CN110919849B - Full-automatic machine is made automatically to building cement baffle - Google Patents

Abstract

The invention discloses a full-automatic building cement baffle plate automatic manufacturing machine, which comprises a fixed base, wherein a machine body is arranged on the fixed base, a plate manufacturing groove is arranged in the machine body, a first conveying groove and a second conveying groove which correspond to the plate manufacturing groove are also arranged on the machine body, supporting steel bars are respectively arranged in the first conveying groove and the second conveying groove, a first sliding groove which is correspondingly communicated with the first conveying groove is arranged in the machine body, a second sliding groove which is correspondingly communicated with the second conveying groove is arranged in the machine body, a sliding push rod is respectively arranged in the first sliding groove and the second sliding groove, the push rods synchronously slide and respectively push against the supporting steel bars, and the sliding of the supporting steel bars can be further pushed through the sliding of the push rods, thereby can push into the system inboard groove with the support reinforcement to the increase of the work load that the manual work caused setting up the support reinforcement has been avoided.

Description

Full-automatic machine is made automatically to building cement baffle

Technical Field

The invention relates to a manufacturing device of a building cement partition plate, in particular to a full-automatic manufacturing machine of the building cement partition plate, and particularly relates to an automatic manufacturing machine of a building sewage draining groove cement partition plate, which can be used for automatically manufacturing the cement partition plate.

Background

Along with the continuous development of urban environment, the continuous improvement of urban infrastructure is further promoted, wherein in the current urban construction, a sewage draining groove is one of common sewage draining facilities, most of the sewage draining grooves are constructed on two sides of a road, so that rainwater gathered on the road can be drained, and the urban inland inundation problem is avoided, wherein a partition plate is arranged at the top of the sewage draining groove, so that the rainwater can flow into the sewage draining groove through the partition plate and can be prevented from falling into the sewage draining groove by pedestrians, wherein in the current partition plate manufacturing process, most of the partition plate manufacturing process is completed through manpower, reinforcing steel bars are required to be arranged in the partition plate manufacturing process, so that the bearing strength of the partition plate can be further increased, although the partition plate manufacturing can be completed by manpower, the workload can be increased due to the arrangement of the reinforcing steel bars in a manual mode, simultaneously because set up the reinforcing bar through artificial mode and will lead to the reduction of baffle bearing strength owing to the positional deviation who sets up to further serious defect that has led to the manufacturing quality of baffle.

Therefore, it is necessary to design a fully automatic machine for manufacturing building cement partition boards to solve the above technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, provides a full-automatic manufacturing machine for a cement partition board for buildings, which can store supporting steel bars through a first conveying groove and a second conveying groove, can further carry out conveying control on the supporting steel bars through the rotation of a conveying rotating wheel, and the sliding of the supporting steel bar can be further controlled through the sliding of the pushing rod, thereby further pushing the supporting steel bars into the plate making grooves, further clamping the molding grooves on the supporting steel bars which are arranged in a crossed and corresponding way by the sliding of the extrusion blocks, and filling the molding grooves with cement, thereby can be further with in the supporting reinforcement parcel to cement to the purpose of the baffle of can further reaching manufacturing has avoided utilizing the artifical supporting reinforcement slope that leads to that makes the baffle and the problem that the baffle intensity reduces that leads to.

The invention is realized by the following technical scheme:

a full-automatic building cement baffle plate automatic manufacturing machine comprises a fixed base, wherein a machine body is arranged on the fixed base, a plate manufacturing groove which is arranged in a square shape is arranged in the machine body, a first conveying groove and a second conveying groove which correspond to the plate manufacturing groove are also arranged on the machine body, the first conveying groove and the second conveying groove are respectively provided with a plurality of supporting steel bars which are arranged side by side and are arranged on the side surfaces of the plate manufacturing groove, the first conveying groove and the second conveying groove are respectively provided with supporting steel bars which are arranged in a stacked mode side by side, a first sliding groove which is correspondingly communicated with the first conveying groove is arranged in the machine body, a second sliding groove which is correspondingly communicated with the second conveying groove is arranged in the machine body, and conveying grooves which correspond to the first conveying groove and the second conveying groove are respectively arranged in the first sliding groove and the second sliding groove, the first sliding groove and the second sliding groove are arranged in a crossed mode, a sliding pushing rod is arranged in each of the first sliding groove and the second sliding groove, the two pushing rods slide synchronously and respectively push and press the supporting reinforcing steel bars, and supporting grooves corresponding to the supporting reinforcing steel bars are arranged on the side faces of the plate making grooves respectively. Can pass through first conveyer trough with the second conveyer trough stores the support bar, can pass through the slip that bulldozes the pole can further promote the slip of support bar to can further propelling movement to system inboard, and can pass through the support groove supports the support bar, thereby can further avoid utilizing the increase of the artifical work load that sets up cement and cause.

The two sides of the first conveying groove and the second conveying groove are respectively provided with two corresponding clamping rotating conveying rotating wheels, the two corresponding clamping rotating wheels are used for conveying the supporting steel bars in a rotating mode, one side of the first conveying groove and one side of the second conveying groove are respectively provided with a fifth rotating shaft rotating in the machine body, the fifth rotating shafts respectively drive the conveying rotating wheels to rotate, the fifth rotating shafts are respectively provided with a control rotating wheel, and the sliding of the pushing and pressing rod respectively controls the rotation of the control rotating wheels. The conveying rotating wheel can be further driven to rotate by the sliding of the pushing rod, so that the sliding of the supporting steel bars can be further controlled, and the supporting steel bars can be automatically controlled.

