CN214692872U - Valve lifting hanger plate for bearing - Google Patents

Abstract

The utility model discloses a valve lifting plate for bearing, including two support columns, its characterized in that: the support column is magnetism, the top of support column fixed mounting respectively has driving motor, the both sides of support column are provided with supplementary hoisting accessory, supplementary hoisting accessory is including cup jointing the first rotary rod of installing in driving motor one side, the end of two first rotary rods is connected with the connecting sleeve through the bearing, the outside winding of first rotary rod is connected with the pulling force rope, the terminal fixed mounting of pulling force rope has the lug, the relative one side fixed mounting of two lugs has the bearing hanger plate, the below welded mounting of bearing hanger plate has the component board, evenly welded mounting has a plurality of A-frame supports between bearing hanger plate and the component board, two driving motor's turn to oppositely, the utility model discloses, have the practicality strong and can lift by crane large-scale heavy object, be convenient for the characteristics that the transportation removed.

Description

Valve lifting hanger plate for bearing

Technical Field

The utility model relates to a jack-up technical field specifically is a valve hoisting hanger plate for bearing.

Background

In the construction of the metallurgical industry, hoisting equipment under the column line of a factory building is very important and difficult work. At present, the work is generally carried out by a plurality of lifting workers cooperating with a large-scale lifting crane.

The existing hoisting hanger plate has very high labor intensity, causes huge waste of mechanical cost, and has low efficiency and poor practicability; meanwhile, the conventional hoisting plate sometimes cannot complete hoisting tasks due to the limitation of hoisting positions and spaces, and the normal construction is seriously influenced. Therefore, the valve lifting plate for bearing is high in design practicability, capable of lifting large-scale heavy objects and convenient to transport and move.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a valve lifts by crane hanger plate for bearing to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: the utility model provides a valve lifts by crane hanger plate for bearing, includes two support columns, its characterized in that: the support column is magnetic, the top ends of the support columns are respectively and fixedly provided with a driving motor, auxiliary hoisting devices are arranged on two sides of each support column, and the auxiliary hoisting devices are used for assisting in supporting and hoisting the hoisting plate.

According to the technical scheme, the auxiliary hoisting device comprises first rotary rods which are sleeved on one side of a driving motor, the tail ends of the two first rotary rods are connected with a connecting sleeve through bearings, the outer sides of the first rotary rods are wound and connected with tension ropes, the tail ends of the tension ropes are fixedly provided with lifting lugs, one sides of the two lifting lugs, which are opposite, are fixedly provided with bearing hoisting plates, force distribution plates are welded and installed below the bearing hoisting plates, a plurality of triangular supports are uniformly welded and installed between the bearing hoisting plates and the force distribution plates, the two driving motors are opposite in steering direction, the driving motor is started to drive the first rotary rods to rotate around the connecting sleeve, the tension ropes are slowly wound around the first rotary rods, the tension ropes are pulled to drive the lifting lugs at the tail ends of the first rotary rods and the hoisting plates fixedly installed between the lifting lugs to move upwards, when hoisted cargos are heavy, the force distribution plate and the triangular support below the bearing lifting plate support the bearing lifting plate, and the bearing capacity of the bearing lifting plate is enhanced.

According to the technical scheme, the below fixed mounting of minute power board has the supporting sleeve, the inside sliding connection of supporting sleeve has sliding sleeve, sliding sleeve's top welded mounting has hydraulic spring, sliding sleeve's bottom is connected with the universal wheel through the bearing, lifts by crane the board when the goods of board rather than top lifts by crane when targetting in place as the bearing, lifts by crane the hanger plate through promoting the bearing for the universal wheel rolls, makes things convenient for the short distance to remove the transportation, when the bearing lifts by crane the hanger plate and receives vibrations, and sliding sleeve slides from top to bottom in supporting sleeve, avoids sliding sleeve direct striking minute power board by the hydraulic spring buffering, makes the short distance transportation convenient stable more.

According to the technical scheme, a second rotary rod is welded and installed on one side, away from each other, of each of the two driving motors, a driving bevel gear is fixedly installed at the tail end of each second rotary rod, a driven bevel gear is connected to the lower portion of the driving bevel gear in an engaged mode, a threaded column is installed in the center of the driven bevel gear in a sleeved mode, a threaded sleeve is connected to the outer side of the threaded column in an engaged mode, the tail end of the threaded column is connected with a supporting bottom plate through a bearing, when the lifting starts, the driving motors are started to drive the second rotary rods to rotate, the driving bevel gears at the tail ends of the second rotary rods are rotated in an engaged mode with the driven bevel gears, and the threaded columns welded and installed below the driven bevel gears are rotated to drive the threaded sleeves engaged with the driving bevel gears to move up and down along the threaded columns.

