CN214651152U - Steel bar truss building carrier plate pile up neatly device - Google Patents

Abstract

The utility model introduces a steel bar truss floor support plate stacking device, which comprises a supporting mechanism, a power mechanism, a conveying mechanism, a translation mechanism, a turnover mechanism and a lifting mechanism; the power mechanism, the conveying mechanism, the translation mechanism and the turnover mechanism are all arranged on the supporting mechanism; the lifting mechanism is arranged on the unloading side of the supporting mechanism. The automatic stacking device for the steel bar truss floor bearing plates realizes automatic stacking operation, improves the working efficiency and reduces the intensity of personnel; translation mechanism and tilting mechanism's continuous cooperation operation realizes steel bar truss building carrier plate lock pile up neatly, increases pile up neatly quantity and stability, and mobilizable elevating system not only increases steel bar truss building carrier plate pile up neatly quantity once, still can realize multiple specification production pile up neatly according to steel bar truss building carrier plate length adjustment position, and the degree of freedom is high, makes things convenient for the later stage to transport.

Description

Steel bar truss building carrier plate pile up neatly device

Technical Field

The utility model relates to a steel bar truss building carrier plate production pile up neatly technical field, in particular to automatic pile up neatly device of steel bar truss building carrier plate.

Background

The tail end of a well-known production line of the steel bar truss floor bearing plate is manually operated, two workers are required to lift one steel bar truss floor bearing plate for stacking, the labor intensity of the workers is high, the speed is low, and the efficiency is low; when the plate length is longer, the weight of one plate can reach 180kg, the operation of workers is very difficult, and industrial injury is easily caused; at present, some hoisting machines are simply utilized for stacking operation, but no special clamp is provided, assembly line operation is difficult to form, production efficiency cannot be guaranteed, and investment and labor intensity of production personnel cannot be really reduced.

Disclosure of Invention

The utility model aims at overcoming the not enough of prior art, providing an automatic pile up neatly device of steel bar truss building carrier plate, realize pile up neatly automation mechanized operation, improve the operating efficiency, reduce personnel's intensity.

The utility model adopts the technical proposal that:

an automatic stacking device for steel bar truss floor bearing plates comprises a supporting mechanism, a power mechanism, a conveying mechanism, a translation mechanism, a turnover mechanism and a lifting mechanism; the power mechanism, the conveying mechanism, the translation mechanism and the turnover mechanism are all arranged on the supporting mechanism;

the supporting mechanism comprises a plurality of vertical gantries consisting of square tubes, the vertical gantries are uniformly arranged along the length direction of the production line, the square tubes at the upper ends of the vertical gantries are provided with slots, two sides of each vertical gantry are provided with transverse connecting rods, the transverse connecting rods connect the vertical gantries to form a frame structure of the supporting mechanism, and a supporting bottom plate is arranged between the two vertical gantries positioned at the middle part;

the power mechanism is arranged on the supporting bottom plate in the middle of the supporting mechanism and comprises a conveying motor, a translation motor and a turnover motor;

the conveying mechanism comprises a plurality of support frame bodies, a plurality of rollers, a mounting rod, a plurality of chain wheels and chains; the plurality of support frame bodies are respectively arranged between every two adjacent vertical door frames; the plurality of rollers are respectively and uniformly arranged at the upper end of each support frame body; the mounting rods are horizontally arranged along one side of each support frame body; the plurality of chain wheels are uniformly arranged on the mounting rod; one end of each roller on the adjacent side of each support frame body is sequentially connected in series through a chain and a chain wheel arranged on the mounting rod, and an output shaft of the conveying motor is connected with the rollers on the two support frame bodies adjacent to the conveying motor through the chain wheel and the chain;

the translation mechanism comprises a translation long shaft, a plurality of translation trolleys, a plurality of chain wheels and chains; the chain wheels are respectively arranged at two ends in the square tube at the upper end of each vertical door frame, and the chains are arranged on the two chain wheels in the square tube; the translation long shaft is arranged at the upper end of each vertical door frame on the opposite side of the unloading direction, sequentially penetrates through chain wheels in each vertical door frame, and is arranged in series; an output shaft of the translation motor is connected with the middle part of the translation long shaft and drives the translation long shaft to drive each chain wheel to rotate; the plurality of translation trolleys are respectively arranged at the upper end of each vertical door frame, the lower sides of the translation trolleys penetrate through the slots at the upper sides of the vertical door frames to be connected with the chains, and the chains drive the translation trolleys to reciprocate along the upper ends of the vertical door frames;

