CN108789814A - A kind of building dirt discharge groove cement baffle automatic maker - Google Patents
A kind of building dirt discharge groove cement baffle automatic maker Download PDFInfo
- Publication number
- CN108789814A CN108789814A CN201810646836.7A CN201810646836A CN108789814A CN 108789814 A CN108789814 A CN 108789814A CN 201810646836 A CN201810646836 A CN 201810646836A CN 108789814 A CN108789814 A CN 108789814A
- Authority
- CN
- China
- Prior art keywords
- sliding
- slot
- setting
- shaft
- delivery chute
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 239000004568 cement Substances 0.000 title claims abstract description 62
- 125000006850 spacer group Chemical group 0.000 claims abstract description 87
- 244000309464 bull Species 0.000 claims description 13
- 230000006835 compression Effects 0.000 claims description 12
- 238000007906 compression Methods 0.000 claims description 12
- 238000003756 stirring Methods 0.000 claims description 4
- 229910000831 Steel Inorganic materials 0.000 claims description 2
- 210000003205 muscle Anatomy 0.000 claims description 2
- 239000010959 steel Substances 0.000 claims description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 2
- 239000000203 mixture Substances 0.000 claims 1
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims 1
- 238000005192 partition Methods 0.000 description 26
- 238000004519 manufacturing process Methods 0.000 description 17
- 238000010586 diagram Methods 0.000 description 8
- 230000003014 reinforcing effect Effects 0.000 description 6
- 238000000465 moulding Methods 0.000 description 4
- 230000001360 synchronised effect Effects 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000003032 molecular docking Methods 0.000 description 1
- 239000010865 sewage Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B23/00—Arrangements specially adapted for the production of shaped articles with elements wholly or partly embedded in the moulding material; Production of reinforced objects
- B28B23/02—Arrangements specially adapted for the production of shaped articles with elements wholly or partly embedded in the moulding material; Production of reinforced objects wherein the elements are reinforcing members
Landscapes
- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Chemical & Material Sciences (AREA)
- Ceramic Engineering (AREA)
- Mechanical Engineering (AREA)
- Devices For Post-Treatments, Processing, Supply, Discharge, And Other Processes (AREA)
- Press-Shaping Or Shaping Using Conveyers (AREA)
- Preparation Of Clay, And Manufacture Of Mixtures Containing Clay Or Cement (AREA)
Abstract
The invention discloses a kind of building dirt discharge groove cement baffle automatic makers,Including there are one firm bankings,There are one bodies for setting on the firm banking,There are one making sheet slots for setting in the body,The first delivery chute corresponding with the making sheet slot and the second delivery chute are additionally provided on the body,It is respectively arranged with spacer bar in first delivery chute and second delivery chute,There are one the first sliding grooves of connection corresponding with first delivery chute for setting in the body,There are one the second sliding slots of connection corresponding with second delivery chute for setting in the body,The push strut slided there are one being respectively set in the first sliding groove and the second sliding slot,The sliding of the push strut synchronization and respectively spacer bar described in top pressure,The sliding of the spacer bar can be further pushed by the sliding of the push strut,So as to which spacer bar is pushed into making sheet slot,So as to avoid the increase of workload caused by artificial setting spacer bar.
Description
Technical field
The present invention relates to a kind of building building cement diaphragm manufacture equipment, and in particular to a kind of building dirt discharge groove cement baffle is automatic
Manufacturing machine more particularly to a kind of building dirt discharge groove cement baffle that automated manufacturing can be carried out to cement baffle manufacture automatically
Machine.
Background technology
With the continuous development of urban environment, the constantly improve of urban infrastructure is further promoted, wherein existing
Urban construction in, dirt discharge groove is a kind of one of common sewage disposal facility, and dirt discharge groove is built in the both sides of road mostly,
Rainwater so as to will accumulate on road is drained, to avoid the problem that urban waterlogging occurs, wherein in dirt discharge groove
Top can all be arranged there are one partition board, so as to further ensure to rainwater to trickle to dirt discharge groove by partition board
It is interior, while pedestrian can be avoided to drop into dirt discharge groove again, wherein all passing through mostly during present diaphragm manufacture
It is artificial to complete, wherein in the manufacturing process for carrying out partition board need that reinforcing bar is arranged in partition board, so as to further increase
Add the load bearing stength of partition board, although using the manufacture that can manually complete to partition board, due to being arranged by artificial mode
Reinforcing bar can lead to the increase of workload, simultaneously because reinforcing bar is arranged since the position offset of setting will be led by artificial mode
The reduction of partition board load bearing stength is caused, to further result in the major defect of the workmanship of partition board.
Thus, it is necessary to design a kind of building dirt discharge groove cement baffle automatic maker, to solve the above technical problems.
Invention content
The object of the present invention is to overcome the problems of the prior art, and it is automatic to provide a kind of building dirt discharge groove cement baffle
Manufacturing machine can carry out storage spacer bar by first delivery chute and second delivery chute, can be by described defeated
It send the rotation of runner further can carry out conveying control to spacer bar, and the sliding energy of the push strut can be passed through
Enough slidings for further controlling the spacer bar, so as to which spacer bar is further pushed to the making sheet slot
It is interior, can forming tank further can be connected to the spacer bar for intersecting and being correspondingly arranged by the sliding of the crushing block
On, and can be filled into the forming tank using cement, so as to which further spacer bar is wrapped up into cement,
So as to further achieving the purpose that manufacture partition board, avoid tilted using spacer bar caused by artificial manufacture partition board and
The problem of caused diaphragm strength reduces.
The invention is realized by the following technical scheme:
A kind of building dirt discharge groove cement baffle automatic maker, including there are one firm banking, be provided on the firm banking
One body, in the body setting be additionally provided with and the making sheet on the body there are one the making sheet slot for the setting that is square
Corresponding first delivery chute of slot and the second delivery chute, first delivery chute are respectively arranged with multiple with second delivery chute
And be arranged side by side, and it is separately positioned on the side of the making sheet slot, first delivery chute and difference in second delivery chute
It is provided with the spacer bar for accumulating setting side by side, there are one connections corresponding with first delivery chute for the interior setting of the body
The first sliding groove, there are one the second sliding slots of connection corresponding with second delivery chute, described first to slide for the interior setting of the body
Conveying groove corresponding with first delivery chute and second delivery chute is respectively arranged in slot and the second sliding slot,
The first sliding groove and the second sliding slot cross-shaped setting are respectively arranged in the first sliding groove and the second sliding slot
The push strut of one sliding, the sliding of two push strut synchronizations and respectively spacer bar described in top pressure, the making sheet slot
Side is respectively arranged with support slot corresponding with the spacer bar.It can be defeated by first delivery chute and described second
It send slot to carry out storage spacer bar, the cunning of the spacer bar can be further pushed by the sliding of the push strut
It is dynamic, so as to further be pushed in the making sheet slot, and spacer bar can be propped up by the support slot
Support, so as to further avoid the increase using workload caused by artificial setting cement.
