CN219791528U - Scaffold sleeve arranging and feeding device - Google Patents

Abstract

The utility model discloses a scaffold sleeve arranging and feeding device which comprises a feeding assembly, a conveying assembly and a positive and negative identification assembly, wherein the feeding assembly is used for feeding a scaffold sleeve; the feeding assembly and the positive and negative identification assembly are respectively arranged at two ends of the conveying assembly; the feeding assembly comprises a base, a feeding box, a feeding cylinder and a double-layer push rod, wherein the feeding box comprises a side plate, a double-layer feeding inclined plate, a guide plate and a baffle plate; the double-layer feeding inclined plate is arranged in parallel with the double-side push rods, the bottoms of the double-layer push rods are fixedly connected with the movable ends of the feeding cylinders, and the single-layer width of the double-layer feeding inclined plate is smaller than the telescopic stroke of the feeding cylinders; the double-layer push rod is driven to push the sleeve to rise and move on the double-layer feeding inclined plate through extension of the feeding cylinder, so that double-row sleeve pushing is realized, each row of sleeve is pushed to be fed to the conveying assembly twice, and then the direction of the sleeve is identified and adjusted by the positive and negative identification assembly, so that the consistency of the direction of the sleeve when the sleeve is fed to the welding station is ensured.

Description

Scaffold sleeve arranging and feeding device

Technical Field

The utility model relates to the field of feeding devices, in particular to a scaffold sleeve arranging and feeding device.

Background

Scaffolding refers to various supports erected at construction sites for workers to operate and to address vertical and horizontal transport. The scaffold is evolved from an original bamboo scaffold to a current steel pipe scaffold, and the steel pipe scaffold is also evolved from an original fastener scaffold to a disc fastener scaffold. And the disc buckle type scaffold needs to use the connecting sleeve to connect the two steel pipes mutually in the processing process, so that the aim of prolonging the length of the steel pipes is fulfilled. In the existing sleeve feeding device, a box body structure is usually adopted to be matched with an air cylinder with a push rod, so that single or multiple sleeves are pushed into a conveying mechanism at one time, and the feeding efficiency is low, wherein the processed sleeves are directly poured into the box body by workers or production lines, so that the sleeves cannot be orderly arranged in the box body, gaps are easily formed between the sleeves, and the air cylinder cannot push the sleeves to feed the sleeves, so that the equipment idles; in addition, because the height of the box body is higher, the telescopic stroke required by the air cylinder and the length of the piston rod are longer, and the air cylinder is easy to damage.

Disclosure of Invention

In view of the above, the utility model aims to provide a scaffold sleeve arranging and feeding device which is used for solving the problems that in the prior art, the sleeve feeding device is low in feeding efficiency, and the sleeve is stored in disorder and is easy to damage.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the scaffold sleeve arranging and feeding device comprises a feeding assembly, a conveying assembly and a positive and negative identification assembly; the feeding assembly and the positive and negative identification assembly are respectively arranged at two ends of the conveying assembly; the feeding assembly comprises a base, a feeding box, a feeding cylinder and a double-layer push rod, wherein the feeding box is arranged at the top of the base and comprises a side plate, a double-layer feeding inclined plate, a guide plate and a baffle plate; the double-layer feeding inclined plate is arranged in parallel with the double-side push rods, the bottom of the double-layer push rod is fixedly connected with the movable end of the feeding cylinder, the single-layer width of the double-layer feeding inclined plate is smaller than the telescopic stroke of the feeding cylinder, the bottom of the material guiding plate faces to the bottom of the double-layer feeding inclined plate and is abutted to the tail end of the double-layer push rod, the baffle is arranged between the side plates, and an opening which can only pass through a single sleeve is reserved between the baffle and the material guiding plate.

Preferably, the tail end of the double-layer push rod is provided with a push plate which is inclined towards the double-layer feeding inclined plate.

Preferably, a connecting plate is arranged at the tail end of the double-layer feeding inclined plate.

Preferably, the conveying assembly is a chain conveying chain, two sides of the tail end of the conveying assembly are respectively provided with a discharging cylinder and a discharging inclined plate, and the discharging inclined plate extends towards the direction of the positive and negative identification assembly.

Preferably, the conveying assembly is provided with a returning baffle and a returning channel.

Preferably, the positive and negative identification component comprises a rotating table, a rotating frame, a synchronous roller, a driving mechanism and a detection module; the driving mechanism and the detection module are arranged on the rotating frame, the synchronous rollers are arranged in parallel, the synchronous rollers are hinged and fixed on the rotating frame, the driving mechanism is in transmission connection with the synchronous rollers, and the detection module is arranged below the synchronous rollers.

Preferably, a welding station and a pushing cylinder are further arranged on the rotating table, and the welding station and the pushing cylinder are located on the axis of the sleeve on the synchronous roller.