the turnover mechanism comprises a turnover long shaft, a plurality of t-shaped turnover arms, a turnover rod, a plurality of clamping blocks and a clamping cylinder; the turning long shaft and the translation long shaft are oppositely arranged at the upper ends of the vertical door frames on one side of the discharging direction, and the turning long shaft sequentially penetrates through the vertical door frames and the chain gaps in the vertical door frames; an output shaft of the overturning motor is connected with the middle part of the overturning long shaft and drives the overturning long shaft to rotate in a reciprocating manner; a plurality of t-shaped overturning arms are respectively and uniformly arranged on the overturning long shaft at intervals, the t-shaped overturning arms are positioned between the corresponding vertical door frames and the support frame body, and one end of each t-shaped overturning arm is fixedly arranged on the overturning long shaft; the plurality of overturning rods are respectively hinged to the other end of each t-shaped overturning arm; the clamping blocks are respectively and oppositely hinged at two ends of each overturning rod, and the extending end of the clamping cylinder is connected with the clamping blocks to push the clamping blocks to rotate, clamp and loosen;

the lifting mechanism is arranged on the unloading side of the supporting mechanism and comprises a movable supporting frame, two lead screw lifters, a linkage shaft, a driving motor and a lifting platform; the movable support frame is of a frame structure, and universal wheels are arranged at four corners of the lower side of the movable support frame; the two screw lifters are correspondingly arranged on two sides of the movable support frame, the two screw lifters are connected in series through the linkage shaft, the driving motor is arranged on one side of the movable support frame, and an output shaft of the driving motor is connected with the screw lifter on one side; the lifting platform is arranged between the two screw rod lifters, and two ends of the lifting platform are respectively connected with the two screw rod lifters.

Specifically, the translation motor is arranged on the supporting base plate on the same side of the translation long shaft, the overturning motor is arranged on the supporting base plate on the same side of the overturning long shaft, and the conveying motor is arranged on the supporting base plate between the translation motor and the overturning motor.

Specifically, the translation long shaft and the overturning long shaft are arranged at the upper end of each vertical door frame through a bearing seat.

Specifically, the output shafts of the translation motor and the turnover motor are respectively connected with the translation long shaft and the turnover long shaft through a chain wheel and a chain.

Specifically, the overturning motor drives the overturning long shaft to rotate by an angle of 150 degrees, and the overturning rod freely rotates by an angle of 30 degrees around a hinge point with the overturning arm under the action of gravity.

Specifically, the lower end of the support frame body is provided with an adjusting supporting leg for adjusting the height of the support frame body.

Specifically, two or more rollers are arranged on each support frame body, and the height of each roller is slightly higher than the height of the upper end of the vertical portal; the steel bar truss floor support plate is guaranteed not to rub the upper end of the vertical door frame when moving on the roller.

Specifically, the nylon filler strip is arranged on one side of the upper end of the vertical door frame on the unloading side, so that hard friction of the steel bar truss floor bearing plate on the vertical door frame during unloading is prevented.

Specifically, the lifting mechanism is dispersedly arranged into two or more than two according to the length of the supporting mechanism and the length of the steel bar truss floor bearing plate needing to be stacked.

Specifically, the translation long shaft and the turnover long shaft can be lengthened through the butt joint of the couplers according to the length requirement.

Due to the adoption of the technical scheme, the utility model discloses have following superiority:

the automatic stacking device for the steel bar truss floor bearing plates realizes automatic stacking operation, improves the working efficiency and reduces the intensity of personnel; translation mechanism and tilting mechanism's continuous cooperation operation realizes steel bar truss building carrier plate lock pile up neatly, increases pile up neatly quantity and stability, and mobilizable elevating system not only increases steel bar truss building carrier plate pile up neatly quantity once, still can realize multiple specification production pile up neatly according to steel bar truss building carrier plate length adjustment position, and the degree of freedom is high, makes things convenient for the later stage to transport.

