CN109230518B

CN109230518B - Auxiliary glass conveying device

Info

Publication number: CN109230518B
Application number: CN201811206034.0A
Authority: CN
Inventors: 肖�琳
Original assignee: Wenzhou Hongliang Machinery Technology Co ltd
Current assignee: Tongcheng Construction Investment Development Co ltd
Priority date: 2018-10-17
Filing date: 2018-10-17
Publication date: 2020-06-02
Anticipated expiration: 2038-10-17
Also published as: CN109230518A

Abstract

The invention discloses a glass auxiliary transportation device which comprises a shell, wherein extending rods are distributed at equal intervals on the periphery of the outer wall of the shell, suckers are arranged on one sides of the four extending rods, the same handle is arranged on one side, away from the suckers, of the four extending rods, a vacuum pump is arranged on the inner wall of one side of the shell, grooves are formed in one ends, away from the shell, of the four extending rods, extending plates are inserted into the grooves, fixed blocks are arranged on one sides of the four extending plates, two elastic bands are arranged on one sides of the four fixed blocks, and fixed sleeves are arranged on the other sides of the four extending plates. The connecting sleeve prevents the glass from rebounding after colliding against the wall glass, improves the effects of buffering and resisting wind power, avoids the influence on the speed of descending of glass transportation, simultaneously ensures the deformation direction of the buffer spring by the connecting sleeve, protects the buffer spring from being wound between the buffer spring and the extending teeth, and ensures the stability of glass transportation.

Description

Auxiliary glass conveying device

Technical Field

The invention relates to the technical field of glass, in particular to a glass auxiliary conveying device.

Background

Glass generally refers to silicate glass, quartz sand, soda ash, feldspar, limestone and the like are used as raw materials, and the glass is widely applied to the fields of buildings, daily use, medical treatment, chemistry, electronics and the like, wherein a large amount of glass is needed for a glass curtain wall in the building industry, a piece of glass is needed to be transported in the installation process of the glass curtain wall, the conventional auxiliary transportation device for the glass is easily influenced by wind force in the transportation process to enable the glass to swing in the high altitude, the transportation stability is poor, and the glass is easily damaged

Through the retrieval, chinese patent application number is CN 201510193926.1's patent, discloses a glass sucking disc for transport vechicle, including sucking disc body and metal disc, inside the sucking disc body was arranged in to the metal disc, glass sucking disc for transport vechicle was equipped with the sucking disc support, the sucking disc support is triangle-shaped, is equipped with the action bars at sucking disc support lower extreme, the action bars is parallel with the sucking disc support, is equipped with reset spring in the clearance of action bars and sucking disc support and is connected fixedly with both, the action bars is equipped with three metal disc respectively at three corner point lower extreme, the metal disc passes through welded connection with the action bars. The glass sucker for the transport vehicle in the patent has the following defects: 1. glass cannot be effectively protected in the transportation process, and the possibility that the glass is damaged when colliding with the wall surface exists; 2. the high-altitude transportation process is not stable enough, and the acting force of wind power on the glass can not be reduced.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an auxiliary glass conveying device.

In order to achieve the purpose, the invention adopts the following technical scheme:

a glass auxiliary transportation device comprises a shell, wherein extending rods are distributed at equal intervals around the outer wall of the shell, suckers are arranged on one sides of the four extending rods, a same handle is arranged on one side of the four extending rods away from the suckers, a vacuum pump is arranged on the inner wall of one side of the shell, grooves are formed in one ends of the four extending rods away from the shell, extending plates are inserted into the grooves, fixed blocks are arranged on one sides of the four extending plates, two elastic bands are arranged on one sides of the four fixed blocks, fixed sleeves are arranged on the other sides of the four extending plates, a lifting rope and an extending sleeve are arranged in the middle of the outer wall of the top of the shell, the lifting rope is positioned inside the extending sleeve, a movable sleeve is sleeved at the top of the circumference of the extending sleeve, fixed rods are arranged at the tops of two sides of the lifting rope, and a rotating shaft is inserted into one, two the both ends of pivot all are connected with the fly leaf through the bearing, two the bottom of fly leaf all is equipped with the guide way, two the top of the relative one side of fly leaf all articulates there are two ejector pins, and the one end that is located two ejector pins on same fly leaf is equipped with same arc piece, two the intrados of arc piece all is equipped with connecting spring, and two connecting spring keep away from the one end of arc piece and all connect through fastening bolt and lifting rope.

