CN211920703U - A transport hoist device for hollow slat of gypsum - Google Patents

Abstract

The utility model discloses a transport hoist device for hollow slat of gypsum belongs to light building material's processing and transports technical field. It includes the support frame, there is the hoist and mount body frame along horizontal direction sliding connection on the support frame, there is the hoist and mount subframe along vertical direction sliding connection on the hoist and mount body frame, sliding connection has at least two sets of hoist and mount areas on the hoist and mount subframe, and is a set of the hoist and mount area is including left side area and right side area, left side area and right side area are respectively along the relative both sides border of hoist and mount subframe and hoist and mount subframe sliding connection, the hoist and mount area is kept away from the one end rotation of hoist and mount subframe and is connected with the hoist and mount roller. The utility model has the advantages of difficult damage plate body, convenient efficient have extensive suitability to the mould of various models.

Description

A transport hoist device for hollow slat of gypsum

Technical Field

The utility model relates to a transport hoist device for hollow slat of gypsum belongs to light building material's processing and transports technical field.

Background

The hollow gypsum lath is made up by using building gypsum as base material and mixing it with inorganic light aggregate and inorganic fibre reinforced material, and is mainly used for non-bearing internal wall of building, and possesses the excellent properties of light weight, high strength, heat-insulating, sound-insulating and water-proofing, etc.. Compared with the traditional solid clay brick or hollow clay brick, the gypsum hollow lath has the advantages of lighter weight in unit area and higher construction efficiency, can reduce the dead weight of the building, reduce the bearing capacity of the foundation and effectively reduce the construction cost.

The common hollow gypsum lath not only has hollow bar holes, but also is provided with a male slot and a female slot which are matched with each other, namely a tenon and a mortise, respectively at two sides of the hollow gypsum lath along the width direction. According to different moulds for processing the hollow gypsum lath, the produced hollow gypsum lath comprises a state that the male groove is placed at the lower part and the female groove is placed at the upper part and a state that the male groove is placed at the lower part and the female groove is placed at the lower part. To public groove under, female groove hollow lath of gypsum on, because the convex structure of public groove, lead to the hollow lath of gypsum after the drawing of patterns to place on ground or other platform planes steadily, consequently, when the hollow lath of gypsum after the transfer drawing of patterns, need adopt the panel turnover machine to overturn it for public groove state under last, female groove, make it can steadily place, nevertheless the panel turnover machine causes the bending of part lath easily, damages or destroys, produces a large amount of wastes material, increases manufacturing cost. At present, manufacturers tend to adopt a mold with a male groove and a female groove of a gypsum hollow batten under the male groove, and when the gypsum hollow batten under the male groove and the female groove is transferred, the gypsum hollow batten is clamped and transferred along the thickness direction of the gypsum hollow batten by using a clamp.

In the prior art, the patent application with the publication number of CN200954654Y discloses a multifunctional automatic gypsum light hollow wallboard and building block production line, wherein a hoisting mechanism in the production line comprises a hoisting frame, an electric hoist and a clamp, the electric hoist and the clamp are installed on the hoisting frame, and the electric hoist and the clamp are used for clamping and hoisting prepared gypsum hollow laths to realize the transfer of the gypsum hollow laths. On one hand, the equipment can only move and transfer the hollow gypsum battens one by one, has low transfer efficiency and is not suitable for equipment for mass production of a plurality of hollow gypsum battens; on the other hand, the clamp is adopted to clamp the gypsum hollow lath which is just solidified, so that the clamped position of the lath is easily damaged.

Disclosure of Invention

An object of the utility model is to overcome prior art's not enough, provide a transport hoist device for hollow slat of gypsum.

The purpose of the utility model is realized through the following technical scheme: a transport hoist device for hollow slat of gypsum, the loach carrying platform comprises a supporting fram, there is the hoist and mount body frame along horizontal direction sliding connection on the support frame, there is the hoist and mount subframe along vertical direction sliding connection on the hoist and mount body frame, sliding connection has at least two sets of hoist and mount areas on the hoist and mount subframe, and is a set of the hoist and mount area is including left side area and right side area, left side area and right side area are respectively along the relative both sides border of hoist and mount subframe and hoist and mount subframe sliding connection, the hoist and mount area is kept away from the one end rotation of hoist and mount subframe and is connected with.

