CN110733998A - hydraulic lifting platform for construction engineering based on dual gravity consolidation - Google Patents

Abstract

The invention discloses hydraulic lifting platforms for construction engineering based on dual gravity consolidation, which structurally comprises a lifting platform, a hydraulic cylinder and a moving track, wherein the lifting platform is connected with the hydraulic cylinder in an installing manner, the lifting platform is connected with the moving track, the lifting platform comprises a fork frame, an upper platform, a manual rotating wheel, a track wheel, a bottom platform and a reinforcing rod, the fork frame is connected with the upper platform through a bolt plate, the fork frame is connected with the reinforcing rod in a shaft manner, the manual rotating wheel is arranged on the bottom platform, and the track wheel is arranged on the bottom platform.

Description

hydraulic lifting platform for construction engineering based on dual gravity consolidation

Technical Field

The invention relates to the field of hydraulic equipment, in particular to hydraulic lifting platforms for construction engineering based on dual gravity consolidation.

Background

The hydraulic lifting platform is kinds of multifunctional hydraulically driven hoisting, loading and unloading mechanical equipment, and may be used in high altitude operation and maintenance in factory, dock, building, decoration, enterprise, etc. and is used mainly in conveying pedestrian and building material.

When prior art sent the year to the goods, anomalous timber can produce the uneven condition of gravity to the upper portion platform with the stone that scatters everywhere, if timber and stone do not evenly put after carrying out the stack, the focus slope easily takes place for the platform of upper portion, gets off the crotch for a long time and can appear the clearance with the junction of upper portion platform, and the stability of equipment lift in-process can greatly reduced.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provides hydraulic lifting platforms for construction engineering based on dual gravity consolidation, so as to solve the problems that irregular wood and stones scattered around can generate uneven gravity on an upper platform when goods are conveyed, if the wood and the stones are not uniformly placed after being stacked, the center of gravity of the upper platform is easy to incline, a gap can be generated at the joint of a fork frame and the upper platform after long-term falling, and the stability in the lifting process of equipment can be greatly reduced.

The hydraulic lifting platforms for the building engineering based on dual gravity consolidation are structurally composed of lifting platforms, hydraulic cylinders and moving rails, the lifting platforms are installed and connected with the upper ends of the hydraulic cylinders, the bottoms of the lifting platforms are connected with the moving rails, each lifting platform comprises a fork frame, an upper platform, a manual rotating wheel, a rail wheel, a bottom platform and a reinforcing rod, the upper ends of the fork frames are connected with the upper platform through bolt plates, the fork frames are connected with the front end shaft and the rear end shaft of the reinforcing rod, the bottoms of the manual rotating wheels are installed on the bottom platform, the rail wheels are installed at the bottoms of the bottom platform, and the rail wheels are located at the front end and the rear end of the bottom platform.

, preferably, the hydraulic cylinder comprises a hydraulic rod and a motor, the bottom of the hydraulic rod is mounted on the motor and is electrically connected with the motor, the hydraulic rod comprises a plug connector, a connecting plate and a hydraulic ejector rod, the plug connector is mounted on the connecting plate and the hydraulic ejector rod, the plug connector, the connecting plate and the hydraulic ejector rod form a -body structure, and the connecting plate is connected with the upper end shaft of the hydraulic ejector rod.

, the socket connector comprises a wrapping ring, a connecting ring plate, a cone head device, a stabilizer and a telescopic cone device, the left end of the wrapping ring is buckled with the connecting ring plate, the connecting ring plate is connected with the left end of the cone head device in an adhesive manner, and the left end and the right end of the stabilizer are connected with the cone head device and the telescopic cone device in an embedded manner.

, preferably, the stabilizer comprises an inner ring friction plate, an outer ring stabilizing plate, an inner ring friction ball and an inner ring ball body, wherein the right end of the inner ring friction plate is installed on the outer ring stabilizing plate, the left end of the inner ring friction ball is installed on the inner ring stabilizing plate, and the annular surface of the inner ring ball body is attached to the inner ring friction plate, the inner ring stabilizing plate and the inner ring friction ball.

step-by-step optimization, the crotch inboard is installed the honeycomb and is inlayed the stake, the honeycomb inlays the stake and includes outer cladding, interior cladding, honeycomb mat, honeycomb inlay, outer cladding bottom and interior cladding glue are connected, interior cladding and the laminating of honeycomb mat upper strata, honeycomb mat bottom and honeycomb inlay the dress and be connected, the honeycomb mat is equipped with the honeycomb cushion.

preferably, the honeycomb inlay comprises a sheath pad, a drawplate and a panel frame, the sheath pad bottom layer is attached to the drawplate, and the bottom of the drawplate is embedded in the panel frame.