Furthermore, the inner walls of the two sides of the fixing sleeve are provided with clamping blocks, and the outer wall of one side, away from the extension plate, of the fixing sleeve is provided with buffer springs distributed at equal intervals.

Furthermore, the one end that fixed cover was kept away from to buffer spring is equipped with the silica gel sucking disc, and fixed cover keeps away from one side outer wall of extension board and is equipped with the extension tooth that the equidistance distributes.

Furthermore, one side of the silica gel sucker close to the fixed sleeve is provided with a connecting sleeve, and one side of the connecting sleeve far away from the silica gel sucker is connected with the fixed sleeve through a fastening bolt.

Further, the one end that the fixed block was kept away from to the elastic cord is connected through the one end of fastening bolt and extension rod, and the draw-in groove that the equidistance distributes is all seted up to one side that two guide ways are close to the lifting rope, and the inside joint of draw-in groove has the ball.

Further, two the arc wall that the equidistance distributes is all seted up to the extrados of arc piece, and the longitudinal section of two arc pieces is oval, and two arc pieces are for moving about freely and quickly setting up, and four ejector pins are located the both ends of two arc pieces respectively.

Furthermore, two perforation has all been seted up at one side top of fly leaf, and the fenestrate cross section is the trapezium structure.

Furthermore, the bottom of the circumference of the extension sleeve is welded with a limiting ring, the top of the outer wall of the circumference of the extension sleeve is provided with sliding grooves distributed equidistantly, and the bottom of the inner wall of the circumference of the movable sleeve is provided with sliding blocks distributed equidistantly.

Furthermore, the top of the circumference of the movable sleeve is provided with a stress disc, and the bottoms of the outer walls of the two sides of the stress disc are provided with air inducing grooves distributed at equal intervals.

Further, one side of vacuum pump is equipped with four connecting pipes, and the one end that the vacuum pump was kept away from to four connecting pipes extends to the inside of four sucking discs respectively, and the vacuum pump is connected with the switch through the wire, and the switch is connected with the power through the wire.

The invention has the beneficial effects that:

1. through setting up buffer spring and silica gel sucking disc, when descending in-process glass meets the swing of longitudinal wind and hits wall glass, buffer spring plays the effect of buffering, and the supplementary buffer spring of silica gel sucking disc adsorbs with wall glass when playing the cushioning effect, avoids glass to hit and takes place the bounce-back behind the wall glass, improves the buffering and resists the effect of wind-force.

2. Through setting up extension tooth and adapter sleeve, extend the tooth and be located buffer spring's bottom, extend the tooth along with glass's decline and support the bottom at buffer spring, strengthen buffer spring's deformation, promote silica gel sucking disc and wall glass's separation, avoid its speed that influences glass transportation and descend, when the adapter sleeve guaranteed buffer spring deformation direction simultaneously, the protection buffer spring can not and extend and take place the winding between the tooth.

3. Through setting up arc piece, ejector pin and fly leaf, when horizontal wind blows to the outer arc face of the left arc piece of lifting rope, left arc piece receives pressure and pastes to the lifting rope to use the pivot to rotate as the fulcrum through promoting the fly leaf that the ejector pin top moved the right side, give lifting rope a power opposite with the horizontal wind through the guide way, thereby effectively slow down the lifting rope and swing because of wind-force, guarantee the stability of glass transportation.