The supporting frames are erected on two sides above the die for producing the hollow gypsum battens, the hoisting main frame is erected above the die and can slide along the horizontal direction relative to the supporting frames, the hoisting main frame is further connected with a hoisting auxiliary frame capable of lifting, and the lifting of the hoisting auxiliary frame and the left-right/front-back movement of the hoisting main frame are utilized to realize the transfer of the hollow gypsum battens. When the demolded hollow gypsum lath is transported, the hoisting main frame is moved to the position right above the mold, then the hoisting auxiliary frame is descended, the hoisting rollers connected with the two sides of the hoisting auxiliary frame are inserted into the hollow holes at the two ends of the hollow gypsum lath, the number of groups of the hoisting belt and the hoisting rollers arranged on the hoisting auxiliary frame can be five or more than two groups, ten groups and the like, and the specific number of groups is determined by the number of the hollow gypsum lath produced by the mold at one time. The prepared hollow gypsum lath rises along with the hoisting auxiliary frame, is separated from the mould, then the hoisting main frame slides along the supporting frame, is separated from the upper part of the mould, the hoisting auxiliary frame descends again, the hollow gypsum lath is placed on a platform or the ground which is vacant beside the mould, the hoisting roller is drawn out from the hollow hole, and the demoulding and the transportation of the hollow gypsum lath are completed.

Furthermore, be provided with the sliding assembly between hoist and mount subframe and the hoist and mount area, the sliding assembly includes the spout of fixed connection in the relative both sides border of hoist and mount subframe, two sliding connection has at least two sets of sliders in the spout, and each group the hoist and mount area rotates with each group slider respectively to be connected, slider and hoist and mount area one-to-one.

Realize hoist and mount relative hoist and mount subframe sliding connection of area through sliding assembly, when being connected with the hollow slat of gypsum, slide respectively the hoist and mount area to the position that corresponds with each hollow slat of gypsum earlier, hoist and mount the transportation to it again, make hoist device can adapt to different moulds.

Furthermore, the sliding part comprises a sliding block, a U-shaped piece is fixedly connected to the sliding block, a bolt penetrating through two side plates of the U-shaped piece is connected to the U-shaped piece, and the hoisting belt is sleeved on the bolt.

When the sliding piece and the lifting belt are connected and installed, the end part of the lifting belt forms an annular structure and extends into the U-shaped piece, then the bolt penetrates through the ring at the end part of the lifting belt, the bolt is fixed and screwed down by the nut, the end part of the lifting belt is sleeved on the bolt, and when the lifting roller conveniently extends into or extends out of the hollow hole of the gypsum hollow batten, the lifting belt rotates relative to the sliding piece.

Furthermore, one end of the hoisting roller, which is connected with the hoisting belt, is fixedly connected with a U-shaped piece with the same structure as the sliding piece, and the hoisting roller is coated with an elastic cushion layer.

The two ends of the lifting belt are respectively connected with the sliding piece and the lifting roller through the U-shaped pieces, so that the lifting belt can rotate relative to the sliding piece and the lifting roller respectively, the flexibility of the lifting belt and the lifting roller is improved, the lifting belt and the hollow gypsum lath are conveniently connected, an elastic cushion layer outside the lifting roller can be made of elastic materials such as rubber, and the damage to the hollow gypsum lath can be effectively reduced.

Furthermore, the hoisting belt is an annular belt sleeved on the sliding part and the hoisting roller, and a plastic hose for restraining the hoisting belt is coated outside the hoisting belt between the sliding part and the hoisting roller.

Through adopting the endless belt as the hoist and mount area, can directly overlap the endless belt on slider and hoist and mount roller, simple and convenient, simultaneously, the endless belt is retrained in the plastic hose, and two sections that are parallel to each other in the endless belt are in a plastic hose by the cladding promptly, make hoist and mount area keep relatively stable length to improve its connection stability.

Further, be connected with lifting unit between hoist and mount body frame and the hoist and mount subframe, lifting unit includes the chain, with chain matched with driving medium and drive driving medium pivoted driving piece, driving medium and driving piece are located the hoist and mount body frame, the one end and the hoist and mount subframe fixed connection of chain.

The lifting of the hoisting auxiliary frame is realized through the chain, the transmission part matched with the chain is a chain wheel which can be meshed with the chain, the chain wheel is driven by the driving part to rotate, the chain between the chain wheel and the hoisting auxiliary frame is lengthened or shortened, and therefore the lifting or the lowering of the hoisting auxiliary frame relative to the hoisting main frame is realized.

Furthermore, fixedly connected with anchor strut on the hoist and mount subframe, fixedly connected with and anchor strut matched with reinforcement cover on the hoist and mount main frame, the reinforcement cover is located on the anchor strut.

