CN206614696U - A kind of many cutter shaft groovers of air-entrained concrete building block or sheet material - Google Patents
A kind of many cutter shaft groovers of air-entrained concrete building block or sheet material Download PDFInfo
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- CN206614696U CN206614696U CN201720299811.5U CN201720299811U CN206614696U CN 206614696 U CN206614696 U CN 206614696U CN 201720299811 U CN201720299811 U CN 201720299811U CN 206614696 U CN206614696 U CN 206614696U
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Abstract
The utility model discloses a kind of air-entrained concrete building block or many cutter shaft groovers of sheet material, including:Main frame body, the main frame body includes top frame, main plummer, under(-)chassis and multiple support columns;Main machining cell, the main machining cell includes upper mounted plate and bottom plate;Slotted unit, the slotted unit includes the multiple cutter shafts being arranged in the main machining cell, and the rotary cutter device includes cutter shaft, adjustment tool rest and cutterhead;Power unit, the power unit include motor, transmission device, power transmission shaft coupling and be fixed on the motor motor shaft lower end motor gear.The many cutter shaft groovers of air-entrained concrete building block or sheet material that the utility model is related to, air-entrained concrete building block or sheet material are steam-cured finished intensity after slotted, it is capable of the cutter shaft of quick-replaceable different size requirement, to produce the air-entrained concrete building block or sheet material of different size.
Description
Technical field
The utility model belongs to construction material manufacturing and processing equipment technical field, and in particular to a kind of air-entrained concrete building block
Or many cutter shaft groovers of sheet material.
Background technology
Architectural engineering often uses air-entrained concrete building block, sheet material as the materials for wall of building, but present construction technology
Need to slot in building block, present common practice is manually to be slotted at the construction field (site), low construction efficiency, and has dust pollution.
Fluting is also required to during other set aside pre-embedded hydroelectric line.Cut in addition, having at present in the idiosome stage or prefabricated technology is tasted
Examination, but because idiosome stage air-entrained concrete building block is high without enough intensity and viscosity, cause cutting surfaces coarse and
Deviation is unable to reach greatly construction reference requirement, and the air-entrained concrete building block of processing or sheet material inside can be caused to have crackle,
Influence quality;Some sheet materials need carry rabbet groove, be usually the air entrained concrete idiosome stage fluting, but finished surface compared with
Coarse or deviation is big.Therefore, it is badly in need of a kind of steam-cured finished now and air-entrained concrete building block and aerating coagulation is carried out after intensity
Slotted on native sheet material, and be capable of the air-entrained concrete building block or many cutter shafts of sheet material of the cutter shaft of quick-replaceable different size requirement and opened
Scouring machine.
The content of the invention
The utility model develops a kind of air-entrained concrete building block or many cutter shaft groovers of sheet material, solves set forth above
Technical problem.
The technological means that the utility model is used is as follows:A kind of many cutter shaft groovers of air-entrained concrete building block or sheet material, bag
Include:
Main frame body, the main frame body includes top frame, main plummer, under(-)chassis and multiple support columns, described in each
Support top end is fixedly connected with the top frame lower surface, and each described support column bottom is fixed with the under(-)chassis to be connected
Connect, the main plummer is fixed on the support column bottom;
Main machining cell, the main machining cell includes upper mounted plate and bottom plate, and fixed plate passes through upper company
Connection device is connected in the top frame, and the bottom plate is connected on the main plummer by lower connecting device;
Slotted unit, the slotted unit includes the multiple cutter shafts being arranged in the main machining cell and by adjusting knife
Seat is arranged at the cutterhead on the cutter shaft, and the cutter shaft upper end rotates with fixed plate and is connected, the cutter shaft lower end and institute
State bottom plate and rotate connection;
Power unit, the power unit includes motor, transmission device, power transmission shaft coupling and is fixed on the motor
Motor shaft lower end motor gear, the transmission device is rotationally connected with the main plummer bottom, the power transmission connection
It is rotationally connected with the middle part of axle device on the main plummer, the power transmission shaft coupling lower end is provided with shaft coupling driven gear, institute
State motor gear to be meshed with the transmission device, the transmission device is meshed with the shaft coupling driven gear;
The cutter shaft lower end is detachably connected through the bottom plate with the power transmission shaft coupling upper end.
Further, in the above-mentioned technical solutions, each described cutter shaft annular array is arranged at fixed plate and institute
State between bottom plate, the upper attachment means are upper rotating shaft, the lower connecting device is lower rotary shaft, and fixed plate passes through
The upper axis of rotation is connected in the top frame, and the bottom plate is rotationally connected with the master by the lower rotary shaft
On plummer.
Further, in the above-mentioned technical solutions, fixed plate and the bottom plate are that size identical is circular,
Annular array sets multiple upper U-type grooves on fixed edges of boards edge, and the cutter shaft upper end is arranged in the upper U-type groove, institute
State annular array on bottom plate edge and multiple lower U-type grooves are set, the cutter shaft lower end is arranged in the lower U-type groove.
Further, in the above-mentioned technical solutions, the cutter shaft upper end is connected by bearing chamber with fixed plate, institute
Stating bearing chamber includes bearing chamber enclosure, bearing chamber bottom plate, positioning bearing and cutter shaft upper end bearing, and cutter shaft upper end bearing is fixed
In the cutter shaft upper end, the bearing chamber enclosure is around the upper U-type groove and is removably connected on fixed plate, described
Bearing chamber bottom plate is removably connected to the fixed plate upper surface above the bearing chamber enclosure, the positioning bearing and institute
State cutter shaft upper end bearing to be meshed, the positioning bearing lower end is rotated with the bearing chamber enclosure to be connected and its upper end and the axle
Hold room bottom plate and rotate connection.
