CN210048184U - Equipment for automatically loading pipe containers - Google Patents

Abstract

The utility model discloses a tubular product container automatic loading's equipment, this equipment from the top down set gradually conveyer belt part, control conveyer belt part vertical position's lift part and control conveyer belt part horizontal position's platform part. The conveying belt is moved to a proper height through the lifting component, the conveying belt component is moved to a proper position in the container through the platform component, and the pipe is conveyed to a desired position; when the bottom of the container is full when the conveyed pipes reach a certain number, the conveying belt component is further lifted through the lifting component, so that the subsequent pipes can be conveniently conveyed and placed; when the innermost layer of the container is filled with the pipes, the conveying belt component is moved outwards through the platform component and moved to a proper position to continue loading the pipes. The automatic cargo conveying device can directly convey cargoes to a proper position of a container, greatly simplifies the production process, saves labor, reduces the labor intensity, reduces the labor cost, improves the production efficiency and realizes mechanical automation.

Description

Equipment for automatically loading pipe containers

Technical Field

The utility model relates to a commodity circulation technical field, more specifically relates to a tubular product container automatic loading's equipment.

Background

The storage of plastic pipelines in the prior art gradually adopts a logistics cage form to carry and solve the storage and transportation problems of the pipes, the plastic pipes are carried by generally adopting a truck, and the pipes are manually placed in a carriage of the truck from the logistics cage during loading and then combed. The operation mode needs 2-3 persons to complete the operation simultaneously, and is low in operation efficiency and high in labor intensity.

At present, no tube container loading equipment which has high automation degree, is stable and reliable and saves the field is available, so that the production flow is complex, the labor intensity is high, the labor cost is high and the production efficiency is low.

Disclosure of Invention

The utility model aims at overcoming the not enough of prior art, provide a degree of automation height, reliable and stable, practice thrift the tubular product container automatic loading's in place equipment, this equipment can optimize the production flow, uses manpower sparingly, has reduced intensity of labour to reduce the cost of labor, improve production efficiency.

In order to achieve the purpose, the utility model discloses a realize through following technical scheme:

the automatic loading equipment for tubular container includes conveying belt, elevating unit to control the vertical position of the conveying belt and platform unit to control the horizontal position of the conveying belt.

The conveying belt is moved to a proper height through the lifting component, the conveying belt component is moved to a proper position in the container through the platform component, and the pipe is conveyed to a desired position; when the bottom of the container is full when the conveyed pipes reach a certain number, the conveying belt component is further lifted through the lifting component, so that the subsequent pipes can be conveniently conveyed and placed; when the innermost layer of the container is filled with the pipes, the conveying belt component is moved outwards through the platform component and moved to a proper position to continue loading the pipes.

Preferably, the conveyor belt component comprises a conveyor belt, a motor and a conveyor belt rack; a driving roller assembly and a driven roller assembly are respectively arranged at two ends of the conveying belt; the conveyer belt sets up on the conveyer belt frame, and the motor passes through sprocket chain group and is connected with driving roll.

Preferably, the two sides of the conveyor belt frame are also provided with guardrails for conveying the two sides of the conveyor belt frame, so that the pipes are prevented from falling.

The motor drives the chain wheel and chain set to drive the driving roller assembly to rotate, so that the transmission belt can move to drive the driven roller assembly.

Preferably, the lifting member includes a fixed bottom plate, a movable top frame, and a lifting assembly disposed between the fixed bottom plate and the movable top plate.

Preferably, the fixed base plate is fixedly connected to the platform part.

Preferably, lifting unit includes 2 parallel arrangement's crane, and the crane is including first bracing piece and the second bracing piece that alternately sets up, and first bracing piece and second bracing piece are the rotation with PMKD and activity roof-rack and are connected, the fixed connecting rod that is provided with between two cranes: be provided with the head rod between first bracing piece, be provided with the second connecting rod between the second bracing piece, be provided with the hydro-cylinder between head rod and second connecting rod, be the rotation between hydro-cylinder and head rod and second connecting rod and be connected.

The hydro-cylinder extension for first connecting rod and second connecting rod are kept away from each other, and then make the crane expand, and the activity roof-rack rises. And (5) contracting the oil cylinder. Make first connecting rod and second connecting rod be close to each other, and then make the crane shrink, the decline of activity roof-rack.

