CN210454850U - Prefabricated formula cement slat conveyer - Google Patents

Abstract

The utility model provides a prefabricated cement slat conveyer, which comprises a frame body part, a moving part, a connecting part and a hoisting part, wherein the frame body part is of an adjustable structure, the frame body part is parallel to the cement slat and is vertical to the central position of the moving part, and the length of the frame body part is not less than that of the cement slat; the moving part is positioned below the frame body part and is connected with the frame body part through a connecting part, the moving part comprises a wheel disc and a fixed shaft which are arranged in parallel, and the width of the fixed shaft is greater than that of the cement batten; the two ends of the connecting part are respectively connected with the frame body part and the moving part, the connecting part comprises symmetrically arranged support frames and fixing frames matched with the support frames, and the width of each adjacent fixing frame is not less than that of the cement batten; hoist and mount portion symmetry sets up in support body portion both ends, and adjacent hoist and mount portion distance is less than cement slat length, and the cement slat is located the below of connecting portion. The utility model discloses conveyer is applicable to and transports in high-rise construction area or narrow and small building place, and simple structure, convenient to use, cost of manufacture are low and easily overhaul.

Description

Prefabricated formula cement slat conveyer

Technical Field

The utility model belongs to the technical field of the building engineering conveyer, especially, relate to a prefabricated formula cement slat conveyer.

Background

With the progress of the times, a consensus has been reached for the maximization of economic benefits, and in the field of building engineering, no matter a construction party or a construction party, the maximization of economic benefits is achieved, besides a scientific construction method and advanced construction tools, the use of novel building materials can also achieve expected effects. The existing prefabricated cement battens are different in size and specification, the maximum size can reach 3000mm multiplied by 600mm multiplied by 200mm, the existing transportation device is complex in structure and high in manufacturing cost, multiple persons are needed to assist in operation, and particularly, the transportation in a high-rise construction area or a narrow building site is inconvenient.

Disclosure of Invention

The utility model aims at the problem that exists among the above-mentioned prior art, the purpose provides a prefabricated formula cement slat conveyer, is particularly useful for transporting in high-rise construction area or narrow and small building place, solves among the prior art technical problem that structural design is complicated, the cost of manufacture is high, production efficiency is low.

The above technical purpose of the utility model is realized through following technical scheme:

a prefabricated cement batten transportation device comprises a frame body part, a moving part, a connecting part and a hoisting part, wherein the frame body part is of an adjustable structure, the frame body part is parallel to a cement batten and is perpendicular to the center of the moving part, the length of the frame body part can be adjusted according to the length change of the cement batten, the length of the frame body part is not less than that of the cement batten, and the length of the frame body part is 3000-4500 mm; the moving part is positioned below the frame body part, the moving part is connected with the frame body part through the connecting part, the moving part comprises wheel discs arranged in parallel and a fixed shaft connected with the two wheel discs, the diameter of each wheel disc is 600mm, the width of the fixed shaft is larger than that of the cement batten, the width of the fixed shaft is 800mm, the height from the frame body part to the fixed shaft is 500mm, and the moving part is used for driving the cement batten and the conveying device to horizontally move on the ground together; the two ends of the connecting part are respectively and fixedly connected with the frame body part and the moving part, the connecting part comprises symmetrically arranged support frames and fixing frames matched with the support frames, one end of each support frame is connected with the frame body part, the other end of each support frame is connected with the fixing frame, the fixing frames are arranged around the fixed shaft, and the width between every two adjacent fixing frames is not less than the width of the cement batten; hoist and mount portion symmetry set up in support body portion both ends, it is adjacent distance between the hoist and mount portion is less than the length of cement slat, hoist and mount portion one end with support body portion fixed connection, the other end are mobile suspension setting, but the cement slat level suspension in two hoist and mount portion expansion end, the cement slat is located the below of connecting portion.

Further, the frame body part comprises a main frame section and extension sections symmetrically arranged on two sides of the main frame section, the length of the main frame section is 1500mm, the length of the extension sections is 1500mm, one end of each extension section is adjustably connected with one end of the main frame section, and the other end of each extension section is suspended.

