drive arrangement includes third cylinder and connecting plate, and the cutting bed is improved level and is provided with two second bar holes, and the third cylinder is fixed in the cutting bed bottom, and the piston rod is connected with the connecting plate, and the connecting plate passes second bar hole and with vertical board fixed connection.

Preferably, one end of the cutting table, which is far away from the cutting wheel, is provided with a discharge plate in an inclined and downward manner.

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

(1) the cutting mechanism for the aerated batten disclosed by the invention has the advantages that the bearing seat is arranged, the aerated batten to be cut can be placed on the horizontal plate, the roller assemblies are contacted with the aerated batten placed on the horizontal plate through the roller assemblies arranged on the horizontal plate, the aerated batten can be conveniently pushed to move on the horizontal plate through the roller assemblies by manpower, the cutting position can be marked through the indicating strip, the bearing seat is driven by the driving device to drive the aerated batten to move towards the direction of the cutting wheel, the cutting operation of the aerated batten is further completed, the cutting mechanism is time-saving and labor-saving when the cutting position of the aerated batten is manually adjusted, and the adjustment of the cutting position can be rapidly and accurately completed.

(2) Through set up clamping assembly on the horizontal plate to through revolving to twist the screw rod, can make the pressure strip be close to towards vertical board, thereby make the air entrainment slat after position control, carry out the rigidity, avoid in cutting process, air entrainment slat horizontal migration causes the cutting deviation.

(3) The ejecting assembly is arranged at the bottom of the horizontal plate, so that the air-entrapping batten on the horizontal plate can be ejected after cutting is finished, and the ejecting assembly can be matched with the ejecting assembly to eject the air-entrapping batten out of the cutting table through the ejecting assembly on the side wall of the vertical plate, so that manual operation is not needed, and labor is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic perspective view of a cutting mechanism for an aerated slat disclosed by the invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a schematic front structural view of a cutting mechanism for an aerated slat disclosed by the invention;

fig. 4 is a schematic bottom structure view of the aerated slat cutting mechanism disclosed by the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 and fig. 2-4, an embodiment of the invention discloses a gas-entraining lath cutting mechanism, which comprises a cutting table 1, a cutting device 2, a positioning device 3 and a driving device 4.

Wherein, first bar hole 11 has been seted up to cutting bed 1 middle part level, and cutting device 2 is provided with driving motor 22 that is used for driving cutting wheel 21 pivoted including setting up the cutting wheel 21 in first bar hole 11 bottom cutting bed 1.

Positioner 3, including bearing seat 31, bearing seat 31 includes perpendicular horizontal plate 311 and the vertical board 312 of connecting, first bar hole 11 both sides are provided with slide rail 12 that parallels with first bar hole 11 respectively, horizontal plate 311 and slide rail 12 sliding connection, horizontal plate 311 and vertical board 312 middle part are provided with the passageway 30 that supplies cutting wheel 21 to pass, be provided with a plurality of rolling wheel components 32 of horizontal plate 311 length direction that can follow on the horizontal plate 311, vertical board 312 top is provided with the relative instruction strip 33 of cutting wheel 21.

The driving device 4 is arranged at the bottom of the cutting table 1 and used for driving the bearing seat 31 to move towards the cutting wheel 21.

By adopting the technical scheme, the aerated batten to be cut is placed on the horizontal plate 311, the side wall of the aerated batten is attached to the vertical plate 312, the bottom surface of the aerated batten is contacted with the roller assembly 32, when the cutting position of the air-entrapping slat is adjusted, the air-entrapping slat is pushed along the length direction of the horizontal plate 311 and slides on the horizontal plate 311 along the rolling direction of the roller assemblies 32, so that the labor intensity of workers is saved, in the adjusting process, the cutting position can be marked through the indicating strip 33, the driving device 4 is utilized to drive the bearing seat 31 to move along the slide rail 12 towards the cutting wheel 21, the cutting wheel 21 performs cutting action with the air-entrapping strips along the channel 30 on the bearing seat 31, and finally the cutting operation of the air-entrapping slats is completed, when the cutting mechanism is used for manually adjusting the cutting position of the air entrainment batten, time and labor are saved, and the cutting position can be quickly and accurately adjusted.

