CN112392272A

CN112392272A - Assembly type building glass placing equipment

Info

Publication number: CN112392272A
Application number: CN202011574419.XA
Authority: CN
Inventors: 余北京
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-28
Filing date: 2020-12-28
Publication date: 2021-02-23

Abstract

The invention discloses an assembly type building glass placing device which comprises a seat body, wherein sliding inner cavities are arranged in the seat body and are symmetrically arranged, a transmission inner cavity is arranged between the sliding inner cavities, the transmission inner cavity is positioned in the seat body, a side inner cavity is arranged on one side of the transmission inner cavity and is positioned in the seat body, a matching connecting block is arranged in the sliding inner cavity in a sliding manner, a loading block and a side protruding block are respectively arranged on one side of the matching connecting block on two sides, and an adsorption device which is used for adsorbing glass and can adsorb the glass according to different sizes is arranged between the loading block and the side protruding block.

Description

Assembly type building glass placing equipment

Technical Field

The invention relates to the technical field of assembling type building glass window placing equipment, in particular to assembling type building glass placing equipment.

Background

The existing equipment has more defects, the prefabricated building generally adopts prefabricated glass windows, then utilizes and transports the processed glass windows to corresponding areas for installation, the manufacturing process of the glass windows is usually related to the manufacturing of the glass windows, the manufacturing process of the glass windows needs to be matched to carry the glass, the carrying process of the glass generally relates to indoor carrying, the indoor glass transportation needs to carry out full and efficient clamping and fixing on the glass in the process and can be convenient for personnel to operate, but most of the existing equipment adopts the design of a frame, then the glass is directly placed and installed in the frame, then the glass is fully protected and is convenient to be better transported to the position to be reached in the indoor transportation, but the transportation causes a plurality of problems, one of these is that they require manual handling again, and the second is that manual handling is more complicated and increases the likelihood of glass breakage.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a prefabricated architectural glass placement apparatus which can solve the above-mentioned problems in the prior art.

The invention is realized by the following technical scheme: the assembled building glass placing equipment comprises a seat body, wherein sliding inner cavities are arranged in the seat body and are symmetrically arranged, a transmission inner cavity is arranged between the sliding inner cavities, the transmission inner cavity is positioned in the seat body, a side inner cavity is arranged on one side of the transmission inner cavity and is positioned in the seat body, a matching connecting block is arranged in the sliding inner cavity in a sliding manner, a loading block and a side protruding block are respectively arranged on one side of the matching connecting block on two sides, an adsorption device used for adsorbing glass and capable of adsorbing the glass according to different sizes is arranged between the loading block and the side protruding block, and an internal adjusting device which drives the matching connecting block to move and can be convenient for operating the top and the bottom to realize sliding adjustment of the matching connecting block is arranged in the seat body.

According to the technical scheme, the adsorption device comprises a side cylinder body which is fixedly matched and connected with the loading block, an internal sliding box body is arranged on one side of the side lug, a cylinder inner cavity is arranged in the side cylinder body, the cylinder inner cavity is connected with the internal sliding box body in a sliding fit mode, a plurality of adsorption connecting suckers are arranged on one side of the side cylinder body, and a telescopic sucker assembly which adopts a telescopic mode to stretch out the suckers to suck glass is arranged in the internal sliding box body.

According to the technical scheme, the telescopic sucker component comprises a stretching cavity arranged in the internal sliding box body, a guide shaft is arranged in the end wall of the stretching cavity, a side driving cylinder is arranged on one side of the guide shaft, matching connection sliders are arranged on two sides of the side driving cylinder and connected in a sliding fit mode, the matching connection sliders are fixed to push rods of the side driving cylinder, sliding suckers are arranged on one side of the matching connection sliders, and the sliding suckers are arranged between the matching connection sliders and used for enabling the sliding suckers to stretch out and draw out in a telescopic mode.

According to the technical scheme, the matching structure comprises a plurality of connecting cylinders arranged on the outer surface of the guide shaft, the connecting cylinders are connected with the sliding suckers in a sliding fit mode, and matching connecting blocks are hinged to the sliding suckers and are provided with matching connecting rods.

According to a further technical scheme, the internal adjusting device comprises a rotating threaded shaft which is in rotating fit connection with the end walls of the transmission inner cavity, the sliding inner cavity and the side inner cavity, a matching rotating block is arranged on the upper side of the rotating threaded shaft in the sliding inner cavity, a matching connection bevel gear is arranged on the other side of the rotating threaded shaft and located in the transmission inner cavity, the matching connection bevel gears are meshed with one another, and a treading assembly convenient for foot treading is arranged on one side of the side inner cavity.