Advantageous effects

The goods are stacked on the lifting platform, the operation of the hydraulic cylinder is started to drive the goods to ascend or descend, the lifting platform can move left and right on the moving track, the fork frame is driven by the hydraulic cylinder to perform lifting transmission, the manual rotating wheel can manually control the lifting of the fork frame, the hydraulic cylinder drives the hydraulic rod to stretch by the motor during transmission, the plug-in connector can perform transmission according to the gravity distributed by the upper platform, the cone head device and the telescopic cone device play a role in relatively fixing the stabilizer, the stabilizer can perform gravity induction and move under the matching transmission of the inner ring friction ball and the inner ring friction plate, the balance control of the upper platform is maximally realized, if the woods and the stones are not uniformly stacked, the gravity center of the upper platform is pre-inclined, the fork frame performs transmission through the honeycomb embedded piles during lifting and supporting, the cellular cushion is driven by the pulling plate to stretch the cellular cushion, the cellular cushion plays a role in supporting and buffering, a supporting surface is added to the whole upper platform, the buffering performance of the cellular cushion is also improved, the protruding structure is arranged, and the buffering performance of is also increased.

Compared with the prior art, the lifting device has the advantages that the hydraulic cylinder is started to drive the lifting platform to carry out lifting transmission, the motor drives the hydraulic rod to stretch, the balance control of the upper platform is realized to the maximum extent by the upper end of the hydraulic rod, the condition that the wood and the stone fall around to generate uneven gravity is effectively avoided, when the gravity center of the upper platform is inclined in advance, the honeycomb net pad plays a role in supporting and buffering steps, the effect of consolidating the joint of the fork frame and the upper platform is also played, and the stability of the device during operation is greatly improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 shows a schematic structural diagram of hydraulic lifting platforms for construction engineering based on dual gravity consolidation.

Fig. 2 shows a schematic structural view of the elevating platform of the present invention.

Fig. 3 shows a schematic view of the structure of the hydraulic cylinder of the present invention.

Fig. 4 shows a schematic structural diagram of a of fig. 3 according to the present invention.

Fig. 5 shows a schematic view of the construction of the plug connector of the invention.

Fig. 6 shows a disassembled schematic view of the connector according to the invention.

Fig. 7 shows a schematic view of the structure of the stabilizer of the present invention.

Fig. 8 shows a schematic view of the structure of a part of the honeycomb driven stud of the present invention.

Figure 9 shows a schematic structural view of a portion of the honeycomb inlay of the present invention.

Fig. 10 shows a schematic view of the structure of the honeycomb mat of the present invention.

In the figure: the device comprises an elevating platform 1, a hydraulic cylinder 2, a moving track 3, a fork frame 10, an upper platform 11, a manual rotating wheel 12, a track wheel 13, a bottom platform 14, a reinforcing rod 15, a hydraulic rod 20, a motor 21, a connector 200, a connecting plate 201, a hydraulic top rod 202, a wrapping ring 2000, a connecting ring plate 2001, a cone head 2002, a stabilizer 2003, a telescopic cone 2004, an inner ring friction plate 40, an outer ring stabilizing plate 41, an inner ring stabilizing plate 42, an inner ring friction ball 43, an inner ring ball 44, a honeycomb embedded pile 100, an outer attaching layer 50, an inner attaching layer 51, a honeycomb net pad 52, a honeycomb embedded body 53, a honeycomb pad 520, a sheath pad 530, a drawing plate 531 and a panel frame 532.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only partial embodiments of of the present invention, rather than all embodiments.

Referring to fig. 1 to 10, the present invention provides hydraulic lifting table for construction engineering based on dual gravity consolidation, the structure of the hydraulic lifting table comprises a lifting table 1, a hydraulic cylinder 2 and a moving track 3, the lifting table 1 is provided with a dismounting fence if necessary, so as to improve the safety of the device in use, the lifting table 1 is connected with the hydraulic cylinder 2, the lifting table 1 is connected with the moving track 3 track, the stability of the lifting table 1 moving on the moving track 3 is higher than that on the ground, the lifting table 1 can also be placed on the ground to move, so as to improve the moving range of the lifting table 1, the lifting table 1 comprises a fork frame 10, an upper platform 11, a manual rotating wheel 12, a track wheel 13, a bottom platform 14, a rod 15, the fork frame 10 is connected with the upper platform 11 through a bolt plate, the fork frame 10 is connected with a reinforcing rod 15 shaft, the rod 15 serves to reinforce the device integrally, the manual rotating wheel 12 is mounted on the bottom platform 14, the bottom platform 14 is provided with a track wheel 13, the cylinder 2 comprises a bolt rod 20, the reinforcing rod 20, the fork frame 20 is connected with a reinforcing rod 15, the inner ring 5 is connected with a mesh rod 15, the inner ring 52, the inner ring 5 is connected with a honeycomb insert pad 52, the inner ring 52, the honeycomb insert pad 52, the inner ring 52, the honeycomb insert pad 52 is connected with the honeycomb insert pad 52, the honeycomb insert pad 52 is connected with the honeycomb insert pad 52, the honeycomb insert plate 52, the honeycomb insert pad 52, the honeycomb insert 52, the honeycomb insert 52 is connected with the honeycomb insert 52, the honeycomb insert, the insert 52, the honeycomb insert 52, the insert plate 100 is connected with the honeycomb insert 52, the honeycomb insert plate 100, the honeycomb insert 52, the honeycomb insert plate 100 insert 52, the honeycomb insert 52.