Specifically, a plurality of accommodating grooves 3110 for installing the roller assembly 32 are arranged on the upper surface of the horizontal plate 311 in a linear manner, the roller assembly 32 includes a rotating shaft 321 and at least one roller 322, two ends of the rotating shaft 321 are fixedly connected with inner side walls of the accommodating grooves 3110, the roller 322 is sleeved on the rotating shaft 321, and the roller 322 can roll along the length direction of the horizontal plate 311. From this, through setting up holding tank 3110, can make gyro wheel 322 set up in holding tank 3110, and make some of gyro wheel 322 leak out the dull and stereotyped 311 top of water, the gas entrainment slat is placed on the horizontal plate 311 after, gyro wheel 322 contacts with the gas entrainment slat, remove through rolling form, avoided the gas entrainment slat directly to contact the big problem of frictional force that causes with the horizontal plate 311, promotion gas entrainment slat that can be more convenient moves on the horizontal plate 311, and then the sign of cooperation instruction strip 33, accomplish the regulation of gas entrainment slat cutting position.

Because the air entrainment slat is on horizontal plate 311 with gyro wheel 322 subassembly 32 contact, do not contact with horizontal plate 311, in cutting process, vertical board 312 promotes the air entrainment slat and removes towards cutting wheel 21 direction, can have the air entrainment slat to take place horizontal shift under the effect of cutting force, and then cause the cutting mistake, in serious cases, lead to the dead condition of cutting wheel 21 card. Therefore, the invention is based on a solution to the problem of adjusting the cutting position of the gas-filling lath, and the invention further improves the problem, and the specific improvement measures are as follows: the positioning device 3 is further provided with two clamping assemblies 34, the two clamping assemblies 34 are respectively arranged on the horizontal plates 311 on the two sides of the channel 30, each clamping assembly 34 comprises a screw 341, a pressing plate 342 and two guide rods 343, the two guide rods 343 are horizontally fixed on the side walls of the horizontal plates 311 on the two sides of the slide rail 12 and are parallel to the slide rail 12, the screw 341 is arranged between the two guide rods 343 in parallel, one end of the screw is rotatably connected with the horizontal plate 311, the other end of the screw is fixedly provided with an adjusting knob 344, the pressing plate 342 is vertically arranged on one side of the horizontal plate 311 and penetrates through the screw 341 and the guide rods 343, and the pressing plate 342 is in threaded connection with the screw 341 and is in sliding connection with the guide rods 343.

By adopting the technical scheme, after the cutting position of the air-entrapping slat is adjusted, the screw 341 is rotated by the adjusting knob 344, one end of the screw 341 is rotated with the horizontal plate 311, meanwhile, the screw 341 is in the rotating process and is in threaded connection with the pressing plate 342 to drive the pressing plate 342 to move towards the vertical plate 312, and the pressing plate 342 slides along the guide rod 343, so that the pressing plate 342 and the vertical plate 312 are mutually matched to press the air-entrapping slat on the horizontal plate 311, and further, the problem of displacement of the air-entrapping slat in the cutting process is avoided.

Preferably, the opposite surfaces of the pressing plate 342 and the vertical plate 312 are provided with anti-slip convex strips 3420, and by means of the anti-slip convex strips 3420, the pressing plate 342 and the vertical plate 312 are more firm in pressing the air-entrapping lath, so that slippage during cutting is prevented.

Because the air-entrapping laths belong to concrete plates and are heavy, manual discharging from the cutting table 1 is needed after the cutting is completed on the horizontal plate 311, in order to solve the problem of high labor intensity in the manual transferring process, the cutting mechanism further comprises a pushing device 5, the pushing device 5 comprises an ejection assembly 51 and a pushing assembly 52, the ejection assembly 51 is arranged at the bottom of the horizontal plate 311 and used for lifting the air-entrapping laths on the horizontal plate 311, and the pushing assembly 52 is arranged on the side wall of the vertical plate 312 and used for horizontally pushing the air-entrapping laths on the horizontal plate 311.