First delivery chute is respectively set with the both sides of second delivery chute and clamps the defeated of rotation there are two corresponding
Send runner, two corresponding clampings rotations of conveying runner convey the spacer bars, first delivery chute and described the
The side of two delivery chutes is respectively set there are one the 5th shaft rotated in the body, and the 5th shaft drives institute respectively
Conveying runner rotation is stated, is respectively set in the 5th shaft there are one runner is controlled, the sliding of the push strut controls respectively
The rotation of the control runner.Turning for the conveying runner can be further driven by the sliding of the push strut
It is dynamic, so as to further control the sliding of the spacer bar, spacer bar is automatically controlled so as to realize
System.
The third sliding slot there are one connection corresponding with the making sheet slot is also set up in the body, in the third sliding slot
Be arranged there are one the crushing block slided, in the crushing block setting be additionally provided on the crushing block and institute there are one cement chamber
State the forming tank of the corresponding connection of cement chamber, the forming tank is corresponding with the spacer bar that is correspondingly arranged is intersected, the body
On also set up that there are one the first rotating shafts for controlling crushing block sliding.It can be into one by the rotation of the first rotating shaft
The sliding of the drive crushing block of step, so as to further using forming tank with intersect the spacer bar being correspondingly arranged into
The corresponding clamping of row so as to which spacer bar to be connected in the forming tank, and can carry out cement to forming tank
It is canned, so as to further achieve the purpose that manufacture partition board, spacer bar caused by avoiding artificial manufacture partition board is inclined
The problem of bearing capacity declines caused by shifting, the further workmanship ensured to partition board.
There are one the 6th sliding slot of connection corresponding with the making sheet slot, the 6th sliding slots for setting on the firm banking
Interior setting there are one the support slipper slided, on the support slipper setting there are one slide plate corresponding with the making sheet slot,
The quadrangle of the support slipper is respectively set that there are one the first top pressure blocks slided, and there are one controls for setting on the support slipper
First bull stick of the first top pressure block sliding.Described can be further controlled by the rotation of first bull stick
The sliding of one top pressure block, so as to further control the sliding of the support slipper, so as to further by slide plate
In top pressure to the making sheet slot, so as to be further supported to the cement baffle being manufactured using slide plate, to
Conveniently take.
Further, the both sides of the first sliding groove and the second sliding slot respectively include that there are one be arranged in the body
On the 7th sliding slot, the both sides of the first sliding groove are respectively set that there are one the first spiral shells rotated in the 7th sliding slot
Line shaft, the both sides of the second sliding slot are respectively set that there are one the second threaded shaft rotated in the 7th sliding slot, institutes
It states and is respectively set that there are one the second sliding blocks slided in the 7th sliding slot, be respectively set that there are one with described the on second sliding block
The threaded hole of one threaded shaft and the corresponding engagement connection of second threaded shaft, the push strut are connected respectively two
On second sliding block described in side, first threaded shaft and the end of second threaded shaft be respectively arranged with one it is corresponding
The first chain drum, pass through a corresponding connection of the first chain between two first chain drums respectively, setting in the body
There are one the second shaft corresponding with the first threaded shaft described in one of them, there are one the body settings and one of them
There are one being respectively set on the corresponding third shaft of second threaded shaft, second shaft and the first threaded shaft
It is opposite there are one being respectively set on the third hand tap gear that corresponding engagement connects, the third shaft and second threaded shaft
Should engage the first bevel gear of connection, second shaft be respectively set that there are one corresponding engagement companies in the third shaft
The second bevel gear connect, the second of the interior setting of the body one of them first threaded shaft rotation there are one drive are electric
Machine.
Further, it is respectively arranged with the second clamping groove of the corresponding setting of a circle on the conveying runner, described the
There are two the both sides of the difference semicircular in shape setting of two clamping grooves, first delivery chute and second delivery chute are respectively set
Corresponding first turn trough, the both sides of first delivery chute and second delivery chute are respectively set that there are one in the body
4th shaft of interior rotation, the conveying runner are connected respectively in the 4th shaft, first delivery chute and institute
The end for stating the 4th shaft set by the second delivery chute both sides is respectively arranged with the first gear of a corresponding engagement connection, institute
4th bevel gear of corresponding engagement connection, the push strut there are one stating the 5th shaft and being respectively set in the 4th shaft
On be respectively set there are one control slide block corresponding with the control runner, a circle the is respectively arranged on the control runner
One clamping groove is respectively set in the control slide block there are one the 8th sliding slot, and the 8th sliding slot distinguishes T-shaped setting, institute
It states and is respectively set that there are one the first slide-bars slided in the 8th sliding slot, be separately connected that there are one the second top pressures on first slide-bar
Block, is respectively set that there are one the first spring for suppressing first slide-bar, the second top pressure block difference in the 8th sliding slot
The cunning there are one arc-shaped setting is respectively set in clamping corresponding with first clamping groove, one end of the second top pressure block
Dynamic cambered surface, is respectively set that there are one spring clip corresponding with first clamping groove, the bodies in second turn trough
On be respectively set there are one support the control slide block and the second top pressure block sliding conveying groove.
Further, setting is described there are one the 4th sliding slot of connection corresponding with the third sliding slot in the body
The 4th T-shaped setting of sliding slot, connection is there are one the rotary head rotated in the 4th sliding slot in the first rotating shaft, described turn
Setting is there are one the 5th sliding slot on dynamic head, on the crushing block connection be provided on first compression bar there are one the first compression bar
It is respectively arranged in one the first sliding block slided in the 5th sliding slot, first sliding block and the 5th sliding slot opposite
Should engage the thread groove of connection, in the body setting there are one cement inlet pipe, on the crushing block connection there are one with it is described
The cement hose of the corresponding connection of cement chamber, cement hose connection corresponding with the cement inlet pipe, the cement intracavitary
The stirring rod of first motor driving there are one also setting up.
Further, the quadrangle of the support slipper is respectively set that there are one support the 9th of the first top pressure block sliding
Sliding slot, is respectively set the first slide opening there are one connection corresponding with the 9th sliding slot on the support slipper, and described first
It is separately connected on top pressure block there are one the third threaded shaft that is slided in first slide opening, is set respectively in the support slipper
It sets the third turn trough there are one connection corresponding with first slide opening, is respectively set that there are one rotate in the third turn trough
First turntable, is respectively set that there are one the first spiral shells of engagement connection corresponding with the third threaded shaft on first turntable
Pit is respectively set on first turntable there are one the second chain drum, passes through second chain between four second chain drums
The corresponding connection of item, also sets up the 5th shaft there are one setting corresponding with first bull stick in the body, and described the
One bull stick be respectively set that there are one the 5th bevel gears of corresponding engagement connection in the 5th shaft, in the 5th shaft
The third chain drum of engagement connection corresponding with second chain there are one being arranged.
Further, the conveying groove difference semicircular in shape setting, the side of the making sheet slot is respectively arranged with setting
The tenth sliding slot on the body, is respectively set that there are one the third sliding block slided, the support slots in the tenth sliding slot
It is separately positioned on the third sliding block, the support slot supports the spacer bar respectively, is respectively arranged on the body
One pull rod for pulling third sliding block sliding, is respectively set that there are one suppress the third sliding block in the tenth sliding slot
Second spring.