Preferably, the first support rod and the second support rod are rotatably connected by a bearing seat.

Preferably, the lifting component further comprises a hydraulic station connected with the oil cylinder through an oil pipe.

Preferably, the platform part comprises a movable platform frame, a bottom fixing part and a movement control part for controlling the movement of the platform frame; a plurality of supporting rollers are fixedly arranged below the two sides of the platform frame.

Preferably, the support rollers are connected with the platform frame through support pulley connection devices.

Preferably, the height of the connecting means is adjustable to match the height of the container so that the support rollers of the platform member entering the interior of the container can contact the ground for support.

Preferably, a supporting sliding part is further arranged between the platform frame and the ground, and the supporting sliding part is connected with the platform part in a sliding mode through a pulley. Support sliding part plays the effect of supporting whole equipment on the one hand, and on the other hand plays limiting displacement, reduces the possibility that platform frame direction of motion takes place the deviation.

Preferably, the movement control part comprises a motor, a driving chain and a driving shaft which are connected in sequence, wherein two ends of the driving shaft are respectively provided with a driving wheel, and the driving wheels are meshed with the moving chains arranged on two sides of the platform frame.

The motor drives the drive chain after being electrified, the drive chain drives the drive shaft to rotate, and the drive wheels at the two ends of the drive shaft rotate along with the drive shaft and then move relative to the moving chain, so that the platform frame moves.

Preferably, the drive chain and the drive shaft are in meshed connection through a drive gear fixedly arranged on the drive shaft.

Preferably, driven wheels connected with the movable chain are arranged on two sides of the driving wheel respectively, and the driven wheels are connected with limiting wheel fixing plates arranged at two ends of the driving shaft through driven wheel connecting rods.

The arrangement of the driven wheel can increase the contact area between the movement control part and the platform frame moving chain.

Preferably, the bottom fixing part comprises a bottom fixing frame fixed on the ground and a height buffering device arranged between the bottom fixing frame and the platform frame.

Preferably, the height buffering device is connected with the platform frame through a fixing frame, and the fixing frame is provided with a pulley and limiting guide rails on two sides of the platform frame in a sliding connection mode. The arrangement of the height buffer device enables the platform frame and the bottom fixing frame to obtain certain degree of freedom in the vertical direction, so that the platform frame and the bottom fixing frame are adaptive to the uncomfortable and absolutely smooth ground, and the vertical position of the fixing frame and the platform frame is limited through the limiting guide rail.

Preferably, the height buffering device comprises a first sliding rod and a second sliding rod, the first ends of the first sliding rod and the second sliding rod are respectively connected with the bottom fixing frame in a rotating mode, a limiting groove is formed in the second end of the first sliding rod along the axial direction, a sliding block is arranged at the second end of the second sliding rod and can slide in the limiting groove, the second end of the first sliding rod is connected with the fixing frame in a rotating mode, the position between the platform frame and the bottom fixing frame can be finely adjusted through mutual movement of the positions of the first sliding rod and the second sliding rod, and therefore the platform frame can conveniently move into containers with different heights.

Preferably, the apparatus further comprises an electrical box to provide power to the entire apparatus.

Compared with the prior art, the utility model discloses following beneficial effect has:

through the utility model discloses equipment can directly transport the suitable position of container with the goods, has portably made production flow greatly, uses manpower sparingly, has reduced intensity of labour to reduce the cost of labor, improved production efficiency, realized mechanical automation.

Drawings

FIG. 1 is a side view of the apparatus of example 1.

FIG. 2 is a top view of the apparatus of example 1.

Fig. 3 is a plan view of the elevating member according to embodiment 1.

Fig. 4 is a side view of the elevating member of embodiment 1.

Fig. 5 is a structural view of a lifting member in embodiment 1.

Fig. 6 is a structural view of a platform member of embodiment 1.

Fig. 7 is a partial view of a stage member according to embodiment 1.

