CN205969440U - Take out core element and use its wallboard forming equipment - Google Patents

Abstract

The utility model provides a take out core element and use its wallboard forming equipment, it includes a plurality of sub - components of loosing core to take out core element, the sub - component of loosing core includes a main shaft, around the main shaft setting and be used for forming a plurality of baffles of wallboard hollow structure, the setting is at main epaxial drive arrangement, the interlock mechanism that connects drive arrangement and a plurality of baffles, when the sub - component of loosing core is closed, a plurality of baffles are according to successively leaving with wallboard hollow structure's wall is partial in proper order under drive arrangement's drive, can reduce like this baffle and wallboard hollow structure's wall partial from the time the required resistance of overcoming, thereby reduce the degree of difficulty of loosing core.

Description

Core pulling component and the wall board forming equipment applying it

Technical field

This utility model is related to a kind of core pulling component and the wall board forming equipment applying it.

Background technology

Applicant of the present utility model proposes one in the patent application text of Application No. CN201510221455.0 Kind of core pulling component and the wall board forming equipment applying it, as shown in FIG. 1 to 3, core pulling component 5 include multiple take out core member, Each is taken out core member and includes a main shaft 52, open top setting the bottom by main shaft 52 that top is arranged in adjusting apparatus 51 End is sleeved on folding set, the driving means 7 being sleeved on main shaft 52, arrange around main shaft 52 and connecting driving dress on main shaft 52 Put the folding support bar 55 of 7 and folding set.It is provided with a base plate 58 in the bottom of main shaft 52, fold set and include configuration in this base plate 58 Surrounding the folding baffle 57 that is arranged alternately along its circumference and flexible connecting member 56, and base plate 58, folding baffle 57 and flexible even Fitting 56 this three be tightly connected, and folding baffle 57 is made up of rigid material, flexible connecting member 56 by canvas and rubber combined and The flexible material becoming is made.Driving means 7 are connected with folding support bar 55 by a connecting plate 54, every group of folding support bar 55 by Multiple rod members rotate and connect.As shown in figure 4, the folding baffle 57 in folding set and flexible connecting member 56 also can be by open tops The soft set 5a of setting substitutes, and this soft set 5a is made up of flexible non-elastic material, and it is sleeved on base plate 58 He by the bottom of main shaft 52 On main shaft 52.In addition, each takes out core member also including being placed in the polarized plug 59 folding set bottom, this polarized plug 59 inserts In location hole 102 on shaped platform 101, matched by both and core member is taken out to each position.

During wall board forming, core pulling component moves down with respect to mould under the driving of core pulling member driving mechanism 8 Until multiple take out in the die cavity that core member inserts mould, each takes out the concrete of core member then to pass through adjusting apparatus 51 adjustment Position simultaneously makes each take out the polarized plug 59 in core member to be insert molded in the location hole 102 on platform 101.Then, drive Device 7 promotes folding support bar 55 along main shaft 52 slide downward, makes folding support bar 55 be in open mode, is propped up by this folding Strut 55 Foldable set is opened, and limits the hollow structure of wallboard by this folding set.On the contrary, needing after wall board forming to take out During core, driving means 7 tractive folding support bar 44, along main shaft 52 upward sliding, makes folding support bar 55 be in folded state, Drawn close towards main shaft 52 by this folding support bar 55 Foldable set, then take out core member and be in closure state, folding set Form gap between outer surface and the hole wall of template.Then, core pulling component under the driving of core pulling member driving mechanism 8 with respect to Mould moves up makes polarized plug 59 extract from the location hole 102 shaped platform 101, and until multiple take out core member Extract out from the die cavity of mould.

Core member of taking out shown in Fig. 2～Fig. 4 mainly to be realized departing from wallboard endoporus using a step shrinkage method, so holds Easily increase and take out the outer surface of core member and the separating difficulty of wallboard hole wall, even result in produced wallboard and scrap.In consideration of it, Applicant of the present utility model has carried out improving it is proposed that a kind of new core pulling component to above-mentioned core member of taking out.

Utility model content

In view of this, main purpose of the present utility model is, provides a kind of core pulling component that can reduce core pulling difficulty And apply its wall board forming equipment.