Further, in the above-mentioned technical solutions, under each described cutter shaft is uniformly arranged on fixed plate and is described
Between fixed plate, the upper attachment means are sliding way, and the lower connecting device is glide path, and fixed plate passes through described
Sliding way is slidably connected in the top frame, and the bottom plate is slidably connected to the main carrying by the glide path
On platform.
Further, in the above-mentioned technical solutions, the main frame body is provided with dust absorption passage, and the dust absorption passage is close to institute
State main frame body side and dust baffle plate is fixedly installed.
Further, in the above-mentioned technical solutions, the transmission device is arranged on the main plummer lower surface, described
Motor gear is meshed with the transmission device, and the transmission device is meshed with the shaft coupling driven gear, the transmission
Device is driving belt, driving chain or drive plate.
Further, in the above-mentioned technical solutions, in addition to turntable locking device, the turntable locking device includes fixing
Frame and it is articulated and connected in the latch segment of the fixed mount inside middle portion, the fixed mount bottom is fixed with the main plummer to be connected
Connect, the fixed mount both sides are fixedly connected with the support column.
Further, in the above-mentioned technical solutions, the latch segment is engaged with the lower U-type groove.
A kind of air-entrained concrete building block or cutting groove on sheet method, including the air-entrained concrete building block or many cutter shafts of sheet material are opened
Scouring machine, it is further comprising the steps of:
S1:The many cutter shaft groovers of air-entrained concrete building block or sheet material are arranged at building materials conveyer side or symmetrical
It is arranged at building materials conveyer both sides;
S2:The latch segment is rotated, the latch segment is taken out out of described lower U-type groove;Rotate or slide upper mounted plate
And bottom plate, it would be desirable to the cutter shaft of specification is transferred to slotting position, and cutter shaft lower end is fastened with power transmission shaft coupling upper end;
S3:Rotation lock block, the latch segment is sticked in the lower U-type groove of bottom plate;
S4:Air-entrained concrete building block or sheet material that steam-cured complete has intensity are directly transmitted or are carried to building materials conveyer
On;
S5:Start motor, the motor drives the cutter shaft to rotate by transmission device and power transmission shaft coupling, described
Cutter shaft band movable knife disc rotates, while starting dedusting fan;
S6:Air-entrained concrete building block or sheet material by the building materials conveyer, by the air-entrained concrete building block or
The many cutter shaft groovers of sheet material;
S7:Each described cutterhead cutting air-entrained concrete building block or sheet material, while dedusting fan will process the dust produced
Suctioned out from dust absorption passage;
S8:The building materials conveyer sends out the air-entrained concrete building block or sheet material of completion of processing backward;
S9:When needing not continue to air-entrained concrete building block or cutting groove on sheet, the mobile cutter shaft is avoided the building materials and passed
Send device;When needing to continue to air-entrained concrete building block or cutting groove on sheet, latch segment is taken out out of described lower U-type groove, rotated
Or fixed plate and the bottom plate are slided, another cutter shaft is connected with the power transmission shaft coupling, then
Repeated since S2 steps.
The beneficial effects of the utility model are:
(1) many cutter shaft groovers of a kind of air-entrained concrete building block or sheet material of the present utility model, steam-cured to have finished after intensity
Carry out in air-entrained concrete building block or cutting groove on sheet, the air-entrained concrete building block of processing or cutting groove on sheet position is accurate, surface light
It is sliding, uniform, and internal intact will not crack;
(2) many cutter shaft groovers of a kind of air-entrained concrete building block or sheet material of the present utility model, being capable of quick-replaceable difference
The cutter shaft and cutterhead of specification requirement, to produce the air-entrained concrete building block or sheet material with different size groove;
(3) a kind of many cutter shaft groovers of air-entrained concrete building block or sheet material of the present utility model, production efficiency is high, and each is same
The air-entrained concrete building block or sheet material flute profile for criticizing processing are consistent.
Brief description of the drawings
The utility model is described in further detail with reference to the accompanying drawings and detailed description.
Fig. 1 is air-entrained concrete building block described in the utility model embodiment 1 or many cutter shaft groover structural representations of sheet material;
Fig. 2 is main frame structure schematic diagram described in the utility model embodiment 1;
Fig. 3 is the fixed plate structure schematic diagram of the utility model embodiment 1;
Fig. 4 is that air-entrained concrete building block described in the utility model embodiment 1 or many cutter shaft groovers of sheet material are looked up structure and shown
It is intended to;
Fig. 5 is power transmission coupler structure schematic diagram described in the utility model embodiment 1;
Fig. 6 is main machining cell described in the utility model embodiment 2 and the slotted unit overlooking the structure diagram;
Fig. 7 is main machining cell described in the utility model embodiment 3 and the slotted unit overlooking the structure diagram;
Fig. 8 is that the described control unit of the utility model embodiment 4 is connected part structural representation;
Fig. 9 is air-entrained concrete building block described in the utility model embodiment 4 or many cutter shaft groover structural representations of sheet material;
Figure 10 is main machining cell described in the utility model embodiment 6 and the slotted unit overlooking the structure diagram;
Figure 11 is air-entrained concrete building block described in the utility model embodiment 8 or many cutter shaft groover structural representations of sheet material
Figure;
Figure 12 is air-entrained concrete building block described in the utility model embodiment 8 or many cutter shaft groover electric part knots of sheet material
Structure schematic diagram;
Figure 13 is air-entrained concrete building block described in the utility model embodiment 9 or many cutter shaft groover working condition knots of sheet material
Structure schematic diagram.
