CN212769377U - Hoisting and positioning structure for accurately positioning building glass - Google Patents

Abstract

The utility model relates to an architectural glass hoist device's field, especially, relate to accurate location architectural glass is with hoist and mount location structure, it includes the hoist and mount pole, the threaded rod, two lock area subassemblies and two hoist and mount areas, the threaded rod rotates to be connected in the hoist and mount pole, be provided with two sections opposite screw threads on the threaded rod, one section screw thread corresponds a lock area subassembly, a lock area subassembly for fixed hoist and mount area position passes through the connecting block to be connected in the threaded rod, connecting block threaded connection is in the threaded rod, lock area subassembly bottom fixed connection is in the connecting block top, a hoist and mount area corresponds a lock area subassembly, hoist and mount pole is located to the hoist and mount area, wear to establish the lock area subassembly that corresponds with the hoist. This application has the effect that improves the adaptability of hoist and mount glass piece not of uniform size.

Description

Hoisting and positioning structure for accurately positioning building glass

Technical Field

The application relates to the field of building glass hoisting devices, in particular to a hoisting and positioning structure for accurately positioning building glass.

Background

At present, glass raw sheets are often required to be transferred to a processing equipment station from a raw sheet placing position in a glass deep processing workshop, and if a large number of glass sheets are transferred, the glass sheets are not only low in transferring efficiency but also easy to damage if being manually transferred. Therefore, in actual glass deep processing, a glass sheet is often transferred by a lifting device for architectural glass.

Referring to fig. 1, current architectural glass hoist device, including stay cord 7, crotch 8, lifting rod 1 and two hoist and mount areas 3 for hang pull, transfer glass's stay cord 7 and crotch 8 are connected, and crotch 8 can dismantle with lifting rod 1 and be connected, and two hoist and mount areas 3 overlap respectively and establish the both sides at lifting rod 1, and the baffle 16 of lifting rod 1 top fixedly connected with restriction lifting belt 3 position, and a lifting belt 3 is located between two baffles 16, and glass sets up in two lifting belt 3 departments. After the hook 8 and the hoisting rod 1 are connected, a worker fixes glass at the two hoisting belts 3 and transfers the glass sheet by controlling the position of the pull rope 7.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when transporting glass pieces of different sizes, glass is arranged at the lifting belt, one lifting belt is arranged between the two baffle plates with fixed positions, and the glass pieces with smaller shapes easily drop due to instability.

SUMMERY OF THE UTILITY MODEL

In order to improve the adaptability of hoisting glass pieces of different sizes, the application provides accurate location hoisting location structure for building glass.

The application provides a hoist and mount location structure for accurate location building glass adopts following technical scheme:

the utility model provides an accurate location hoist and mount location structure for architectural glass, includes hoist and mount pole, threaded rod, two locks and takes subassembly and two hoist and mount areas, the threaded rod rotates to be connected in hoist and mount pole, be provided with two sections opposite screw threads on the threaded rod, one section screw thread corresponds one lock takes the subassembly, is used for fixing the lock that hoist and mount area position takes the subassembly to pass through the connecting block and connects in the threaded rod, connecting block threaded connection is in the threaded rod, lock takes subassembly bottom fixed connection in connecting block top, one the hoist and mount area corresponds a lock takes the subassembly, hoist and mount area cover is located the hoist and mount pole, with the hoist and mount area of connecting block top butt wears to establish the lock that corresponds and takes the.

By adopting the technical scheme, the hoisting belt is placed at the top of the connecting block and in the belt locking component, so that the position of the hoisting belt is fixed; the threaded rod is rotated, and the two connecting blocks are close to or far away from the lifting rod simultaneously, so that the position of the lifting belt on the lifting rod is adjusted according to the size of the glass sheets, and the effect of improving the adaptability of the glass sheets with different lifting sizes is achieved.

Preferably, one side of the hoisting rod is provided with a driving part for rotating the threaded rod, and the hoisting rod is far away from the side fixedly connected with balancing weight provided with the driving part.