For reaching above-mentioned purpose, the utility model proposes a kind of core pulling component for wall board forming equipment, described take out Core component include multiple take out core member, described take out core member include a main shaft, around described main shaft setting and in order to be formed Multiple baffle plates of wallboard hollow structure, the driving means being arranged on described main shaft, connect described driving means with the plurality of The interlinked mechanism of baffle plate, described take out core member close when, the plurality of baffle plate under the driving of described driving means according to Sequencing is separated with the wall portion of described wallboard hollow structure.

By upper, described take out core member and close when, the plurality of baffle plate is under the driving of described driving means according to elder generation Order is separated with the wall portion of described wallboard hollow structure afterwards, and that is, the plurality of baffle plate mainly adopts many step separations (here many Step is at least two steps) realize taking out core member and separating with the hole wall of wallboard hollow structure, so can reduce described baffle plate and wall The required resistance the overcoming when wall portion of plate hollow structure separates, thus reducing core pulling difficulty, to guarantee the smooth of core pulling component Extract out, to solve the problems, such as the core pulling of the insertion component of the manufacturing equipment of prefabricated large area building hollow wall panel.

Preferably, the plurality of baffle plate is symmetrical arranged around described main shaft, described take out core member close when, be in Multiple baffle plates of one symmetrical relationss are synchronously separated with the wall portion of described wallboard hollow structure under the driving of described driving means； The multiple baffle plates being in different symmetrical relationss are tied with described wallboard hollow according to sequencing under the driving of described driving means The wall portion of structure separates.

By upper, described take out core member and close when, the multiple baffle plates being in same symmetrical relationss are in described driving means Driving under synchronously separate with the wall portion of described wallboard hollow structure, the multiple baffle plates being in different symmetrical relationss are in described drive Separate with the wall portion of described wallboard hollow structure according to sequencing under the driving of dynamic device, so, it is possible to make the plurality of gear Plate is regularly separated with the wall portion of wallboard hollow structure in a organized way, thus reducing core pulling difficulty, to guarantee the suitable of core pulling component Profit is extracted out and is ensured the Forming Quality of wallboard.

Preferably, the plurality of baffle plate includes symmetrically arranged at least two first baffles and second baffle, and described First baffle and second baffle are arranged alternately around described main shaft, described take out core member close when, described first baffle/the Two baffle plates are had precedence over described second baffle/first baffle and are separated with the wall portion of described wallboard hollow structure.

By upper, described take out core member and close when, described first baffle/second baffle have precedence over described second baffle/ First baffle is separated with the wall portion of described wallboard hollow structure, so can reduce first baffle/second baffle and wallboard hollow The required resistance the overcoming when wall portion of structure separates, is separated thus reducing and taking out core member with the wall portion of wallboard hollow structure Difficulty, to ensure that core pulling component smoothly extracts out.

Preferably, the plurality of baffle plate is four, including two opposite in a first direction first baffles with the Opposite two second baffles on two directions, and described first direction is vertical with second direction, takes out core member described Beat opening/closing when, described two first baffles along described first direction dorsad/move towards, described two second baffles are along institute State second direction dorsad/move towards.

Preferably, the upper and lower ends in described first baffle and second baffle are respectively equipped with roller.

Preferably, described first baffle and second baffle are made by rigid material, and beat in described core member of taking out When opening, adjacent described first baffle and second baffle form spliced connection.

By upper, because described first baffle and second baffle are made by rigid material, can preferably keep out slurry institute The huge hydrostatic pressure being formed, preferably to limit the hollow structure of wallboard.

Preferably, the edge of adjacent described first baffle and second baffle passes through snap fastener, push-pull structure, adsorbing mechanism In arbitrary formation spliced connection.

By upper, because the edge of adjacent described first baffle and second baffle is by snap fastener, push-pull structure, adsorption machine The spliced connection of arbitrary formation in structure, described take out core member and beat opening/closing when, facilitate described first baffle and second baffle Formed and connect/disconnect.