Compared with prior art, the beneficial effects of the invention are as follows:First delivery chute and described second can enough be passed through
Delivery chute is supported spacer bar, so as to further by first delivery chute and second delivery chute into
Row conveying, and can further be transported in the first sliding groove and the second sliding slot, so as to pass through described push away
The sliding for sliding the promotion spacer bar that can be further of compression bar, so as to further push spacer bar
Into the making sheet slot, the state intersected and be correspondingly connected with so as to further be in spacer bar is in grid-like setting,
So as to avoid using trouble caused by artificial setting spacer bar, workload is further reduced;
It can utilize the rotation of conveying runner that can further control the sliding of spacer bar, and the pushing can be passed through
The sliding of bar can further control the conveying runner and turn while capable of further being pushed to spacer bar
It is dynamic, so as to further realize the control conveyed automatically to spacer bar;
The sliding for controlling the crushing block can be further controlled by the rotation of the first rotating shaft, so as into
Forming tank is clamped by one step with the spacer bar being correspondingly arranged is intersected, so as to make spacer bar setting it is described at
In type groove, so as to further by forming tank carry out cement it is canned by spacer bar is wrapped up, so as to
Enough achieve the purpose that spacer bar being wrapped in cement, can further avoid using caused by artificial setting reinforcing bar
The problem of diaphragm strength reduces caused by spacer bar offset, can further ensure the workmanship to partition board;
The sliding of the slide plate can be further driven by sliding up and down for the support slipper, so as to pass through
Slide plate connection corresponding with forming tank progress can ensure the normal manufacture to partition board, and can be further square
Just it takes to partition board.
Description of the drawings
The present invention will be further described below in conjunction with the accompanying drawings.
Fig. 1 is that the embodiment of the present invention builds dirt discharge groove cement baffle automatic maker overall structure diagram.
Fig. 2 is that the embodiment of the present invention builds dirt discharge groove cement baffle automatic maker overall structure vertical view.
Fig. 3 is the first delivery chute of the embodiment of the present invention and the first sliding groove overall structure diagram.
Fig. 4 is that the embodiment of the present invention conveys runner overall structure diagram.
Fig. 5 is that the embodiment of the present invention conveys rotaring wheel structure schematic diagram.
Fig. 6 is that the embodiment of the present invention controls runner overall structure diagram.
Fig. 7 is crushing block overall structure diagram of the embodiment of the present invention.
Fig. 8 is third sliding block overall structure diagram of the embodiment of the present invention.
Fig. 9 is support slipper overall structure diagram of the embodiment of the present invention.
Figure 10 is support slipper overall structure vertical view of the embodiment of the present invention.
In figure:1 firm banking, 2 bodies, 3 first delivery chutes, 4 the first sliding grooves, 5 spacer bars, 6 push strut, 7 second are slided
Slot, 8 making sheet slots, 9 third sliding slots, 10 crushing blocks, 11 cement chambers, 12 stirring rods, 13 first motors, 14 first compression bars, 15 cement
Hose, 16 cement inlet pipes, 17 the 4th sliding slots, 18 rotary heads, 19 the 5th sliding slots, 20 first sliding blocks, 21 first rotating shafts, 22 the 6th are slided
Slot, 23 support slippers, 24 slide plates, 25 first top pressure blocks, 26 first bull sticks, 27 second delivery chutes, 28 the 7th sliding slots, 29 first spiral shells
Line shaft, 30 second threaded shafts, 31 first chain drums, 32 first chains, 33 second shafts, 34 third shafts, 35 first cone teeth
Wheel, 36 second bevel gears, 37 third hand tap gears, 38 second motors, 39 second sliding blocks, 40 conveying runners, 41 the 4th shafts, 42 the
Five shafts, 43 control runners, 44 control slide blocks, 45 first turn troughs, 46 conveying grooves, 47 first gears, 48 the 4th bevel gears, 49
Second turn trough, 50 first clamping grooves, 51 spring clips, 52 the 8th sliding slots, 53 first slide-bars, 54 second top pressure blocks, 55 sliding arcs
Face, 56 first springs, 57 second clamping grooves, 58 forming tanks, 59 first slide openings, 60 third threaded shafts, 61 third turn troughs, 62
First turntable, 63 first threaded holes, 64 the 9th sliding slots, 65 second chain drums, 66 second chains, 67 the 5th shafts, 68 the 5th cone teeth
Wheel, 69 third chain drums, 70 support slots, 71 the tenth sliding slots, 72 third sliding blocks, 73 second springs, 74 pull rods.
Specific implementation mode
As shown in Figures 1 to 10, a kind of building dirt discharge groove cement baffle automatic maker, including there are one firm banking 1, it is described
There are one bodies 2 for setting on firm banking 1, and there are one the making sheet slot 8 for the setting that is square, the bodies 1 for the interior setting of the body 2
On be additionally provided with first delivery chute, 2 and second delivery chute 27 corresponding with the making sheet slot 8, first delivery chute 3 and institute
It states the second delivery chute 27 and is respectively arranged with sides that are multiple and arranged side by side, and being separately positioned on the making sheet slot 8, described first
It is respectively arranged with the spacer bar 5 for accumulating setting side by side in delivery chute 3 and second delivery chute 27, is arranged in the body 1
There are one the first sliding groove 4 of connection corresponding with first delivery chute 3, there are one the interior settings of the body 1 and described second
Be respectively arranged in the second sliding slot 7 of 27 corresponding connection of delivery chute, the first sliding groove 4 and the second sliding slot 7 with it is described
27 corresponding conveying groove 46 of first delivery chute 3 and second delivery chute, the first sliding groove 4 and the second sliding slot 7
The push strut 6 slided there are one being respectively set in cross-shaped setting, the first sliding groove 3 and the second sliding slot 7, two institutes
State the sliding of the synchronization of push strut 6 and respectively spacer bar 5 described in top pressure, the side of the making sheet slot 8 be respectively arranged with it is described
5 corresponding support slot 70 of spacer bar.