Furthermore, the support frame comprises a first support rod and a second support rod, the first support rod and the second support rod are symmetrically arranged, the lower end of the first support rod is intersected with the lower end of the second support rod and are fixed on the upper end face of the fixing frame, and the upper end of the first support rod and the upper end of the second support rod are symmetrically fixed on the lower end face of the main frame section.

Further, the first stay bar and the second stay bar are both made of deformed steel with the diameter of 20 mm.

Furthermore, the mount includes fixed plate and two U type bolts, the U type bolt is around locating the dead axle and run through the fixed plate setting, the fixed plate pass through the nut with the cooperation of U type bolt will the mount with the dead axle is connected.

Further, the fixing plate is a steel plate, and the thickness of the fixing plate is 20 mm; the U-shaped bolt is 5mm in diameter.

Furthermore, hoist and mount portion includes rings and hoist and mount area, rings are fixed in the lower terminal surface of extension section, hoist and mount area detachably run through rings and unsettled setting.

Furthermore, the hoisting ring is made of round steel with the diameter of 6.5mm and welded in the middle of the extension section.

Furthermore, the positions 50mm away from the two ends of the frame body portion are provided with hand push rods, and the hand push rods are perpendicular to the frame body portion.

Further, the hand push rod is made of a DN32X1.8mm galvanized round pipe and is fixedly welded to the frame body.

Compared with the prior art, the utility model discloses a conveyer, firstly: the structure is simple, the manufacturing technical requirement is low, the materials are easy to obtain, the materials are common raw materials for construction sites, the manufacturing cost is low, and other equipment is not needed; secondly, the following steps: the installation and the removal are convenient, and the length of the extension rod in the frame body part can be automatically adjusted according to the length of the prefabricated cement batten for transportation; thirdly, the method comprises the following steps: the device is easy to operate, light and flexible, can easily realize transportation without the assistance of other equipment, can safely and stably transport cement battens in high-rise construction areas or narrow building sites, and particularly can realize transportation from material stacking places to buildings through outdoor elevators; fourthly, the method comprises the following steps: the conveying efficiency is high, the conveying speed is high, and manpower and material resources are saved.

Drawings

Fig. 1 is a schematic structural view of a prefabricated cement slat conveying device according to an embodiment of the present invention;

fig. 2 is a side view of a prefabricated cement slat conveyor according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a fixing frame according to an embodiment of the present invention;

fig. 4 is a schematic view of a fitting structure of the U-shaped bolt and the nut according to an embodiment of the present invention.

In the figure:

100. frame part 101, extension section 102, main frame section

103. Extension segment 104, hand push rod 105 and pin rod

200. Moving part 201, wheel disc 202 and fixed shaft

300. Connecting part 301, support frame 3011 and first stay bar

3012. Second stay bar 302, fixing frame 3021 and fixing plate

3022. U-shaped bolt 3023, nut 400, and hanging part

401. Hanging ring 402 and hanging belt

Detailed Description

The invention will be further explained with reference to the following examples and drawings:

a prefabricated cement slat conveyer, as shown in fig. 1-2, comprising a frame body 100, a moving part 200, a connecting part 300 and a hoisting part 400, wherein the frame body 100 is located at the uppermost end of the conveyer; the moving part 200 is located right below the frame part 100, and the moving part 200 is connected to the frame part 100 through a connecting part 300; both ends of the connecting part 300 are fixedly connected with the frame body part 100 and the moving part 200, respectively; hoisting part 400 symmetry sets up in the both ends of frame portion 100, and the distance between adjacent hoisting part 400 is less than the length of cement slat, and hoisting part 400 one end and frame portion 100 fixed connection, the other end are mobile suspension setting, but the cement slat level suspension is in the expansion end of two hoisting parts 400, and the cement slat is located the below of connecting portion 300.

Further, the frame body part 100 is an adjustable structure, the frame body part 100 is arranged in parallel with the cement lath, and the frame body part 100 is arranged perpendicular to the central line of the moving part 200; the length of support body portion 100 can be adjusted according to the length change of cement slat, and the length of support body portion 100 is not less than cement slat length, and the length of support body portion 100 is 3000 and adds 4500 mm. The maximum size of the existing cement plank is 3000mm × 600mm × 200mm, and the length of the frame part 100 is sufficient to satisfy the size of the maximum cement plank.