Preferably, described interlinked mechanism include connecting described first baffle and described driving means the first interlinked mechanism and Connect the second interlinked mechanism of described second baffle and described driving means, described first interlinked mechanism includes being sleeved on described master The first contiguous block on axle, for install the first support bar of first baffle, two ends respectively with described first contiguous block and first Support bar rotates the first connecting rod connecting；Described second interlinked mechanism includes the second contiguous block, the use being sleeved on described main shaft Rotate second being connected in the second support bar of fixing second baffle, two ends with described second contiguous block and second support bar respectively Connecting rod；Described first contiguous block and the second contiguous block are in transmission connection with described driving means respectively, and both are in described driving The driving of device is lower to move along the axial reciprocating of described main shaft.

By upper, when needing core pulling after wall board forming, under the driving of driving means, described first contiguous block passes sequentially through One connecting rod, first support bar drive first baffle to move towards near the direction of main shaft, make described first baffle and wallboard hollow The wall portion of structure separates；Under the driving of driving means, described second contiguous block passes sequentially through second connecting rod, second support bar band Dynamic second baffle moves towards near the direction of main shaft, so that described second baffle and the wall portion of wallboard hollow structure is separated.

Preferably, described first support bar and second support bar are axially vertically disposed each parallel to described main shaft, described First contiguous block and first connecting rod are multiple and along described main shaft axially spaced-apart setting, and described second contiguous block and second is even Bar is multiple and along described main shaft axially spaced-apart setting.

By upper, due to described first contiguous block, first connecting rod, the second contiguous block and second connecting rod be multiple and along described The axially spaced-apart setting of main shaft, so, it is possible to make described first baffle and second baffle stress equalization, takes out core member described When beating opening/closing, ensure that the kinetic stability of described first baffle and second baffle, and then reduce core pulling difficulty and guarantee The Forming Quality of wallboard.

Preferably, described the axially arranged locating rod that core member also includes parallel to described main shaft, this locating rod are taken out Axially penetrate through the base plate being fixed on described main shaft bottom along described main shaft, by this locating rod from the extension structure of described base plate Become polarized plug.

Preferably, described driving means are hydraulic press, and multiple described core member of taking out are by same hydraulic press unified driving.

By upper, multiple directions of motion taking out core member, speed etc. can be made to be consistent, to ensure multiple to take out core member Keep synchronous operation.

This utility model also proposed a kind of wall board forming equipment, including the mould in order to form die cavity, core pulling component, takes out Core component drive mechanism, described core pulling component includes being fixed on to be inserted on described core pulling member driving mechanism, during wall board forming Enter in described die cavity and be in open mode to limit the hollow structure of wallboard, to be in closure state with from institute after wall board forming State extract out in die cavity multiple and take out core member, described take out core member be aforementioned any one of take out core member.

Brief description

Fig. 1 is the overall schematic of wall board forming equipment；

Fig. 2 is the schematic diagram of core pulling component in prior art, is first embodiment；

Fig. 3 is the top view of core pulling component shown in Fig. 2；

Fig. 4 is the schematic diagram of core pulling component in prior art, is second embodiment；

Fig. 5 is the schematic diagram of this utility model first drive mechanism, eliminates first baffle；

Fig. 6 is the schematic diagram of this utility model second drive mechanism, eliminates second baffle；

Fig. 7 takes out the schematic top plan view of core member for this utility model.

Specific embodiment

Referring to Fig. 1, Fig. 5～Fig. 7 to core pulling component described in the utility model and the wall board forming equipment of applying it Specific embodiment be described in detail.

As shown in figure 1, wall board forming equipment mainly includes forming the mould of die cavity, drives this mould to carry out open/close During the mould drive mechanism 9 of mould, wall board forming insertion die cavity in limit the hollow structure of wallboard core pulling component 5, This core pulling component 5 is driven to insert the core pulling member driving mechanism 8 of die cavity/extract out and this core pulling component 5 positioned from die cavity, And passive support meanss 11 and the wallboard moving-out device 10 in order to transfer the wallboard after molding.Wall board forming equipment The full-automatic feed proportioning system 1 that also includes being sequentially communicated, fully automatic feeding blender 2, flexible pipe pumping machine 3, and connection peristaltic pump The sewage that the discharging channel 41 that machine 3 is connected with feeding-passage 4 with the feeding-passage 4 of die cavity is connected with this discharging channel 41 is sent to receive Collection and processing meanss 13.In addition, wall board forming equipment also includes a PLC full-automatic control system 12.