According to the technical scheme, the cross-shaped sliding groove is formed in the supporting column, the T-shaped connecting rods are arranged at two ends of the lifting plate respectively and are connected with the cross-shaped sliding groove in a sliding mode, square magnetic blocks are fixedly mounted on two sides of each T-shaped connecting rod, circular magnetic blocks are arranged at the upper end and the lower end of each T-shaped connecting rod respectively, and the magnetic poles of the square magnetic blocks are the same as those of the supporting column.

According to the technical scheme, the magnetic plates are respectively welded and installed on one side of the threaded sleeve up and down, the magnetic poles of the magnetic plates are the same as those of the circular magnetic blocks, when goods begin to be lifted, the driving motor is started to enable the bearing lifting plate to drive the T-shaped connecting rod to slide up and down in the cross-shaped sliding groove, meanwhile, the threaded sleeve and the magnetic plates on one side of the threaded sleeve up and down move together with the T-shaped connecting rod, the characteristic that homopolarity of magnetic substances repel each other is utilized, in the lifting process, the threaded sleeve always assists the T-shaped connecting rod and the bearing lifting plate to lift, pressure borne by the bearing lifting plate is reduced, the supporting columns are magnetic, the magnetic poles of the supporting columns are the same as those of the square magnetic blocks, the T-shaped connecting rod cannot generate friction to increase lifting pressure, and the cross-shaped sliding groove simultaneously plays a role in limiting left-right displacement of the threaded sleeve.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is: the utility model is characterized in that the utility model,

(1) the lifting device is provided with a bearing lifting plate, a force distribution plate and a triangular bracket, a driving motor is started to drive a first rotating rod to rotate around a connecting sleeve, a tension rope is slowly wound around the first rotating rod, the tension rope is pulled to drive a lifting lug at the tail end of the tension rope and the bearing lifting plate fixedly installed between the lifting lugs to move upwards, and when lifted cargos are heavy, the force distribution plate and the triangular bracket below the bearing lifting plate support the bearing lifting plate and enhance the load bearing capacity of the bearing lifting plate;

(2) by arranging the supporting sleeve, the sliding sleeve and the universal wheel, when the bearing lifting plate and goods above the bearing lifting plate are lifted in place, the universal wheel rolls by pushing the bearing lifting plate, short-distance movement and transportation are facilitated, when the bearing lifting plate is vibrated, the sliding sleeve slides up and down in the supporting sleeve, and the hydraulic spring buffers the bearing lifting plate to prevent the sliding sleeve from directly impacting the force distribution plate, so that short-distance transportation is more convenient and stable;

(3) by arranging the T-shaped connecting rod, the cross sliding chute, the threaded sleeve and the magnetic plate, when goods start to be lifted, the driving motor is started to enable the bearing lifting plate to drive the T-shaped connecting rod to slide up and down in the cross sliding chute, meanwhile, the threaded sleeve and the magnetic plate above and below one side of the threaded sleeve move together with the T-shaped connecting rod, the characteristic that like poles of magnetic substances repel each other is utilized, in the lifting process, the threaded sleeve always assists the T-shaped connecting rod and the bearing lifting plate to lift, the pressure borne by the bearing lifting plate is reduced, the supporting columns are magnetic and the magnetic poles are the same as the magnetic blocks, so that in the lifting process, the T-shaped connecting rod cannot generate friction to increase the lifting pressure, and the cross sliding chute simultaneously plays a role in limiting the left-right displacement of the threaded sleeve.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is a front cross-sectional structural view of the support sleeve of the present invention;

fig. 3 is a schematic top view of the support pillar of the present invention;

fig. 4 is a front sectional structural schematic view of the threaded sleeve of the present invention;

in the figure: 1. a support pillar; 2. a drive motor; 3. a first rotating rod; 4. a connecting sleeve; 5. a tension rope; 6. lifting lugs; 7. a hoisting plate is supported; 8. a force-dividing plate; 9. a triangular bracket; 10. a support sleeve; 11. a sliding sleeve; 12. a hydraulic spring; 13. a universal wheel; 14. a second rotating rod; 15. a drive bevel gear; 16. a driven bevel gear; 17. a threaded post; 18. a threaded sleeve; 19. a magnetic plate; 20. a T-shaped connecting rod; 21. a circular magnetic block; 22. a square magnetic block; 23. a cross-shaped chute; 24. supporting the bottom plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a valve lifts by crane hanger plate for bearing, includes two support columns 1, its characterized in that: the supporting columns 1 are magnetic, the top ends of the supporting columns 1 are respectively and fixedly provided with a driving motor 2, and two sides of each supporting column 1 are provided with auxiliary hoisting devices which are used for carrying out auxiliary supporting and hoisting on the hoisting plates;