Through adopting above-mentioned technical scheme, set up the balancing weight in order to keep the balance at hoist and mount pole both ends, reduce its condition emergence of being partial to one of them end. Staff's accessible drive driving piece, drive the threaded rod and rotate, and then change the connecting block position, reach the effect that improves the adaptability of the glass piece of hoist and mount not of uniform size.

Preferably, the locking belt component comprises a rotating block and two vertical plates, wherein the vertical plates are fixedly connected to the top of the connecting block respectively, the bottom of the rotating block is rotatably connected to the top of one vertical plate, the bottom of the rotating block is abutted to the top of the other vertical plate, and the hoisting belt is located between the two vertical plates and below the rotating block.

By adopting the technical scheme, the locking belt assembly is used for fixing the position of the hoisting belt, and the hoisting belt is placed between the two vertical plates and the top of the connecting block, so that the situation that the hoisting belt falls off the hoisting rod is reduced; when the hoisting belt and the hoisting rod need to be separated, the rotating block is rotated to enable the rotating block to be in a state of not being abutted to the vertical plate, and the hoisting belt is separated from the connecting block and the vertical plate.

Preferably, the locking belt assembly further comprises a belt pressing piece, the belt pressing piece comprises an insertion rod, the insertion rod is inserted into the rotating block, the end portion of the insertion rod is abutted to the surface of the hoisting belt, and a space for the insertion rod to leave the two vertical plates is formed between the side surface of the insertion rod and the two vertical plates.

By adopting the technical scheme, when the hoisting belt needs to be pressed, the insertion rod is inserted into the rotating block, and the end part of the insertion rod is abutted against the surface of the hoisting belt, so that the hoisting belt is further fixed; when the hoisting belt is not required to be pressed, the inserted rod is pulled towards the direction far away from the hoisting belt.

Preferably, the strap pressing piece further comprises a limiting rod, the limiting rod is sleeved with the limiting rod and is fixedly connected to the outer wall of the inserting rod, a vertical rod is fixedly connected to the side face of the limiting rod, the limiting rod and the vertical rod are inserted into the rotating block, a limiting chamber used for containing the inserting rod, the vertical rod and the limiting rod is arranged in the rotating block, the side face of the limiting rod is abutted to the side wall of the limiting chamber, and the end portion of the vertical rod is abutted to the side wall of the limiting chamber opposite to the side wall.

By adopting the technical scheme, when the hoisting belt needs to be compressed, the inserted link, the vertical link and the limiting rod are inserted into the rotating block, the end part of the inserted link is abutted against the surface of the hoisting belt, the inserted link is rotated to enable the side surface of the limiting rod to be abutted against the side wall of the limiting chamber, and the end part of the vertical link, far away from the limiting rod, is abutted against the side wall of the limiting chamber, opposite to the side wall; when the hoisting belt does not need to be compressed, the inserted bar is rotated, the inserted bar is pulled towards the direction far away from the hoisting belt, the limiting rod and the vertical rod leave the limiting chamber, and the inserted bar is rotated again, so that the end part of the vertical rod is abutted against the side face of the rotating block far away from the hoisting belt. The staff can utilize to press the area piece to compress tightly the hoist and mount area according to actual demand, takes further to fix to hoist and mount.

Preferably, the end part of the inserted bar is fixedly connected with a lower pressing plate, a space exists between the side edge of the lower pressing plate and the two vertical plates, and the side surface of the lower pressing plate, far away from the inserted bar, is abutted against the surface of the hoisting belt.

Through adopting above-mentioned technical scheme, through setting up the holding down plate, increase with the surperficial area of contact of hoist and mount area, further strengthen the effect that compresses tightly.

Preferably, the end part of the inserted rod, which is far away from the hoisting belt, is fixedly connected with a disc.