Through set up anchor strut and reinforcement cover between hoist and mount main frame and hoist subframe, when hoist and mount subframe relatively hoist the main frame and rise or descend like this, the anchor strut also slides from top to bottom in the reinforcement cover along with it, anchor strut and reinforcement cover structure are favorable to improving the stationarity that hoist and mount subframe rises or descend, reduce the rocking of hoist and mount subframe in the removal to realize the steady transportation to the hollow slat of gypsum.

Furthermore, the support frame is fixedly connected with a slide rail extending along the horizontal direction, and a travelling wheel matched with the slide rail is arranged on one side of the hoisting main frame facing the hoisting auxiliary frame.

Through set up slide rail and walking wheel between support frame and hoist and mount body frame, be favorable to improving the gliding stability of the relative support frame of hoist and mount body frame, can set up the pivoted driving source of walking wheel on the hoist and mount body frame, conveniently control the removal of hoist and mount body frame.

The utility model has the advantages that:

1) through setting up hoist and mount body frame and hoist and mount subframe in the top of the hollow slat of production gypsum, realize the drawing of patterns and the transportation to the hollow slat of gypsum after the drawing of patterns, connect multiunit hoist and mount area and hoist and mount roller on the hoist and mount subframe, be connected with the hollow slat of gypsum through the hoist and mount roller, the difficult damage plate body can realize once transporting convenient high-efficient to the hollow slat of a plurality of gypsum. Meanwhile, the hoisting belt is in sliding connection with the hoisting subframe, so that the hoisting belt can adapt to moulds of different specifications, is convenient for demoulding and transporting gypsum hollow battens produced by various moulds, and has wide applicability.

2) By adopting the annular belt as a hoisting belt and respectively sleeved at the end parts of the sliding part and the hoisting roller, the flexibility of connection of the three parts is improved, the hoisting roller can conveniently stretch into or stretch out of a hollow hole of the gypsum hollow batten, and the hoisting roller is prevented from being inserted or pulled out to damage the board body. Meanwhile, the plastic hose is sleeved on the hoisting belt, so that the stability of the gypsum hollow batten can be further improved on the basis of improving the flexibility, and the gypsum hollow batten can be stably transported.

3) Through set up anchor strut and reinforcement cover between hoist and mount body frame and hoist and mount subframe, be favorable to reducing the relative hoist and mount body frame of hoist and mount subframe and rise or rock when descending, improve the stability of transporting the hoist and mount of hollow slat of gypsum.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Figure 2 is the utility model discloses a hoist and mount subframe structure schematic diagram.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic view of a connecting structure of a chute and a sliding part on a hoisting subframe.

In the figure, 1, a support frame; 11. a slide rail; 2. hoisting the main frame; 21. a chain; 22. reinforcing the sleeve; 23. a traveling wheel; 3. hoisting the auxiliary frame; 31. a chute; 32. a slider; 321. a slider; 322. a U-shaped piece; 323. a bolt; 33. a reinforcing rod; 4. a hoisting belt; 41. a plastic hose; 5. hoisting a roller; 51. an elastic cushion layer.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides a technical solution: a transport hoist device for hollow slat of gypsum, including support frame 1, fixedly connected with follows the slide rail 11 of horizontal direction extension on the support frame 1, sliding connection has hoist and mount body frame 2 on the support frame 1, 2 one side of going to hoist and mount subframe 3 of hoist and mount body frame is provided with walking wheel 23 with 11 matched with slide rail, here cooperate and to say that walking wheel 23 goes up to offer the recess unanimous with 11 external diameters of slide rail along circumference, make walking wheel 23 can follow slide rail 11 and make a round trip to slide, hoist and mount body frame 2 promptly can follow the relative support frame 1 slip of horizontal direction. There is hoist and mount subframe 3 along vertical direction sliding connection on hoist and mount body frame 2, be connected with lifting unit between hoist and mount body frame 2 and hoist and mount subframe 3, lifting unit includes chain 21, driving medium and the pivoted driving piece of drive medium with chain 21 matched with, the driving medium that this embodiment adopted is the sprocket, the driving piece adopts the motor, utilize the motor drive pivot to rotate, fix the sprocket thereupon rotation in the pivot, drive the epaxial chain 21 removal of chain wheel, the lower extreme and the 3 fixed connection of hoist and mount subframe of chain 21. In order to improve the lifting stability of the lifting auxiliary frame 3 relative to the lifting main frame 2, a reinforcing rod 33 is fixedly connected to the lifting auxiliary frame 3, and a reinforcing sleeve 22 matched with the reinforcing rod 33 is fixedly connected to the lifting main frame 2, wherein the matching means that the outer diameter of the reinforcing rod 33 is consistent with the inner diameter of the reinforcing sleeve 22, and the reinforcing sleeve 22 is sleeved on the reinforcing rod 33.