The machine body is also internally provided with a third chute correspondingly communicated with the plate making groove, a sliding extrusion block is arranged in the third chute, a cement cavity is arranged in the extrusion block, the extrusion block is also provided with a forming groove correspondingly communicated with the cement cavity, the forming groove corresponds to the supporting steel bars which are arranged in a crossed and corresponding manner, and the machine body is also provided with a first rotating shaft for controlling the extrusion block to slide. Can pass through the rotation of first pivot can be further drive the slip of extrusion piece to can be further utilize the shaping groove to carry out corresponding joint with the supporting bar that alternately corresponds the setting, thereby can be in the supporting bar joint shaping inslot, and can carry out the canning of cement to the shaping groove, thereby can be further reach the purpose of making the baffle, avoided the supporting bar skew that the artificial manufacturing baffle caused and the problem that the bearing capacity that leads to descends, further assurance is to the manufacturing quality of baffle.

The fixed base is provided with a sixth sliding groove correspondingly communicated with the plate making groove, a sliding supporting sliding block is arranged in the sixth sliding groove, the supporting sliding block is provided with a sliding plate corresponding to the plate making groove, four corners of the supporting sliding block are respectively provided with a sliding first jacking block, and the supporting sliding block is provided with a first rotating rod for controlling the sliding of the first jacking block. Can can be further through the rotation of first bull stick the slip of first top briquetting to can be further control the slip of support slider, thereby can be further with the slide roof pressure to make the board inslot, thereby can be further utilize the slide to support the fashioned cement baffle of manufacturing, thereby conveniently take.

Furthermore, both sides of the first sliding groove and the second sliding groove respectively comprise a seventh sliding groove arranged on the machine body, both sides of the first sliding groove are respectively provided with a first threaded rotating shaft which rotates in the seventh sliding groove, both sides of the second sliding groove are respectively provided with a second threaded rotating shaft which rotates in the seventh sliding groove, a sliding second sliding block is respectively arranged in the seventh sliding groove, the second sliding block is respectively provided with a threaded hole which is correspondingly engaged and connected with the first threaded rotating shaft and the second threaded rotating shaft, the pushing rod is respectively correspondingly connected with the second sliding blocks on both sides, the end parts of the first threaded rotating shaft and the second threaded rotating shaft are respectively provided with a corresponding first chain disc, and the two first chain discs are correspondingly connected through a first chain respectively, the machine body is internally provided with a second rotating shaft corresponding to one of the first threaded rotating shafts, the machine body is provided with a third rotating shaft corresponding to one of the second threaded rotating shafts, the second rotating shaft and the first threaded rotating shaft are respectively provided with a third bevel gear correspondingly meshed and connected with each other, the third rotating shaft and the second threaded rotating shaft are respectively provided with a first bevel gear correspondingly meshed and connected with each other, the second rotating shaft and the third rotating shaft are respectively provided with a second bevel gear correspondingly meshed and connected with each other, and the machine body is internally provided with a second motor driving one of the first threaded rotating shafts to rotate.

Further, a circle of second clamping grooves which are correspondingly arranged are respectively arranged on the conveying rotating wheels, the second clamping grooves are respectively arranged in a semicircular shape, two corresponding first rotating grooves are respectively arranged on two sides of the first conveying groove and the second conveying groove, a fourth rotating shaft which rotates in the machine body is respectively arranged on two sides of the first conveying groove and the second conveying groove, the conveying rotating wheels are respectively and correspondingly connected to the fourth rotating shaft, a first gear which is correspondingly meshed and connected is respectively arranged at the end part of the fourth rotating shaft arranged on two sides of the first conveying groove and the second conveying groove, a fourth bevel gear which is correspondingly meshed and connected is respectively arranged on the fifth rotating shaft and the fourth rotating shaft, a control sliding block which corresponds to the control rotating wheel is respectively arranged on the pushing rod, and a circle of first clamping grooves are respectively arranged on the control rotating wheel, the control mechanism is characterized in that the control slide block is provided with an eighth slide groove respectively, the eighth slide grooves are arranged in a T shape respectively, a sliding first slide shaft is arranged in each eighth slide groove, each first slide shaft is connected with a second jacking block, each eighth slide groove is internally provided with a first spring for springing the first slide shaft, each second jacking block is clamped with the corresponding first clamping groove respectively, one end of each second jacking block is provided with a sliding cambered surface in an arc shape respectively, each second rotary groove is internally provided with a springing sheet corresponding to the corresponding first clamping groove, and the machine body is provided with a conveying groove for supporting the control slide block and the second jacking block to slide.

Further, be provided with in the organism one with the fourth spout of the corresponding intercommunication of third spout, the fourth spout is the T type setting, be connected with one in the first pivot the rotation head of fourth spout internal rotation, be provided with a fifth spout on the rotation head, be connected with a first depression bar on the extrusion piece, be provided with one on the first depression bar and be in gliding first slider in the fifth spout, first slider with be provided with the thread groove that corresponding meshing is connected in the fifth spout respectively, it advances the pipe to be provided with a cement in the organism, be connected with on the extrusion piece one with the cement hose of the corresponding intercommunication in cement chamber, the cement hose with the corresponding intercommunication in cement advances the pipe, still be provided with a first motor drive's puddler in the cement chamber.