Through adopting above-mentioned technical scheme, when staff adjusted the inserted bar position, the disc acted as handheld portion, was more convenient for the staff to the inserted bar application of force.

Preferably, the turning block is far away from the first lug of side fixedly connected with of rotation department, keeps away from the riser side fixedly connected with second lug of rotation department of turning block, first lug and second lug overcoat are established and can be dismantled and be connected with the buckle subassembly that is used for fixed both positions.

Through adopting above-mentioned technical scheme, after adjusting the position of rotating block, utilize buckle subassembly with its rigidity, reduce the condition emergence that the hoist and mount area breaks away from the lock area subassembly.

In summary, the present application includes at least one of the following beneficial technical effects:

1. placing the hoisting belt on the top of the connecting block and in the belt locking assembly so as to fix the position of the hoisting belt; the threaded rod is rotated, and the two connecting blocks are close to or far away from the lifting rod at the same time, so that the position of the lifting belt on the lifting rod is adjusted according to the size of the glass sheets, and the effect of improving the adaptability of the glass sheets with different lifting sizes is achieved;

2. the locking belt assembly is used for fixing the position of the hoisting belt, and the hoisting belt is placed between the two vertical plates and the top of the connecting block, so that the situation that the hoisting belt falls off the hoisting rod is reduced;

3. when the hoisting belt needs to be compressed, the insertion rod is inserted into the rotating block, and the end of the insertion rod is abutted against the surface of the hoisting belt, so that the hoisting belt is further fixed.

Drawings

Fig. 1 is a schematic structural view of a related art architectural glass hoist apparatus.

Fig. 2 is a schematic structural diagram of a hoisting positioning structure for accurately positioning architectural glass according to an embodiment of the present application.

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

Fig. 4 is a partial structural sectional view of a hoisting positioning structure for accurately positioning architectural glass according to an embodiment of the present application.

Description of reference numerals: 1. hoisting the rod; 11. a limiting groove; 12. a bearing plate; 13. a motor; 14. a balancing weight; 15. scale lines; 16. a baffle plate; 2. a threaded rod; 21. connecting blocks; 3. a hoisting belt; 4. a locking strap assembly; 41. rotating the block; 411. a through hole; 412. a limiting chamber; 413. a first bump; 42. a vertical plate; 421. a second bump; 5. a tape pressing member; 51. inserting a rod; 52. a limiting rod; 53. a vertical rod; 54. a lower pressing plate; 55. a disc; 6. a buckle assembly; 61. a semi-circular arc member; 62. a connecting member; 621. a groove; 7. pulling a rope; 8. and (4) hooking.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses accurate location hoist and mount location structure for building glass. Referring to fig. 2, accurate location hoist and mount location structure for architectural glass includes hoist and mount pole 1, threaded rod 2, two lock area subassemblies 4 and two hoist and mount areas 3. The top of the hoisting rod 1 is connected with the hook 8, the top of the hoisting rod 1 is provided with a limit groove 11 for placing the threaded rod 2, the threaded rod 2 is rotatably connected with the limit groove 11, and one end of the threaded rod 2 penetrates out of the side face of the hoisting rod 1. The threaded rod 2 is provided with two sections of opposite threads, and one section of the opposite threads corresponds to one locking belt component 4. The lock takes subassembly 4 to connect in threaded rod 2 through connecting block 21, and connecting block 21 cover is established and threaded connection is in threaded rod 2, and 4 bottom fixed connection of lock takes subassembly in connecting block 21 top, and 3 locks of taking 3 to take and take subassembly 4, and hoist and mount are taken 3 covers and are located hoist and mount pole 1, and hoist and mount take 3 to wear to establish the lock that corresponds and take subassembly 4, hoist and mount and take 3 and connecting block 21 top butt. Placing the hoisting belt 3 on the top of the connecting block 21 and in the belt locking component 4 so as to fix the position of the hoisting belt 3; rotating threaded rod 2, two connecting blocks 21 are close to simultaneously or keep away from simultaneously to this position of lifting belt 3 on lifting rod 1 is adjusted according to the size of glass piece, reaches the effect that improves the adaptability of the glass piece of hoist and mount not of uniform size.