Specifically, frame body portion 100 includes body frame section 102 and the extension section 101 of symmetry locating body frame section 102 both sides, and wherein, the length of body frame section 102 is 1500mm, and the length of extension section 101 is 1500mm, and body frame section 102 is formed by the square pipe cutting that the size is 40mm x 3mm, and extension section 101 is formed by the square pipe cutting that the size is 30mm x 3 mm. One end of the extension section 101 is adjustably connected with one end of the main frame section 102, and the other end is suspended. All be equipped with the square hole that the width is 25mm at the one end that extension 101 is close to body frame section 102 and the both ends of body frame section 102, be convenient for run through this square hole with pin 105 and make extension 101 and body frame section 102 fixed connection, pin 105 is formed by the cutting of diameter 20mm threaded rod, and the length of pin 105 is 60 mm. Simultaneously, all be equipped with the handspike 104 in the outmost 50mm department apart from two extension sections 101, handspike 104 perpendicular to extension section 101 sets up, and handspike 104 is made by DN32X1.8mm's galvanized round pipe, and handspike 104 is fixed to be welded on extension section 101 for the workman promotes the conveyer and transports the cement slat.

The removal portion 200 includes the rim plate 201 of parallel arrangement and the dead axle 202 of connecting two rim plates 201, rim plate 201 diameter and dead axle 202 width can be confirmed according to the cement slat maximum width, in this embodiment, the diameter of chooseing for use rim plate 201 is 600mm, the width of dead axle 202 is greater than the width of cement slat, the width of dead axle 202 is 800mm, shelf portion 100 is 500mm to the height of dead axle 202, the both ends and the rim plate 201 roller connection of dead axle 202, the diameter of dead axle 202 can be decided according to actual conditions, removal portion 200 is used for driving cement slat and whole conveyer together subaerial horizontal migration.

The connecting portion 300 includes a supporting frame 301 and a fixing frame 302 matched with the supporting frame 301, the supporting frame 301 is connected with the frame body portion 100 at one end, and the fixing frame 302 is connected with the other end. Specifically, the supporting frame 301 comprises a first supporting rod 3011 and a second supporting rod 3012, and the fixing frame 302 comprises a fixing plate 3021 and two U-shaped bolts 302. The first stay 3011 and the second stay 3012 are symmetrically arranged, the lower end of the first stay 2011 intersects with the lower end of the second stay 2012, the intersection point is located at the center of the upper end face of the fixing plate 3021, and the upper end of the first stay 3011 and the upper end of the second stay 3012 are symmetrically fixed at two ends of the lower end face of the main frame segment 102. In the two groups of support frames 301, the upper end point of each group of first support rods 3011 is welded to one intersection point and is located on one side of the lower end plane of the main frame segment 102, and the upper end point of each group of second support rods 3012 is welded to the same intersection point and is located on the other side of the lower end plane of the main frame segment 102, that is, the upper end point of the first support rod 3011 and the upper end point of the second support rod 3012 are arranged in a point-to-point manner; the lower end point of each group of the first stay bar 3011 and the lower end point of the second stay bar 3012 are welded on the upper end face of the same fixing plate 3021 on the same side. First vaulting pole 3011 and second vaulting pole 3012 are the screw-thread steel that the diameter is 20mm, and intensity is good, and is the construction site raw and other materials commonly used, and it is easy to draw materials, and the cost of manufacture is low.

Further, as shown in fig. 3-4, a U-bolt 3022 is disposed around the fixed shaft 202 and penetrates through four through holes disposed on the fixing plate 3021, the fixing plate 3022 is coupled with the U-bolt 3022 through a nut 3023, and the U-bolt 3023 disposed separately is capable of adjusting the fastening fit of the fixing frame 302 and the fixed shaft 202. Further, a rubber sleeve may be sleeved on the U-shaped bolt 3023 to increase the friction between the fixing frame 302 and the fixed shaft 202 and improve the stability between the fixing frame 302 and the fixed shaft 202. The fixing plate 3022 is a steel plate with a diameter of 100mm × 100mm × 20mm, the U-shaped bolt 3022 is formed by bending a steel bar with a diameter of 5mm, and the diameter of the U-shaped bolt 3022 matches the diameter of the fixed shaft 202. The width between the adjacent fixed frames 302 is not less than the width of the cement lath, so that the included angle between the support frame 301 and the fixed shaft 202 is smaller, the included angle between the adjacent first support rod 3011 and the included angle between the adjacent second support rod 3012 are enlarged, the gravity center of the whole stress of the support frame 301 is downward, and the connection between the support frame 301 and the main frame section 102 is more stable and is not easy to shake.