There are one bodies 2 for setting on the firm banking 1, and there are one making sheet slots 8 for setting in the body 1, described
Making sheet slot 8 is square setting, and the first delivery chute 3 and the second delivery chute 27, first conveying are additionally provided on the body 1
Slot 3 is respectively arranged with multiple, and the corresponding setting of spacing with second delivery chute 27, first delivery chute 3 with it is described
The quantity of second delivery chute 27 setting can be configured according to the needs of design, first delivery chute 3 and described second defeated
The side for sending slot 27 to be separately positioned on the making sheet slot 8, the making sheet slot 8 are square setting, first delivery chute 3 with it is described
Second delivery chute 27 is separately positioned on two sides of the making sheet slot 8, is conveyed in first delivery chute 3 and described second
It is respectively arranged with spacer bar 5 in slot 27, is conveyed so as to which spacer bar 5 is placed into first delivery chute 3 and second
In slot 27, spacer bar 5 can be deposited in first delivery chute 3 and second delivery chute 27, in the body 1
The first sliding groove 4 that there are one settings, the connection corresponding with the first delivery chute 3 set side by side of the first sliding groove 4, and described first
The connection corresponding with the making sheet slot 8 of sliding slot 4 is also set up in the body 1 there are one second sliding slot 7, the second sliding slot 7
Connection corresponding with the second delivery chute 27 arranged side by side, and the connection corresponding with the making sheet slot 8 of the second sliding slot 7,
The conveying groove 46 being arranged on the body 1 is respectively included in the first sliding groove 4 and the second sliding slot 7, it is described
Convey groove 46 be arranged position it is corresponding with first delivery chute 3 and second delivery chute 27 respectively, so as into
One step makes the spacer bar 5 accurately drop into the conveying groove 46, the first sliding groove 4 and the second sliding slot
7 connections corresponding with the making sheet slot 8 respectively, and the cross-shaped setting in position being arranged, so as to further make institute
Corresponding connection can be intersected by stating the spacer bar 5 slided in conveying groove 46, in the first sliding groove 4 and the second sliding slot
It is respectively set that there are one the push strut 6 slided in 7, so as to further can be to spacer bar 5 by the push strut 6
It is pushed, so as to which spacer bar 5 to be pushed into the making sheet slot 8, so as to further hand over spacer bar 5
Fork is correspondingly arranged, and can be supported to spacer bar by the support slot 70, to avoid that the branch because in making sheet slot 8 occurs
It supports reinforcing bar 5 to fix without support, and drops into the bottom of the making sheet slot 8, so as to further ensure to can will support
Reinforcing bar 5 is fixed in cement.
First delivery chute 3 and the both sides of second delivery chute 27 are respectively set clamps rotation there are two corresponding
Runner 40 is conveyed, two 40 corresponding clamping of conveying runner rotations convey the spacer bar 5, first delivery chute 3
It is respectively set there are one the 5th shaft 42 rotated in the body 1 with the side of second delivery chute 27, the described 5th
Shaft 42 drives the conveying runner 40 to rotate respectively, is respectively set that there are one control runner 43, institute in the 5th shaft 42
The sliding for stating push strut 6 controls the rotation of the control runner 43 respectively.
It is respectively set that there are two corresponding clampings rotations in first delivery chute 3 and the both sides of second delivery chute 27
Conveying runner 40, so as to by it is described conveying runner 40 rotation can further to the sliding of spacer bar 5 carry out
Control, so as to automatically be conveyed to spacer bar 5, in first delivery chute 3 and second delivery chute 27
Side is respectively set there are one the 5th shaft 42 rotated, and the 5th shaft 42 is separately positioned on 3 He of the first delivery chute
The side of second delivery chute 27, and rotation, the rotation of the 5th shaft 42 drive respectively in the body 1 respectively
The rotation of the conveying runner 40, is respectively set in the 5th shaft 42 there are one runner 43 is controlled, so as to pass through
The rotation of the control runner 43 can further control the rotation of the conveying runner 40, can be slided in the push strut 6
The rotation that the control runner 43 can be further driven in dynamic process, so as to further pass through the push strut
6 sliding controls the sliding of the spacer bar 5, so as to realize that conveying controls automatically to spacer bar 5.
The third sliding slot 9 there are one connection corresponding with the making sheet slot 8 is also set up in the body 1, the third is slided
Setting is there are one the crushing block 10 slided in slot 9, and setting is there are one cement chamber 11 in the crushing block 10, on the crushing block 10
Be additionally provided with the forming tank 58 of connection corresponding with the cement chamber 11, the forming tank 58 with intersect the supporting steel being correspondingly arranged
Muscle 5 is corresponding, also sets up that there are one the first rotating shafts 21 for controlling the crushing block 10 and sliding on the body 1.
There are one third sliding slot 9, the companies corresponding with the making sheet slot 8 of the third sliding slot 9 for setting in the body 1
Logical, there are one the crushing blocks 10 slided for setting in the third sliding slot 9, so as to make crushing block 10 slide into the making sheet
In slot 8, there are one cavity, that is, cement chambers 11 for setting in the crushing block 8, are additionally provided with into the bottom of the crushing block 10
Type groove 58,58 cross-shaped setting of the forming tank, and it is corresponding with spacer bar 5 arranged in a crossed manner, so as to hand over
The spacer bar 5 of fork setting is connected in the forming tank 58, and can pass through the cement energy of setting in the cement chamber 11
It reaches and is further passed in the forming tank 58, so as to further achieve the purpose that manufacture partition board, and can incite somebody to action
Spacer bar 5 is arranged in the center of the forming tank 58, so as to further avoid artificial setting spacer bar 5
The problem of caused position offset, can further ensure the workmanship to the partition board, so as to increase partition board
Intensity, while also avoiding the increase using workload caused by artificial, can by the rotation of the first rotating shaft 21
The sliding for further controlling the crushing block 10, so as to further realize the automatic manufacture to partition board.
6th sliding slot 22 of connection corresponding with the making sheet slot 8 there are one being arranged on the firm banking 1, the described 6th
Setting is there are one the support slipper 23 slided in sliding slot 22, on the support slipper 23 setting there are one with 8 phase of making sheet slot
The quadrangle of corresponding slide plate 24, the support slipper 23 is respectively set there are one the first top pressure block 25 slided, and the support is slided
There are one the first bull sticks 26 for controlling the sliding of the first top pressure block 25 for setting on block 23.
There are one the 6th sliding slots 22 for setting on the firm banking 1, and there are one sliding for setting in the 6th sliding slot 22
Dynamic support slipper 23, there are one slide plates 24 for setting on the support slipper 23, and the slide plate 24 can be in the support slipper
It is swung on 23, the sliding of the first top pressure block 25 can be further controlled so as to the rotation of first bull stick 26,
So as to which the support slipper 23 is jacked up, can further by 24 top pressure of the slide plate to the making sheet slot 8,
So as to be supported by the slide plate 24 and the forming tank 58 on the crushing block 10, can further ensure to every
The normal build process of plate, so as to which the partition board being manufactured to be placed on the slide plate 24, so as to further
By the swing of the slide plate 24, can further operation further be carried out to molding partition board.