Furthermore, the four corners of the supporting slide block are respectively provided with a ninth sliding chute for supporting the first jacking block to slide, the supporting slide block is respectively provided with a first sliding hole correspondingly communicated with the ninth sliding chute, the first jacking block is respectively connected with a third threaded rotating shaft sliding in the first sliding hole, the supporting slide block is respectively provided with a third rotating groove correspondingly communicated with the first sliding hole, the third rotating groove is respectively provided with a rotating first rotating disc, the first rotating disc is respectively provided with a first threaded hole correspondingly engaged and connected with the third threaded rotating shaft, the first rotating disc is respectively provided with a second chain disc, the four second chain discs are correspondingly connected through a second chain, and the machine body is also internally provided with a sixth rotating shaft correspondingly arranged with the first rotating rod, and the first rotating rod and the sixth rotating shaft are respectively provided with a fifth bevel gear correspondingly connected with each other in a meshed manner, and the sixth rotating shaft is provided with a third chain disc correspondingly connected with the second chain in a meshed manner.

Furthermore, the conveying grooves are respectively arranged in a semicircular shape, the side surfaces of the plate making grooves are respectively provided with a tenth sliding groove arranged on the machine body, a sliding third sliding block is respectively arranged in the tenth sliding groove, the supporting grooves are respectively arranged on the third sliding blocks, the supporting grooves are respectively used for supporting the supporting steel bars, the machine body is respectively provided with a pull rod for pulling the third sliding block to slide, and the tenth sliding groove is respectively provided with a second spring for elastically pressing the third sliding block.

Compared with the prior art, the invention has the beneficial effects that: the supporting steel bars can be supported through the first conveying groove and the second conveying groove, so that the supporting steel bars can be further conveyed through the first conveying groove and the second conveying groove and can be further conveyed into the first sliding groove and the second sliding groove, the supporting steel bars can be further pushed to slide through the sliding of the pushing and pressing rod, the supporting steel bars can be further pushed into the plate making grooves, the supporting steel bars can be further in a cross corresponding connection state and are arranged in a grid shape, the trouble caused by manual arrangement of the supporting steel bars is avoided, and the workload is further reduced;

the support steel bars can be further controlled to slide by the rotation of the conveying rotating wheel, and the support steel bars can be further pushed by the sliding of the push rod and the rotation of the conveying rotating wheel can be further controlled, so that the automatic conveying of the support steel bars can be further controlled;

the sliding of the extrusion block can be further controlled through the rotation of the first rotating shaft, so that the forming grooves can be further clamped with the supporting steel bars which are arranged in a crossed and corresponding mode, the supporting steel bars can be arranged in the forming grooves, the supporting steel bars can be further wrapped through canning of cement in the forming grooves, the purpose that the supporting steel bars are wrapped in the cement can be achieved, the problem that the strength of the partition plate is reduced due to the fact that the supporting steel bars are offset due to the fact that the steel bars are manually arranged can be further avoided, and the manufacturing quality of the partition plate can be further guaranteed;

can pass through the up-and-down slip that supports the slider can be further drive the slip of slide to can pass through slide and shaping groove carry out corresponding being connected, can guarantee the normal manufacturing of baffle, and can be further convenient take the baffle.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of an automatic manufacturing machine for a building cement partition board according to an embodiment of the present invention.

FIG. 2 is a top view of the whole structure of the automatic manufacturing machine for building cement partition boards in the embodiment of the invention.

Fig. 3 is a schematic view of an overall structure of the first conveying chute and the first sliding chute according to the embodiment of the present invention.

Fig. 4 is a schematic view of the overall structure of the conveying wheel according to the embodiment of the present invention.

Fig. 5 is a schematic structural view of a conveying wheel according to an embodiment of the present invention.

FIG. 6 is a schematic view of an overall structure of a control wheel according to an embodiment of the present invention.

FIG. 7 is a schematic view of the overall structure of an extrusion block according to an embodiment of the present invention.

Fig. 8 is a schematic view of an overall structure of a third slider according to an embodiment of the present invention.

FIG. 9 is a schematic view of an overall structure of a supporting slider according to an embodiment of the present invention.

FIG. 10 is a top view of the overall structure of a support slide according to an embodiment of the present invention.

In the figure: 1 fixed base, 2 machine body, 3 first conveying groove, 4 first chute, 5 supporting reinforcing steel bar, 6 pushing rod, 7 second chute, 8 plate making groove, 9 third chute, 10 extruding block, 11 cement cavity, 12 stirring rod, 13 first motor, 14 first pressure rod, 15 cement hose, 16 cement inlet pipe, 17 fourth chute, 18 rotating head, 19 fifth chute, 20 first slide block, 21 first rotating shaft, 22 sixth chute, 23 supporting slide block, 24 slide plate, 25 first top press block, 26 first rotating rod, 27 second conveying groove, 28 seventh chute, 29 first threaded rotating shaft, 30 second threaded rotating shaft, 31 first chain plate, 32 first chain, 33 second rotating shaft, 34 third rotating shaft, 35 first bevel gear, 36 second bevel gear, 37 third bevel gear, 38 second motor, 39 second slide block, 40 conveying wheel, 41 fourth rotating shaft, 42 fifth rotating shaft, 43 control rotating wheel, 44 control slide block, 45 first rotating groove, 46 conveying groove, 47 first gear, 48 fourth bevel gear, 49 second rotating groove, 50 first clamping groove, 51 elastic sheet, 52 eighth sliding groove, 53 first sliding shaft, 54 second top pressing block, 55 sliding arc surface, 56 first spring, 57 second clamping groove, 58 forming groove, 59 first sliding hole, 60 third threaded rotating shaft, 61 third rotating groove, 62 first rotating disc, 63 first threaded hole, 64 ninth sliding groove, 65 second chain disc, 66 second chain, 67 sixth rotating shaft, 68 fifth bevel gear, 69 third chain disc, 70 supporting groove, 71 tenth sliding groove, 72 third slide block, 73 second spring and 74 pull rod.