In figure:1st, main frame body, 2, main machining cell, 3, slotted unit, 4, power unit, 5, bearing chamber, 6, dust absorption passage,
7th, turntable locking device, 8, building materials conveyer, 9, servomotor, 10, glide base, 11, top frame, 12, main plummer,
13rd, under(-)chassis, 14, support column, 15, shaft coupling through hole, 16, rotating shaft through hole, 17, hold-down support, 18, roller, 21, upper fixation
Plate, 22, bottom plate, 23, upper attachment means, 24, lower connecting device, 25, upper U-type groove, 26, lower U-type groove, 27, perpendicular connecting plate,
31st, cutter shaft, 32, adjustment tool rest, 33, cutterhead, 41, motor, 42, transmission device, 43, power transmission shaft coupling, 44, motor tooth
Wheel, 45, shaft coupling driven gear, 51, bearing chamber enclosure, 52, bearing chamber bottom plate, 61, dust baffle plate, 62, dedusting fan, 53,
Position bearing, 54, cutter shaft upper end bearing, 71, fixed mount, 72, latch segment, 81, air-entrained concrete building block or sheet material, 100, positioning
Deviation correcting device, 101, correction pedestal, 102, correction pole, 103, correction sliding block, 104, correction clamping plate, 105, bar hole, 106,
Position sensor, 107, electric push rod, 108, be slidably connected rod.
Embodiment
Clear, complete description is carried out to the technical solution of the utility model with reference to the accompanying drawings and examples, in this reality
With in new description, it is necessary to explanation, term " " center ", " on ", " under ", "left", "right", " vertical ", " level ",
The orientation or position relationship of the instructions such as " interior ", " outer " are, based on orientation shown in the drawings or position relationship, to be for only for ease of and retouch
State the utility model and simplify and describe, rather than indicate or imply signified device or element must have specific orientation,
With specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.
Embodiment 1
As shown in Figures 1 to 5, many cutter shaft groovers of a kind of air-entrained concrete building block or sheet material, including:
Main frame body 1, the main frame body 1 includes top frame 11, main plummer 12, under(-)chassis 13 and multiple support columns
14, each described top of support column 14 is fixedly connected with the lower surface of top frame 11, each described bottom of support column 14 with
The under(-)chassis 13 is fixedly connected, and the main plummer 12 is fixed on the bottom of support column 14;
Main machining cell 2, the main machining cell 2 includes upper mounted plate 21 and bottom plate 22, fixed plate 21
It is connected to by upper attachment means 23 in the top frame 11, the bottom plate 22 is connected to institute by lower connecting device 24
State on main plummer 12;
Slotted unit 3, the slotted unit 3 includes the multiple cutter shafts 31 being arranged in the main machining cell 2 and passed through
Adjustment tool rest 32 is arranged at the cutterhead 33 on the cutter shaft 31, and the upper end of cutter shaft 31 rotates with fixed plate 21 and is connected,
The lower end of cutter shaft 31 rotates with the bottom plate 22 and is connected;
Power unit 4, the power unit 4 includes motor 41, transmission device 42, power transmission shaft coupling 43 and is fixed on
The motor gear 44 of the motor shaft lower end of the motor 41, the transmission device 42 is rotationally connected with the main plummer 12
Portion, the middle part of power transmission shaft coupling 43 is rotationally connected with the main plummer 12, under the power transmission shaft coupling 43
End is provided with shaft coupling driven gear 45, and the motor gear 44 is meshed with the transmission device 42, the transmission device 42 and
The shaft coupling driven gear 45 is meshed;
The lower end of cutter shaft 31 is detachably connected through the bottom plate 22 with the upper end of power transmission shaft coupling 43
Connect.
Further, in the above-mentioned technical solutions, each described annular array of cutter shaft 31 is arranged at fixed plate 21
Between the bottom plate 22, the upper attachment means 23 be upper rotating shaft, the lower connecting device 24 be lower rotary shaft, it is described on
Fixed plate 21 is connected in the top frame 11 by the upper axis of rotation, and the bottom plate 22 passes through the lower rotary shaft
It is rotationally connected with the main plummer 12.
Further, in the above-mentioned technical solutions, fixed plate 21 and the bottom plate 22 are size identical
Annular array sets multiple upper U-type grooves 25 on circle, the fixed edge of plate 21, and the upper end of cutter shaft 31 is arranged on described
In U-type groove 25, annular array sets multiple lower U-type grooves 26 on the edge of bottom plate 22, and the lower end of cutter shaft 31 is arranged at
In the lower U-type groove 26.
The cutter shaft 31 can be fixed in the upper U-type groove 25 and the lower U-type groove 26 and convenient replacing in time is described
Cutter shaft 31.
Further, in the above-mentioned technical solutions, the upper end of cutter shaft 31 is connected by bearing chamber 5 with fixed plate 21
Connect, the bearing chamber 5 includes bearing chamber enclosure 51, bearing chamber bottom plate 52, positioning bearing 53 and cutter shaft upper end bearing 54, the knife
Axle upper end bearing 54 is fixed on the upper end of cutter shaft 31, and the bearing chamber enclosure 51 is around the upper U-type groove 25 and detachably connects
Be connected on fixed plate 21, the bearing chamber bottom plate 52 be removably connected to the top of the bearing chamber enclosure 51 it is described on
The upper surface of fixed plate 21, the positioning bearing 53 is meshed with cutter shaft upper end bearing 54, it is described positioning the lower end of bearing 53 with
The bearing chamber enclosure 51 rotates connection and its upper end rotates with the bearing chamber bottom plate 52 and is connected.