As shown in Figure 1 to Figure 3, the both sides of the first sliding groove 4 and the second sliding slot 7 respectively include that there are one settings to exist
The 7th sliding slot 28 on the body 1, the both sides of the first sliding groove 4 are respectively set that there are one in the 7th sliding slot 28
First threaded shaft 29 of interior rotation, the both sides of the second sliding slot 7 are respectively set that there are one turn in the 7th sliding slot 28
The second dynamic threaded shaft 30, is respectively set that there are one the second sliding block 39 slided, second sliding blocks in the 7th sliding slot 7
The spiral shell of engagement connection corresponding with first threaded shaft 29 and second threaded shaft 30 there are one being respectively set on 39
Pit, the push strut 6 are connected respectively on the second sliding block 39 described in both sides, first threaded shaft 29 and described the
The end of two threaded shafts 30 is respectively arranged with corresponding first chain drum 31, distinguishes between two first chain drums 31
By a 32 corresponding connection of the first chain, there are one the interior settings of the body 1 and the first threaded shaft described in one of them
29 corresponding second shafts 33, there are one corresponding with the second threaded shaft 30 described in one of them for the setting of the body 1
Third shaft 34, second shaft 33 be respectively set that there are one the of corresponding engagement connection on the first threaded shaft 29
Third hand tap gear 37, the third shaft 34 be respectively set on second threaded shaft 30 there are one it is corresponding engagement connection
First bevel gear 35, second shaft 33 be respectively set that there are one the of corresponding engagement connection in the third shaft 34
Two bevel gears 36, there are one the second motors for driving one of them described first threaded shaft 29 to rotate for the interior setting of the body 1
38。
7th sliding slot 28 there are one being respectively set in the both sides of the first sliding groove 4 and the second sliding slot 7, the described 7th
Sliding slot 28 is separately positioned on the body 1, is respectively set in the 7th sliding slot 28 there are one the second sliding block 39 slided,
The first threaded shaft 29 rotated there are one being respectively set in the both sides of the first sliding groove 4, in the both sides of the second sliding slot 7
The second threaded shaft 30 slided there are one being respectively set, and second sliding block 39 is respectively in first threaded shaft 29
It is slided on second threaded shaft 30, so as to pass through first threaded shaft 29 and second threaded shaft 30
Rotation can further drive the sliding of second sliding block 39, the both ends of the push strut 6 are connected to described
On two sliding blocks 39, so as to can be further by the rotation of first threaded shaft 29 and second threaded shaft 30
The promotion push strut 6 sliding, there are two first threaded shaft 29 and second threaded shaft 30 are respectively set,
It is respectively set between first threaded shaft 29 and second threaded shaft 30 there are one corresponding first chain drum 31,
Respectively by a 32 corresponding connection of the first chain between first chain drum 31, so as to further make described
One threaded shaft 29 and second threaded shaft 30 can be synchronous rotation, the rotation energy of second motor 38 can be passed through
The rotation of one of them first threaded shaft 29 is further driven, it can be by between two third hand tap gears 37
Corresponding engagement connection, so as to further drive the rotation of second shaft 33, and two institutes can be passed through
The corresponding engagement connection between second bevel gear 36 is stated, so as to further drive the rotation of the third shaft 34,
It can be connected by the corresponding engagement between two first bevel gears 35, so as to further drive second screw thread
The rotation of shaft 30, so as to further make first threaded shaft 29 is synchronous with second threaded shaft 30 to turn
It is dynamic, so as to the sliding for further enabling the push strut 6 synchronize, further push the same of the spacer bar 5
Step sliding, the first sliding groove 4 is different from the height of the second sliding slot 7, so as to further make the first sliding groove 4
The spacer bar 5 inside skidded off and the spacer bar 5 skidded off in the second sliding slot 7 can be staggered, to avoid rushing
It is prominent, it so that the intersection of spacer bar 5 is correspondingly arranged.
As shown in Fig. 1, Fig. 3, Fig. 4, Fig. 5 and Fig. 6, the corresponding setting of a circle is respectively arranged on the conveying runner 40
Second clamping groove 57, second clamping groove 57 distinguish semicircular in shape setting, first delivery chute 3 and described second defeated
Sending the both sides of slot 27 to be respectively set, there are two corresponding first turn trough 45, first delivery chute 3 and second delivery chutes
27 both sides are respectively set there are one the 4th shaft 41 rotated in the body 1, and the conveying runner 40 is corresponding respectively to be connected
It is connected in the 4th shaft 41, first delivery chute 3 and the 4th shaft 41 set by 27 both sides of the second delivery chute
End is respectively arranged with the first gear 47 of a corresponding engagement connection, the 5th shaft 42 and in the 4th shaft 41
Be respectively set there are one the 4th bevel gear 48 of corresponding engagement connection, be respectively set in the push strut 6 there are one with it is described
43 corresponding control slide block 44 of runner is controlled, first clamping groove of circle 50, institute are respectively arranged on the control runner 43
It states and is respectively set in control slide block 44 there are one the 8th sliding slot 52, the 8th sliding slot 52 distinguishes T-shaped setting, and the described 8th slides
It is respectively set that there are one the first slide-bars 53 slided in slot 52, is separately connected that there are one the second top pressure blocks on first slide-bar 53
54, it is respectively set that there are one the first spring 56 for suppressing first slide-bar 53, second top pressures in the 8th sliding slot 52
The clamping corresponding with first clamping groove 50 respectively of block 54, one end of the second top pressure block 54 are respectively set that there are one be in
The slip cambered surface 55 of arc setting, is respectively set that there are one corresponding with first clamping groove 50 in second turn trough 49
Spring clip 51, be respectively set that there are one support the control slide block 44 and the second top pressure block 54 sliding on the body 1
Conveying groove 46.
Second clamping groove of circle 57 is respectively arranged on the conveying runner 40, second clamping groove 57 is distinguished
Semicircular in shape is arranged, and so as to be rotated by the 40 corresponding compression of conveying runner described in both sides, can further lead to
It crosses second clamping groove 57 to be supported spacer bar 5, so as to be conveyed to spacer bar 5, can pass through
First turn trough 45 is supported the conveying runner 40, can further ensure to the normal of the conveying runner 40
Rotation is respectively set in the both sides of first delivery chute 3 and second delivery chute 27 there are one the 4th shaft 41 rotated,
And it is respectively arranged with the first gear 47 of a corresponding engagement connection in the end of two the 4th shafts 41, so as to
The compression rotation that enough conveying runners 40 for further enabling both sides be arranged synchronize, the conveying runner 40 are separately positioned on institute
The both ends for stating the first delivery chute 3 and second delivery chute 27, divide between the 5th shaft 42 and the 4th shaft 41
Not She Zhi there are one the 4th bevel gears 48 of corresponding engagement connection, so as to can by the rotation of the 5th shaft 42
The rotation for further controlling the conveying runner 40, so as to control the conveying of the spacer bar 5.
It is respectively set in the push strut 6 there are one control slide block 44, the position difference that the control slide block 44 is arranged
Corresponding with the control position of runner 43, the control runner 43 is separately positioned on first delivery chute 3 and described the
The end of two delivery chutes 27 is respectively arranged with a circle clamping groove 50, first clamping groove on the control runner 43
The 50 concave settings of difference, the control slide block 44 can be further driven so as to the sliding in the push strut 6
Synchronous slide, so as to further drive the sliding of the second top pressure block 54, when the second top pressure block 54 sliding
To after the position of the control runner 43, the second top pressure block 54 can be further set to be connected to first clamping recessed
In slot 50, so as to further push the rotation of the control runner 43 by the second top pressure block 54, so as to
The rotation for further controlling the conveying runner 40, further enables the spacer bar 5 automatically drop into described
It conveys in groove 46, since 46 semicircular in shape of conveying groove is arranged, so when the push strut 6 is in the process for continuing sliding
In can further push the sliding of the spacer bar 5, so as to which the spacer bar 5 is pushed into the making sheet slot
In 8, so as to can automatically be controlled the conveying of spacer bar 5 by the sliding of the push strut, pushed away when described
Compression bar 6 is during reset, since there are one the sliding arcs of arc-shaped setting for one end setting on the second top pressure block 54
Face 55, so as to make slip cambered surface 55 press the control runner 43, so as to further be turned by the control
43 pairs of the second top pressure blocks 54 of wheel squeeze, can be further so as to drive the sliding of the second top pressure block 54
Prevent the second top pressure block 54 from touching the rotation of the control runner 43 during reset, and can be by described
Spring clip 51 is connected in first clamping groove 50, can be further so as to by the elasticity of the spring clip 51
Make the rotation direction of the control runner 43 be a direction, so as to avoid the control runner 43 towards opposite side
To rotation, the second top pressure block 54 can be supported by first slide-bar 53, it is right by first spring 56
First slide-bar 53 is suppressed, can be right by the conveying groove 46 so as to make first slide-bar 53 reset
The control slide block 44 is supported, so as to further ensure to the control slide block 44 and the second top pressure block 54
Synchronous slide.