4. Through setting up the arc wall, the arc wall guides the lateral wind that blows to the arc piece extrados, strengthens the effort of lateral wind to the arc piece, and two arc pieces are located same horizontal position, and when the extrados that receives left arc piece received lateral wind, the intrados on right side received lateral wind's effort simultaneously and kept away from the lift rope in the arc piece on right side, and the extrados that until the arc piece on right side supports on the fly leaf on right side, strengthens the effort of lateral wind to the fly leaf.

5. Through setting up extension cover, movable sleeve, atress dish and induced air groove, the induced air groove is to blowing the horizontal wind to the atress dish and leading, makes the bottom that the more acts on the atress dish of horizontal wind and promotes the atress dish upward movement, and the atress dish drives the movable sleeve upward movement and the cladding is in the circumference department of lifting rope, effectively slows down the lifting rope and receives wind-force and the deformation that forms, protects the steady of glass transportation.

Drawings

FIG. 1 is a schematic structural view of a glass auxiliary transportation device according to the present invention;

FIG. 2 is a sectional view of a side structure of a movable plate of the auxiliary glass conveying device according to the present invention;

FIG. 3 is a top view of a cross-sectional view of a lift cord for a glass auxiliary transportation device in accordance with the present invention;

FIG. 4 is a cross-sectional side view of an extension sleeve of the auxiliary glass conveying device according to the present invention;

FIG. 5 is a sectional view of the overall side structure of a glass auxiliary transportation device according to the present invention;

FIG. 6 is a cross-sectional view of the auxiliary glass conveying device at the position A.

In the figure: 1-shell, 2-handle, 3-extension rod, 301-groove, 4-sucker, 5-extension sleeve, 501-spacing ring, 502-chute, 6-movable sleeve, 601-slide block, 7-stress disk, 701-draught slot, 8-lifting rope, 9-movable plate, 901-guide slot, 902-ball and 903-perforation, 10-fixed rod, 1001-rotating shaft, 11-connecting spring, 12-arc piece, 1201-ejector rod, 1202-arc groove, 13-vacuum pump, 14-extension plate, 1401-fixed block, 1402-elastic band, 15-fixed sleeve, 1501-clamping block, 1502-extension tooth, 1503-buffer spring, 1504-silica gel sucker and 1505-connecting sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, an auxiliary glass transportation device comprises a housing 1, wherein the periphery of the outer wall of the housing 1 is connected with extending rods 3 distributed equidistantly through fastening bolts, one side of each of the four extending rods 3 is connected with a suction cup 4 through the fastening bolt, one side of each of the four extending rods 3, which is far away from the suction cup 4, is connected with a same handle 2 through the fastening bolt, the inner wall of one side of the housing 1 is connected with a vacuum pump 13 through the fastening bolt, one end of each of the four extending rods 3, which is far away from the housing 1, is provided with a groove 301, extending plates 14 are inserted into the four grooves 301, one side of each of the four extending plates 14 is connected with a fixed block through the fastening bolt, one side of each of the four fixed blocks 1401 is connected with two elastic bands 1402 through the fastening bolt, the other side of each of the four extending plates 14 is connected with a fixed, the lifting rope 8 is positioned in the extension sleeve 5, the top of the circumference of the extension sleeve 5 is sleeved with the movable sleeve 6, the tops of the two sides of the lifting rope 8 are connected with fixed rods 10 through fastening bolts, one end of each fixed rod 10 is inserted with a rotating shaft 1001, the two ends of each rotating shaft 1001 are connected with movable plates 9 through bearings, the bottoms of the two movable plates 9 are connected with guide grooves 901 through fastening bolts, the tops of the opposite sides of the two movable plates 9 are hinged with two ejector rods 1201, one ends of the two ejector rods 1201 positioned on the same movable plate 9 are connected with the same arc-shaped sheet 12 through fastening bolts, the inner arc surfaces of the two arc-shaped sheets 12 are connected with connecting springs 11 through fastening bolts, one ends of the two connecting springs 11 far away from the arc-shaped sheet 12 are connected with the lifting rope 8 through fastening bolts, when transverse wind blows to the outer arc surface of the arc, the left arc-shaped piece 12 is attached to the lifting rope 8 by pressure, the ejector rod 1201 is pushed to push the right movable plate 9 to rotate by taking the rotating shaft 1001 as a fulcrum, a force opposite to transverse wind is given to the lifting rope 8 through the guide groove 901, and therefore the swinging of the lifting rope 8 due to wind power is effectively slowed down, and the stability of glass transportation is guaranteed.