Further, the hoisting part 400 comprises a hoisting ring 401 and a hoisting belt 402, the hoisting ring 401 is welded at the middle position of the lower end face of the extension section 101, the hoisting belt 402 is a long strip-shaped hoisting belt, two ends of the hoisting belt can be hung and buckled, the hoisting belt 401 can detachably penetrate through the hoisting ring 401 and is arranged in a hanging mode, and the hanging belt 402 of the hanging and buckling type is of an existing common structure and is not detailed herein. Rings 401 are made by the round steel that the diameter is 6.5mm, and the welding is on the lower terminal surface of extension section 101, and the round steel is current building site material commonly used, and it is easy to draw materials, and the cost of manufacture is low.

In this embodiment, the wheel disc 201 and the dead axle 202 may be purchased or may be configured using a cart wheel and axle on the construction site; after preparing the moving part 200, preparing the main frame section 102 and the two extension sections 101, and assembling them to form the frame part 100; then preparing two groups of support frames 301 and a fixing frame 302, welding one ends of the two groups of support frames 301 on the lower end surface of the main frame section 102, and welding the other ends of the two groups of support frames on the upper end surface of the fixing plate 3021 and welding the two groups of support frames centrally; the U-shaped bolt 3022 is fixedly connected to the nut by passing through the fixing plate 3021 around the setting shaft 202. Then welding a hanging ring 401 at the central part of the lower end surface of the extension sections 101 at the two sides, and arranging a hanging belt 402 through the hanging ring 401; finally, a hand push rod 104 is welded at one end of the extension sections 101 at the two sides far away from the main frame section 102, and the distance between the hand push rod 104 and the outermost end of the extension section 101 is 50 mm. From this, the transport device is completed. The connection position of the extension section 101 and the main frame section 101 can be adjusted according to the length of the on-site cement lath and is fixed by the pin bolt 105.

The utility model discloses a conveyer only needs through-hole handspike 104 can control the direction of transportation of removal portion 200, and then steerable cement slat and whole conveyer's direction, easily operates, and is light nimble, need not the supplementary variable transportation that can easily realize of other equipment, especially also can transport the cement slat safely steadily in high-rise construction area or narrow and small building site. And overall structure is simple moreover, and the preparation technical requirement is low, and it is easy to draw materials, is the construction site raw and other materials commonly used, need not many people cooperation, and conveying efficiency is high, especially can realize transporting to the building in through outdoor elevator from the material place of stacking, low in production cost.

The utility model discloses a working process:

the first step is as follows: after the transportation device is assembled, the frame part 100 in the transportation device is adjusted according to the length of the prefabricated cement lath.

The second step is that: the cement lath to be transported is laid flat, and the two lifting belts 402 are respectively placed on the lower end surfaces of the two sides of the cement lath, so that the lifting belts 402 are arranged around the cement lath.

Third, the transport device is pushed across the cement plank to a suitable position directly above the cement plank.

The fourth step: the hand push rod 104 on one side is lifted up again, the hand push rod 104 on the other side is inclined downwards together with the extension section 101, and then the lifting belt 402 on the side is hung on the corresponding lifting ring 401.

The fifth step: then, one end on which the lifting belt 402 is hung is raised, the other end of the frame body 100 is inclined downward, and the other lifting belt 402 is hung on the corresponding hanging ring 401.

And a sixth step: the frame part 100 is kept horizontally parallel to the cement lath in the transportation device by the handspike 105, and the worker controls the transportation device by the handspike 105, thereby realizing the transportation movement of the cement lath.

This technical scheme has following advantage and beneficial effect:

compared with the prior art, the utility model discloses a conveyer, firstly: the structure is simple, the manufacturing technical requirement is low, the materials are easy to obtain, the materials are common raw materials for construction sites, the manufacturing cost is low, and other equipment is not needed; secondly, the following steps: the installation and the removal are convenient, and the length of the extension rod in the frame body part can be automatically adjusted according to the length of the prefabricated cement batten for transportation; thirdly, the method comprises the following steps: the device is easy to operate, light and flexible, can easily realize transportation without the assistance of other equipment, can safely and stably transport cement battens in high-rise construction areas or narrow building sites, and particularly can realize transportation from material stacking places to buildings through outdoor elevators; fourthly, the method comprises the following steps: the conveying efficiency is high, the conveying speed is high, and manpower and material resources are saved.