Drawings

Fig. 1 is a schematic front view of the present patent.

Fig. 2 is a schematic top view of the present patent.

Fig. 3 is a schematic side view of the patent.

Fig. 4 is a side view schematic of the delivery mechanism of the present patent.

Fig. 5 is a schematic side cross-sectional view of the steel bar truss floor deck of the present patent when translating on the translation mechanism and the lifting mechanism.

Fig. 6 is a schematic diagram of the movement of the steel bar truss floor support plate when the steel bar truss floor support plate is buckled to the lifting mechanism by the turnover mechanism.

In the figure: 1-supporting mechanism, 2-vertical gantry, 3-slotting, 4-transverse connecting rod, 5-supporting bottom plate, 6-nylon filler strip, 7-conveying motor, 8-translation motor, 9-overturning motor, 10-conveying mechanism, 11-supporting frame body, 12-adjusting supporting leg, 13-roller, 14-mounting rod, 15-chain wheel, 16-chain, 17-translation mechanism, 18-translation long shaft, 19-bearing seat, 20-translation trolley, 21-overturning mechanism, 22-overturning long shaft, 23-t-shaped overturning arm, 24-overturning rod, 25-clamping block, 26-clamping cylinder, 27-lifting mechanism, 28-movable supporting frame, 29-lead screw lifter, 30-linkage shaft, 31-driving motor, 32-lifting platform, 33-coupler and 34-steel bar truss floor bearing plate.

Detailed Description

The invention will be further explained below with reference to the drawings and examples, without limiting the scope of the invention, which is intended to protect all technical improvements within the scope of the invention.

With reference to fig. 1-6, the automatic stacking device for steel bar truss floor support plates comprises a supporting mechanism 1, a power mechanism, a conveying mechanism 10, a translation mechanism 17, a turnover mechanism 21 and a lifting mechanism 27; the power mechanism, the conveying mechanism 10, the translation mechanism 17 and the turnover mechanism 21 are arranged on the supporting mechanism 1 at intervals.

The supporting mechanism 1 comprises a plurality of vertical gantries 2 consisting of square tubes, the vertical gantries 2 are uniformly arranged along the length direction of the production line, the square tubes at the upper ends of the vertical gantries 2 are provided with slots 3, two sides of each vertical gantry 2 are provided with transverse connecting rods 4, the transverse connecting rods 4 connect the vertical gantries 2 to form a frame structure of the supporting mechanism 1, and a supporting bottom plate 5 is arranged between the two vertical gantries 2 in the middle position; the translation motor 8 is arranged on the supporting base plate 5 on the same side of the translation long shaft 18, the overturning motor 9 is arranged on the supporting base plate 5 on the same side of the overturning long shaft 22, and the conveying motor 7 is arranged on the supporting base plate 5 between the translation motor 8 and the overturning motor 9; one side of the upper end of each vertical portal 2 is provided with a nylon filler strip 6, so that the steel bar truss floor bearing plate 34 is prevented from hard friction to the vertical portal 2 during unloading.

The power mechanism is arranged on the supporting bottom plate 5 in the middle of the supporting mechanism 1 and comprises a conveying motor 7, a translation motor 8 and a turnover motor 9.

The conveying mechanism 10 comprises a plurality of support frame bodies 11, a plurality of rollers 13, a mounting rod 14, a plurality of chain wheels 15 and chains 16; a plurality of support frame bodies 11 are respectively arranged between every two adjacent vertical door frames 2, and the lower ends of the support frame bodies 11 are provided with adjusting support legs 12 for adjusting the heights of the support frame bodies 11; two or more rollers 13 are arranged on each support frame body 11, and the rollers 13 on the support frame bodies 11 are slightly higher than the height of the upper ends of the vertical portal frames 2; the steel bar truss floor bearing plate 34 is ensured not to rub the upper end of the vertical portal 2 when moving on the roller 13; the mounting rods 14 are horizontally arranged along one side of each support frame body 11; a plurality of chain wheels 15 are uniformly arranged on the mounting rod 14; one end of each roller 13 on the adjacent side of each support frame body 11 is connected in series with a chain wheel 15 arranged on the mounting rod 14 in sequence through a chain 16, and the output shaft of the conveying motor 7 is arranged on the chain wheel 15 at the shaft end of the output shaft and the chain 16 and is connected with the rollers 13 on the two adjacent support frame bodies 11 of the conveying motor 7.