Detailed Description

As shown in fig. 1 to 10, a full-automatic building cement partition board automatic manufacturing machine comprises a fixed base 1, a machine body 2 is arranged on the fixed base 1, a square plate making groove 8 is arranged in the machine body 2, a first conveying groove 3 and a second conveying groove 27 corresponding to the plate making groove 8 are also arranged on the machine body 2, the first conveying groove 3 and the second conveying groove 27 are respectively provided with a plurality of supporting steel bars 5 which are arranged side by side and are respectively arranged on the side surfaces of the plate making groove 8, the first conveying groove 3 and the second conveying groove 27 are respectively provided with supporting steel bars 5 which are piled up side by side, a first chute 4 corresponding to and communicated with the first conveying groove 3 is arranged in the machine body 2, a second chute 7 corresponding to and communicated with the second conveying groove 27 is arranged in the machine body 2, conveying grooves 46 corresponding to the first conveying grooves 3 and the second conveying grooves 27 are formed in the first sliding groove 4 and the second sliding groove 7 respectively, the first sliding groove 4 and the second sliding groove 7 are arranged in a crossed mode, a sliding pushing rod 6 is arranged in the first sliding groove 4 and the second sliding groove 7 respectively, the two pushing rods 6 slide synchronously and respectively push and press the supporting steel bars 5, and supporting grooves 70 corresponding to the supporting steel bars 5 are formed in the side faces of the plate making groove 8 respectively.

The fixed base 1 is provided with a machine body 2, the machine body 2 is internally provided with a plate making groove 8, the plate making groove 8 is arranged in a square shape, the machine body 2 is also provided with a first conveying groove 3 and a second conveying groove 27, the first conveying groove 3 and the second conveying groove 27 are respectively provided with a plurality of grooves with corresponding intervals, the number of the first conveying groove 3 and the second conveying groove 27 can be set according to the design requirement, the first conveying groove 3 and the second conveying groove 27 are respectively arranged on the side surface of the plate making groove 8, the plate making groove 8 is arranged in a square shape, the first conveying groove 3 and the second conveying groove 27 are respectively arranged on two side surfaces of the plate making groove 8, supporting steel bars 5 are respectively arranged in the first conveying groove 3 and the second conveying groove 27, so that the supporting steel bars 5 can be placed in the first conveying groove 3 and the second conveying groove 27, the supporting steel bars 5 can be stacked in the first conveying groove 3 and the second conveying groove 27, a first chute 4 is arranged in the machine body 2, the first chute 4 is correspondingly communicated with the first conveying grooves 3 which are arranged side by side, the first chute 4 is correspondingly communicated with the plate making groove 8, a second chute 7 is further arranged in the machine body 2, the second chute 7 is correspondingly communicated with the second conveying grooves 27 which are arranged side by side, the second chute 7 is correspondingly communicated with the plate making groove 8, conveying grooves 46 which are arranged on the machine body 2 are respectively arranged in the first chute 4 and the second chute 7, the positions of the conveying grooves 46 are respectively corresponding to the first conveying groove 3 and the second conveying groove 27, so that the supporting steel bars 5 can further accurately fall into the conveying grooves 46, the first sliding chute 4 and the second sliding chute 7 are respectively communicated with the plate making groove 8 correspondingly and are arranged in a crossed manner, so that the supporting bars 5 sliding in the conveying grooves 46 can be further cross-coupled correspondingly, a sliding push rod 6 is respectively arranged in the first sliding chute 4 and the second sliding chute 7, so that the supporting bars 5 can be further pushed by the pushing rods 6, and the supporting bars 5 can be pushed into the plate making grooves 8, so that the support bars 5 can be further arranged in a cross-corresponding manner, the support bars can be supported by the support grooves 70, thereby avoid taking place because of the support bar 5 in the system board groove 8 is fixed without the support, and fall into the bottom of system board groove 8 to can further guarantee to fix support bar 5 in cement.

The two sides of the first conveying groove 3 and the second conveying groove 27 are respectively provided with two corresponding clamping rotary conveying rotating wheels 40, the two corresponding clamping rotary conveying wheels 40 convey the supporting steel bars 5 in a clamping rotary mode, one side of the first conveying groove 3 and one side of the second conveying groove 27 are respectively provided with a fifth rotating shaft 42 which rotates in the machine body 2, the fifth rotating shafts 42 respectively drive the conveying rotating wheels 40 to rotate, the fifth rotating shafts 42 are respectively provided with a control rotating wheel 43, and the sliding of the pushing rod 6 respectively controls the rotation of the control rotating wheels 43.

Two conveying rotating wheels 40 which are correspondingly clamped and rotated are respectively arranged on two sides of the first conveying groove 3 and the second conveying groove 27, so that the sliding of the supporting steel bars 5 can be further controlled through the rotation of the conveying rotating wheels 40, and the automatic conveying of the supporting steel bars 5 can be performed, a rotating fifth rotating shaft 42 is respectively arranged on one side of the first conveying groove 3 and one side of the second conveying groove 27, the fifth rotating shafts 42 are respectively arranged on one side of the first conveying groove 3 and one side of the second conveying groove 27 and respectively rotate in the machine body 2, the rotation of the fifth rotating shafts 42 respectively drives the conveying rotating wheels 40 to rotate, a control rotating wheel 43 is respectively arranged on the fifth rotating shafts 42, so that the rotation of the conveying rotating wheels 40 can be further controlled through the rotation of the control rotating wheels 43, the control rotating wheel 43 can be further driven to rotate in the sliding process of the pushing rod 6, so that the sliding of the supporting steel bar 5 can be further controlled through the sliding of the pushing rod 6, and the automatic conveying control of the supporting steel bar 5 can be realized.