The embodiments of the present invention have been described in detail, but the description is only for the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (10)

1. The prefabricated cement batten transporting device is characterized by comprising a frame body part, a moving part, a connecting part and a hoisting part, wherein the frame body part is of an adjustable structure, the frame body part is parallel to a cement batten and is perpendicular to the center of the moving part, the length of the frame body part can be adjusted according to the length change of the cement batten, the length of the frame body part is not less than that of the cement batten, and the length of the frame body part is 3000-4500 mm; the moving part is positioned below the frame body part, the moving part is connected with the frame body part through the connecting part, the moving part comprises wheel discs arranged in parallel and a fixed shaft connected with the two wheel discs, the diameter of each wheel disc is 600mm, the width of the fixed shaft is larger than that of the cement batten, the width of the fixed shaft is 800mm, the height from the frame body part to the fixed shaft is 500mm, and the moving part is used for driving the cement batten and the conveying device to horizontally move on the ground together; the two ends of the connecting part are respectively and fixedly connected with the frame body part and the moving part, the connecting part comprises symmetrically arranged support frames and fixing frames matched with the support frames, one end of each support frame is connected with the frame body part, the other end of each support frame is connected with the fixing frame, the fixing frames are arranged around the fixed shaft, and the width between every two adjacent fixing frames is not less than the width of the cement batten; hoist and mount portion symmetry set up in support body portion both ends, it is adjacent distance between the hoist and mount portion is less than the length of cement slat, hoist and mount portion one end with support body portion fixed connection, the other end are mobile suspension setting, but the cement slat level suspension in two hoist and mount portion expansion end, the cement slat is located the below of connecting portion.

2. The prefabricated cement slat conveying device according to claim 1, wherein the frame body comprises a main frame section and extension sections symmetrically arranged on two sides of the main frame section, the length of the main frame section is 1500mm, the length of the extension sections is 1500mm, one end of each extension section is adjustably connected with one end of the main frame section, and the other end of each extension section is suspended.

3. The prefabricated cement slat conveying device as claimed in claim 2, wherein the support frame comprises a first brace and a second brace, the first brace and the second brace are symmetrically disposed, a lower end of the first brace intersects with a lower end of the second brace and is fixed to an upper end surface of the fixing frame, and an upper end of the first brace and an upper end of the second brace are symmetrically fixed to a lower end surface of the main frame section.

4. The prefabricated cement slat transportation device as claimed in claim 3, wherein said first and second stays are both screw-thread steel with a diameter of 20 mm.

5. The prefabricated cement slat transportation device as claimed in claim 3 or 4, wherein the fixing frame comprises a fixing plate and two U-shaped bolts, the U-shaped bolts are disposed around the fixed shaft and penetrate through the fixing plate, and the fixing plate is engaged with the U-shaped bolts through nuts to connect the fixing frame with the fixed shaft.

6. The prefabricated cement slat transportation device as claimed in claim 5, wherein said fixing plate is a steel plate having a thickness of 20 mm; the U-shaped bolt is 5mm in diameter.

7. The prefabricated cement slat conveying device as claimed in any one of claims 2 to 4 and 6, wherein the lifting portion comprises a lifting ring and a lifting belt, the lifting ring is fixed to the lower end surface of the extension section, and the lifting belt is detachably disposed through the lifting ring and suspended in the air.

8. The prefabricated cement slat conveyor as claimed in claim 7, wherein said lifting ring is made of round steel 6.5mm in diameter and welded to said extension at a middle position thereof.

9. The prefabricated cement slat transportation device as claimed in any one of claims 1 to 4, 6 and 8, wherein hand-push bars are provided at positions 50mm from both ends of the frame body, the hand-push bars being provided perpendicularly to the frame body.

10. The prefabricated cement slat transportation device as claimed in claim 9, wherein the hand push rod is made of a galvanized round tube of dn32x1.8mm, and the hand push rod is fixedly welded to the frame body.

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