the auxiliary hoisting device comprises first rotating rods 3 which are sleeved and installed on one side of a driving motor 2, the tail ends of the two first rotating rods 3 are connected with a connecting sleeve 4 through bearings, the outer side of the first rotating rod 3 is connected with a tension rope 5 in a winding manner, the tail ends of the tension rope 5 are fixedly provided with lifting lugs 6, one opposite side of the two lifting lugs 6 is fixedly provided with a bearing hoisting plate 7, a force distribution plate 8 is welded and installed below the bearing hoisting plate 7, a plurality of triangular supports 9 are uniformly welded and installed between the bearing hoisting plate 7 and the force distribution plate 8, the steering directions of the two driving motors 2 are opposite, the driving motor 2 is started to drive the first rotating rod 3 to rotate around the connecting sleeve 4, the tension rope 5 is slowly wound around the first rotating rod 3, the tension rope 5 is pulled to drive the lifting lugs 6 at the tail ends of the first rotating rod and the bearing hoisting plate 7 fixedly installed between the lifting lugs 6 to move upwards, when cargos are heavier, the force distribution plate 8 and the triangular bracket 9 below the bearing lifting plate 7 support the bearing lifting plate 7, so that the load bearing capacity of the bearing lifting plate is enhanced;

a supporting sleeve 10 is fixedly installed below the force dividing plate 8, a sliding sleeve 11 is connected inside the supporting sleeve 10 in a sliding mode, a hydraulic spring 12 is installed at the top end of the sliding sleeve 11 in a welding mode, the bottom end of the sliding sleeve 11 is connected with a universal wheel 13 through a bearing, when the bearing lifting plate 7 and goods above the bearing lifting plate are lifted in place, the universal wheel 13 is made to roll by pushing the bearing lifting plate 7, short-distance moving and transportation are facilitated, when the bearing lifting plate 7 is vibrated, the sliding sleeve 11 slides up and down in the supporting sleeve 10, the hydraulic spring 12 buffers and prevents the sliding sleeve 11 from directly impacting the force dividing plate 8, and short-distance transportation is made to be more convenient and stable;

a second rotating rod 14 is welded and installed on one side, away from each other, of each of the two driving motors 2, a driving bevel gear 15 is fixedly installed at the tail end of each second rotating rod 14, a driven bevel gear 16 is connected below each driving bevel gear 15 in a meshed mode, a threaded column 17 is installed in the center of each driven bevel gear 16 in a sleeved mode, a threaded sleeve 18 is connected to the outer side of each threaded column 17 in a meshed mode, the tail end of each threaded column 17 is connected with a supporting bottom plate 19 through a bearing, when the lifting is started, each driving motor 2 is started to drive each second rotating rod 14 to rotate, the driving bevel gear 15 at the tail end of each second rotating rod 14 is meshed with the corresponding driven bevel gear 16 to rotate, the threaded columns 17 welded and installed below the driven bevel gears 16 are made to rotate, and the threaded sleeves 18 meshed with the driven bevel gears are driven to move up and down along the threaded columns 17;

a cross sliding chute 23 is formed in the support column 1, two ends of the bearing lifting plate 7 are respectively provided with a T-shaped connecting rod 20, the T-shaped connecting rod 20 is connected with the cross sliding chute 23 in a sliding manner, square magnetic blocks 22 are fixedly arranged on two sides of the T-shaped connecting rod 20, the upper end and the lower end of the T-shaped connecting rod 20 are respectively provided with a circular magnetic block 21, and the magnetic poles of the square magnetic blocks 22 are the same as those of the support column 1;

the magnetic plates 19 are respectively welded and installed on the upper side and the lower side of one side of the threaded sleeve 18, the magnetic poles of the magnetic plates 19 opposite to the circular magnetic blocks 21 are the same, when goods start to be lifted, the driving motor 2 is started to enable the lifting bearing plate 7 to drive the T-shaped connecting rod 20 to slide up and down in the cross sliding groove 23, meanwhile, the threaded sleeve 18 and the magnetic plates 19 on the upper side and the lower side of one side of the threaded sleeve 18 move together with the T-shaped connecting rod 20, the characteristic that like poles of magnetic substances repel each other is utilized, in the lifting process, the threaded sleeve 18 always assists the T-shaped connecting rod 20 and the lifting bearing plate 7 to lift, the pressure borne by the lifting bearing plate is reduced, the support column 1 is magnetic and the magnetic poles are the same as the square magnetic blocks 22, the T-shaped connecting rod 20 cannot generate friction to increase the lifting pressure in the lifting process, and the cross sliding groove 23 simultaneously plays a role in limiting the left-right displacement of the threaded sleeve 18.