The machine body 2 is further internally provided with a third sliding groove 9 correspondingly communicated with the plate making groove 8, a sliding extrusion block 10 is arranged in the third sliding groove 9, a cement cavity 11 is arranged in the extrusion block 10, the extrusion block 10 is further provided with a forming groove 58 correspondingly communicated with the cement cavity 11, the forming groove 58 corresponds to the supporting steel bars 5 which are arranged in a crossed and corresponding mode, and the machine body 2 is further provided with a first rotating shaft 21 for controlling the extrusion block 10 to slide.

A third chute 9 is arranged in the machine body 2, the third chute 9 is correspondingly communicated with the plate making groove 8, a sliding extrusion block 10 is arranged in the third chute 9, so that the extrusion block 10 can slide into the plate making groove 8, a cavity, namely a cement cavity 11, is arranged in the extrusion block 10, a forming groove 58 is also arranged at the bottom of the extrusion block 10, the forming groove 58 is arranged in a cross shape and corresponds to the support steel bars 5 arranged in a cross way, so that the support steel bars 5 arranged in a cross way can be clamped in the forming groove 58, and the cement arranged in the cement cavity 11 can further flow into the forming groove 58, so that the purpose of manufacturing the partition plate can be further achieved, the support steel bars 5 can be arranged at the central position of the forming groove 58, and the problem of position deviation caused by manually arranging the support steel bars 5 can be further avoided, the manufacturing quality of the partition board can be further ensured, so that the strength of the partition board can be increased, the increase of workload caused by manual work is avoided, the sliding of the extrusion block 10 can be further controlled through the rotation of the first rotating shaft 21, and the automatic manufacturing of the partition board can be further realized.

The fixed base 1 is provided with a sixth sliding groove 22 correspondingly communicated with the plate making groove 8, a sliding support sliding block 23 is arranged in the sixth sliding groove 22, a sliding plate 24 corresponding to the plate making groove 8 is arranged on the support sliding block 23, four corners of the support sliding block 23 are respectively provided with a sliding first top pressing block 25, and the support sliding block 23 is provided with a first rotating rod 26 for controlling the sliding of the first top pressing block 25.

A sixth sliding chute 22 is arranged on the fixed base 1, a sliding support slide block 23 is arranged in the sixth sliding chute 22, a sliding plate 24 is arranged on the supporting slide 23, the sliding plate 24 can swing on the supporting slide 23, so that the rotation of the first rotating lever 26 can further control the sliding of the first presser block 25, so that the supporting slide block 23 can be jacked up, the sliding plate 24 can be further jacked into the plate making groove 8, so that the baffle plate can be supported by the sliding plate 24 and the forming groove 58 on the extrusion block 10, the normal manufacturing process of the baffle plate can be further ensured, therefore, the manufactured and molded partition board can be placed on the sliding plate 24, and further operation can be performed on the molded partition board through the swinging of the sliding plate 24.

As shown in fig. 1 to 3, two sides of the first sliding slot 4 and the second sliding slot 7 respectively include a seventh sliding slot 28 disposed on the machine body 2, two sides of the first sliding slot 4 are respectively provided with a first threaded rotating shaft 29 rotating in the seventh sliding slot 28, two sides of the second sliding slot 7 are respectively provided with a second threaded rotating shaft 30 rotating in the seventh sliding slot 28, a sliding second sliding block 39 is disposed in the seventh sliding slot 28, the second sliding block 39 is respectively provided with a threaded hole engaged with the first threaded rotating shaft 29 and the second threaded rotating shaft 30, the push rod 6 is respectively connected to the second sliding block 39 on two sides, end portions of the first threaded rotating shaft 29 and the second threaded rotating shaft 30 are respectively provided with a corresponding first chain disc 31, the two first chain discs 31 are correspondingly connected through a first chain 32, a second rotating shaft 33 corresponding to one of the first threaded rotating shafts 29 is arranged in the machine body 2, a third rotating shaft 34 corresponding to one of the second threaded rotating shafts 30 is arranged on the machine body 2, third bevel gears 37 correspondingly meshed and connected are arranged on the second rotating shaft 33 and the first threaded rotating shaft 29 respectively, first bevel gears 35 correspondingly meshed and connected are arranged on the third rotating shaft 34 and the second threaded rotating shaft 30 respectively, second bevel gears 36 correspondingly meshed and connected are arranged on the second rotating shaft 33 and the third rotating shaft 34 respectively, and a second motor 38 for driving one of the first threaded rotating shafts 29 to rotate is arranged in the machine body 2.

A seventh sliding groove 28 is respectively disposed on two sides of the first sliding groove 4 and the second sliding groove 7, the seventh sliding grooves 28 are respectively disposed on the machine body 2, a sliding second sliding block 39 is respectively disposed in the seventh sliding grooves 28, a rotating first threaded rotating shaft 29 is respectively disposed on two sides of the first sliding groove 4, a sliding second threaded rotating shaft 30 is respectively disposed on two sides of the second sliding groove 7, and the second sliding block 39 slides on the first threaded rotating shaft 29 and the second threaded rotating shaft 30 respectively, so that the second sliding block 39 can be further driven to slide by the rotation of the first threaded rotating shaft 29 and the second threaded rotating shaft 30, two ends of the push rod 6 are respectively connected to the second sliding block 39, so that the push rod 6 can be further pushed to slide by the rotation of the first threaded rotating shaft 29 and the second threaded rotating shaft 30, the first threaded rotating shaft 29 and the second threaded rotating shaft 30 are respectively provided with two, a corresponding first chain disc 31 is respectively arranged between the first threaded rotating shaft 29 and the second threaded rotating shaft 30, the first chain discs 31 are respectively correspondingly connected through a first chain 32, so that the first threaded rotating shaft 29 and the second threaded rotating shaft 30 can be further synchronously rotated, one of the first threaded rotating shafts 29 can be further driven to rotate through the rotation of the second motor 38, two third bevel gears 37 can be correspondingly meshed and connected, so that the second rotating shaft 33 can be further driven to rotate, and the third rotating shaft 34 can be further driven to rotate through the corresponding meshed and connected between the two second bevel gears 36, the two first bevel gears 35 can be correspondingly meshed and connected, so that the second threaded rotating shaft 30 can be further driven to rotate, the first threaded rotating shaft 29 and the second threaded rotating shaft 30 can be further enabled to synchronously rotate, the pushing rod 6 can further enable to synchronously slide, the supporting steel bars 5 can be further pushed to synchronously slide, the first sliding groove 4 and the second sliding groove 7 are different in height, the supporting steel bars 5 sliding out of the first sliding groove 4 and the supporting steel bars 5 sliding out of the second sliding groove 7 can be further enabled to be arranged in a staggered mode, collision is avoided, and the supporting steel bars 5 can be further enabled to be arranged in a crossed and corresponding mode.