The translation mechanism 17 comprises a translation long shaft 18, a plurality of translation trolleys 20, a plurality of chain wheels 15 and chains 16; the chain wheels 15 are respectively arranged at two ends in a square tube at the upper end of each vertical door frame 2, and the chains 16 are arranged on the two chain wheels 15 in the square tube; the long translation shaft 18 sequentially penetrates through a bearing seat 19 arranged at the upper end of each vertical door frame 2 on the opposite side of the unloading direction and a chain wheel 15 in each vertical door frame 2 along the length direction of the supporting mechanism 1, and the chain wheels 15 in the vertical door frames 2 are arranged in series.

An output shaft of the translation motor 8 is connected with the middle part of a translation long shaft 18 through a chain wheel 15 and a chain 16 which are arranged at the shaft end of the output shaft, and the translation long shaft 18 is driven to drive the chain wheel 15 in each vertical door frame 2 to rotate; the plurality of translation trolleys 20 are respectively arranged at the upper ends of the vertical door frames 2, the lower sides of the translation trolleys 20 penetrate through the slots 3 at the upper sides of the vertical door frames 2 to be connected with the chains 16, and the translation trolleys 20 are driven by the chains 16 to reciprocate along the upper ends of the vertical door frames 2.

The turnover mechanism 21 comprises a turnover long shaft 22, a plurality of t-shaped turnover arms 23, a turnover rod 24, a plurality of clamping blocks 25 and a clamping cylinder 26; the turning long shaft 22 and the translation long shaft 18 are oppositely arranged at the upper end of each vertical door frame 2 on one side of the discharging direction, and the turning long shaft 22 sequentially passes through the bearing seats 19 on each vertical door frame 2 and the chain 16 in each vertical door frame 2 in a clearance arrangement; an output shaft of the overturning motor 9 is connected with the middle part of an overturning long shaft 22 through a chain wheel 15 and a chain 16 which are arranged at the shaft end of the output shaft, and the overturning long shaft 22 is driven to rotate in a reciprocating manner; the translation long shaft 18 and the overturning long shaft 22 can be lengthened in an abutting mode through a coupling 33 according to the length requirement.

A plurality of t-shaped turning arms 23 are respectively and uniformly arranged on the turning long shaft 22 at intervals, the t-shaped turning arms 23 are positioned between the corresponding vertical door frame 2 and the support frame body 11, and one end of each t-shaped turning arm 23 is fixedly arranged on the turning long shaft 22; a plurality of turning rods 24 are respectively hinged at the other end of each t-shaped turning arm 23; the clamping blocks 25 are respectively and oppositely hinged at two ends of each overturning rod 24, and the extending end of the clamping cylinder 26 is connected with the clamping blocks 25 to push the clamping blocks 25 to rotate for clamping/loosening.

The lifting mechanisms 27 are arranged on the unloading side of the supporting mechanism 1, and the lifting mechanisms 27 are dispersedly arranged into two according to the length of the supporting mechanism 1 and the length of the steel bar truss floor bearing plate 34 to be stacked; the lifting mechanism 27 comprises a movable support frame 28, two lead screw lifters 29, a linkage shaft 30, a driving motor 31 and a lifting platform 32; the movable support frame 28 is a frame structure, and universal wheels are arranged at four corners of the lower side of the movable support frame; the two lead screw lifters 29 are correspondingly arranged at two sides of the movable support frame 28, and the two lead screw lifters 29 are connected in series through the linkage shaft 30; the driving motor 31 is arranged at one side of the movable supporting frame 28, and an output shaft of the driving motor 31 is connected with the screw rod lifter 29 at one side; the lifting platform 32 is arranged between the two lead screw lifters 29, two ends of the lifting platform 32 are respectively connected with the two lead screw lifters 29, and the height of the lifting platform 32 is adjusted through the two lead screw lifters 29.