Using above connected mode, the uniform force of the cutter shaft 31 can prevent from rocking, velocity-stabilization, cutting effect
It is good.
Further, in the above-mentioned technical solutions, the main frame body 1 is provided with dust absorption passage 6, and the dust absorption passage 6 is leaned on
Dust baffle plate 61 is fixedly installed in the nearly side of main frame body 1.
The dust baffle plate 61 and the dust absorption passage 6 in time can discharge dust, be easy to recycle, and can
The dust of the air-entrained concrete building block being processed or plate surface is suctioned out in time, dust accumulation is prevented, improves the light of finished surface
Slippery.
Further, in the above-mentioned technical solutions, the transmission device 42 is arranged on the lower surface of main plummer 12,
The motor gear 44 is meshed with the transmission device 42, and the transmission device 42 is mutually nibbled with the shaft coupling driven gear 45
Close, the transmission device 42 is driving chain.
Further, in the above-mentioned technical solutions, in addition to turntable locking device 7, the turntable locking device 7 includes solid
Determine frame 71 and be articulated and connected in the latch segment 72 of the inside middle portion of fixed mount 71, the bottom of fixed mount 71 and the main carrying
Platform 12 is fixedly connected, and the both sides of fixed mount 71 are fixedly connected with the support column 14.
Further, in the above-mentioned technical solutions, the latch segment 72 is engaged with the lower U-type groove 26.
The turntable locking device 7 can fix the position of the main machining cell 2 so that processing is stable, prevent described
Main machining cell 2 is slided, and prevents equipment damage, the operator kept the scene intact.
Further, the adjustment tool rest 7 is detachably connected with the cutter shaft 31.
The position of the adjustment tool rest 7 can be fixed on optional position on the cutter shaft 31 so that the energy of cutterhead 33
The optional position being enough fixed on the cutter shaft 31, to adapt to the fluting requirement of more specifications.
It is preferred that, the size of each cutterhead 33 on the same cutter shaft 31 is identical.
It is preferred that, the top frame 11 and the under(-)chassis 13 are size shape identical triangle, the top
Three summits of framework 11 and the under(-)chassis 13 are fixedly connected with the support column 14 respectively, and the main plummer 12 is four
Side shape, wherein three summits of the main plummer 12 are fixedly connected and its another vertex position with the support column 14 respectively
Provided with the shaft coupling through hole 15 passed through for the power transmission shaft coupling 43, the main center of plummer 12 be provided with it is described under
The rotating shaft through hole 16 of axis of rotation connection.
Using this structure, the top frame 11 and the under(-)chassis 13 are that triangle enables to overall structure to consolidate
Consistency, and a vertex position of the main plummer 12 sets the power transmission shaft coupling 43 that the fluting is single
Member 3, which is protruded, avoids other parts from being collided with processed air-entrained concrete building block or sheet material, and is rotating the main work sheet
During member 2, the cutterhead 33 and processed air-entrained concrete building block or sheet material that can avoid off working state are cut, and are protected
The cutterhead 33 that card only has working condition is slotted to air-entrained concrete building block or sheet material.
It is preferred that, in addition to perpendicular connecting plate 27, the perpendicular connecting plate upper and lower ends respectively with fixed plate 21 and institute
Bottom plate 22 is stated to be fixedly connected.
The perpendicular connecting plate 27 can improve stability when intensity and the rotation of the main machining cell 2.
It is preferred that, the lower end of cutter shaft 31 is mutually clamped with the upper end of power transmission shaft coupling 43 and is connected.
It is preferred that, power of motor is 3kw.
It is preferred that, the upper U-type groove 25, the lower U-type groove 26 and the cutter shaft 31 are six.
It is preferred that, a diameter of 150mm of the cutter shaft 31.
It is preferred that, a diameter of 1000mm of fixed plate 21 and the bottom plate 22.
It is preferred that, the quantity of the cutterhead 33 on each described cutter shaft 31 is respectively 2 to 30, each described cutterhead 33
Diameter be respectively 80 to 400mm, cutter tooth is uniformly arranged on each described cutterhead 33, the quantity of the cutter tooth is respectively 2 to 120
It is individual, the cutter tooth size and shape according to it is different require set, the cutter tooth be shaped as circular arc, it is square or irregular different
Type, it is described special-shaped including the irregular shape such as scalene triangle, the polygon of outwardly convex or the polygon concaved.
It is preferred that, the lower surface of under(-)chassis 13 is respectively equipped with hold-down support with the lower section correspondence position of support column 14
17。
It is preferred that, the upper end of power transmission shaft coupling 43 is provided with shaft coupling connecting groove 46, and the lower end of cutter shaft 31 is set
There is cutter shaft connection bump 34, the shaft coupling connecting groove 46 cooperates with the cutter shaft connection bump 34.
Embodiment 2
As shown in fig. 6, the present embodiment and the difference of embodiment 1 are, the motor 41 and the main plummer 12
Side is fixedly connected.
It is preferred that, the transmission device 42 is driving belt.
It is preferred that, the lower end of cutter shaft 31 is connected with the upper end of power transmission shaft coupling 43 each other by gear.
It is preferred that, the power of motor 41 is 1kw.