In the invention, the clamping blocks 1501 are arranged on the inner walls of the two sides of the fixing sleeve 15, the cross sections of the two clamping blocks 1501 are C-shaped, one corner of glass is effectively clamped, and the outer wall of one side of the fixing sleeve 15, which is far away from the extension plate 14, is connected with the buffer springs 1503 which are distributed equidistantly through the fastening bolts, so that the glass plays a role in buffering when being swung by longitudinal wind and collided with the wall glass.

Wherein, buffer spring 1503 is kept away from the one end of fixed cover 15 and is connected with silica gel sucking disc 1504 through fastening bolt, supplementary buffer spring 1503 plays the cushioning effect and adsorbs with wall glass in the time, avoid glass to collide and take place the bounce-back behind the wall glass, improve the buffering and resist the effect of wind-force, and fixed cover 15 is kept away from one side outer wall of extension board 14 and is connected with the extension tooth 1502 that the equidistance distributes through fastening bolt, extend the bottom that tooth 1502 is located buffer spring 1503, extend the bottom that tooth 1502 supports at buffer spring 1503 along with glass's decline, strengthen buffer spring 1503's deformation, promote silica gel sucking disc 1504 and wall glass's separation, avoid its speed that influences the decline of glass transportation.

Wherein, the side of the silica gel sucking disc 1504 that is close to the fixed sleeve 15 is connected with a connecting sleeve 1505 by a fastening bolt, and the side of the connecting sleeve 1505 that is far away from the silica gel sucking disc 1504 is connected with the fixed sleeve 15 by a fastening bolt, and the buffer spring 1503 is located inside the connecting sleeve 1505, and the connecting sleeve 1505 protects the buffer spring 1503 from winding with the extending teeth 1502 while ensuring the deformation direction of the buffer spring 1503.

Wherein, the one end that fixed block 1401 was kept away from to elastic cord 1402 is passed through fastening bolt and extension rod 3's one end and is connected, guarantees that fixed cover 15 is inseparable with the glass laminating, and two guide ways 901 all set up the draw-in grooves that the equidistance distributes near one side of lifting rope 8, and the inside joint of draw-in groove has ball 902, reduces the frictional force between guide way 901 and the lifting rope 8.

Wherein, the arc 1202 that the equidistance distributes is all seted up to the extrados of two arcs 12, the transversal wind to the extrados of arcs 12 that blows is guided, strengthen the effort of transversal wind to arcs 12, and the longitudinal section of two arcs 12 is oval, two arcs 12 are for setting up with great ease, four ejector pins 1201 are located the both ends of two arcs 12 respectively, guarantee that two arcs 12 are located same horizontal position, when the extrados that receives left arcs 12 receives the transversal wind, the intrados of arcs 12 on right side receives the effort of transversal wind simultaneously and keeps away from lift rope 8, the extrados of arcs 12 on until right side supports on fly leaf 9 on right side, strengthen the effort of transversal wind to fly leaf 9.

Wherein, perforation 903 has all been seted up at one side top of two fly leaf 9, and the cross section of perforation 903 is the trapezium structure, increases the effort of horizontal wind to fly leaf 9 top, and the through-hole has all been seted up to the intermediate position of two fly leaf 9 one sides, the internal diameter of through-hole and the external diameter looks adaptation of dead lever 10.

Wherein, the welding of the bottom of extending the 5 circumference of cover has spacing collar 501, and the spout 502 that the equidistance distributes is seted up at the top of extending the 5 circumference outer walls of cover, and the bottom of the 6 circumference inner walls of movable sleeve is provided with the slider 601 that the equidistance distributes, and the external diameter of slider 601 and the internal diameter looks adaptation of spout 502 guarantee to extend the slip between cover 5 and the movable sleeve 6, just prescribe a limit to the position of movable sleeve 6.