Wherein, 1 is a conveying belt part, 11 is a conveying belt, 12 is a first motor, 13 is a conveying belt frame, 14 is a driving roller component, 15 is a driven roller component, 16 is a chain wheel chain group, and 17 is a guardrail;

2, a lifting component, 21, a fixed bottom plate, 22, a movable top frame, 23, a lifting assembly, 231, a first support rod, 232, a second support rod, 233, 234, a second connection rod, 24, an oil cylinder and 25, wherein the lifting component is a fixed bottom plate, the first support rod is a fixed top frame, the second support rod is a movable top frame, the first support rod is a fixed support rod, the second support rod is a movable top frame;

3 is a platform part, 31 is a platform frame, 32 is a bottom fixing part, 33 is a movement control part, 331 is a second motor, 332 is a driving chain, 333 is a driving shaft, 334 is a driving wheel, 335 is a moving chain, 336 is a driven wheel, 337 is a driven wheel connecting rod, 338 is a limiting wheel fixing plate, 34 is a supporting roller, 35 is a connecting device, 36 is a supporting sliding part, and 37 is a supporting pulley.

And 4, an electric box.

Detailed Description

The invention will be described in further detail with reference to the drawings and specific examples, which are provided for the purpose of illustration only and are not intended to limit the scope of the invention. The test methods used in the following examples are all conventional methods unless otherwise specified; the materials, reagents and the like used are, unless otherwise specified, commercially available reagents and materials.

Example 1

As shown in fig. 1 to 7, the present embodiment provides an apparatus for automatically loading a tubular container, which sequentially includes a conveying belt member 1, a lifting member 2 for controlling a vertical position of the conveying belt member, and a platform member 3 for controlling a horizontal position of the conveying belt member from top to bottom, and further includes an electric box 4 as a power supply device.

The conveying belt component 1 comprises a conveying belt 11, a motor 12 and a conveying belt frame 13; the two ends of the conveyor belt 11 are respectively provided with a driving roller assembly 14 and a driven roller assembly 15; the conveyor belt 11 is arranged on a conveyor belt frame 13, the motor 12 is connected with the driving roller through a chain wheel and chain set 16, and guardrails 17 on two sides of the conveyor belt frame 15 are arranged on two sides of the conveyor belt frame.

The lifting component 2 comprises a fixed bottom plate 21, a movable top frame 22 and a lifting component 23 arranged between the fixed bottom plate 21 and the movable top plate 22, the lifting component 23 comprises 2 lifting frames arranged in parallel, and the fixed bottom plate 21 is fixedly connected with the platform component 3.

The crane is including the first bracing piece 231 and the second bracing piece 232 of cross arrangement, and first bracing piece 231 and second bracing piece 232 are the fixed connecting rod that is provided with between two lifters of rotation connection with PMKD 21 and activity roof-rack 22: a first connecting rod 233 is arranged between the first supporting rods 231, a second connecting rod 234 is arranged between the second supporting rods 232, an oil cylinder 24 is arranged between the first connecting rod 233 and the second connecting rod 234, and the oil cylinder 24 is rotatably connected with the first connecting rod 233 and the second connecting rod 234. The first support bar 231 and the second support bar 232 are rotatably connected by a bearing housing. The lifting unit 2 further comprises a hydraulic station 25 connected to the cylinders by oil lines.

The stage part 3 includes a stage frame 31 which can move, a bottom fixing part 32, and a movement control part 33 which controls the movement of the stage frame; a plurality of supporting rollers 34 are fixedly arranged below the two sides of the platform frame 31. The support rollers 34 are connected to the platform frame 31 by support pulley connection means 35. The height of the connecting means 35 can be adjusted to match the height of the container so that the support rollers 34 of the platform element 3 entering the interior of the container can be in contact with the ground for support. A support sliding part 36 is also arranged between the platform frame 31 and the ground, and the support sliding part 36 is connected with the platform part 3 in a sliding way through a support pulley 37.

The movement control part 33 includes a motor 331, a driving chain 332 and a driving shaft 333 which are connected in sequence, wherein both ends of the driving shaft 333 are respectively provided with a driving wheel 334, and the driving wheels 334 are engaged with the moving chains 335 arranged at both sides of the platform frame 31. The driving chain 322 and the driving shaft 323 are engaged and connected by a driving gear fixedly provided on the driving shaft 323. Driven wheels 336 connected to the moving chain 335 are provided on both sides of the driving wheel 334, respectively, and the driven wheels 336 are connected to limit wheel fixing plates 338 provided on both ends of the driving shaft 333 through driven wheel connecting rods 337.