It is preferred that, the upper U-type groove 25, the lower U-type groove 26 and the cutter shaft 31 are all three.
It is preferred that, fixed plate 21 and the bottom plate 22 are bar shaped.
Further, in the above-mentioned technical solutions, each described cutter shaft 31 is uniformly arranged on fixed plate 21 and institute
State between bottom plate 22, the upper attachment means 23 are the sliding way for being arranged at the lower surface of top frame 11, it is described under
Attachment means 24 are the glide path being arranged on the upper surface of under(-)chassis 13, and fixed plate 21 passes through the sliding way
It is slidably connected in the top frame 11, the bottom plate 22 is slidably connected to the main plummer by the glide path
On 12.
Using the fixed plate 21 and the bottom plate 22 of bar shaped, multiple cutter shafts are arranged at straight line
On, the cutterhead 33 on each different described cutter shaft 31 is arranged at identical height, can be in air-entrained concrete building block or sheet material
Same position slotted, grooved surface is smooth;The cutterhead 33 of same size on each different described cutter shaft 31 is wrong
Position is arranged at different height, and air-entrained concrete building block or plate surface can be slotted respectively, improves fluting speed;Each
The cutterhead 33 of different size on the different cutter shafts 31 is shifted to install in different height, can be respectively to air entrained concrete
Building block or plate surface carry out the fluting of different size, and production surface has the air-entrained concrete building block or plate of different size groove
Material.
It is preferred that, using the fixed plate 21 and the bottom plate 22 of bar shaped, multiple cutter shafts are arranged at one
On bar straight line, each different described cutter shaft 31 individually can enter slotting position by forward slip.
It is preferred that, a width of 300mm, a length of 2000mm of fixed plate 21 and the bottom plate 22.
It is preferred that, a diameter of 100mm of the cutter shaft 31.
Embodiment 3
As shown in fig. 7, the present embodiment and the difference of embodiment 1 are, the transmission device 42 is drive plate, described
Drive plate is rotationally connected with the lower surface of main plummer 12 and its edge is provided with grinding tooth.
Using drive plate can stable drive, service life is long.
It is preferred that, the power of motor 41 is 5kw.
It is preferred that, the upper U-type groove 25, the lower U-type groove 26 and the cutter shaft 31 are five.
It is preferred that, fixed plate 21 and the bottom plate 22 are pentagon.
It is preferred that, the length of side of fixed plate 21 and the bottom plate 22 is 3000mm.
It is preferred that, a diameter of 75mm of the cutter shaft 31.
Embodiment 4
As shown in Figure 8 and Figure 9, the present embodiment and the difference of embodiment 1 are, in addition to dedusting fan 62, described
Dedusting fan 62 is connected by pipeline with the dust absorption passage 1.
It is preferred that, in addition to servomotor 9, the servomotor 9 is fixed in the top frame 11, the servo electricity
The motor shaft of machine 9 is fixedly connected through top frame 11 with the upper attachment means 23.
The servomotor 9 can control the rotation of fixed plate 21 and the bottom plate 22, and then to described
Cutter shaft 31 is positioned, and when being not required to fluting, the servomotor 9 drives fixed plate 21 and the bottom plate
22 rotate, and the cutter shaft 31 can be departed from into air-entrained concrete building block or air entrained concrete sheet material.
It is preferred that, in addition to glide base 10, the main frame body 1 is slidably connected on the glide base 10.
It is preferred that, the under(-)chassis 13 is slidably connected by multiple rollers 18 with the glide base 10.
It is preferred that, in addition to controllable sliding device 91, described one end of controllable sliding device 91 is consolidated with the glide base 10
Connect calmly and its other end is fixedly connected with the under(-)chassis 13.
It is preferred that, the controllable sliding device 91 is hydraulic cylinder.
It is preferred that, the glide base 10 is L-shaped, the lug boss of the controllable sliding device 91 and the glide base 10
Split-phase is connected.
It is preferred that, in addition to control unit 92, described control unit 92 respectively with the servomotor 9, described controllable push away
Drawing device 91 and power supply 93 are electrically connected.
It is preferred that, described control unit 92 is button or single-chip microcomputer.
Using above structure, the rotation of fixed plate 21 and the bottom plate 22 can be automatically controlled and described
The position of main frame body 1, saves manpower, prevents personnel and equipment damage, improves processing efficiency.
It is preferred that, the power of motor 41 is 15kw.
It is preferred that, the upper U-type groove 25, the lower U-type groove 26 and the cutter shaft 31 are 20.
It is preferred that, fixed plate 21 and the bottom plate 22 are polygon.
It is preferred that, fixed plate 21 and the bottom plate 22 are icosagon.
It is preferred that, the length of side of fixed plate 21 and the bottom plate 22 is 500mm.
It is preferred that, a diameter of 25mm of the cutter shaft 31.
Embodiment 5
The present embodiment and the difference of embodiment 1 are that the power unit 4 is arranged at the top of main frame body 1, institute
State motor 41, the transmission device 42, the power transmission shaft coupling 43 and be arranged at the upper surface of top frame 11.
It is preferred that, the support column 14 is 4 to 8.
Embodiment 6
As shown in Figure 10, the present embodiment and the difference of embodiment 1 are, fixed plate 21 is fixed for lattice
Plate, fixed plate 21 includes center ring 211, annular array and is fixed on the outer peripheral and of fix bar 212 of the center ring 211
The connection ring 213 of the end of fix bar 212 is rotationally connected with, the cutter shaft 31 is rotated with the connection ring 213 and is connected.