As shown in fig. 1, 3, 4, 5 and 6, a circle of second clamping grooves 57 is correspondingly formed on each of the conveying rotating wheels 40, each of the second clamping grooves 57 is semicircular, two corresponding first rotating grooves 45 are respectively formed on two sides of each of the first conveying groove 3 and the second conveying groove 27, a fourth rotating shaft 41 which rotates in the machine body 2 is respectively formed on two sides of each of the first conveying groove 3 and the second conveying groove 27, each of the conveying rotating wheels 40 is correspondingly connected to the fourth rotating shaft 41, a first gear 47 which is correspondingly engaged and connected is respectively arranged at an end of each of the fourth rotating shafts 41 formed on two sides of each of the first conveying groove 3 and the second conveying groove 27, a fourth bevel gear 48 which is correspondingly engaged and connected is respectively arranged on each of the fifth rotating shaft 42 and the fourth rotating shaft 41, the pushing rod 6 is respectively provided with a control slider 44 corresponding to the control runner 43, the control runner 43 is respectively provided with a circle of first clamping grooves 50, the control slider 44 is respectively provided with an eighth sliding chute 52, the eighth sliding chutes 52 are respectively arranged in a T shape, the eighth sliding chutes 52 are respectively provided with a sliding first sliding shaft 53, the first sliding shafts 53 are respectively connected with a second pushing block 54, the eighth sliding chutes 52 are respectively provided with a first spring 56 for pushing the first sliding shafts 53, the second pushing blocks 54 are respectively clamped with the first clamping grooves 50 correspondingly, one end of each second pushing block 54 is respectively provided with a sliding cambered surface 55 in an arc shape, the second rotating chute 49 is respectively provided with a pushing sheet 51 corresponding to the first clamping grooves 50, the machine body 2 is respectively provided with a conveying groove 46 for supporting the control slide block 44 and the second top pressing block 54 to slide.

The conveying rotating wheel 40 is respectively provided with a circle of second clamping grooves 57, the second clamping grooves 57 are respectively arranged in a semicircular shape, so that the conveying rotating wheel 40 can rotate through corresponding compression of the two sides, the supporting steel bars 5 can be further supported through the second clamping grooves 57, the supporting steel bars 5 can be conveyed, the conveying rotating wheel 40 can be supported through the first rotating groove 45, normal rotation of the conveying rotating wheel 40 can be further ensured, the two sides of the first conveying groove 3 and the second conveying groove 27 are respectively provided with a rotating fourth rotating shaft 41, the end parts of the two fourth rotating shafts 41 are respectively provided with a first gear 47 correspondingly connected in a meshed manner, and the conveying rotating wheels 40 arranged on the two sides can further rotate synchronously through compression, the conveying rotating wheels 40 are respectively arranged at two ends of the first conveying groove 3 and the second conveying groove 27, and a fourth bevel gear 48 correspondingly engaged and connected is respectively arranged between the fifth rotating shaft 42 and the fourth rotating shaft 41, so that the rotation of the conveying rotating wheels 40 can be further controlled through the rotation of the fifth rotating shaft 42, and the conveying of the supporting steel bars 5 can be controlled.

The pushing rod 6 is respectively provided with a control slider 44, the positions of the control sliders 44 correspond to the positions of the control rotating wheels 43, the control rotating wheels 43 are respectively arranged at the end parts of the first conveying groove 3 and the second conveying groove 27, the control rotating wheels 43 are respectively provided with a circle of first clamping grooves 50, the first clamping grooves 50 are respectively arranged in a concave shape, so that the pushing rod 6 can slide to further drive the control sliders 44 to synchronously slide, the second pushing block 54 can be further driven to slide, after the second pushing block 54 slides to the position of the control rotating wheel 43, the second pushing block 54 can be further clamped in the first clamping grooves 50, and the control rotating wheels 43 can be further pushed to rotate through the second pushing block 54, so as to further control the rotation of the conveying runner 40, further enable the supporting steel bars 5 to automatically fall into the conveying groove 46, since the conveying groove 46 is semicircular, when the pushing rod 6 is further pushing the supporting steel bars 5 to slide in the process of sliding, the supporting steel bars 5 can be pushed into the plate making groove 8, so as to automatically control the conveying of the supporting steel bars 5 through the sliding of the pushing rod, and when the pushing rod 6 is in the process of resetting, since one end of the second top pressing block 54 is provided with the sliding arc surface 55 which is arc-shaped, the sliding arc surface 55 can be pressed against the control runner 43, so as to further squeeze the second top pressing block 54 through the control runner 43, thereby driving the second pressing block 54 to slide, further preventing the second pressing block 54 from triggering the rotation of the control wheel 43 in the process of resetting, and being clamped in the first clamping groove 50 through the elastic pressing sheet 51, so that the rotation direction of the control runner 43 can be further made to be one direction by the elasticity of the striking plate 51, thereby preventing the control runner 43 from rotating in the opposite direction, the second presser 54 can be supported by the first slide shaft 53, the first slide shaft 53 can be urged by the first spring 56, so that the first slide shaft 53 can be restored, the control slider 44 can be supported by the carrying groove 46, so that the synchronous sliding of the control slider 44 and the second presser foot 54 can be further ensured.