According to a further technical scheme, the treading assembly comprises a connecting and matching gear fixed with the rotating threaded shaft and located in the side inner cavity, a rotating cylinder is arranged in the side inner cavity in a rotating mode, an internal meshing rack is arranged on the outer surface of the rotating cylinder, the internal meshing rack is meshed with the connecting and matching gear, external friction pads are arranged on two sides of the internal meshing rack, and the external friction pads are connected with the rotating cylinder in a fixed matching mode.

According to the further technical scheme, a plurality of clamping cavities are formed in the side protruding blocks and the loading blocks, and only one clamping cavity is formed in one side of each side protruding block.

Further technical scheme still includes and is used for transporting glass in order to realize that glass carries out the transportation loading attachment that the multi-angle conversion back loaded, and transportation loading attachment is including the cooperation box, cooperation box top pivoted is provided with the swing box, gliding being provided with a plurality of roll-off sucking discs of swinging the box, roll-off sucking disc one side is provided with the cooperation board that slides, be provided with the drive in the swing box the removal subassembly that the cooperation board removed slides, be provided with the messenger between swing box and the cooperation box swing box wobbling swing subassembly.

According to a further technical scheme, the moving assembly comprises a matching sliding groove arranged in the swing box body, a mobile connection motor is arranged in the end wall of the matching sliding groove, a power threaded rod is arranged on one side of the mobile connection motor in a power connection mode, and the power threaded rod is in threaded fit connection with the sliding matching plate.

According to the technical scheme, the swing assembly comprises a swing box body, a bottom opening inner cavity is formed in the matching box body, a side driving motor is arranged in the end wall of the bottom opening inner cavity, a sliding matching threaded rod is arranged on one side of the side driving motor in a power connection mode, an internal thread moving block is arranged in the bottom opening inner cavity in a sliding mode, the internal thread moving block is in threaded matching connection with the sliding matching threaded rod, a connecting rod is hinged to the inside of the internal thread moving block, and the connecting rod is hinged to the swing box body.

The invention has the beneficial effects that:

the glass placing device is simple in structure, can be placed efficiently according to glass with different specifications, and can be used for conveniently adsorbing the glass and then swinging and transporting the glass.

When glass with different specifications is placed, a person can rotate the rotating threaded shaft or slide the external friction pad and the rotating barrel by rotating the matching rotating block or sliding the external friction pad and the rotating barrel, then the matching connecting block slides in the sliding inner cavity by meshing the matching connecting bevel gears and the meshing the connecting matching gear and the internal meshing rack, the distance between the side convex block and the loading block is adjusted so as to place the glass with different sizes between the side convex block and the loading block, and the internal sliding box body slides in the barrel inner cavity after the loading block and the side convex block move, so that the adsorption connecting sucker is directly abutted and adsorbed with the glass on one hand, and the matching connecting sliders on two sides are driven to slide after the internal sliding box body is driven to work by the side driving air cylinder after extending out of the barrel inner cavity on the other hand, and after the matching connecting rod swings, the sliding sucker slides out of one side of the connecting column body, so that the sliding sucker page and the glass are directly adsorbed and abutted, and the glass is supported at the bottom to prevent the glass from being damaged.

When glass needs to be transported, the movable connecting motor drives the power threaded rod to rotate after working, the sliding matching plate slides in the matching sliding groove, the sliding matching plate drives the sliding sucker to move and then adsorb the glass, the side driving motor drives the sliding matching threaded rod to rotate after working, the internal thread moving block slides in the inner cavity of the bottom opening and then is hinged to the connecting rod through the internal thread moving block, and the swinging box body can be transported by adsorbing the glass through the sliding sucker after swinging and adjusts the angle to place or take out the glass after swinging.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view showing the overall internal structure of the glass placement apparatus for prefabricated buildings according to the present invention;

FIG. 2 is a schematic view at A in FIG. 1;

FIG. 3 is a schematic view at B of FIG. 1;

FIG. 4 is a schematic view at C of FIG. 1;

FIG. 5 is a schematic view of a glass transport apparatus;

FIG. 6 is a schematic view of FIG. 5 taken along direction D;