As shown in figure 1, mould includes a pair of template 6 of opposite and vertical type setting, be placed between this pair of template 6 and Wall board forming platform 101 positioned at bottom, it is placed in aforementioned a pair of template 6 two ends and realizes this pair of mould during wall board forming The connection member that plate two ends are tightly connected, by aforementioned a pair of template 6, wall board forming platform and connection member jointly surround with advance The corresponding die cavity of the overall dimensions of wallboard processed.In the present embodiment, wall board forming platform 101 is arranged on wallboard moving-out device 10 On, this wall board forming platform 101 is provided with multipair with following core pulling components 5 on the location hole that matches of polarized plug 59 102.

Feeding-passage 4 is a pair and is symmetricly set on the bottom of an aforementioned template 6, and correspondingly, discharging channel 41 is also one To and be symmetricly set on the bottom of an aforementioned template 6, and be located at the feeding-passage 4 of homonymy and be connected with discharging channel 41 like formation One whole passage.Wherein, bidirectional feed valve 42 is provided with feeding-passage 4, using this structure, when the wallboard of molding reaches During to the height setting, or in the state of emergency, flexible pipe pumping machine 3 can also be according to PLC full-automatic control system 12 Instruction delivers to waste tank, recycle and reuse remaining or slurry to be discarded by waste material tube pump.Further, since feeding-passage 4 bottoms being arranged on a template 6, during wall board forming, curable slurry injects from the bottom of mould, can make full use of The gravity of slurry itself and attraction of gravitation effectively reduce the generation of bubble, make the body of wall that is molded into and floor more closely knit, uniform.

As shown in figure 1, the portal frame 112 extending to above mould is provided with support meanss 11, core pulling member drives machine Structure 8 is arranged on this portal frame 112, and it is mainly made up of positioning and lift system, and this core pulling member driving mechanism 8 also includes using To adjust the adjusting apparatus 51 of following multiple positions taking out core member of core pulling component 5.Core pulling component 5 includes being fixed on core pulling On member driving mechanism 8, during wall board forming insertion die cavity in and be in open mode with limit wallboard hollow structure, It is in closure state after wall board forming and take out core member with the multiple of extraction from die cavity.

As shown in Fig. 5～Fig. 7, each is taken out core member and includes a main shaft 52, the set that top is arranged in adjusting apparatus 51 It is contained in the driving means 7 on this main shaft 52, the lower section in driving means 7 is close to be set with and fix a connecting plate on main shaft 52 54, fix a base plate 58 in the bottom of main shaft 52.Be symmetrical arranged in left-right direction between connecting plate 54 and base plate 58 live apart in A pair of locating rod 59a of main shaft 52 both sides, this pair of locating rod 59a is entirely parallel with the axially arranged of main shaft 52, their top End is fixed on connecting plate 54, and their bottom axially penetrates through base plate 58, by this pair of locating rod 59a from base plate along main shaft 52 58 extension constitutes polarized plug 59, and this polarized plug 59 inserts in the location hole 102 on aforementioned shaped platform 101, leads to Cross both and match and core member is taken out to each position.

On main shaft 52 and aforementioned a pair of locating rod along their axial direction be set with successively from top to bottom at equal intervals and according to Secondary multiple first contiguous blocks 141 being arranged alternately and the second contiguous block 142, and in the first contiguous block 141 He being arranged in pairs In second contiguous block 142, the latter is placed in the former top.Wherein, the first contiguous block 141 and the second contiguous block 142 are opened respectively If three through holes in left-right direction, the first contiguous block 141 and the second contiguous block 142 are respectively by intermediate throughholes configuration thereon On main shaft 52, in this utility model, the first contiguous block 141 and the second contiguous block 142 are driven even with driving means 7 respectively Connect, both can move along the axial reciprocating of main shaft 52 under the driving of driving means 7.For example and without limitation, the present embodiment In, main shaft 52 is an oil compression rod, and driving means 7 are a hydraulic press, changes the hydraulic pressure on oil compression rod using hydraulic press and drives respectively Dynamic first contiguous block and the second contiguous block move up and down along main shaft 52；On first contiguous block 141 and the second contiguous block 142 in addition Two through holes are resigning hole, run through use mainly for following a pair of locating rod.