The bottom plate 22 is identical with the fixed structure of plate 21.
Embodiment 7
The present embodiment and the difference of embodiment 1 are, in addition to positioning rectification device 100, the positioning and rectifying dress
Putting 100 includes correction pedestal 101, correction pole 102, correction sliding block 103 and correction clamping plate 104, and the correction pole 102 is fixed
Correction pedestal 101 two ends are connected to, the correction sliding block 103 on the correction pole 102 with being slidably connected, the correction
The correction clamping plate 104 is fixedly installed in the inner side of sliding block 103.
It is preferred that, the air-entrained concrete building block or sheet material that the positioning rectification device 100 is arranged at the main frame body 1 enter
Side.
Embodiment 8
As is illustrated by figs. 11 and 12, the present embodiment and the difference of embodiment 7 are, are set on the correction sliding block 103
There are multiple bar holes 105, correction pole 102 upper end is provided with multiple outstanding rods 108 that are slidably connected, the company of slip
Take over the baton and 108 be slidably connected with the bar hole 105.
It is preferred that, the correction pole 102 is provided with position sensor 106, the position sensor 106 and control unit
92 electrical connections.
It is preferred that, the correction clamping plate 104 is vertical flat board.
It is preferred that, in addition to electric push rod 107, the electric push rod 107 is arranged at correction pole 102 upper end
Inside, the outer end of the electric push rod 107 is stretched out the correction pole 102 and is fixedly connected with the correction sliding block 103, described
Electric push rod 107 is electrically connected with described control unit 92.
It is preferred that, described control unit 92 includes single-chip microcomputer.
It is preferred that, in addition to building materials conveyer 8, the main frame body 1 and the positioning rectification device 100 are set successively respectively
It is placed in the both sides of building materials conveyer 8.
Position sensor 106 described in working condition senses air-entrained concrete building block or sheet material 81 produces induced signal and passed
Transport to control unit 92;Described control unit 92 promotes enabling signal to electric push rod 107, the electric push rod 107
Correction clamping plate 104 is clamped positioning from both sides and rectified a deviation to air-entrained concrete building block or sheet material 81 simultaneously;The electric push-and-pull
Bar 107 pull the correction clamping plate 104 depart from air-entrained concrete building block or sheet material 81 simultaneously the electric push rod 107 to described
Control unit 92 sends separating signal;Described control unit 92 is received after separating signal, respectively to motor 41 and dedusting fan
62 send run signal;The motor 41 is received to be started after run signal, and the motor 41 passes through transmission device 42 and power
Transmission coupling 43 drives the cutter shaft 31 to rotate, and the cutter shaft 31 rotates with movable knife disc 33, while dedusting fan 62 is received
Start after run signal;When described control unit 92 does not detect the signal of the position sensor 106 in preset time,
Respectively stop signal, the motor 41, institute are sent to the motor 41, the electric push rod 107 and the dedusting fan 62
State electric push rod 107 and the dedusting fan 62 shuts down.
Embodiment 9
As shown in figure 13, a kind of air-entrained concrete building block or cutting groove on sheet method, including the air-entrained concrete building block or
The many cutter shaft groovers of sheet material, it is further comprising the steps of:
S1:The many cutter shaft groovers of air-entrained concrete building block or sheet material are arranged at the side of building materials conveyer 8;
S2:The latch segment 72 is rotated, the latch segment 72 is taken out out of described lower U-type groove 26;On rotating or sliding
Fixed plate 21 and bottom plate 22, it would be desirable to which the cutter shaft 31 of specification is transferred to slotting position, the lower end of cutter shaft 31 and power transmission are joined
The upper end of axle device 43 fastens;
S3:Rotation lock block 72, the latch segment 72 is sticked in the lower U-type groove 26 of bottom plate 22;
S4:Air-entrained concrete building block or sheet material 81 that steam-cured complete has intensity are directly transmitted or are carried to building materials transmission
On device 8;
S5:Start motor 41, the motor 41 drives the cutter shaft by transmission device 42 and power transmission shaft coupling 43
31 rotations, the cutter shaft 31 rotates with movable knife disc 33, while starting dedusting fan 62;
S6:Air-entrained concrete building block or sheet material 81 are by the building materials conveyer 8, by the air-entrained concrete building block
Or many cutter shaft groovers of sheet material;
S7:Each described the cutting air-entrained concrete building block of cutterhead 31 or sheet material 81, are produced while dedusting fan 62 will be processed
Dust suctioned out from dust absorption passage 6;
S8:The building materials conveyer 8 sends out the air-entrained concrete building block of completion of processing or sheet material 81 backward;
S9:When needing not continue to air-entrained concrete building block or the fluting of sheet material 81, the mobile cutter shaft 31 avoids described build
Material conveyer 8;When needing to continue to slot to air-entrained concrete building block or sheet material 81, by latch segment 72 from the lower U-type groove 26
It is interior to take out, fixed plate 21 and the bottom plate 22 are rotated or slided, makes another cutter shaft 31 and the power transmission
Shaft coupling 43 is connected, and is then repeated since S2 steps.