As shown in Figure 1, the 4th sliding slot 17 there are one connection corresponding with the third sliding slot 9 is set in the body 1,
4th sliding slot, the 17 T-shaped setting, there are one what is rotated in the 4th sliding slot 17 to turn for connection in the first rotating shaft 21
Dynamic head 18, on the rotary head 18 setting there are one the 5th sliding slot 19, on the crushing block 10 connection there are one the first compression bar 14,
Setting is there are one the first sliding block 20 slided in the 5th sliding slot 19 on first compression bar 14, first sliding block 20 with
The thread groove of corresponding engagement connection is respectively arranged in 5th sliding slot 19, in the body 1 setting there are one cement into
Pipe 16, there are one the cement hose 15 of connection corresponding with the cement chamber 11, the cement is soft for connection on the crushing block 10
The connection corresponding with the cement inlet pipe 16 of pipe 15, also sets up that there are one the stirrings that first motor 13 drives in the cement chamber 11
Bar 12.
It can be by the rotation first rotating shaft 21, so as to further drive turning for the rotary head 18
It is dynamic, the screw thread of corresponding engagement connection is respectively arranged in first sliding block 20 and the 5th sliding slot 19, so as to
Sliding up and down for first sliding block 20 is further driven, so as to further drive the upper and lower of first compression bar 14
Sliding can be into one by the sliding of the crushing block 10 so as to drive sliding up and down for the crushing block 10
Being connected to using the forming tank 58 for step is intersected on the spacer bar 5 that is correspondingly arranged, can by the cement inlet pipe 16 into
Row cement it is canned, can be further canned in the cement chamber 11, when it is canned to a certain amount of cement after, can be into one
Step be passed in the forming tank 58, so as to which further spacer bar 5 is wrapped in cement, to complete to every
The manufacture of plate.
As shown in Fig. 1, Fig. 7, Fig. 9 and Figure 10, the quadrangle of the support slipper 23 is respectively set that there are one support described the
9th sliding slot 64 of one top pressure block 25 sliding, is respectively set that there are one opposite with the 9th sliding slot 64 on the support slipper 23
The first slide opening 59 that should be connected to, is separately connected that there are one the slided in first slide opening 59 on the first top pressure block 25
Three threaded shafts 60, are respectively set that there are one the thirds of connection corresponding with first slide opening 59 to turn in the support slipper 23
Slot 61 is respectively set in the third turn trough 61 there are one the first turntable 62 rotated, is respectively set on first turntable 62
There are one the first threaded hole 63 of engagement connection corresponding with the third threaded shaft 60, set respectively on first turntable 62
It sets there are one the second chain drum 65, passes through a 66 corresponding connection of the second chain, the machine between four second chain drums 65
Also set up the 5th shaft 67 there are one setting corresponding with first bull stick 26 in body 1, first bull stick 26 with it is described
It is corresponding there are one being respectively set in 5th shaft 67 to engage the 5th bevel gear 68 connected, it is provided in the 5th shaft 67
The third chain drum 69 of one engagement connection corresponding with second chain 66.
The rotation of the 5th bevel gear 68, energy can be further driven by rotating first bull stick 26
It is enough connected by the corresponding engagement between two the 5th bevel gears 68, so as to further drive described 5th turn
The rotation of axis 67 can drive the rotation of the third chain drum 69, so as to pass through by the rotation of the 5th shaft 67
The third chain drum 69 further drives the rotation of second chain 66, can pass through the rotation energy of second chain 66
The rotation of enough four the second chain drums 65 of drive simultaneously, so as to further drive the rotation of first turntable 62,
The first threaded hole 63 is provided on first turntable 62, the third threaded shaft 60 is corresponding with first threaded hole 63
Engagement connection, so as to further drive sliding up and down for the third threaded shaft 60, so as to further band
Move the sliding of the first top pressure block 25, can by the sliding of the first top pressure block 25 can to the support slipper 23 into
Row is supported after jacking up, so as to further by 24 top pressure of the sliding block to the making sheet slot 8, so as to water
Mud is supported, so as to be further supported to molding partition board after docking corresponding with forming tank 58, to
Can further it ensure to the normal manufacture to partition board, it can be by first slide opening 59 to the third threaded shaft 60
It is supported, to ensure the normal sliding to the third threaded shaft 60, and can be right by the third turn trough 61
First turntable 62 is supported, so as to further ensure the normal rotation to first turntable 62.
As illustrated in figures 1 and 8, the conveying groove 46 distinguishes semicircular in shape setting, and the side of the making sheet slot 8 is set respectively
Be equipped with the tenth sliding slot 71 being arranged on the body 1, be respectively set in the tenth sliding slot 71 there are one slide third slide
Block 72, the support slot 70 are separately positioned on the third sliding block 72, and the support slot 70 supports the spacer bar respectively
5, it is respectively set on the body 1 there are one pulling the third sliding block to slide 72 dynamic pull rods 74, in the tenth sliding slot 71 point
It She Zhi there are one suppress the second spring 73 of the third sliding block 72.
The spacer bar 5 can be supported by the conveying groove 46,46 semicircular in shape of the brace groove
Setting, when spacer bar 5 is during sliding, can the sliding in making sheet slot 8, when sliding into the branch being arranged in making sheet slot 8
After supportting in slot 70, spacer bar 5 can be supported by support slot 70, so as to further make both sides while sliding
Dynamic spacer bar is in the state intersected and be correspondingly connected with, after cement wraps up spacer bar 5, due to 5 meeting of spacer bar
An exposed part, so as to can further drive the sliding of the third sliding block 72 by the sliding of the pull rod 74,
So as to further make the spacer bar 5 be detached from the supported hole 70, so as to make partition board after molding pass through institute
Sliding up and down for slide plate 24 is stated, can further be taken to partition board after molding, the second spring 73 can be passed through
Spring is carried out to the third sliding block 72, so as to further reset the third sliding block 72.
Embodiment provided above is the better embodiment of the present invention, only is used for facilitating illustrating the present invention, not to this hair
It is bright to make any form of restriction, any those of ordinary skill in the art, if not departing from the put forward skill of the present invention
In the range of art feature, using the equivalent embodiment for locally changing or modifying made by disclosed technology contents, and
Without departing from the technical feature content of the present invention, in the range of still falling within the technology of the present invention feature.