As shown in figure 5, be respectively symmetrically at the left and right two ends of each the first contiguous block 141 being provided with a pair of first connecting rod 143, The left and right sides of the first contiguous block 141 is arranged with a pair of first support bar 144, and this pair of first support bar 144 is parallel Axially arranged in main shaft 52.Taking positioned at the first connecting rod 143 of homonymy and first support bar 144 as a example, the one of first connecting rod 143 End is rotated with the first contiguous block 141 and is connected, and its other end is rotated with first support bar 144 and is connected.Aforementioned a pair first First baffle 145 is separately installed with strut 144, this pair of first baffle 145 is axially arranged parallel to main shaft 52 Curved circular panel piece (similar with the vertical section of periphery), and both are opposite in the lateral direction.In first gear The upper and lower ends of plate 145 are separately installed with the first roller 145a axially arranging along the longitudinal direction.By aforementioned first contiguous block 141st, first connecting rod 143, first support bar 144 constitute the first interlinked mechanism described in the utility model.

Similarly, it is provided with a pair along main shaft as shown in fig. 6, being respectively symmetrically at the left and right two ends of each the second contiguous block 142 The auxiliary contiguous block 142a of 52 axially arranged strip, is respectively equipped with the in the upper and lower ends of each auxiliary contiguous block 142a Two connecting rods 146.It is respectively symmetrically in the left and right sides of the second contiguous block 142 and be provided with a pair of second support bar 147, these second supports Bar 147 is also axially arranged parallel to main shaft 52, and is located at a pair of second support bar 147 of homonymy and is spaced along the longitudinal direction and sets Put., positioned at auxiliary contiguous block 142a upper end second connects taking positioned at the second connecting rod 146 of homonymy and second support bar 147 as a example One end of bar 146 is rotated with this auxiliary contiguous block 142a and is connected, and its other end is rotated with the second support bar 147 positioned at front side Connect；The one end of second connecting rod 146 being located at auxiliary contiguous block 142a lower end is connected with this auxiliary contiguous block 142a rotation, it The other end is rotated with the second support bar 147 positioned at rear side and is connected.Put being provided with a pair of second support bar of front side In a second baffle 148 of front side, the second baffle being placed in rear side is being provided with a pair of second support bar of rear side 148, this pair of second baffle 148 is the axially arranged Curved circular panel piece parallel to main shaft 52, and both are front Opposite in rear direction.It is separately installed with the second roller axially arranging in left-right direction in the upper and lower ends of second baffle 148 148a.This practicality is constituted newly by aforementioned second contiguous block 142, auxiliary contiguous block 142a, second connecting rod 146, second support bar 147 The second interlinked mechanism described in type.

As shown in fig. 7, first baffle 145 and second baffle 148 are arranged alternately around main shaft 52, it is in taking out core member During open mode, the edge of adjacent first baffle 145 and second baffle 148 passes through such as snap fastener, push-pull structure, adsorption machine In structure etc., arbitrary coupling assembly forms spliced connection, first baffle 145, second baffle 148 and base plate 58 or wall board forming Platform 101 is tightly connected the cylinder jointly surrounding an open top, is limited the hollow structure of wallboard by this cylinder.Its In, first baffle 145 and second baffle 148 are made by rigid material, and it mainly plays a supportive role, and is used for keeping out slurry institute shape The huge hydrostatic pressure becoming, preferably to limit the hollow structure of wallboard.

During wall board forming, core pulling component moves down with respect to mould under the driving of core pulling member driving mechanism 8 Until multiple take out in the die cavity that core member inserts mould, each takes out the concrete of core member then to pass through adjusting apparatus 51 adjustment Position simultaneously makes each take out the polarized plug 59 in core member to be insert molded in the location hole 102 on platform 101.Then, PLC is complete Automatic control system 12 sends, to driving means 7, the control signal making baffle plate open, and this driving means 7 promotes the first connection simultaneously , along main shaft 52 slide downward, the first contiguous block 141 promotes first by first connecting rod 143 for block 141 and the second contiguous block 142 Strut 144 dorsad moves in left-right direction, and then promotes first baffle 145 (to constitute described in the utility model the in left-right direction One direction) dorsad move；Second contiguous block 142 promotes second support bar by auxiliary contiguous block 142a by second connecting rod 146 147 (constitute second direction described in the utility model) along the longitudinal direction dorsad moves, and then promotes second baffle 148 along front and back To dorsad moving, first baffle 145 and second baffle 148 is made to form spliced connection, by first baffle 145, second baffle 148 And base plate 58 or wall board forming platform 101 surround the cylinder of an open top, to be limited in wallboard by this cylinder Hollow structure, then now take out core member and be in open mode.