As shown in fig. 1 and fig. 2, at least two sets of hanging belts 4 for fixing the hollow gypsum laths are slidably connected to the hanging subframe 3, and the number of the sets of the hanging belts 4 is nine, which is consistent with the number of the hollow gypsum laths which can be produced by the lower mold at one time. When transporting the hollow slat drawing of patterns of gypsum, will hoist subframe 3 and remove to the hollow slat top of gypsum that solidifies, utilize hoist and mount area 4 to fix the hollow slat of gypsum, then will hoist subframe 3 and rise, make the hollow slat of gypsum rise, break away from in the mould, then remove hoist and mount body frame 2, make the hollow slat of gypsum remove the other position of mould thereupon, hoist and mount subframe 3 falls, remove hoist and mount area 4 fixed to the hollow slat of gypsum, accomplished the transportation process promptly, and is simple high-efficient.

As shown in fig. 2 and 4, a set of hoisting belt 4 includes left area and right area, and left area and right area are respectively along hoisting 3 relative both sides border and hoisting 3 sliding connection of subframe, and hoisting belt 4 keeps away from the one end of hoisting subframe 3 and rotates and be connected with hoisting roller 5, and hoisting roller 5 can follow the both ends of slat length direction and insert the hollow hole of slat like this, realizes fixed the connection of the hollow slat of gypsum, conveniently carries out the drawing of patterns to it and transports. A sliding assembly is arranged between the hoisting subframe 3 and the hoisting belt 4, the sliding assembly comprises sliding grooves 31 fixedly connected to the edges of two opposite sides of the hoisting subframe 3, at least two groups of sliding parts 32 are connected in the two sliding grooves 31 in a sliding mode, and each group of hoisting belt 4 is connected with each group of sliding parts 32 in a rotating mode in a one-to-one correspondence mode. Can adjust the position of hoist and mount 4 relative hoist and mount subframes 3 in a flexible way like this, make the utility model discloses a hoist device can adapt to the mould of different side form thicknesses.

As shown in fig. 2 and 3, the sliding member 32 of the present embodiment includes a sliding block 321, a U-shaped piece 322 is fixedly connected to the sliding block 321, an opening of the U-shaped piece 322 faces downward, a bolt 323 penetrating through two side plates of the U-shaped piece 322 is connected to the U-shaped piece 322, the hoisting belt 4 is sleeved on the bolt 323, that is, the hoisting belt 4 is connected between the bolt 323 and the inner side of the U-shaped piece 322, the hoisting belt 4 can flexibly rotate relative to the U-shaped piece 322, connection between the hoisting belt 4 and the gypsum hollow lath is facilitated, and the hoisting belt 4 and the hoisting subframe 3 can be disassembled and assembled through the bolt 323, thereby facilitating maintenance or replacement of the damaged hoisting belt 4. Correspondingly, one end of the hoisting roller 5 connected with the hoisting belt 4 is fixedly connected with a U-shaped piece 322 with the same structure as the sliding part 32, the opening of the U-shaped piece 322 faces upwards, and the openings of the upper U-shaped piece 322 and the lower U-shaped piece 322 are opposite, so that the hoisting roller 5 can be flexibly rotated, maintained and replaced. Still the cladding has elastic cushion 51 on hoisting roller 5, and hoisting roller 5 is the part of direct and the hollow slat butt of gypsum, and the outer elastic cushion 51 of cladding of hoisting roller 5 can effectively reduce the damage of hoist and mount transportation process to the hollow slat of gypsum that just solidifies. Meanwhile, in order to facilitate installation of the hoisting belt 4 and improve the stability of the hoisting belt in operation, the hoisting belt 4 of the embodiment adopts an annular belt, the annular belt is directly sleeved on the bolts 323 of the upper and lower U-shaped pieces 322, and installation can be realized without knotting or binding the end parts of the hoisting belt 4 one by one. The plastic hose 41 for restraining the lifting belt 4 is coated outside the lifting belt 4 between the sliding part 32 and the lifting roller 5, the middle part of the whole annular belt penetrates into the plastic hose 41, and the inner diameter of the plastic hose 41 just accommodates two parallel belt sections, so that the plastic hose 41 restrains the annular belt into a linear belt, and the stability of lifting the gypsum hollow lath is facilitated.