The working principle is as follows: the auxiliary hoisting device has the effects of carrying out auxiliary supporting hoisting on a hoisting plate, starting the driving motor 2 to drive the first rotary rod 3 to rotate around the connecting sleeve 4, slowly winding the tension rope 5 around the first rotary rod 3, pulling the tension rope 5 to drive the lifting lugs 6 at the tail end of the tension rope 5 and the bearing hoisting plate 7 fixedly installed between the lifting lugs 6 to move upwards, when hoisted goods are heavy, the force distribution plate 8 and the triangular bracket 9 below the bearing hoisting plate 7 support the bearing hoisting plate 7 to enhance the load bearing capacity of the load bearing hoisting plate, when the bearing hoisting plate 7 and the goods above the bearing hoisting plate are hoisted in place, the universal wheels 13 roll by pushing the bearing hoisting plate 7, so that short-distance moving and transportation are facilitated, when the bearing hoisting plate 7 is vibrated, the sliding sleeve 11 slides up and down in the supporting sleeve 10, the hydraulic spring 12 buffers and avoids the sliding sleeve 11 from directly impacting the force distribution plate 8, the short-distance transportation is more convenient and stable, when the hoisting is started, the driving motor 2 is started to drive the second rotating rod 14 to rotate, the driving bevel gear 15 at the tail end of the second rotating rod 14 is meshed with the driven bevel gear 16 to rotate, the threaded column 17 welded and installed below the driven bevel gear 16 is rotated to drive the threaded sleeve 18 meshed with the threaded column to move up and down along the threaded column 17, when the goods are hoisted, the driving motor 2 is started to drive the hoisting hanger plate 7 to drive the T-shaped connecting rod 20 to slide up and down in the cross sliding chute 23, meanwhile, the threaded sleeve 18 and the magnetic plate 19 above and below one side of the threaded sleeve 18 move together with the T-shaped connecting rod 20, and by utilizing the characteristic that like poles of magnetic substances repel each other, in the hoisting process, the threaded sleeve 18 always assists the T-shaped connecting rod 20 and the hoisting hanger plate 7 to hoist, so that the pressure borne by the hoisting hanger plate is reduced, the support column 1 is magnetic and has the same magnetic pole as the square magnetic block 22, so that the T-shaped connecting rod 20 does not generate friction to increase the lifting pressure in the lifting process, and the cross sliding groove 23 simultaneously plays a role in limiting the left and right displacement of the threaded sleeve 18.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (1)

1. The utility model provides a valve lifts by crane hanger plate for bearing, includes two support columns (1), its characterized in that: the supporting column (1) is magnetic, the top end of the supporting column (1) is fixedly provided with a driving motor (2) respectively, and two sides of the supporting column (1) are provided with auxiliary hoisting devices;

the auxiliary lifting device comprises first rotating rods (3) which are sleeved on one side of a driving motor (2), the tail ends of the two first rotating rods (3) are connected with a connecting sleeve (4) through bearings, the outer sides of the first rotating rods (3) are wound and connected with tension ropes (5), the tail ends of the tension ropes (5) are fixedly provided with lifting lugs (6), one sides of the two lifting lugs (6) opposite to each other are fixedly provided with bearing lifting plates (7), force dividing plates (8) are welded and installed below the bearing lifting plates (7), a plurality of triangular supports (9) are uniformly welded and installed between the bearing lifting plates (7) and the force dividing plates (8), and the steering directions of the two driving motors (2) are opposite;

a supporting sleeve (10) is fixedly arranged below the force dividing plate (8), a sliding sleeve (11) is connected to the inside of the supporting sleeve (10) in a sliding mode, a hydraulic spring (12) is welded to the top end of the sliding sleeve (11), and the bottom end of the sliding sleeve (11) is connected with a universal wheel (13) through a bearing;

a second rotating rod (14) is welded and installed on one side, away from each other, of each of the two driving motors (2), a driving bevel gear (15) is fixedly installed at the tail end of each second rotating rod (14), a driven bevel gear (16) is connected to the lower portion of each driving bevel gear (15) in a meshed mode, a threaded column (17) is installed in the center of each driven bevel gear (16) in a sleeved mode, a threaded sleeve (18) is connected to the outer side of each threaded column (17) in a meshed mode, and the tail end of each threaded column (17) is connected with a supporting base plate (24) through a bearing;

a cross sliding groove (23) is formed in the supporting column (1), two ends of the load-bearing lifting plate (7) are respectively provided with a T-shaped connecting rod (20), the T-shaped connecting rods (20) are in sliding connection with the cross sliding groove (23), two sides of each T-shaped connecting rod (20) are fixedly provided with square magnetic blocks (22), the upper end and the lower end of each T-shaped connecting rod (20) are respectively provided with a circular magnetic block (21), and the magnetic poles of the square magnetic blocks (22) are the same as those of the supporting column (1);

and magnetic plates (19) are respectively welded and installed on the upper and lower sides of one side of the threaded sleeve (18), and the magnetic poles of the magnetic plates (19) opposite to the circular magnetic block (21) are the same.

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