Claims (6)
1. a kind of building dirt discharge groove cement baffle automatic maker, it is characterised in that:Including there are one firm banking, the fixations
Setting is there are one body on pedestal, in the body setting also set up on the body there are one the making sheet slot for the setting that is square
There are the first delivery chute corresponding with the making sheet slot and the second delivery chute, first delivery chute and second delivery chute point
It is not provided with sides that are multiple and arranged side by side, and being separately positioned on the making sheet slot, first delivery chute and described second
The spacer bar for accumulating setting side by side is respectively arranged in delivery chute, there are one the interior settings of the body and first delivery chute
The first sliding groove of corresponding connection, there are one the second cunnings of connection corresponding with second delivery chute for the interior setting of the body
It is respectively arranged in slot, the first sliding groove and the second sliding slot opposite with first delivery chute and second delivery chute
The conveying groove answered, the first sliding groove and the cross-shaped setting of the second sliding slot, the first sliding groove are slided with described second
The push strut slided there are one being respectively set in slot, the sliding of two push strut synchronizations and respectively supporting steel described in top pressure
The side of muscle, the making sheet slot is respectively arranged with support slot corresponding with the spacer bar;
First delivery chute is respectively set the conveying rotated there are two corresponding clamping with the both sides of second delivery chute and turns
Wheel, corresponding clamping of two conveying runners rotate the conveying spacer bars, first delivery chute and described second defeated
The side of slot is sent to be respectively set there are one the 5th shaft rotated in the body, the 5th shaft drives described defeated respectively
It send runner to rotate, is respectively set in the 5th shaft there are one runner is controlled, described in the sliding of the push strut controls respectively
Control the rotation of runner;
The third sliding slot there are one connection corresponding with the making sheet slot is also set up in the body, is arranged in the third sliding slot
There are one the crushing block slided, in the crushing block setting be additionally provided with and the water on the crushing block there are one cement chamber
The forming tank of the corresponding connection of mud chamber, the forming tank is corresponding with the spacer bar that is correspondingly arranged is intersected, on the body also
The first rotating shaft of the crushing block sliding is controlled there are one being arranged;
The 6th sliding slot there are one connection corresponding with the making sheet slot is set on the firm banking, is set in the 6th sliding slot
Set that there are one the support slippers slided, there are one slide plates corresponding with the making sheet slot for setting on the support slipper, described
The quadrangle of support slipper is respectively set that there are one the first top pressure blocks slided, and there are one described in control for setting on the support slipper
First bull stick of the first top pressure block sliding.
2. a kind of building dirt discharge groove cement baffle automatic maker according to claim 1, it is characterised in that:Described first slides
The both sides of slot and the second sliding slot respectively include that there are one the 7th sliding slots being arranged on the body, described first to slide
The both sides of slot are respectively set there are one the first threaded shaft rotated in the 7th sliding slot, and the both sides of the second sliding slot are divided
It She Zhi not be respectively set that there are one sliding in the 7th sliding slot there are one the second threaded shaft for being rotated in the 7th sliding slot
The second dynamic sliding block, be respectively set on second sliding block there are one with first threaded shaft and second threaded shaft
The threaded hole of corresponding engagement connection, the push strut are connected respectively on the second sliding block described in both sides, first spiral shell
Line shaft is respectively arranged with corresponding first chain drum, two first chain drums with the end of second threaded shaft
Between respectively by a corresponding connection of the first chain, in the body setting there are one and the first screw thread described in one of them
Corresponding second shaft of shaft, there are one thirds corresponding with the second threaded shaft described in one of them for the body setting
Shaft, second shaft be respectively set on the first threaded shaft there are one the third hand tap gear of corresponding engagement connection,
The third shaft be respectively set on second threaded shaft there are one it is corresponding engagement connection first bevel gear, it is described
Second shaft be respectively set in the third shaft there are one the second bevel gear of corresponding engagement connection, set in the body
Set the second motor of one of them first threaded shaft rotation there are one drive.
3. a kind of building dirt discharge groove cement baffle automatic maker according to claim 1, it is characterised in that:The conveying turns
The second clamping groove of the corresponding setting of a circle is respectively arranged on wheel, the second clamping groove difference semicircular in shape is arranged,
First delivery chute and the both sides of second delivery chute are respectively set that there are two corresponding first turn troughs, and described first is defeated
The both sides of slot and second delivery chute are sent to be respectively set there are one the 4th shaft rotated in the body, the conveying turns
Wheel is connected respectively in the 4th shaft, first delivery chute and the 4th turn set by second delivery chute both sides
The end of axis is respectively arranged with the first gear of a corresponding engagement connection, and the 5th shaft is divided in the 4th shaft
It She Zhi not be respectively set that there are one turn with the control in the push strut there are one the 4th bevel gear of corresponding engagement connection
Corresponding control slide block is taken turns, first clamping groove of circle is respectively arranged on the control runner, is divided in the control slide block
She Zhi not be there are one the 8th sliding slot, the 8th sliding slot distinguishes T-shaped setting, is respectively set that there are one sliding in the 8th sliding slot
The first dynamic slide-bar is separately connected on first slide-bar there are one the second top pressure block, is respectively arranged in the 8th sliding slot
One the first spring for suppressing first slide-bar, the second top pressure block card corresponding with first clamping groove respectively
It connects, the slip cambered surface there are one arc-shaped setting is respectively set in one end of the second top pressure block, and second turn trough is interior respectively
Setting is respectively set that there are one support the control there are one spring clip corresponding with first clamping groove on the body
The conveying groove of sliding block processed and the second top pressure block sliding.
4. a kind of building dirt discharge groove cement baffle automatic maker according to claim 1, it is characterised in that:In the body
4th sliding slot of connection corresponding with the third sliding slot there are one being arranged, the T-shaped setting of the 4th sliding slot, described first turn
Connection is there are one the rotary head that is rotated in the 4th sliding slot on axis, and there are one the 5th sliding slot, institutes for setting on the rotary head
Connection is stated on crushing block there are one the first compression bar, there are one the slided in the 5th sliding slot for setting on first compression bar
The thread groove of corresponding engagement connection, the body are respectively arranged in one sliding block, first sliding block and the 5th sliding slot
Interior setting there are one cement inlet pipe, on the crushing block connection there are one the cement hose of connection corresponding with the cement chamber,
Cement hose connection corresponding with the cement inlet pipe, the cement intracavitary also set up stirring there are one first motor driving
Mix bar.
5. a kind of building dirt discharge groove cement baffle automatic maker according to claim 1, it is characterised in that:The support is slided
The quadrangle of block is respectively set there are one the 9th sliding slot for supporting the first top pressure block sliding, is respectively set on the support slipper
There are one the first slide openings of connection corresponding with the 9th sliding slot, are separately connected that there are one described on the first top pressure block
The third threaded shaft slided in first slide opening, is respectively set that there are one corresponding with first slide opening in the support slipper
The third turn trough of connection is respectively set in the third turn trough there are one the first turntable rotated, on first turntable respectively
It is corresponding with the third threaded shaft there are one being arranged to engage the first threaded hole connected, it is respectively set on first turntable
There are one the second chain drum, by a corresponding connection of the second chain between four second chain drums, also set in the body
The 5th shaft there are one setting corresponding with first bull stick is set, first bull stick is set respectively in the 5th shaft
It sets there are one the 5th bevel gear of corresponding engagement connection, there are one opposite with second chain for setting in the 5th shaft
The third chain drum of connection should be engaged.