On the contrary, when needing core pulling after wall board forming, PLC full-automatic control system 12 sends to driving means 7 and makes first The control signal of flapper closure, this driving means 7 drives the first contiguous block 141 along main shaft 52 upward sliding first, and first even Connect block 141 pass sequentially through first connecting rod 143, first support bar 144 drive first baffle 145 move towards in left-right direction, make First baffle 145 is first separated with the hole wall of wallboard；Then, PLC full-automatic control system 12 sends to driving means 7 and makes second gear The control signal that plate 148 is closed, this driving means 7 drives the first contiguous block again along main shaft 52 upward sliding, the second contiguous block 142 pass sequentially through second connecting rod 146 by auxiliary contiguous block 142a, second support bar 147 drives second baffle 148 along front and back To moving towards, so that second baffle 148 is separated with the hole wall of wallboard, then now take out core member and be in closure state, first Form gap between the outer surface of baffle plate 145 and second baffle 148 and wallboard hole wall.Then, core pulling component drives in core pulling component Move up with respect to mould under the driving of motivation structure 8 and so that polarized plug 59 is pulled out from the location hole 102 shaped platform 101 Go out, and until multiple core member of taking out are extracted out from the die cavity of mould.

Combine said structure referring to Fig. 1, Fig. 5～Fig. 7 to describe, to the use preparing wallboard using wall board forming equipment Method carries out simple illustration, and the production process of whole wallboard is by program set in advance by PLC full-automatic control system 12 Carry out.

Step 1. is dropped to core pulling component 5 in mould using core pulling member driving mechanism 8, and makes each take out core member The polarized plug 59 of bottom is insert molded in the location hole 102 on platform 101 to position, and is then made multiple using driving means 7 Take out core member and be in open mode；

Step 2. mould completes die closing operation；

Each material is mixed in proportion by the full-automatic feed proportioning system of step 3. 1 according to the wallboard of required production, and according to Feeding program and speed each material are input in fully automatic feeding blender 2 and are stirred, and form nano-scale fiber lightweight high Curable composite mortar by force, raw material is curable compound here, by gypsum based composite or cement-based mixture and Formed with nanoscale whisker fibre；

After being stirred to expected mixed effect, flexible pipe pumping machine 3 have received after beginning pumping signal step 4., two-way enter Material valve 42 is opened and waste discharge material valve closing；

Step 5. pumps, by the frequency setting and speed, the nanometer having mixed using flexible pipe pumping machine 3 toward in mold cavity The level curable composite mortar of fiber high-strength light；

Step 6. is worked as after the injected curable composite mortar of nano-scale fiber high-strength light reaches curdled appearance, using drive Dynamic device 7 makes multiple core member of taking out be in closure state, make the outer surface of the first baffle of core pulling component and second baffle with The hole wall of the wallboard of solidification separates；

Core pulling component 5 is up lifted by step 7. using core pulling member driving mechanism 8, makes the sub- member bottom section of each core pulling Polarized plug 59 departs from the location hole 102 on shaped platform 101, then proceeding to move until extracting out in die cavity, making to own Take out core member to depart from wallboard；

Step 8. mould completes die sinking, the demoulding, and in type wallboard stands upright on wallboard moving-out device 10；

Step 9. removes complete equipment using 10 wallboards of wallboard moving-out device, completes a production cycle of wallboard.Often The individual production cycle takes about 40 minutes.