Embodiment 10
A kind of air-entrained concrete building block or cutting groove on sheet method, including the air-entrained concrete building block or many cutter shafts of sheet material are opened
Scouring machine, it is further comprising the steps of:
S1:The many cutter shaft groovers of air-entrained concrete building block or sheet material and positioning rectification device 100 are set gradually respectively
In the both sides of building materials conveyer 8, two many cutter shaft groovers of air-entrained concrete building block or sheet material are built relative to described
Material conveyer 8 is symmetrical arranged;
S2:The latch segment 72 is rotated, the latch segment 72 is taken out out of described lower U-type groove 26;On rotating or sliding
Fixed plate 21 and bottom plate 22, it would be desirable to which the cutter shaft 31 of specification is transferred to slotting position, the lower end of cutter shaft 31 and power transmission are joined
The upper end of axle device 43 fastens;
S3:Rotation lock block 72, the latch segment 72 is sticked in the lower U-type groove 26 of bottom plate 22;
S4:Air-entrained concrete building block or sheet material 81 that steam-cured complete has intensity are directly transmitted or are carried to building materials transmission
On device 8;
S5:Position sensor 106 senses air-entrained concrete building block or sheet material 81 produces induced signal and transmitted to control
Unit 92;
S6:Control unit 92 is by enabling signal to electric push rod 107, and the electric push rod 107 promotes correction clamping plate
104 are clamped positioning from both sides and rectify a deviation to air-entrained concrete building block or sheet material 81 simultaneously;
S7:The electric push rod 107 pulls the correction clamping plate 104 to depart from air-entrained concrete building block or sheet material 81 simultaneously
The electric push rod 107 sends separating signal to described control unit 92;
S8:Described control unit 92 is received after separating signal, sends operation letter to motor 41 and dedusting fan 62 respectively
Number;
S9:Start motor 41, the motor 41 drives the cutter shaft by transmission device 42 and power transmission shaft coupling 43
31 rotations, the cutter shaft 31 rotates with movable knife disc 33, while starting dedusting fan 62;
S10:Air-entrained concrete building block or sheet material 81 are by the building materials conveyer 8, by two aerating coagulations
Between earth building blocks or many cutter shaft groovers of sheet material;
S11:Each described the cutting air-entrained concrete building block of cutterhead 31 or sheet material 81, are produced while dedusting fan 62 will be processed
Dust suctioned out from dust absorption passage 6;
S12:The building materials conveyer 8 sends out the air-entrained concrete building block of completion of processing or sheet material 81 backward;
S13:When needing not continue to air-entrained concrete building block or the fluting of sheet material 81, the mobile cutter shaft 31 avoids described build
Material conveyer 8;When needing to continue to slot to air-entrained concrete building block or sheet material 81, by latch segment 72 from the lower U-type groove 26
It is interior to take out, fixed plate 21 and the bottom plate 22 are rotated or slided, makes another cutter shaft 31 and the power transmission
Shaft coupling 43 is connected, and is then repeated since S2 steps;
S14:When described control unit 92 does not detect the signal of the position sensor 106 in preset time, point
Stop signal is not sent to the motor 41, the electric push rod 107 and the dedusting fan 62, it is the motor 41, described
Electric push rod 107 and the dedusting fan 62 shut down.
Carry out after intensity slotting on air-entrained concrete building block and air entrained concrete sheet material in steam-cured finished, processing
Air-entrained concrete building block or cutting groove on sheet position are accurate, surface is smooth, uniform, and internal intact will not crack.
By adopting the above-described technical solution, many cutter shaft flutings of air-entrained concrete building block or sheet material that the utility model is related to
Machine, steam-cured finished is carried out after intensity in air-entrained concrete building block or cutting groove on sheet, the air-entrained concrete building block or sheet material of processing
Slotting position is accurate, surface is smooth, uniform, and it is internal it is intact will not crack, being capable of the requirement of quick-replaceable different size
Cutter shaft, to produce the air-entrained concrete building block or sheet material of different size groove, production efficiency is high, and each is mixed with batch aerating of processing
Solidifying earth building blocks or sheet material flute profile are consistent.The utility model is applied to construction material manufacturing and processing equipment technical field, with wide
Application prospect.
It is described above, only the utility model preferably embodiment, but protection domain of the present utility model is not
This is confined to, any one skilled in the art is in the technical scope that the utility model is disclosed, according to this practicality
New technical scheme and its utility model design are subject to equivalent substitution or change, should all cover in protection model of the present utility model
Within enclosing.
Claims (9)
1. a kind of air-entrained concrete building block or many cutter shaft groovers of sheet material, it is characterised in that including:
Main frame body, the main frame body includes top frame, main plummer, under(-)chassis and multiple support columns, each described support
Top end is fixedly connected with the top frame lower surface, and each described support column bottom is fixedly connected with the under(-)chassis,
The main plummer is fixed on the support column bottom;
Main machining cell, the main machining cell includes upper mounted plate and bottom plate, and fixed plate is filled by upper connection
Put and be connected in the top frame, the bottom plate is connected on the main plummer by lower connecting device;
Slotted unit, the slotted unit includes the multiple cutter shafts being arranged in the main machining cell and set by adjusting tool rest
The cutterhead being placed on the cutter shaft, the cutter shaft upper end and fixed plate are rotated and be connecteds, the cutter shaft lower end and it is described under
Fixed plate rotates connection;
Power unit, the power unit includes motor, transmission device, power transmission shaft coupling and the electricity for being fixed on the motor
The motor gear of arbor lower end, the transmission device is rotationally connected with the main plummer bottom, the power transmission shaft coupling
Middle part is rotationally connected with the main plummer, and the power transmission shaft coupling lower end is provided with shaft coupling driven gear, the electricity
Machine gear is meshed with the transmission device, and the transmission device is meshed with the shaft coupling driven gear;
The cutter shaft lower end is detachably connected through the bottom plate with the power transmission shaft coupling upper end.