6. a kind of building dirt discharge groove cement baffle automatic maker according to claim 1, it is characterised in that:The conveying is recessed
Slot distinguishes semicircular in shape setting, and the side of the making sheet slot is respectively arranged with the tenth sliding slot being arranged on the body, described
It is respectively set in tenth sliding slot there are one the third sliding block slided, the support slot is separately positioned on the third sliding block, institute
It states support slot and supports the spacer bar respectively, be respectively set that there are one the drawings for pulling third sliding block sliding on the body
Bar, is respectively set that there are one the second springs for suppressing the third sliding block in the tenth sliding slot.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201911285155.3A CN110919849B (en) | 2018-06-21 | 2018-06-21 | Full-automatic machine is made automatically to building cement baffle |
CN201911276273.8A CN111015923B (en) | 2018-06-21 | 2018-06-21 | Intelligent building sewage discharge tank cement baffle automatic manufacturing machine |
CN201810646836.7A CN108789814B (en) | 2018-06-21 | 2018-06-21 | Automatic manufacturing machine for cement partition plate of building sewage discharge tank |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810646836.7A CN108789814B (en) | 2018-06-21 | 2018-06-21 | Automatic manufacturing machine for cement partition plate of building sewage discharge tank |
Related Child Applications (2)
Application Number | Title | Priority Date | Filing Date |
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CN201911285155.3A Division CN110919849B (en) | 2018-06-21 | 2018-06-21 | Full-automatic machine is made automatically to building cement baffle |
CN201911276273.8A Division CN111015923B (en) | 2018-06-21 | 2018-06-21 | Intelligent building sewage discharge tank cement baffle automatic manufacturing machine |
Publications (2)
Publication Number | Publication Date |
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CN108789814A true CN108789814A (en) | 2018-11-13 |
CN108789814B CN108789814B (en) | 2020-02-14 |
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ID=64085055
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Application Number | Title | Priority Date | Filing Date |
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CN201911285155.3A Active CN110919849B (en) | 2018-06-21 | 2018-06-21 | Full-automatic machine is made automatically to building cement baffle |
CN201810646836.7A Active CN108789814B (en) | 2018-06-21 | 2018-06-21 | Automatic manufacturing machine for cement partition plate of building sewage discharge tank |
CN201911276273.8A Active CN111015923B (en) | 2018-06-21 | 2018-06-21 | Intelligent building sewage discharge tank cement baffle automatic manufacturing machine |
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Application Number | Title | Priority Date | Filing Date |
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CN201911285155.3A Active CN110919849B (en) | 2018-06-21 | 2018-06-21 | Full-automatic machine is made automatically to building cement baffle |
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Application Number | Title | Priority Date | Filing Date |
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CN201911276273.8A Active CN111015923B (en) | 2018-06-21 | 2018-06-21 | Intelligent building sewage discharge tank cement baffle automatic manufacturing machine |
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CN (3) | CN110919849B (en) |
Families Citing this family (1)
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CN110919849B (en) * | 2018-06-21 | 2021-02-26 | 福建省华荣建设集团有限公司 | Full-automatic machine is made automatically to building cement baffle |
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CN2712583Y (en) * | 2004-05-11 | 2005-07-27 | 西安银马实业发展有限公司 | Polyphenylene concrete thermal insulation building blocks forming machine |
CN101947814A (en) * | 2010-09-20 | 2011-01-19 | 西安东方福星机械有限公司 | Shaping machine of reinforcement concrete prefabricating member |
CN102241065A (en) * | 2011-07-13 | 2011-11-16 | 湖北中宇新型建材开发有限公司 | Fixed type ground-leveling-free complete set machine for continuous production of partition wall boards |
CN202225291U (en) * | 2011-07-13 | 2012-05-23 | 湖北中宇新型建材开发有限公司 | Fixed type leveling-free streamline-production partition plate pushing complete machine |
CN105666686A (en) * | 2016-02-02 | 2016-06-15 | 中建科技有限公司 | Rebar producing and supplying system for producing precast concrete components |
CN106476133A (en) * | 2016-10-11 | 2017-03-08 | 湖北楚峰建科集团荆州开元新材有限公司 | A kind of steam pressure sand aerated concrete preparation of plates method and device |
CN206644141U (en) * | 2017-03-21 | 2017-11-17 | 贵州大学 | It is automatic to make dragon fruit frame disc mechanism |
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CN203401561U (en) * | 2013-07-27 | 2014-01-22 | 安徽省中坤元新型建材有限公司 | Pouring device of floor mold light partition board production line |
CN104476669B (en) * | 2014-12-31 | 2017-01-18 | 娄底市高盛板业有限公司 | Full-automatic honeycomb core bottom plate production process |
CN110919849B (en) * | 2018-06-21 | 2021-02-26 | 福建省华荣建设集团有限公司 | Full-automatic machine is made automatically to building cement baffle |
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2018
- 2018-06-21 CN CN201911285155.3A patent/CN110919849B/en active Active
- 2018-06-21 CN CN201810646836.7A patent/CN108789814B/en active Active
- 2018-06-21 CN CN201911276273.8A patent/CN111015923B/en active Active
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2712583Y (en) * | 2004-05-11 | 2005-07-27 | 西安银马实业发展有限公司 | Polyphenylene concrete thermal insulation building blocks forming machine |
CN101947814A (en) * | 2010-09-20 | 2011-01-19 | 西安东方福星机械有限公司 | Shaping machine of reinforcement concrete prefabricating member |
CN102241065A (en) * | 2011-07-13 | 2011-11-16 | 湖北中宇新型建材开发有限公司 | Fixed type ground-leveling-free complete set machine for continuous production of partition wall boards |
CN202225291U (en) * | 2011-07-13 | 2012-05-23 | 湖北中宇新型建材开发有限公司 | Fixed type leveling-free streamline-production partition plate pushing complete machine |
CN105666686A (en) * | 2016-02-02 | 2016-06-15 | 中建科技有限公司 | Rebar producing and supplying system for producing precast concrete components |
CN106476133A (en) * | 2016-10-11 | 2017-03-08 | 湖北楚峰建科集团荆州开元新材有限公司 | A kind of steam pressure sand aerated concrete preparation of plates method and device |
CN206644141U (en) * | 2017-03-21 | 2017-11-17 | 贵州大学 | It is automatic to make dragon fruit frame disc mechanism |
Also Published As
Publication number | Publication date |
---|---|
CN110919849B (en) | 2021-02-26 |
CN111015923B (en) | 2021-02-26 |
CN111015923A (en) | 2020-04-17 |
CN108789814B (en) | 2020-02-14 |
CN110919849A (en) | 2020-03-27 |
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