After step 5, also include a step synchronous with remaining step, as, after the completion of slurry quantitatively pumps, two-way Material inlet valve 42 is closed and waste material valve port is opened, and fully automatic feeding blender 2 starts water cleaning procedure with washing hose pump simultaneously Send the slurry in machine 3, the waste water in flexible pipe pumping machine 3 is discharged in sewage collecting and processing meanss 13 through discharging channel 41 and carries out Reuse after filtration, form a perfect production cycle cycle.

In addition, before step 3, also include a step, as, releasing agent is put on mould, this releasing agent is used for Wallboard is made easily to remove from mould.

Above-mentioned wall board forming equipment is suitable for manufacturing large area hollow building bearing wallboard, can produce 30 in the time The 12 meters long * 3 meters high * 130 structure load bearing walls to the thick light weight strong strength water-resisting interior wall of 200mm and exterior wall, its every square metre wallboard Weight only have 65 kilograms, other physical properties are fully achieved and exceed national regulation requirement.Using above-mentioned wall board forming equipment Prepared wallboard has the opposed outer wall in interval interconnecting by the structural portion at multiple intervals, so that between adjacent structure portion Limit cavity respectively, it is the required light weight of modern architecture industrialization, high strong water resistant, fire prevention, insect protected, energy-conserving and environment-protective green Bearing wall and floor, its surfacing is smooth, is not required to plaster and just can paint, is truly realized saving of labor, saves money and building efficiency It is greatly improved.

The core pulling component of above-mentioned wall board forming equipment mainly is realized taking out core member and wallboard hole wall using two-step separation Separation, so that first baffle 145 is moved towards in left-right direction first and separate with wallboard hole wall, then make second baffle 148 again Move towards along the longitudinal direction and separate with wallboard, so can reduce first baffle 145/ second baffle 148 and divide with wallboard hole wall From when the required resistance overcoming, thus reducing the separating difficulty taking out core member and wallboard hole wall, suitable to ensure core pulling component Profit is extracted out, to solve the problems, such as the core pulling of the insertion component of the manufacturing equipment of prefabricated large area building hollow wall panel.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all this Within the spirit of utility model and principle, any modification, equivalent substitution and improvement made etc., should be included in this utility model Protection domain within.

For example, in the above-described embodiments, take out core member and include first baffle opposite in the lateral direction and front Opposite second baffle in rear direction, first baffle and second baffle are arranged alternately around main shaft 52；But be not limited to This, first baffle and second baffle are not limited to a pair of each setting, and first baffle/second baffle also can be respectively around main shaft 52 symmetrically arranged three even more, and first baffle and second baffle be arranged alternately around main shaft 52.

Again for example, in the above-described embodiments, first baffle and second baffle are Curved circular panel piece, by first baffle Surround the cylinder of open top with second baffle, but be not limited to this, first baffle and second baffle also can surround four Square column type, hexagonal prism shape etc., concrete depending on the shape of wallboard hollow structure it should concrete shape according to wallboard hollow structure The structure that said baffle is surrounded does adaptations, and they are identical with foregoing description with the annexation of drive mechanism.

Again for example, in the above-described embodiments, when taking out core member closing, first baffle is excellent under the first drive mechanism drives Separate with wallboard hole wall prior to second baffle, but be not limited to this, second baffle also may be used under the second drive mechanism drives Have precedence over first baffle to separate with wallboard hole wall.If first baffle and second baffle are respectively around main shaft 52 symmetrically arranged three When individual even more, said baffle can be made to separate with wallboard hole wall according to sequencing according to multistep shrinkage method；Or, core pulling Sub- component includes that (N is more than two around the symmetrically arranged first baffle of main shaft 52, second baffle, third baffle even N baffle plate Integer) when, also so that said baffle is separated with wallboard hole wall according to sequencing according to multistep shrinkage method.

Claims (12)

1. a kind of core pulling component for wall board forming equipment, described core pulling component (5) inclusion is multiple to take out core member, its feature It is, described core member of taking out includes a main shaft (52), around described main shaft (52) setting and in order to form wallboard hollow structure Multiple baffle plates, the driving means (7) being arranged on described main shaft (52), connect described driving means (7) with the plurality of gear The interlinked mechanism of plate,

Described take out core member close when, the plurality of baffle plate is under the driving of described driving means (7) according to sequencing Separate with the wall portion of described wallboard hollow structure.