Referring to fig. 2, for the position of being convenient for further staff to adjust hoist and mount area 3 on hoist and mount pole 1, hoist and mount pole 1 side fixedly connected with accepts board 12, accepts board 12 top fixedly connected with driving piece, and in this implementation, the driving piece is motor 13, and the output shaft of motor 13 passes through the coupling joint in the one end of threaded rod 2. The hoisting rod 1 is far away from the side surface provided with the motor 13 and is fixedly connected with a balancing weight 14. The counterweight 14 is provided to keep the balance of the two ends of the hoisting rod 1 and reduce the deviation of the counterweight to one end. Staff's accessible driving motor 13, drive threaded rod 2 and rotate, and then change connecting block 21 positions, reach the effect that improves the adaptability of the glass piece of hoist and mount not uniform in size.

Referring to fig. 3, the top of the lifting rod 1 is provided with scale marks 15, so that the worker can adjust the position of the connecting block 21 on the lifting rod 1 according to the actual size of the glass sheet.

Referring to fig. 4, the locking belt assembly 4 includes a rotating block 41 and two vertical plates 42, the two vertical plates 42 are respectively and fixedly connected to the top of the connecting block 21 and close to two opposite side edges, the bottom of the rotating block 41 is rotatably connected to the top of one of the vertical plates 42, and the bottom of the rotating block 41 is abutted to the top of the other vertical plate 42; the hoisting belt 3 is positioned between the two vertical plates 42 and below the rotating block 41. When the bottom of the rotating block 41 is abutted against the top of the vertical plate 42, the position of the rotating block 41 is fixed between the rotating block 41 and the vertical plate 42 through the detachable buckle assembly 6. After the hoisting belt 3 is placed between the two vertical plates 42 and the top of the connecting block 21, the rotating block 41 is rotated to enable the bottom of the rotating block 41 to be abutted against the tops of the vertical plates 42, and the position of the rotating block 41 is fixed by the buckle assembly 6; the situation that the hoisting belt 3 falls off the hoisting rod 1 is reduced; when the hoisting belt 3 and the hoisting rod 1 need to be separated, the buckle assembly 6 is disassembled, the rotating block 41 is rotated, and the hoisting belt 3 is separated from the belt locking assembly 4.

Referring to fig. 4, the belt locking assembly 4 further comprises a belt pressing member 5, the belt pressing member 5 comprises an inserting rod 51 and a limiting rod 52, the limiting rod 52 is sleeved and fixedly connected to the outer wall of the inserting rod 51, two vertical rods 53 are fixedly connected to the side surface of the limiting rod 52, a distance exists between the two vertical rods 53, and the inserting rod 51 is located between the two vertical rods 53. The rotating block 41 is provided with a through hole 411 for the insertion rod 51, the vertical rod 53 and the limiting rod 52 to pass through, a limiting chamber 412 for placing the insertion rod 51, the vertical rod 53 and the limiting rod 52 is arranged in the rotating block 41, and the limiting chamber 412 is communicated with the through hole 411. When the hoisting belt 3 needs to be pressed, the inserting rod 51, the vertical rod 53 and the limiting rod 52 are inserted into the through hole 411, the end part of the inserting rod 51 is abutted against the surface of the hoisting belt 3, the inserting rod 51 is rotated to enable the side surface of the limiting rod 52 to be abutted against the side wall of the limiting chamber 412, and the end part of the vertical rod 53 far away from the limiting rod 52 is abutted against the side wall of the limiting chamber 412 opposite to the side wall; when the hoisting belt 3 is not required to be pressed, the inserting rod 51 is rotated, the inserting rod 51 is pulled towards the direction far away from the hoisting belt 3, the limiting rod 52 and the vertical rod 53 leave the limiting chamber 412 through the through hole 411, the inserting rod 51 is rotated again, the end part of the vertical rod 53 is abutted against the side surface of the rotating block 41 far away from the hoisting belt 3, and a space exists between the end part of the inserting rod 51 and the surface of the hoisting belt 3. The staff can utilize pressure area spare 5 to compress tightly hoist and mount area 3 according to actual demand, further fixes hoist and mount area 3.