As shown in fig. 1, a fourth sliding slot 17 is disposed in the body 2 and is correspondingly communicated with the third sliding slot 9, the fourth sliding groove 17 is arranged in a T shape, the first rotating shaft 21 is connected with a rotating head 18 which rotates in the fourth sliding groove 17, a fifth sliding groove 19 is arranged on the rotating head 18, a first pressure rod 14 is connected on the extrusion block 10, the first pressure lever 14 is provided with a first slider 20 sliding in the fifth sliding slot 19, the first sliding block 20 and the fifth sliding chute 19 are respectively provided with corresponding thread grooves in meshed connection, a cement inlet pipe 16 is arranged in the machine body 2, a cement hose 15 correspondingly communicated with the cement cavity 11 is connected to the extrusion block 10, the cement hose 15 is correspondingly communicated with the cement inlet pipe 16, and a stirring rod 12 driven by a first motor 13 is further arranged in the cement cavity 11.

The first rotating shaft 21 can be rotated to further drive the rotating head 18 to rotate, the first sliding block 20 and the fifth sliding groove 19 are respectively provided with corresponding meshed and connected threads, so that the first sliding block 20 can be further driven to slide up and down, the first pressure lever 14 can be further driven to slide up and down, the extrusion block 10 can be driven to slide up and down, the forming grooves 58 can be further clamped on the supporting steel bars 5 which are arranged in a crossed and corresponding mode through the sliding of the extrusion block 10, the cement can be canned through the cement inlet pipe 16 and can be further canned into the cement cavity 11, after a certain amount of cement is canned, the cement can further flow into the forming grooves 58, so that the supporting steel bars 5 can be further wrapped in the cement, thereby completing the manufacture of the separator.

As shown in fig. 1, 7, 9 and 10, the four corners of the supporting sliding block 23 are respectively provided with a ninth sliding slot 64 for supporting the first top pressing block 25 to slide, the supporting sliding block 23 is respectively provided with a first sliding hole 59 correspondingly communicated with the ninth sliding slot 64, the first top pressing block 25 is respectively connected with a third threaded rotating shaft 60 sliding in the first sliding hole 59, the supporting sliding block 23 is respectively provided with a third rotating slot 61 correspondingly communicated with the first sliding hole 59, the third rotating slot 61 is respectively provided with a first rotating disc 62 rotating, the first rotating disc 62 is respectively provided with a first threaded hole 63 correspondingly engaged with the third threaded rotating shaft 60, the first rotating disc 62 is respectively provided with a second chain disc 65, and four second chain discs 65 are correspondingly connected through a second chain 66, a sixth rotating shaft 67 corresponding to the first rotating rod 26 is further disposed in the machine body 2, a fifth bevel gear 68 correspondingly engaged and connected with the first rotating rod 26 and the sixth rotating shaft 67 are disposed on the first rotating rod 26 and the sixth rotating shaft 67, respectively, and a third chain disc 69 correspondingly engaged and connected with the second chain 66 is disposed on the sixth rotating shaft 67.

The first rotating rod 26 can be rotated to further drive the fifth bevel gears 68 to rotate, the two fifth bevel gears 68 can be correspondingly meshed and connected to each other, so as to further drive the sixth rotating shaft 67 to rotate, the sixth rotating shaft 67 can be rotated to drive the third chain wheel 69 to rotate, so as to further drive the second chain wheel 66 to rotate through the third chain wheel 69, the four second chain wheels 65 can be simultaneously rotated by the rotation of the second chain wheel 66, so as to further drive the first rotating disc 62 to rotate, the first threaded hole 63 is formed in the first rotating disc 62, and the third threaded rotating shaft 60 is correspondingly meshed and connected to the first threaded hole 63, so as to further drive the third threaded rotating shaft 60 to slide up and down, therefore, the first jacking block 25 can be further driven to slide, the supporting slide block 23 can be jacked up and then supported through the sliding of the first jacking block 25, the slide plate 24 can be further jacked into the plate making groove 8, cement can be supported, the formed partition plate can be further supported after being butted with the forming groove 58, normal manufacturing of the partition plate can be further guaranteed, the third threaded rotating shaft 60 can be supported through the first sliding hole 59, normal sliding of the third threaded rotating shaft 60 can be guaranteed, the first rotating disc 62 can be supported through the third rotating groove 61, and normal rotating of the first rotating disc 62 can be further guaranteed.

As shown in fig. 1 and 8, the conveying grooves 46 are respectively semicircular, the side surfaces of the plate making grooves 8 are respectively provided with a tenth sliding groove 71 arranged on the machine body 2, a sliding third sliding block 72 is respectively arranged in the tenth sliding groove 71, the supporting grooves 70 are respectively arranged on the third sliding block 72, the supporting grooves 70 respectively support the supporting steel bars 5, the machine body 2 is respectively provided with a pull rod 74 for pulling the third sliding block 72 to slide, and the tenth sliding groove 71 is respectively provided with a second spring 73 for biasing the third sliding block 72.