Wherein, the top of the 6 circumference of movable sleeve is connected with atress dish 7 through fastening bolt, and the induced air groove 701 that the equidistance distributes is all seted up to the bottom of atress dish 7 both sides outer wall, induced air groove 701 is to blowing the horizontal wind to atress dish 7 and is guided, make the bottom that the horizontal wind is more acted on atress dish 7 and promote atress dish 7 upward movement, atress dish 7 drives the 6 upward movements of movable sleeve and the cladding is in the circumference department of lifting rope 8, effectively slow down lifting rope 8 and receive the deformation that wind-force and form, the steady of protection glass transportation.

Wherein, one side of vacuum pump 13 is connected with four connecting pipes through fastening bolt, and the one end that vacuum pump 13 was kept away from to four connecting pipes extends to the inside of four sucking discs 4 respectively, and vacuum pump 13 is connected with the switch through the wire, and the switch is connected with the power through the wire.

When in use, the four suckers 4 are attached to glass to be transported, the vacuum pump 13 vacuumizes the suckers 4 through the connecting pipe, the glass is adsorbed and fixed, the extension plate 14 is drawn out, the four fixing sleeves 15 are sleeved at four corners of the glass for protection, the shell 1 and the glass are driven by the lifting rope 8 to be transported downwards, when the glass is collided with longitudinal wind swing and collided with wall glass in the descending process, the buffer spring 1503 plays a buffering role, the silica gel suckers 1504 assist the buffer spring 1503 to play a buffering role and adsorb the wall glass at the same time, the glass is prevented from rebounding after being collided with the wall glass, the effects of buffering and resisting wind power are improved, the extension teeth 1502 are positioned at the bottom of the buffer spring 1503, the extension teeth abut against the bottom of the buffer spring 1503 along with the descending of the glass, the deformation of the buffer spring 1503 is enhanced, the separation of the silica gel suckers from the wall glass is promoted, the connecting sleeve 1505 ensures the deformation direction of the buffer spring 1503 and protects the buffer spring 1503 from winding with the extending teeth 1502.

When transverse wind blows to the outer arc surface of the arc piece 12 on the left side of the lifting rope 8, the arc piece 12 on the left side is pressed to be attached to the lifting rope 8, the ejector rod 1201 is pushed to push the movable plate 9 on the right side to rotate by taking the rotating shaft 1001 as a fulcrum, the lifting rope 8 is given a force opposite to the transverse wind through the guide groove 901, so that the swinging of the lifting rope 8 due to the wind power is effectively reduced, the stability of glass transportation is ensured, the arc groove 1202 guides the transverse wind blowing to the outer arc surface of the arc piece 12, the acting force of the transverse wind on the arc piece 12 is enhanced, the two arc pieces 12 are positioned on the same horizontal position, when the outer arc surface of the arc piece 12 on the left side is subjected to the transverse wind, the inner arc surface of the arc piece 12 on the right side is simultaneously subjected to the acting force of the transverse wind and is far away from the lifting rope 8 until the outer arc surface of the, the wind guide groove 701 guides the transverse wind blowing to the stress disc 7, so that more transverse wind acts on the bottom of the stress disc 7 and pushes the stress disc 7 to move upwards, the stress disc 7 drives the movable sleeve 6 to move upwards and coat the movable sleeve on the circumference of the lifting rope 8, deformation caused by wind force on the lifting rope 8 is effectively reduced, and the glass is protected to be stably transported.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The auxiliary glass conveying device comprises a shell (1) and is characterized in that extending rods (3) are arranged on the periphery of the outer wall of the shell (1) and distributed equidistantly, suckers (4) are arranged on one sides of the four extending rods (3), one side, away from the suckers (4), of each of the four extending rods (3) is provided with the same handle (2), the inner wall of one side of the shell (1) is provided with a vacuum pump (13), one ends, away from the shell (1), of the four extending rods (3) are provided with grooves (301), extending plates (14) are inserted into the four grooves (301), one sides of the four extending plates (14) are provided with fixing blocks (1401), one sides of the four fixing blocks (1401) are provided with two elastic bands (1402), the other sides of the four extending plates (14) are provided with fixing sleeves (15), a lifting rope (8) and an extending sleeve (5) are arranged in the middle position of the outer wall of the top of the shell (1, the lifting rope (8) is positioned inside the extension sleeve (5), the top of the circumference of the extension sleeve (5) is sleeved with the movable sleeve (6), the tops of the two sides of the lifting rope (8) are respectively provided with a fixed rod (10), and one end of each fixed rod (10) is inserted with a rotating shaft (1001), two ends of each rotating shaft (1001) are connected with movable plates (9) through bearings, the bottoms of the two movable plates (9) are provided with guide grooves (901), the tops of the opposite sides of the two movable plates (9) are hinged with two ejector rods (1201), one end of two ejector rods (1201) positioned on the same movable plate (9) is provided with the same arc-shaped piece (12), the inner arc surfaces of the two arc-shaped pieces (12) are both provided with a connecting spring (11), and one ends of the two connecting springs (11) far away from the arc-shaped sheet (12) are connected with the lifting rope (8) through fastening bolts.