Specifically, the ejection assemblies 51 are provided with four groups, two pairs of the ejection assemblies are arranged at the bottoms of the horizontal plates 311 on two sides of the channel 30, each ejection assembly 51 comprises a first air cylinder 511 and a top plate 512, a first movable hole 3111 is formed in each horizontal plate 311, each top plate 512 is arranged in each first movable hole 3111, and each first air cylinder 511 is fixed at the bottom of each horizontal plate 311 and used for driving each top plate 512 to move up and down along each first movable hole 3111. According to the design, two groups of ejection assemblies 51 are arranged at the bottoms of the horizontal plates 311 on the two sides of the channel 30 respectively, two cut air-entrapping slats can be ejected, specifically, after the complete cutting operation, the clamping assembly 34 is loosened, the first air cylinder 511 is started, the first air cylinder 511 drives the top plate 512 to move upwards, the top plate 512 moves upwards from the first movable hole 3111, and the air-entrapping slats are ejected, wherein the specific ejection height is larger than that of the pressing plate 342.

When the air entrainment slat is lifted, the air entrainment slat on the horizontal plate 311 can be pushed out horizontally by the push-out assembly 52. Specifically, the push-out assembly 52 is provided with two groups, which are respectively arranged on the vertical plates 312 on two sides of the channel 30, the push-out assembly 52 includes a second cylinder 521, a push plate 522 and a support plate 523, the support plate 523 is horizontally fixed on the vertical plate 312, a second movable hole 3121 is formed in the vertical plate 312, the push plate 522 is arranged in the second movable hole 3121, and the second cylinder 521 is horizontally fixed on the support plate 523 and is used for driving the push plate 522 to horizontally move along the second movable hole 3121. Therefore, after the ejecting assembly 51 vertically ejects the air-entraining lath to a certain height, the second cylinder 521 is started, the second cylinder 521 horizontally pushes the push plate 522, and the push plate 522 moves outwards along the second movable hole 3121, so that the air-entraining lath is ejected from the horizontal plate 311. Manual operation is not needed, and labor is saved.

Preferably, the cutting table 1 is provided with a discharge plate 13 obliquely downward from the end close to the cutting wheel 21. The aerated strip plate which is conveniently and horizontally pushed out can slide off the cutting table 1 along the discharging plate 13.

In this embodiment, the bottom of the horizontal plate 311 is further provided with a slider 3113 connected to the slide rail 12. Therefore, the carriage 31 can move more smoothly along the slide rail 12 through the slider 3113.

In this embodiment, drive arrangement 4 is provided with two sets ofly, is located cutting bed 1 bottom at cutting wheel 21 both sides place respectively, drive arrangement 4 includes third cylinder 41 and connecting plate 42, and cutting bed 1 is improved level and is provided with two second bar holes 14, and third cylinder 41 is fixed in cutting bed 1 bottom, and the piston rod is connected with connecting plate 42, and connecting plate 42 passes second bar hole 14 and with vertical board 312 fixed connection. By adopting the technical scheme, in the cutting operation process, the third cylinder 41 is started, the third cylinder 41 drives the connecting plate 42 to move towards the cutting wheel 21, and the connecting plate 42 pushes the bearing seat 31 to move towards the cutting wheel 21 along the slide rail 12, so that the cutting operation is completed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a gas entrainment slat cutting mechanism, includes cutting bed (1), its characterized in that: the cutting device is characterized by also comprising a cutting device (2), a positioning device (3) and a driving device (4); wherein,

a first strip-shaped hole (11) is horizontally formed in the middle of the cutting table (1), and sliding rails (12) parallel to the first strip-shaped hole (11) are respectively arranged on two sides of the first strip-shaped hole (11);

the cutting device (2) comprises a cutting wheel (21) arranged in the first strip-shaped hole (11), and a driving motor (22) for driving the cutting wheel (21) to rotate is arranged at the bottom of the cutting table (1);

the positioning device (3) comprises a bearing seat (31), the bearing seat (31) comprises a horizontal plate (311) and a vertical plate (312) which are vertically connected, the horizontal plate (311) is connected with a sliding rail (12) in a sliding manner, a channel (30) for a cutting wheel (21) to pass through is arranged in the middle of the horizontal plate (311) and the vertical plate (312), a plurality of roller assemblies (32) capable of rolling along the length direction of the horizontal plate (311) are arranged on the horizontal plate (311), and an indication strip for aligning the cutting wheels (21) is arranged at the top of the vertical plate (312);