The supporting steel bars 5 can be supported through the conveying grooves 46, the conveying grooves 46 are arranged in a semicircular shape, when the supporting steel bars 5 slide in the plate making grooves 8 in the sliding process, and after the supporting steel bars slide in the supporting grooves 70 arranged in the plate making grooves 8, the supporting steel bars 5 can be supported through the supporting grooves 70, so that the supporting steel bars can be further slid at two sides at the same time and are in a cross corresponding connection state, after the supporting steel bars 5 are wrapped by cement, the supporting steel bars 5 can be partially exposed, so that the sliding of the third sliding blocks 72 can be further driven through the sliding of the pull rods 74, the supporting steel bars 5 can be further separated from the supporting grooves 70, and the formed partition board can be further taken through the vertical sliding of the sliding plates 24, the third slider 72 can be further restored by spring-biasing the third slider 72 with the second spring 73.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (1)

1. The utility model provides a full-automatic building cement baffle automatic manufacturing machine which characterized in that: comprises a fixed base, a machine body is arranged on the fixed base, a plate making groove which is arranged in a square shape is arranged in the machine body, a first conveying groove and a second conveying groove which correspond to the plate making groove are also arranged on the machine body, the first conveying groove and the second conveying groove are respectively provided with a plurality of first conveying grooves and second conveying grooves which are arranged side by side and are respectively arranged at the side surfaces of the plate making groove, supporting reinforcing steel bars which are arranged in parallel and piled up are respectively arranged in the first conveying groove and the second conveying groove, a first sliding groove which is correspondingly communicated with the first conveying groove is arranged in the machine body, a second sliding groove which is correspondingly communicated with the second conveying groove is arranged in the machine body, conveying grooves which correspond to the first conveying groove and the second conveying groove are respectively arranged in the first sliding groove and the second sliding groove, and the first sliding groove and the second sliding groove are arranged in a cross shape, a sliding pushing rod is arranged in each of the first sliding chute and the second sliding chute, the two pushing rods synchronously slide and respectively push against the supporting steel bars, and supporting grooves corresponding to the supporting steel bars are respectively arranged on the side surfaces of the plate making grooves;

two conveying rotating wheels which are correspondingly clamped and rotated are respectively arranged on two sides of the first conveying groove and the second conveying groove, the two conveying rotating wheels are correspondingly clamped and rotated to convey the supporting steel bars, a fifth rotating shaft which rotates in the machine body is respectively arranged on one side of the first conveying groove and one side of the second conveying groove, the fifth rotating shaft respectively drives the conveying rotating wheels to rotate, a control rotating wheel is respectively arranged on the fifth rotating shaft, and the rotation of the control rotating wheels is respectively controlled by the sliding of the pushing rod;

the machine body is also internally provided with a third sliding chute correspondingly communicated with the plate making groove, a sliding extrusion block is arranged in the third sliding chute, a cement cavity is arranged in the extrusion block, the extrusion block is also provided with a forming groove correspondingly communicated with the cement cavity, the forming groove corresponds to the supporting steel bars which are arranged in a crossed and corresponding manner, and the machine body is also provided with a first rotating shaft for controlling the extrusion block to slide;

the fixed base is provided with a sixth sliding groove correspondingly communicated with the plate making groove, a sliding supporting slide block is arranged in the sixth sliding groove, the supporting slide block is provided with a sliding plate corresponding to the plate making groove, four corners of the supporting slide block are respectively provided with a sliding first jacking block, and the supporting slide block is provided with a first rotating rod for controlling the sliding of the first jacking block;

a fourth chute correspondingly communicated with the third chute is arranged in the machine body, the fourth chute is arranged in a T shape, a rotating head rotating in the fourth chute is connected to the first rotating shaft, a fifth chute is arranged on the rotating head, a first pressure rod is connected to the extrusion block, a first sliding block sliding in the fifth chute is arranged on the first pressure rod, thread grooves correspondingly meshed and connected are respectively arranged in the first sliding block and the fifth chute, a cement inlet pipe is arranged in the machine body, a cement hose correspondingly communicated with the cement cavity is connected to the extrusion block, the cement hose is correspondingly communicated with the cement inlet pipe, and a stirring rod driven by a first motor is further arranged in the cement cavity;

the four corners of the supporting sliding block are respectively provided with a ninth sliding chute for supporting the first jacking block to slide, the supporting sliding block is respectively provided with a first sliding hole correspondingly communicated with the ninth sliding chute, the first jacking block is respectively connected with a third threaded rotating shaft sliding in the first sliding hole, the supporting sliding block is respectively provided with a third rotating groove correspondingly communicated with the first sliding hole, the third rotating groove is respectively provided with a rotating first rotating disc, the first rotating disc is respectively provided with a first threaded hole correspondingly meshed and connected with the third threaded rotating shaft, the first rotating disc is respectively provided with a second chain disc, the four second chain discs are correspondingly connected through a second chain, and the machine body is also internally provided with a sixth rotating shaft correspondingly arranged with the first rotating rod, a fifth bevel gear which is correspondingly meshed and connected is respectively arranged on the first rotating rod and the sixth rotating shaft, and a third chain disc which is correspondingly meshed and connected with the second chain is arranged on the sixth rotating shaft;

the conveying grooves are respectively arranged in a semicircular shape, the side surfaces of the plate making grooves are respectively provided with a tenth sliding groove arranged on the machine body, a sliding third sliding block is arranged in each tenth sliding groove, the supporting grooves are respectively arranged on the third sliding blocks, the supporting grooves are respectively used for supporting the supporting steel bars, the machine body is respectively provided with a pull rod for pulling the third sliding blocks to slide, and the tenth sliding grooves are respectively internally provided with a second spring for elastically pressing the third sliding blocks.

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