Referring to fig. 4, in order to further enhance the effect of the inserting rod 51 on compressing the surface of the hoisting belt 3, the end of the inserting rod 51 is fixedly connected with a lower pressing plate 54, a space exists between the side edge of the lower pressing plate 54 and the two vertical plates 42, and the space is used for preventing the lower pressing plate 54 from contacting the two vertical plates 42 when the lower pressing plate 54 is separated from the position between the two vertical plates 42; when the hoisting belt 3 needs to be pressed, the side surface of the lower pressing plate 54 far away from the inserted rod 51 is abutted against the surface of the hoisting belt 3; when it is not necessary to press the sling 3, there is a space between the side of the lower plate 54 and the surface of the sling 3. In the present embodiment, the lower platen 54 has a cylindrical shape. By providing the lower pressing plate 54, the contact area with the surface of the sling 3 is increased, further enhancing the pressing effect.

Referring to fig. 4, in order to facilitate the worker to adjust the position of the insert rod 51, a disk 55 is fixedly connected to an end of the insert rod 51 away from the lower pressing plate 54, and a space is formed between the disk 55 and the top of the rotating block 41. When the staff adjusts the position of the inserted link 51, the disc 55 serves as a hand-held part, so that the staff can apply force to the inserted link 51 more conveniently.

Referring to fig. 3, the side of the rotating block 41 away from the rotating position is fixedly connected with a first protrusion 413, the side of the vertical plate 42 away from the rotating position of the rotating block 41 is fixedly connected with a second protrusion 421, the rotating block 41 is rotated, when the side of the rotating block 41 abuts against the top of the vertical plate 42, the first protrusion 413 and the second protrusion 421 are combined in a cylindrical shape, the detachable buckle assembly 6 is sleeved outside the first protrusion 413 and the second protrusion 421, and the buckle assembly 6 locks the positions of the first protrusion 413 and the second protrusion 421. After the position of the rotating block 41 is adjusted, the position is fixed by the snap assembly 6.

Referring to fig. 3, the buckle assembly 6 includes two semicircular arc pieces 61, the semicircular arc pieces 61 are matched with the first protrusion 413 and the second protrusion 421, one ends of the two semicircular arc pieces 61 are mutually rotatably connected, the other ends of the two semicircular arc pieces 61 are fixedly connected with a connecting piece 62, a groove 621 is formed in a side surface of the connecting piece 62 far away from the semicircular arc pieces 61, and the groove 621 penetrates through two opposite side walls of the connecting piece 62. A bolt is rotatably connected to two opposite side walls of one of the grooves 621, a nut is screwed to a position of the bolt far away from the rotation position of the bolt, and the inner diameter of the nut is larger than the linear distance between the two opposite side walls of the groove 621. The two semicircular arc pieces 61 are rotated to enable the side edges of the semicircular arc pieces to be abutted, the bolt is rotated to enable the bolt to be abutted to the bottom of the groove 621 far away from the rotating position of the semicircular arc pieces, the nut is adjusted, and when the side face of the nut is abutted to the side face of the connecting block 21 tightly, the nut is stopped to rotate, so that the first bump 413 and the second bump 421 are locked.