FIG. 7 is a schematic view at E in FIG. 5;

in the figure, a matching connecting block 12, a side convex block 13, a card-loading concave cavity 14, a sliding inner cavity 15, a rotating threaded shaft 16, a matching rotating block 17, a seat body 18, a transmission inner cavity 21, an internal meshing rack 22, an external friction pad 23, a rotating barrel 24, a connecting matching gear 25, a side inner cavity 26, a matching connecting bevel gear 28, a sliding sucker 31, a matching connecting rod 32, an extending cavity 33, a guide shaft 34, an internal sliding box body 35, a matching connecting slider 36, a connecting column 37, a side driving cylinder 38, a loading block 41, a side barrel body 42, a barrel inner cavity 43, an adsorption connecting sucker 44, a matching box body 51, a moving connecting motor 52, a matching sliding groove 53, a power threaded rod 54, a sliding matching plate 55, a sliding sucker 56, a swinging box body 57, a bottom opening inner cavity 61, a sliding matching threaded rod 62, an internal threaded block 63, a connecting rod 64 and.

Detailed Description

As shown in fig. 1 to 7, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the following up-down left-right front-back direction is consistent with the up-down left-right front-back direction of the projection relation of the figure 1, the assembly type building glass placing device comprises a base body 18, a sliding inner cavity 15 is arranged in the base body 18, the sliding inner cavities 15 are symmetrically arranged, a transmission inner cavity 21 is arranged between the sliding inner cavities 15, the transmission inner cavity 21 is positioned in the base body 18, a side inner cavity 26 is arranged on one side of the transmission inner cavity 21, the side inner cavity 26 is positioned in the base body 18, a matching connecting block 12 is arranged in the sliding inner cavity 15 in a sliding mode, a loading block 41 and a side protruding block 13 are respectively arranged on one side of the matching connecting block 12 on two sides, an adsorption device used for adsorbing glass and capable of adsorbing glass according to different sizes is arranged between the loading block 41 and the side protruding block 13, an adsorption device used for driving the matching connecting block 12 to move and capable of facilitating the top and bottom operation And moving the adjusted internal adjusting device.

Beneficially, wherein, adsorption equipment include with the side barrel 42 that loading block 41 fixed fit is connected, side lug 13 one side is provided with inside box 35 that slides, be provided with a section of thick bamboo inner chamber 43 in the side barrel 42, a section of thick bamboo inner chamber 43 with inside box 35 that slides and cooperate connects, side barrel 42 one side is provided with a plurality of absorption connection sucking discs 44, be provided with the flexible sucking disc subassembly that adopts flexible mode to stretch out the sucking disc and hold glass in inside box 35 that slides.

Beneficially, wherein, the telescopic sucking disc assembly comprises an extending cavity 33 arranged in the internal sliding box body 35, a guide shaft 34 is arranged in an end wall of the extending cavity 33, a side driving cylinder 38 is arranged on one side of the guide shaft 34, matching connection sliders 36 are arranged on two sides of the side driving cylinder 38, the matching connection sliders 36 are connected with the guide shaft 34 in a sliding matching mode, the matching connection sliders 36 are fixed with a push rod of the side driving cylinder 38, a sliding sucking disc 31 is arranged on one side of the matching connection sliders 36, and a matching structure for enabling the sliding sucking disc 31 to extend out of the extending cavity 33 is arranged between the sliding sucking disc 31 and the matching connection sliders 36.

Advantageously, the matching structure comprises a plurality of connecting cylinders 37 arranged on the outer surface of the guide shaft 34, the connecting cylinders 37 are connected with the sliding suckers 31 in a sliding fit manner, and the matching connecting sliders 36 are hinged with the sliding suckers 31 through the matching connecting rods 32.

Advantageously, the internal adjusting device comprises a rotating threaded shaft 16 in rotating fit connection with the end walls of the transmission inner cavity 21, the sliding inner cavity 15 and the side inner cavities 26, the rotating threaded shaft 16 in the sliding inner cavity 15 is formed to be provided with a fit rotating block 17 on the upper side, the other side of the rotating threaded shaft 16 is provided with a fit connection bevel gear 28, the fit connection bevel gear 28 is located in the transmission inner cavity 21, the fit connection bevel gears 28 are arranged in a meshing manner, and a treading assembly facilitating treading of a foot is arranged on one side of one of the side inner cavities 26.

Advantageously, the treading assembly comprises a connecting matching gear 25 fixed with the lower rotating threaded shaft 16, the connecting matching gear 25 is positioned in the side inner cavity 26, a rotating cylinder 24 is arranged in the side inner cavity 26 in a rotating mode, the outer surface of the rotating cylinder 24 is provided with an internal meshing rack 22, the internal meshing rack 22 is arranged in a meshing mode with the connecting matching gear 25, the two sides of the internal meshing rack 22 are provided with external friction pads 23, and the external friction pads 23 are fixedly matched and connected with the rotating cylinder 24.