The utility model has the technical effects that: the sleeves in the feeding box are limited and ordered through the baffle plate, the sleeves can only be fed onto the double-layer feeding inclined plate in an orderly manner through the bottom of the baffle plate, the feeding cylinder stretches to drive the double-layer push rod to push the sleeves to lift and move on the double-layer feeding inclined plate, double-row sleeve pushing is achieved, each row of sleeves are pushed to the conveying assembly twice, the stroke of the feeding cylinder is shortened, the service life of the feeding cylinder is prolonged, and then the direction of the sleeves is identified and adjusted by the positive and negative identification assembly, so that the direction of the sleeves when the sleeves are fed to the welding station is guaranteed to be consistent.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a side cross-sectional view of the loading assembly of FIG. 1;

FIG. 3 is a perspective view of the positive and negative identification assembly of FIG. 1;

fig. 4 is a top view of fig. 3.

The reference numerals are: 1-feeding components, 11-bases, 12-feeding boxes, 121-side plates, 122-double-layer feeding inclined plates, 123-material guiding plates, 124-baffle plates, 125-openings, 126-push plates, 127-connecting plates, 13-feeding cylinders, 14-double-layer push rods, 2-conveying components, 21-discharging cylinders, 22-discharging inclined plates, 23-returning baffles, 24-returning channels, 3-positive and negative identification components, 31-rotating tables, 32-rotating frames, 33-synchronous rollers, 34-driving mechanisms, 35-detection modules, 36-welding stations, 37-pushing cylinders,

Detailed Description

The following detailed description of the utility model is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the utility model.

In this embodiment, it should be understood that the directions or positional relationships indicated by the terms "middle", "upper", "lower", "top", "right", "left", "upper", "back", "middle", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present utility model, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model.

In this embodiment, if not specifically described, the members may be connected or fixed by bolts, pins, or the like, which are commonly used in the prior art, and therefore, the details thereof will not be described in this embodiment.

The utility model provides a scaffold sleeve arranging and feeding device, which is shown in fig. 1-4, and comprises a feeding assembly 1, a conveying assembly 2 and a positive and negative identification assembly 3, wherein the feeding assembly 1 is used for conveying one or more sleeves onto the conveying assembly 2, and the conveying assembly 2 is used for conveying the sleeves to the positive and negative identification assembly 3; the feeding assembly 1 and the positive and negative identification assembly 3 are respectively arranged at two ends of the conveying assembly 2; the feeding assembly 1 comprises a base 11, a feeding box 12, a feeding cylinder 13 and a double-layer push rod 14, wherein the feeding box 12 is arranged at the top of the base 11, and the feeding box 12 comprises a side plate 121, a double-layer feeding inclined plate 122, a guide plate 123 and a baffle 124; the double-layer material loading swash plate 122 with two side push rod parallel arrangement, the bottom of double-layer push rod 14 with the expansion end fixed connection of material loading cylinder 13, double-layer material loading swash plate 122 individual layer width is less than the flexible stroke of material loading cylinder 13 to the material loading in-process, sleeve pipe and double-layer push rod 14 and double-layer material loading swash plate 122 butt utilize material loading cylinder 13 work to extend afterwards, thereby utilize double-layer push rod 14 to promote the sleeve pipe to rise, and get into the second floor after having passed through the first floor of double-layer material loading swash plate 122, when material loading cylinder 13 shrink and extend once more, send the sleeve pipe again to on the conveying subassembly 2.

The bottom of the guide plate 123 faces the bottom of the double-layer feeding inclined plate 122 and is close to the tail end of the double-layer push rod 14, so that the sleeve is sent to the double-layer feeding inclined plate 122 by the guide plate 123 and the feeding cylinder 13 and the double-layer push rod 14 are waiting to push materials.

The baffle 124 is disposed between the side plates 121, and an opening 125 through which only a single sleeve can pass is left between the baffle 124 and the guide plate 123, so that the sleeves on the side surface of the guide plate 123 are in a continuous arrangement state after passing through the opening 125, thereby facilitating the feeding lifting.

In this embodiment, the end of the double-layer push rod 14 is provided with a push plate 126 inclined toward the double-layer feeding inclined plate 122.

In this embodiment, a connecting plate 127 is disposed at the end of the double-layer feeding swash plate 122.

The conveying assembly 2 is a chain conveying chain, two sides of the tail end of the conveying assembly 2 are respectively provided with a discharging air cylinder 21 and a discharging inclined plate 22, the discharging inclined plates 22 extend towards the direction of the positive and negative identification assembly 3, the discharging air cylinders 21 are used for pushing sleeves on the chain to the discharging inclined plates 22, and the discharging inclined plates 22 are used for conveying the sleeves to the positive and negative identification assembly 3.