The implementation principle of the hoisting and positioning structure for accurately positioning the building glass in the embodiment of the application is as follows: placing the hoisting belt 3 between the two vertical plates 42 and the top of the connecting block 21, rotating the rotating block 41 to enable the bottom of the rotating block 41 to be abutted against the tops of the vertical plates 42, and fixing the position of the rotating block 41 by using the buckle assembly 6; the hoisting belt 3 is pressed by a belt pressing piece 5; rotating threaded rod 2, two connecting blocks 21 are close to simultaneously or keep away from simultaneously to this position of lifting belt 3 on lifting rod 1 is adjusted according to the size of glass piece, reaches the effect that improves the adaptability of the glass piece of hoist and mount not of uniform size.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an accurate location hoist and mount location structure for building glass which characterized in that: including hoist and mount pole (1), threaded rod (2), two locks area subassembly (4) and two hoist and mount areas (3), threaded rod (2) are rotated and are connected in hoist and mount pole (1), be provided with two sections opposite screw threads on threaded rod (2), one section screw thread corresponds one lock area subassembly (4) are used for fixing hoist and mount area (3) lock area subassembly (4) of position are connected in threaded rod (2) through connecting block (21), connecting block (21) threaded connection is in threaded rod (2), lock area subassembly (4) bottom fixed connection is in connecting block (21) top, one hoist and mount area (3) correspond a lock area subassembly (4), hoist and mount pole (1) are located to hoist and mount area (3) cover of connecting block (21) top butt are worn to establish corresponding lock area subassembly (4).

2. The hoisting positioning structure for accurately positioning building glass according to claim 1, characterized in that: one side of the hoisting rod (1) is provided with a driving piece for rotating the threaded rod (2), and the hoisting rod (1) is far away from the side fixedly connected with balancing weight (14) provided with the driving piece.

3. The hoisting positioning structure for accurately positioning building glass according to claim 1, characterized in that: locking area subassembly (4) are including turning block (41) and two riser (42), two riser (42) fixed connection respectively in connecting block (21) top, turning block (41) bottom is rotated and is connected in the top of one of them riser (42), the top butt of turning block (41) bottom and another riser (42), hoist and mount area (3) are located between two riser (42), turning block (41) below.

4. The hoisting and positioning structure for accurately positioning building glass according to claim 3, wherein: the lock takes subassembly (4) still includes pressure area spare (5), pressure area spare (5) are including inserted bar (51), inserted bar (51) are inserted and are located turning block (41), the tip of inserted bar (51) and the surperficial butt of hoist and mount area (3), there is the interval that supplies inserted bar (51) to leave two risers (42) between the side of inserted bar (51) and two risers (42).

5. The hoisting and positioning structure for accurately positioning building glass according to claim 4, wherein: the pressure belt piece (5) still includes gag lever post (52), gag lever post (52) cover is established and fixed connection is in inserted bar (51) outer wall, gag lever post (52) side fixedly connected with montant (53), gag lever post (52) and montant (53) are inserted and are located turning block (41), be provided with spacing room (412) that are used for placing inserted bar (51), montant (53) and gag lever post (52) in turning block (41), gag lever post (52) side and spacing room (412) lateral wall butt, montant (53) tip and spacing room (412) lateral wall butt relative with above-mentioned lateral wall.

6. The hoisting and positioning structure for accurately positioning building glass according to claim 5, wherein: the lifting belt is characterized in that a lower pressing plate (54) is fixedly connected to the end portion of the inserted rod (51), a space exists between the side edge of the lower pressing plate (54) and the two vertical plates (42), and the side surface, far away from the inserted rod (51), of the lower pressing plate (54) is abutted to the surface of the lifting belt (3).

7. The hoisting and positioning structure for accurately positioning building glass according to claim 5, wherein: the end part of the inserted rod (51) far away from the hoisting belt (3) is fixedly connected with a disc (55).

8. The hoisting and positioning structure for accurately positioning building glass according to claim 3, wherein: the side fixedly connected with first lug (413) of rotation department is kept away from to turning block (41) keep away from riser (42) side fixedly connected with second lug (421) of turning block (41) rotation department, first lug (413) and second lug (421) overcoat are established and can be dismantled and be connected with buckle subassembly (6) that are used for fixed both positions.

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