The bottom fixing part 32 comprises a bottom fixing frame 321 fixed on the ground and a height buffer device 322 arranged between the bottom fixing frame 321 and the platform frame 31; the height buffer device 322 is connected with the platform frame 31 through the fixing frame 323, and the platform frame and the bottom fixing frame obtain certain degree of freedom in the vertical direction through the arrangement of the height buffer device so as to adapt to the uncomfortable and absolutely smooth ground. The two sides of the platform frame 31 are provided with limit guide rails, the fixing frame 323 is provided with a pulley 324, the pulley 324 is connected with the limit guide rails on the two sides of the platform frame 31 in a sliding manner, and the vertical position of the fixing frame 323 and the platform frame 31 is limited by the limit guide rails. The platform frame 31 height buffer device 322 comprises a first slide bar and a second slide bar, the first ends of the first slide bar and the second slide bar are respectively connected with the bottom fixing frame 321 in a rotating manner, the second end of the first slide bar is provided with a limit groove along the axial direction, the second end of the second slide bar is provided with a slide block, and the slide block can slide in the limit groove. The second end of the first slide bar is rotatably connected with the fixed frame 323. The position between the platform frame and the bottom fixing frame can be finely adjusted through the mutual movement of the positions of the first sliding rod and the second sliding rod, so that the platform frame can conveniently move into containers with different heights.

Claims (10)

1. The equipment for automatically loading the tubular container is characterized in that a conveyor belt component (1), a lifting component (2) for controlling the vertical position of the conveyor belt component and a platform component (3) for controlling the horizontal position of the conveyor belt component are sequentially arranged from top to bottom.

2. The apparatus according to claim 1, characterized in that the conveyor belt member (1) comprises a conveyor belt (11), a first motor (12) and a conveyor belt rack (13); two ends of the conveying belt (11) are respectively provided with a driving roller assembly (14) and a driven roller set (15); the conveying belt (11) is arranged on a conveying belt frame (13), and the first motor (12) is connected with the driving roller component (14) through a chain wheel chain group (16).

3. The apparatus according to claim 1, characterized in that the lifting means (2) comprise a fixed base plate (21), a movable head frame (22) and a lifting assembly (23) arranged between the fixed base plate (21) and the movable head frame (22).

4. The device of claim 3, wherein the lifting assembly (23) comprises 2 lifting frames arranged in parallel, each lifting frame comprises a first supporting rod (231) and a second supporting rod (232) which are arranged in a crossed manner, the two ends of each of the first supporting rod (231) and the second supporting rod (232) are rotatably connected with the fixed bottom plate (21) and the movable top frame (22), and a connecting rod is fixedly arranged between the two lifting frames: a first connecting rod (233) is arranged between the first supporting rods (231), a second connecting rod (234) is arranged between the second supporting rods (232), an oil cylinder (24) is arranged between the first connecting rod (233) and the second connecting rod (234), and the oil cylinder (24) is rotatably connected with the first connecting rod (233) and the second connecting rod (234).

5. The apparatus according to claim 4, the lifting means (2) further comprising a hydraulic station (25) connected to the cylinder by an oil line.

6. The apparatus according to claim 1, characterized in that the platform part (3) comprises a movable platform frame (31), a bottom fixed part (32) and a movement control part (33) for controlling the movement of the platform frame; a plurality of supporting rollers (34) are fixedly arranged below the two sides of the platform frame (31).

7. The apparatus according to claim 6, characterized in that a support slide member (36) is provided between the platform frame (31) and the ground, the support slide member (36) being slidably connected to the platform member (3) via a support pulley (37).

8. The apparatus of claim 6, wherein the movement control unit (33) comprises a second motor (331), a driving chain (332) and a driving shaft (333) connected in sequence, the driving shaft (333) is provided at both ends thereof with driving wheels (334), respectively, and the driving wheels (334) are engaged with the moving chains (335) provided at both sides of the platform frame (31).

9. The apparatus of claim 6, wherein the bottom fixing member (32) comprises a bottom fixing frame (321) fixed on the ground and a height buffering means (322) provided between the bottom fixing frame (321) and the platform frame.

10. The apparatus according to claim 9, characterized in that the height buffer device (322) is connected with the platform frame (31) through a fixed frame (323), and the fixed frame (323) is provided with a pulley (324) which is connected with the platform frame (31) in a sliding way.

Images