In this embodiment, the conveying assembly 2 is provided with a return baffle 23 and a return channel 24 for returning the sleeve accidentally stacked on the conveying assembly 2 to the feeding assembly 1.

The positive and negative identification assembly 3 comprises a rotating table 31, a rotating frame 32, a synchronous roller 33, a driving mechanism 34 and a detection module 35; the driving mechanism 34 and the detection module 35 are both arranged on the rotating frame 32, in this embodiment, the driving mechanism 34 and the detection module 35 can rotate along with the rotating frame 32, and the two groups of synchronous rollers 33 are arranged in parallel, so that the two groups of synchronous rollers 33 are conveniently used for clamping the sleeve in the middle, the synchronous rollers 33 are hinged and fixed on the rotating frame 32, the driving mechanism 34 is in transmission connection with the synchronous rollers 33, the detection module 35 is arranged below the synchronous rollers 33 and used for carrying out direction recognition on the sleeve clamped between the synchronous rollers 33, and the sleeve can be driven to rotate when the synchronous rollers 33 rotate, so that the detection module 35 can conveniently detect for many times. In this embodiment, the sleeve is provided with an identification positioning hole for facilitating identification by the detection module 35.

In this embodiment, the turntable 31 is further provided with a welding station 36 and a pushing cylinder 37, and the welding station and the pushing cylinder 37 are located on the axis of the sleeve on the synchronizing roller 33, so that after the positive and negative directions of the sleeve are confirmed, the sleeve is pushed onto the welding station 36 by the pushing cylinder 37.

The utility model has the technical effects that: the sleeves in the feeding box are limited and ordered through the baffle plate, the sleeves can only be fed onto the double-layer feeding inclined plate in an orderly manner through the bottom of the baffle plate, the feeding cylinder stretches to drive the double-layer push rod to push the sleeves to lift and move on the double-layer feeding inclined plate, double-row sleeve pushing is achieved, each row of sleeves are pushed to the conveying assembly twice, the stroke of the feeding cylinder is shortened, the service life of the feeding cylinder is prolonged, and then the direction of the sleeves is identified and adjusted by the positive and negative identification assembly, so that the direction of the sleeves when the sleeves are fed to the welding station is guaranteed to be consistent.

Of course, the above is only a typical example of the utility model, and other embodiments of the utility model are also possible, and all the technical solutions adopting equivalent substitution or equivalent transformation travel fall within the scope of the utility model claimed.

Claims (7)

1. The scaffold sleeve arranging and feeding device is characterized by comprising a feeding assembly, a conveying assembly and a positive and negative identification assembly; the feeding assembly and the positive and negative identification assembly are respectively arranged at two ends of the conveying assembly; the feeding assembly comprises a base, a feeding box, a feeding cylinder and a double-layer push rod, wherein the feeding box is arranged at the top of the base and comprises a side plate, a double-layer feeding inclined plate, a guide plate and a baffle plate; the double-layer feeding inclined plate is arranged in parallel with the double-side push rods, the bottom of the double-layer push rod is fixedly connected with the movable end of the feeding cylinder, the single-layer width of the double-layer feeding inclined plate is smaller than the telescopic stroke of the feeding cylinder, the bottom of the material guiding plate faces to the bottom of the double-layer feeding inclined plate and is abutted to the tail end of the double-layer push rod, the baffle is arranged between the side plates, and an opening which can only pass through a single sleeve is reserved between the baffle and the material guiding plate.

2. The scaffold tube finishing and feeding device according to claim 1, wherein the tail end of the double-layer push rod is provided with a push plate inclined towards the double-layer feeding inclined plate.

3. The scaffold sleeve finishing and feeding device according to claim 1, wherein the tail end of the double-layer feeding inclined plate is provided with a connecting plate.

4. The scaffold sleeve arranging and feeding device according to claim 1, wherein the conveying assembly is a chain conveying chain, two sides of the tail end of the conveying assembly are respectively provided with a discharging cylinder and a discharging inclined plate, and the discharging inclined plate extends towards the positive and negative identification assembly.

5. The scaffold tube finishing and feeding device of claim 1, wherein the conveying assembly is provided with a return baffle and a return channel.

6. The scaffold sleeve finishing and feeding device according to claim 1, wherein the positive and negative identification assembly comprises a rotating table, a rotating frame, a synchronous roller, a driving mechanism and a detection module; the driving mechanism and the detection module are arranged on the rotating frame, the synchronous rollers are arranged in parallel, the synchronous rollers are hinged and fixed on the rotating frame, the driving mechanism is in transmission connection with the synchronous rollers, and the detection module is arranged below the synchronous rollers.

7. The scaffold tube finishing and loading device of claim 6, wherein the turntable is further provided with a welding station and a pushing cylinder, and the welding station and the pushing cylinder are positioned on the axis of the tube on the synchronizing roll.