2. The auxiliary glass conveying device as claimed in claim 1, wherein the fixing sleeve (15) is provided with clamping blocks (1501) on both inner walls, and the fixing sleeve (15) is provided with buffer springs (1503) equidistantly distributed on the outer wall of one side away from the extension plate (14).

3. A glass auxiliary conveying device as claimed in claim 2, characterized in that the end of the buffer spring (1503) far away from the fixing sleeve (15) is provided with a silicone suction cup (1504), and the outer wall of the fixing sleeve (15) far away from the side of the extension plate (14) is provided with extension teeth (1502) distributed at equal intervals.

4. A glass auxiliary conveying device according to claim 3, characterized in that a side of the silica gel suction cup (1504) close to the fixing sleeve (15) is provided with a connecting sleeve (1505), and a side of the connecting sleeve (1505) far away from the silica gel suction cup (1504) is connected with the fixing sleeve (15) through a fastening bolt.

5. The auxiliary glass conveying device according to claim 1, wherein one end of the elastic band (1402) far away from the fixing block (1401) is connected with one end of the extension rod (3) through a fastening bolt, clamping grooves distributed at equal intervals are formed in one sides of the two guide grooves (901) close to the lifting rope (8), and balls (902) are clamped inside the clamping grooves.

6. The auxiliary glass conveying device according to claim 1, wherein arc-shaped grooves (1202) are formed in the outer arc surfaces of the two arc-shaped sheets (12) and are distributed equidistantly, and the longitudinal sections of the two arc-shaped sheets (12) are oval.

7. The auxiliary glass conveying device according to claim 1, wherein the two movable plates (9) are provided with through holes (903) at the tops of one sides, and the cross section of each through hole (903) is of a trapezoidal structure.

8. The auxiliary glass conveying device according to claim 1, wherein a limiting ring (501) is welded at the bottom of the circumference of the extension sleeve (5), sliding grooves (502) are formed in the top of the outer wall of the circumference of the extension sleeve (5) and are distributed equidistantly, and sliding blocks (601) are arranged at the bottom of the inner wall of the circumference of the movable sleeve (6) and are distributed equidistantly.

9. The auxiliary glass conveying device according to claim 1, wherein a stress disc (7) is arranged at the top of the circumference of the movable sleeve (6), and wind guide grooves (701) distributed at equal intervals are formed in the bottoms of the outer walls of the two sides of the stress disc (7).

10. The auxiliary glass conveying device as claimed in claim 1, wherein one side of the vacuum pump (13) is provided with four connecting pipes, one ends of the four connecting pipes far away from the vacuum pump (13) respectively extend into the four suckers (4), the vacuum pump (13) is connected with a switch through a conducting wire, and the switch is connected with a power supply through a conducting wire.