2. core pulling component according to claim 1 is it is characterised in that the plurality of baffle plate is symmetrical around described main shaft (52) Setting, described take out core member and close when, be in the driving in described driving means (7) of multiple baffle plates of same symmetrical relationss Under synchronously separate with the wall portion of described wallboard hollow structure；The multiple baffle plates being in different symmetrical relationss are in described driving means (7) separate with the wall portion of described wallboard hollow structure according to sequencing under driving.

3. core pulling component according to claim 1 and 2 it is characterised in that the plurality of baffle plate include symmetrically arranged extremely Few two first baffles (145) and second baffle (148), and described first baffle (145) and second baffle (148) are around institute State main shaft (52) to be arranged alternately, described take out core member and close when, described first baffle (145)/second baffle (148) is preferential Separate with the wall portion of described wallboard hollow structure in described second baffle (148)/first baffle (145).

4. core pulling component according to claim 3 is it is characterised in that the plurality of baffle plate is four, including in first party Two opposite upwards first baffles (145) and two opposite in a second direction second baffles (148), and described First direction is vertical with second direction,

Described take out core member and beat opening/closing when, described two first baffles (145) along described first direction dorsad/opposite Mobile, described two second baffles (148) along described second direction dorsad/move towards.

5. core pulling component according to claim 3 is it is characterised in that in described first baffle (145) and second baffle (148) upper and lower ends are respectively equipped with roller (145a, 148a).

6. core pulling component according to claim 3 is it is characterised in that described first baffle (145) and second baffle (148) Made by rigid material, and described take out core member and open when, adjacent described first baffle (145) and second baffle (148) form spliced connection.

7. core pulling component according to claim 6 is it is characterised in that adjacent described first baffle (145) and second baffle (148) edge is by the spliced connection of arbitrary formation in snap fastener, push-pull structure, adsorbing mechanism.

8. core pulling component according to claim 3 is it is characterised in that described interlinked mechanism includes connecting described first baffle (145) with the first interlinked mechanism of described driving means (7) and be connected described second baffle (148) and described driving means (7) The second interlinked mechanism,

The first contiguous block (141) that described first interlinked mechanism includes being sleeved on described main shaft (52), it is used for first gear is installed The first support bar (144) of plate (145), two ends are rotated even with described first contiguous block (141) and first support bar (144) respectively The first connecting rod (143) connecing,

The second contiguous block (142) that described second interlinked mechanism includes being sleeved on described main shaft (52), it is used for fixing second gear The second support bar (147) of plate (148), two ends are rotated even with described second contiguous block (142) and second support bar (147) respectively The second connecting rod (146) connecing,

Described first contiguous block (141) and the second contiguous block (142) are in transmission connection with described driving means (7) respectively, and two Person can move along the axial reciprocating of described main shaft (52) under the driving of described driving means (7).

9. core pulling component according to claim 8 is it is characterised in that described first support bar (144) and second support bar (147) axially vertically disposed each parallel to described main shaft (52), described first contiguous block (141) and first connecting rod (143) are all For multiple and along described main shaft (52) axially spaced-apart setting, described second contiguous block (142) and second connecting rod (146) are many Individual and along described main shaft (52) axially spaced-apart is arranged.

10. core pulling component according to claim 1 is it is characterised in that described core member of taking out also is included parallel to described The axially arranged locating rod (59a) of main shaft (52), this locating rod (59a) is fixed on institute along axially penetrating through of described main shaft (52) State the base plate (58) of main shaft (52) bottom, polarized plug is constituted from the extension of described base plate (58) by this locating rod (59a) (59).

11. core pulling components according to claim 1 it is characterised in that described driving means (7) be hydraulic press, Duo Gesuo State and take out core member by same hydraulic press unified driving.

A kind of 12. wall board forming equipment, including the mould in order to form die cavity, core pulling component (5), core pulling member driving mechanism (8), described core pulling component (5) includes being fixed on described core pulling member driving mechanism (8), described in insertion during wall board forming In die cavity and be in open mode to limit the hollow structure of wallboard, to be in closure state with from described die cavity after wall board forming The multiple of middle extraction smoke core member it is characterised in that described core member of smoking is any one of claim 1～11 Take out core member.