When in use, the steel bar truss floor bearing plate 34 to be stacked enters the supporting mechanism 1 and the conveying mechanism 10 along the upstream roller 13 after being welded on the upstream production line, the chain 16 and the chain wheel 15 on the mounting rod 14 which connects the rollers 13 in series are driven to rotate by the chain wheel 15 and the chain 16 which are arranged at the output shaft end of the conveying motor 7, so that the steel bar truss floor bearing plate 34 stops after moving to the unloading position along the roller 13 on the support frame body 11, the translation motor 8 drives the translation long shaft 18 to rotate through the chain wheel 15 and the chain 16 at the shaft end of the output shaft of the translation motor, and then the chain wheels 15 positioned in the vertical door frames 2 on the long translation shaft 18 drive the chains 16 to rotate, the chains 16 drive the translation trolleys 20 on the vertical door frames 2 to move, the steel bar truss floor bearing plates 34 are pushed to the lifting platform 32 of the lifting mechanism 27 on the discharging side of the supporting mechanism 1, and the translation trolleys 20 return to the initial position of one side of the long translation shaft 18.

The subsequent steel bar truss floor bearing plate 34 stops after moving to the unloading position, the clamping cylinder 26 of the turnover mechanism 21 on the supporting mechanism 1 at the corresponding position is started, the clamping cylinder 26 pushes the clamping blocks 25 at the two ends of the turnover rod 24 to clamp the steel bar truss floor bearing plate 34, the turnover motor 9 drives the turnover long shaft 22 to rotate, and then the t-shaped turnover arm 23 on the turnover long shaft 22 rotates, when the turnover arm drives the turnover rod 24 to rotate 150 degrees anticlockwise from the horizontal direction, under the self-weight action of the steel bar truss floor bearing plate 34 on the turnover rod 24, the hinge point of the turnover rod 24 and the turnover arm 23 rotates 30 degrees again, the subsequent steel bar truss floor bearing plate 34 is buckled with the first steel bar truss floor bearing plate 34, the clamping cylinder 26 returns, and the clamping blocks 25 release the steel bar truss floor bearing plate 34; in the stacking process, the height of the lifting platform 32 of the lifting mechanism 27 is adjusted through the driving motor 31, stacking is sequentially carried out according to horizontal pushing-overturning operation, and after the stacking height is reached, the steel bar truss floor bearing plate 34 on the lifting mechanism 27 is tied up and hung.

The part of the utility model not detailed is prior art.

The embodiments selected for the purpose of disclosing the invention, are presently considered to be suitable, it being understood, however, that the invention is intended to cover all variations and modifications of the embodiments, which fall within the scope of the concept and the utility model.

Claims (10)

1. A stacking device for steel bar truss floor bearing plates is characterized by comprising a supporting mechanism, a power mechanism, a conveying mechanism, a translation mechanism, a turnover mechanism and a lifting mechanism; the power mechanism, the conveying mechanism, the translation mechanism and the turnover mechanism are all arranged on the supporting mechanism;

the supporting mechanism comprises a plurality of vertical gantries consisting of square tubes, the vertical gantries are uniformly arranged along the length direction of the production line, the square tubes at the upper ends of the vertical gantries are provided with slots, two sides of each vertical gantry are provided with transverse connecting rods, the transverse connecting rods connect the vertical gantries to form a frame structure of the supporting mechanism, and a supporting bottom plate is arranged between the two vertical gantries positioned at the middle part;

the power mechanism is arranged on the supporting bottom plate in the middle of the supporting mechanism and comprises a conveying motor, a translation motor and a turnover motor;

the conveying mechanism comprises a plurality of support frame bodies, a plurality of rollers, a mounting rod, a plurality of chain wheels and chains; the plurality of support frame bodies are respectively arranged between every two adjacent vertical door frames; the plurality of rollers are respectively and uniformly arranged at the upper end of each support frame body; the mounting rods are horizontally arranged along one side of each support frame body; the plurality of chain wheels are uniformly arranged on the mounting rod; one end of each roller on the adjacent side of each support frame body is sequentially connected in series through a chain and a chain wheel arranged on the mounting rod, and an output shaft of the conveying motor is connected with the rollers on the two support frame bodies adjacent to the conveying motor through the chain wheel and the chain;