2. air-entrained concrete building block according to claim 1 or many cutter shaft groovers of sheet material, it is characterised in that:Described in each
Cutter shaft annular array is arranged between fixed plate and the bottom plate, and the upper attachment means are upper rotating shaft, described
Lower connecting device is lower rotary shaft, and fixed plate is connected in the top frame by the upper axis of rotation, it is described under
Fixed plate is rotationally connected with the main plummer by the lower rotary shaft.
3. air-entrained concrete building block according to claim 2 or many cutter shaft groovers of sheet material, it is characterised in that:It is described solid
Fixed board and the bottom plate are that size identical is circular, and annular array sets multiple upper U-type grooves on fixed edges of boards edge,
The cutter shaft upper end is arranged in the upper U-type groove, and annular array sets multiple lower U-type grooves, institute on the bottom plate edge
Cutter shaft lower end is stated to be arranged in the lower U-type groove.
4. air-entrained concrete building block according to claim 3 or many cutter shaft groovers of sheet material, it is characterised in that:The cutter shaft
Upper end is connected by bearing chamber with fixed plate, and the bearing chamber includes bearing chamber enclosure, bearing chamber bottom plate, positioning bearing
With cutter shaft upper end bearing, cutter shaft upper end bearing is fixed on the cutter shaft upper end, and the bearing chamber enclosure is around described U-shaped
Groove and it is removably connected on fixed plate, the bearing chamber bottom plate is removably connected to above the bearing chamber enclosure
Fixed plate upper surface, the positioning bearing is meshed with cutter shaft upper end bearing, the positioning bearing lower end and institute
State bearing chamber enclosure rotation connection and its upper end rotates with the bearing chamber bottom plate and is connected.
5. air-entrained concrete building block according to claim 1 or many cutter shaft groovers of sheet material, it is characterised in that:Described in each
Cutter shaft is uniformly arranged between fixed plate and the bottom plate, and the upper attachment means are sliding way, the lower company
Tipping is set to glide path, and fixed plate is slidably connected in the top frame by the sliding way, the lower fixation
Plate is slidably connected on the main plummer by the glide path.
6. air-entrained concrete building block according to claim 1 or many cutter shaft groovers of sheet material, it is characterised in that:The body frame
Body is provided with dust absorption passage, and dust baffle plate is fixedly installed close to the main frame body side in the dust absorption passage.
7. air-entrained concrete building block according to claim 1 or many cutter shaft groovers of sheet material, it is characterised in that:The transmission
Device is arranged on the main plummer lower surface, and the motor gear is meshed with the transmission device, the transmission device
It is meshed with the shaft coupling driven gear, the transmission device is driving belt, driving chain or drive plate.
8. air-entrained concrete building block according to claim 1 or many cutter shaft groovers of sheet material, it is characterised in that:Also include turning
Disk locking device, the turntable locking device includes fixed mount and is articulated and connected in the latch segment of the fixed mount inside middle portion,
The fixed mount bottom is fixedly connected with the main plummer, and the fixed mount both sides are fixedly connected with the support column.
9. many cutter shaft groovers of air-entrained concrete building block or sheet material according to claim 3 or 8, it is characterised in that:It is described
Latch segment is engaged with the lower U-type groove.
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CN201720299811.5U CN206614696U (en) | 2017-03-25 | 2017-03-25 | A kind of many cutter shaft groovers of air-entrained concrete building block or sheet material |
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CN201720299811.5U CN206614696U (en) | 2017-03-25 | 2017-03-25 | A kind of many cutter shaft groovers of air-entrained concrete building block or sheet material |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106827256A (en) * | 2017-03-25 | 2017-06-13 | 大连唐家现代建材有限公司 | A kind of air-entrained concrete building block or many cutter shaft groovers of sheet material and its grooving method |
CN109435078A (en) * | 2018-11-16 | 2019-03-08 | 中建四局第六建筑工程有限公司 | A kind of high-precision concrete segment tension rib grooving tool |
CN111976031A (en) * | 2020-09-16 | 2020-11-24 | 河南兴安新型建筑材料有限公司 | Equipment and method for slotting tie bar groove of aerated block blank |
CN114888975A (en) * | 2022-05-06 | 2022-08-12 | 东岳机械股份有限公司 | Automatic rotating tool changing device for cutter set of aerated concrete plate |
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2017
- 2017-03-25 CN CN201720299811.5U patent/CN206614696U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106827256A (en) * | 2017-03-25 | 2017-06-13 | 大连唐家现代建材有限公司 | A kind of air-entrained concrete building block or many cutter shaft groovers of sheet material and its grooving method |
CN106827256B (en) * | 2017-03-25 | 2019-11-05 | 大连唐家现代建材有限公司 | A kind of air-entrained concrete building block or plate multitool axis groover |
CN109435078A (en) * | 2018-11-16 | 2019-03-08 | 中建四局第六建筑工程有限公司 | A kind of high-precision concrete segment tension rib grooving tool |
CN111976031A (en) * | 2020-09-16 | 2020-11-24 | 河南兴安新型建筑材料有限公司 | Equipment and method for slotting tie bar groove of aerated block blank |
CN114888975A (en) * | 2022-05-06 | 2022-08-12 | 东岳机械股份有限公司 | Automatic rotating tool changing device for cutter set of aerated concrete plate |
CN114888975B (en) * | 2022-05-06 | 2024-05-10 | 东岳机械股份有限公司 | Automatic rotary cutter changing device for aerated concrete plate cutter set |
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