Advantageously, a plurality of card-loading cavities 14 are arranged in the side projections 13 and the loading block 41, and only one card-loading cavity 14 is arranged on one side of the side projections 13.

Beneficially, wherein, still include the transportation loading attachment that is used for carrying on glass in order to realize that glass carries out multi-angle conversion back loading, the transportation loading attachment includes cooperation box 51, cooperation box 51 top pivoted is provided with swing box 57, it is provided with a plurality of roll-off sucking discs 56 to slide in the swing box 57, roll-off sucking disc 56 one side is provided with sliding fit board 55, be provided with the drive in the swing box 57 the removal subassembly that sliding fit board 55 removed, be provided with between swing box 57 and the cooperation box 51 and make swing box 57 wobbling swing subassembly.

Advantageously, the moving assembly comprises a matching sliding slot 53 arranged in the swinging box body 57, a moving connection motor 52 is arranged in the end wall of the matching sliding slot 53, a power threaded rod 54 is arranged on one side of the moving connection motor 52 in a power connection mode, and the power threaded rod 54 is in threaded matching connection with the sliding matching plate 55.

Beneficially, the swing assembly includes a bottom opening inner cavity 61 arranged in the swing box 57, a side driving motor 65 is arranged in an end wall of the bottom opening inner cavity 61, a sliding fit threaded rod 62 is arranged on one side of the side driving motor 65 in a power connection manner, an internal thread moving block 63 is slidably arranged in the bottom opening inner cavity 61, the internal thread moving block 63 is in a threaded fit connection with the sliding fit threaded rod 62, a connecting rod 64 is hinged in the internal thread moving block 63, and the connecting rod 64 is hinged to the swing box 57.

During initial state, above-mentioned device, subassembly and structure are in the out-of-service condition, and this equipment can carry out the efficient according to the glass of different specifications and place to can be convenient for swing the transportation after adsorbing glass.

When placing glass with different specifications, a person can rotate the rotating threaded shaft 16 by rotating the matching rotating block 17 or sliding the external friction pad 23 and the rotating barrel 24, then slide the matching connecting block 12 in the sliding inner cavity 15 by the meshing between the matching connecting bevel gear 28 and the meshing between the connecting matching gear 25 and the internal meshing rack 22, adjust the distance between the side projection 13 and the loading block 41 so as to place glass with different sizes between the side projection 13 and the loading block 41, slide the internal sliding box 35 in the barrel inner cavity 43 after the loading block 41 and the side projection 13 move, on one hand, directly and against and adsorb the glass by using the adsorbing connecting suction cup 44, on the other hand, after the internal sliding box 35 extends out of the barrel inner cavity 43, the side drive cylinder 38 is utilized to drive the matching connecting slide blocks 36 on two sides to slide after working, so that the matching connecting rod 32 swings and then the sliding suction disc 31 slides out of one side of the connecting column body 37, the sliding suction disc 31 directly adsorbs and offsets with glass, and the glass can be supported at the bottom to prevent the glass from being damaged.

When glass needs to be transported, the movable connecting motor 52 drives the power threaded rod 54 to rotate after working, the sliding matching plate 55 slides in the matching sliding groove 53, the sliding matching plate 55 drives the sliding sucker 56 to move and then adsorb the glass, the side driving motor 65 drives the sliding matching threaded rod 62 to rotate after working, the internal thread moving block 63 slides in the bottom opening inner cavity 61 and then is hinged through the internal thread moving block 63 and the connecting rod 64, and the swinging box 57 can be transported by adsorbing the glass through the sliding sucker 56 after swinging and adjusts the angle to place or take out the glass after swinging.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. Assembled building glass places equipment, comprising a base, be provided with the inner chamber that slides in the pedestal, the inner chamber symmetry that slides sets up, it is provided with the transmission inner chamber to slide between the inner chamber, the transmission inner chamber is located the pedestal is internal, transmission inner chamber one side is provided with the side inner chamber, the side inner chamber is located the pedestal is internal, it is provided with the cooperation connecting block to slide the intracavity gliding, both sides cooperation connecting block one side is provided with respectively and loads piece and side lug, it is used for adsorbing glass and can be according to the not absorbent adsorption equipment of unidimensional glass to be provided with between loading piece and the side lug, be provided with the drive in the pedestal the cooperation connecting block removes and can be convenient for top and bottom to operate in order to realize the inside adjusting device that cooperation connecting.