the translation mechanism comprises a translation long shaft, a plurality of translation trolleys, a plurality of chain wheels and chains; the chain wheels are respectively arranged at two ends in the square tube at the upper end of each vertical door frame, and the chains are arranged on the two chain wheels in the square tube; the translation long shaft is arranged at the upper end of each vertical door frame on the opposite side of the unloading direction, sequentially penetrates through chain wheels in each vertical door frame, and is arranged in series; an output shaft of the translation motor is connected with the middle part of the translation long shaft and drives the translation long shaft to drive each chain wheel to rotate; the plurality of translation trolleys are respectively arranged at the upper end of each vertical door frame, the lower sides of the translation trolleys penetrate through the slots at the upper sides of the vertical door frames to be connected with the chains, and the chains drive the translation trolleys to reciprocate along the upper ends of the vertical door frames;

the turnover mechanism comprises a turnover long shaft, a plurality of t-shaped turnover arms, a turnover rod, a plurality of clamping blocks and a clamping cylinder; the turning long shaft and the translation long shaft are oppositely arranged at the upper ends of the vertical door frames on one side of the discharging direction, and the turning long shaft sequentially penetrates through the vertical door frames and the chain gaps in the vertical door frames; an output shaft of the overturning motor is connected with the middle part of the overturning long shaft and drives the overturning long shaft to rotate in a reciprocating manner; a plurality of t-shaped overturning arms are respectively and uniformly arranged on the overturning long shaft at intervals, the t-shaped overturning arms are positioned between the corresponding vertical door frames and the support frame body, and one end of each t-shaped overturning arm is fixedly arranged on the overturning long shaft; the plurality of overturning rods are respectively hinged to the other end of each t-shaped overturning arm; the clamping blocks are respectively and oppositely hinged at two ends of each overturning rod, and the extending end of the clamping cylinder is connected with the clamping blocks to push the clamping blocks to rotate, clamp and loosen;

the lifting mechanism is arranged on the unloading side of the supporting mechanism and comprises a movable supporting frame, two lead screw lifters, a linkage shaft, a driving motor and a lifting platform; the movable support frame is of a frame structure, and universal wheels are arranged at four corners of the lower side of the movable support frame; the two screw lifters are correspondingly arranged on two sides of the movable support frame, the two screw lifters are connected in series through the linkage shaft, the driving motor is arranged on one side of the movable support frame, and an output shaft of the driving motor is connected with the screw lifter on one side; the lifting platform is arranged between the two screw rod lifters, and two ends of the lifting platform are respectively connected with the two screw rod lifters.

2. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: the translation motor is arranged on the supporting base plate on the same side of the translation long shaft, the overturning motor is arranged on the supporting base plate on the same side of the overturning long shaft, and the conveying motor is arranged on the supporting base plate between the translation motor and the overturning motor.

3. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: the translation long shaft and the overturning long shaft are arranged at the upper end of each vertical door frame through a bearing seat.

4. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: and output shafts of the translation motor and the turnover motor are respectively connected with the translation long shaft and the turnover long shaft through a chain wheel and a chain.

5. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: the overturning motor drives the overturning long shaft to rotate by an angle of 150 degrees, and the overturning rod freely rotates by an angle of 30 degrees around a hinge point with the overturning arm under the action of gravity.

6. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: the lower end of the support frame body is provided with an adjusting supporting leg for adjusting the height of the support frame body.

7. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: two or more rollers are arranged on each support frame body, and the height of each roller is slightly higher than the height of the upper end of the vertical portal; the steel bar truss floor support plate is guaranteed not to rub the upper end of the vertical door frame when moving on the roller.

8. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: one side of the upper end of the vertical door frame on one side of the unloading is provided with a nylon filler strip, so that hard friction of the steel bar truss floor bearing plate on the vertical door frame during unloading is prevented.

9. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: the lifting mechanisms are distributed into two or more than two according to the length of the supporting mechanism and the length of the steel bar truss floor bearing plate needing to be stacked.

10. The steel bar truss floor deck stacking device as claimed in claim 1, wherein: the translation long shaft and the turnover long shaft can be lengthened through the butt joint of the couplers according to the length requirement.

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