the driving device (4) is arranged at the bottom of the cutting table (1) and used for driving the bearing seat (31) to move towards the cutting wheel (21); the upper surface of the horizontal plate (311) is provided with a plurality of accommodating grooves (3110) for installing roller assemblies (32) in a linear manner, each roller assembly (32) comprises a rotating shaft (321) and at least one roller (322), two ends of each rotating shaft (321) are fixedly connected with the inner side walls of the accommodating grooves (3110), each roller (322) is sleeved on the corresponding rotating shaft (321), and each roller (322) can roll along the length direction of the horizontal plate (311); the positioning device (3) also comprises two groups of clamping components (34), the two groups of clamping components (34) are respectively arranged on the horizontal plates (311) at the two sides of the channel (30), the clamping component (34) comprises a screw rod (341), a pressing plate (342) and two guide rods (343), the two guide rods (343) are horizontally fixed on the side walls of the horizontal plate (311) on which the two sides of the sliding rail (12) are positioned, and are all parallel to the slide rail (12), the screw rod (341) is arranged between the two guide rods (343) in parallel, one end of the pressing plate is rotationally connected with the horizontal plate (311), the other end of the pressing plate is fixedly provided with an adjusting knob (344), the pressing plate (342) is vertically arranged on one side of the horizontal plate (311), and the pressing plate (342) is in threaded connection with the screw rod (341) and is in sliding connection with the guide rod (343).

2. The cutting mechanism for air-entraining laths as claimed in claim 1, wherein: the opposite surfaces of the compacting plate (342) and the vertical plate (312) are provided with anti-skid convex strips (3420).

3. The cutting mechanism for air-entraining laths as claimed in claim 1, wherein: still include lifting device (5), lifting device (5) are including ejecting subassembly (51) and push out subassembly (52), ejecting subassembly (51) set up in horizontal plate (311) bottom for lift the air entrainment slat on horizontal plate (311), push out subassembly (52) and set up at vertical board (312) lateral wall, be used for carrying out the level to the air entrainment slat on horizontal plate (311) and pass.

4. A cutting mechanism for air-entraining laths as defined in claim 3, wherein: the ejection assembly (51) is provided with four groups, every two groups of ejection assemblies are arranged at the bottoms of horizontal plates (311) on two sides of the channel (30), each ejection assembly (51) comprises a first air cylinder (511) and a top plate (512), a first movable hole (3111) is formed in each horizontal plate (311), each top plate (512) is arranged in each first movable hole (3111), and each first air cylinder (511) is fixed at the bottom of each horizontal plate (311) and used for driving each top plate (512) to move up and down along each first movable hole (3111).

5. The aerated slat cutting mechanism of claim 4, wherein: the push-out component (52) is provided with two groups, the push-out component (52) is arranged on the vertical plates (312) on two sides of the channel (30) respectively, the push-out component (52) comprises a second air cylinder (521), a push plate (522) and a supporting plate (523), the supporting plate (523) is horizontally fixed on the vertical plates (312), a second movable hole (3121) is formed in the vertical plates (312), the push plate (522) is arranged in the second movable hole (3121), and the second air cylinder (521) is horizontally fixed on the supporting plate (523) and used for driving the push plate (522) to horizontally move along the second movable hole (3121).

6. The cutting mechanism for air-entraining laths as claimed in claim 1, wherein: the bottom of the horizontal plate (311) is also provided with a sliding block (3113) connected with the sliding rail (12).

7. The cutting mechanism for air-entraining laths as claimed in claim 1, wherein: drive arrangement (4) are provided with two sets ofly, are located cutting bed (1) bottom at cutting wheel (21) both sides place respectively, drive arrangement (4) include third cylinder (41) and connecting plate (42), and cutting bed (1) is improved level and is provided with two second bar holes (14), and third cylinder (41) are fixed in cutting bed (1) bottom, and the piston rod is connected with connecting plate (42), and connecting plate (42) pass second bar hole (14) and with vertical board (312) fixed connection.

8. The cutting mechanism for air-entraining laths as claimed in claim 1, wherein: one end of the cutting table (1) far away from the cutting wheel (21) is obliquely and downwards provided with a discharging plate (13).