2. The fabricated architectural glass placement apparatus of claim 1, wherein: the adsorption device comprises a side cylinder body which is fixedly matched and connected with the loading block, an internal sliding box body is arranged on one side of the side convex block, a cylinder inner cavity is arranged in the side cylinder body, the cylinder inner cavity is connected with the internal sliding box body in a sliding fit mode, a plurality of adsorption connecting suckers are arranged on one side of the side cylinder body, and a telescopic sucker assembly which adopts a telescopic mode to stretch out a sucker to suck glass is arranged in the internal sliding box body.

3. The fabricated architectural glass placement apparatus of claim 2, wherein: the telescopic sucker component comprises a stretching cavity arranged in the internal sliding box, a guide shaft is arranged in the end wall of the stretching cavity, a side driving cylinder is arranged on one side of the guide shaft, matching connection sliders are arranged on two sides of the side driving cylinder and connected with the guide shaft in a sliding fit mode, the matching connection sliders are fixed with push rods of the side driving cylinder, sliding suckers are arranged on one side of the matching connection sliders, and the sliding suckers are arranged between the matching connection sliders and used for enabling the sliding suckers to stretch out and draw out of the matching structures in the stretching cavity.

4. The fabricated architectural glass placement apparatus of claim 3, wherein: the cooperation structure including set up in a plurality of connection cylinders of guide shaft surface, connect the cylinder with the slip sucking disc sliding fit is connected, cooperation link block with it is provided with the cooperation connecting rod to articulate between the slip sucking disc.

5. The fabricated architectural glass placement apparatus of claim 1, wherein: the internal adjusting device comprises a rotating threaded shaft which is in running fit connection with the end wall of the transmission inner cavity, the sliding inner cavity and the side inner cavity, a matching rotating block is arranged on the upper side of the rotating threaded shaft in the sliding inner cavity, a matching connecting bevel gear is arranged on the other side of the rotating threaded shaft, the matching connecting bevel gear is located in the transmission inner cavity, the matching connecting bevel gears are meshed with each other and are arranged, and one of the matching connecting bevel gears is provided with a treading assembly which is convenient for a foot to step on.

6. The fabricated architectural glass placement apparatus of claim 5, wherein: step on the subassembly include with the downside the fixed cooperation gear of being connected of rotating threaded spindle, it is located to connect the cooperation gear in the side intracavity, the side intracavity internal rotation be provided with a rotatory section of thick bamboo, the rotating section of thick bamboo surface is provided with the inside toothing rack, the inside toothing rack with connect the cooperation gear meshing setting, inside toothing rack both sides are provided with the outside friction pad, the outside friction pad with a rotating section of thick bamboo fixed fit is connected.

7. The fabricated architectural glass placement apparatus of claim 6, wherein: the side protruding blocks and the loading blocks are internally provided with a plurality of clamping concave cavities, and only one clamping concave cavity is arranged on one side of each side protruding block.

8. The fabricated architectural glass placement apparatus of claim 1, wherein: still including being used for transporting glass in order to realize that glass carries out the transportation loading attachment that multi-angle conversion back loaded, transportation loading attachment is including the cooperation box, cooperation box top pivoted is provided with the swing box, gliding being provided with a plurality of roll-off sucking discs in the swing box, roll-off sucking disc one side is provided with the cooperation board that slides, be provided with the drive in the swing box the removal subassembly that the cooperation board removed slides, be provided with the messenger between swing box and the cooperation box swing box wobbling swing subassembly.

9. The fabricated architectural glass placement apparatus of claim 8, wherein: the movable assembly comprises a matching sliding groove arranged in the swing box body, a movable connection motor is arranged in the end wall of the matching sliding groove, a power threaded rod is arranged on one side of the movable connection motor in a power connection mode, and the power threaded rod is in threaded fit connection with the sliding matching plate.

10. The fabricated architectural glass placement apparatus of claim 8, wherein: the swing assembly comprises a swing box body, a bottom opening inner cavity is formed in the swing box body, a side driving motor is arranged in the end wall of the bottom opening inner cavity, a sliding fit threaded rod is arranged on one side of the side driving motor in a power connection mode, an internal thread moving block is arranged in the bottom opening inner cavity in a sliding mode, the internal thread moving block is in threaded fit connection with the sliding fit threaded rod, a connecting rod is hinged to the inside of the internal thread moving block, and the connecting rod is hinged to the swing box body.