The utility model discloses when using, set up support frame 1 in the both sides of the mould length direction of the hollow slat of production gypsum, hoist and mount body frame 2 is located support frame 1 top, and hoist and mount subframe 3 is located between hoist and mount body frame 2 and the mould. After the gypsum hollow lath in the mould is solidified and formed, the core pipe and the end mould are firstly detached, and then the distance between every two side moulds on the bottom mould is increased by moving the bottom mould, so that the fixation of the gypsum hollow lath is released. The motor is started to drive the chain wheel to rotate, so that the hoisting auxiliary frame 3 descends relative to the hoisting main frame 2, the sliding part 32 is moved, the hoisting rollers 5 at the lower ends of the hoisting belts 4 at the two sides are respectively inserted into the hollow holes at the end parts of the two ends of the hollow gypsum lath, then the chain wheel is driven to rotate reversely, and the hoisting auxiliary frame 3 ascends. After the lower end of the hollow gypsum lath is higher than the upper end of the side die, the lifting of the lifting auxiliary frame 3 is stopped, the lifting main frame 2 is moved to move away from the upper part of the die, the lifting auxiliary frame 3 is lowered again, the hollow gypsum lath falls to the ground or the platform beside the die, the lifting roller 5 is drawn out from the hollow hole, and the demoulding and the transportation of the hollow gypsum lath are finished.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (8)

1. A transport hoist device for hollow slat of gypsum, a serial communication port, including support frame (1), there is hoist and mount body frame (2) along horizontal direction sliding connection on support frame (1), there are hoist and mount subframe (3) along vertical direction sliding connection on hoist and mount body frame (2), sliding connection has at least two sets of hoist and mount areas (4) on hoist and mount subframe (3), and is a set of hoist and mount area (4) are including left side area and right side area, left side area and right side area are respectively along hoist and mount subframe (3) relative both sides border and hoist and mount subframe (3) sliding connection, the one end that hoist and mount subframe (3) were kept away from in hoist and mount area (4) is rotated and is connected with hoist and mount roller (5).

2. The transferring and hoisting device for the gypsum hollow lath as claimed in claim 1, wherein: be provided with the sliding component between hoist and mount subframe (3) and hoist and mount area (4), the sliding component includes spout (31) of fixed connection in the relative both sides border of hoist and mount subframe (3), two spout (31) sliding connection has at least two sets of sliders (32), each group hoist and mount area (4) rotate with each group slider (32) respectively and are connected, slider (32) take (4) one-to-one with hoist and mount.

3. The transferring and hoisting device for the gypsum hollow lath as claimed in claim 2, wherein: the sliding piece (32) comprises a sliding block (321), a U-shaped piece (322) is fixedly connected to the sliding block (321), a bolt (323) penetrating through two side plates of the U-shaped piece (322) is connected to the U-shaped piece (322), and the hoisting belt (4) is sleeved on the bolt (323).

4. The transferring and hoisting device for the gypsum hollow lath as claimed in claim 3, wherein: one end of the hoisting roller (5) connected with the hoisting belt (4) is fixedly connected with a U-shaped piece (322) with the same structure as the sliding piece (32), and the hoisting roller (5) is coated with an elastic cushion layer (51).

5. The transferring and hoisting device for the gypsum hollow lath as claimed in claim 4, wherein: the lifting belt (4) is an annular belt sleeved on the sliding part (32) and the lifting roller (5), and a plastic hose (41) for restraining the lifting belt (4) is coated outside the lifting belt (4) between the sliding part (32) and the lifting roller (5).

6. The transferring and hoisting device for the gypsum hollow lath as claimed in claim 1, wherein: the lifting assembly is connected between the lifting main frame (2) and the lifting auxiliary frame (3), the lifting assembly comprises a chain (21), a transmission part matched with the chain (21) and a driving part rotating the driving part, the transmission part and the driving part are located on the lifting main frame (2), and one end of the chain (21) is fixedly connected with the lifting auxiliary frame (3).

7. The transferring and hoisting device for the gypsum hollow lath as claimed in claim 6, wherein: fixedly connected with anchor strut (33) on hoist and mount auxiliary frame (3), fixedly connected with on hoist and mount main frame (2) and anchor strut (33) matched with reinforce cover (22), reinforce cover (22) cover is located on anchor strut (33).

8. The transferring and hoisting device for the gypsum hollow lath as claimed in claim 1, wherein: the lifting auxiliary frame is characterized in that a sliding rail (11) extending in the horizontal direction is fixedly connected to the support frame (1), and a traveling wheel (23) matched with the sliding rail (11) is arranged on one side, facing the lifting auxiliary frame (3), of the lifting main frame (2).

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