Goods are stacked on a lifting platform 1, operation of a hydraulic cylinder 2 is started to drive the goods to ascend or descend, meanwhile, the lifting platform 1 can move left and right on a moving track 3, a fork frame 10 is driven by the hydraulic cylinder 2 to ascend and descend, manual rotating wheels 12 can manually control the ascending and descending of the fork frame 10, when the hydraulic cylinder 2 is in transmission, a motor 21 drives a hydraulic rod 20 to stretch, a plug-in connector 200 can transmit according to gravity distributed on an upper platform 11, a cone head 2002 and a telescopic cone 2004 play a role in relatively fixing a stabilizer 2003, the stabilizer 2003 can conduct gravity induction and move under the matching transmission of an inner ring friction ball 43 and an inner ring friction plate 40, balance control over the upper platform 11 is achieved to the maximum degree, if the woods and stones are not uniformly stacked, gravity center inclination of the upper platform 11 occurs in advance, the fork frame 10 drives a honeycomb embedded pile 100 during ascending, a drawing plate 531 drives a honeycomb net cushion 52 to stretch, the honeycomb net cushion 52 plays a supporting and buffering role, the whole supporting performance of the honeycomb cushion block is increased, and the whole cushion pad is increased.

Compared with the prior art, the invention has the technical advantages that the hydraulic cylinder 2 is started to drive the lifting platform 1 to carry out lifting transmission, the motor 21 drives the hydraulic rod 20 to stretch, the balance control of the upper platform 11 is realized to the maximum extent by the upper end of the hydraulic rod 20, the condition that the gravity is uneven due to scattering of wood and stones is effectively avoided, when the gravity center of the upper platform 11 is pre-inclined, the honeycomb net pad 52 plays a role in supporting and buffering steps, the joint between the fork frame 10 and the upper platform 11 is consolidated, and the stability of the equipment in operation is greatly improved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (6)

1, kind of hydraulic pressure elevating platform for building engineering based on dual gravity is consolidated, its structure includes elevating platform (1), hydraulic cylinder (2), removal track (3), elevating platform (1) and hydraulic cylinder (2) erection joint, elevating platform (1) and removal track (3) rail connection, its characterized in that:

the lifting platform (1) comprises a fork frame (10), an upper platform (11), a manual rotating wheel (12), a rail wheel (13), a bottom platform (14) and a reinforcing rod (15), wherein the fork frame (10) is connected with the upper platform (11) through a bolt plate, the fork frame (10) is connected with the reinforcing rod (15) through a shaft, the manual rotating wheel (12) is installed on the bottom platform (14), and the rail wheel (13) is installed on the bottom platform (14).

2. Hydraulic lifting platform for construction engineering based on dual gravity consolidation, according to the claim 1, characterized in that the hydraulic cylinder (2) comprises a hydraulic rod (20) and a motor (21), the hydraulic rod (20) is installed on the motor (21) and electrically connected with the motor, the hydraulic rod (20) comprises a plug connector (200), a connection plate (201), a hydraulic push rod (202), the plug connector (200) is installed on the connection plate (201) and the hydraulic push rod (202), and the connection plate (201) is connected with the hydraulic push rod (202) through a shaft.

3. The hydraulic lifting platform for construction engineering based on dual gravity consolidation is characterized in that the socket connector (200) comprises a wrapping ring (2000), an engaging ring plate (2001), a cone head device (2002), a stabilizer (2003) and a telescopic cone device (2004), the wrapping ring (2000) is buckled with the engaging ring plate (2001), the engaging ring plate (2001) is connected with the cone head device (2002) in an adhesive mode, and the stabilizer (2003) is connected with the cone head device (2002) and the telescopic cone device (2004) in an embedding mode.

4. The hydraulic lifting platform for construction engineering based on dual gravity consolidation is characterized in that the stabilizer (2003) comprises an inner ring friction plate (40), an outer ring stabilizing plate (41), an inner ring stabilizing plate (42), an inner ring friction ball (43) and an inner ring ball body (44), the right end of the inner ring friction plate (40) is installed on the outer ring stabilizing plate (41), the left end of the inner ring friction ball (43) is installed on the inner ring stabilizing plate (42), and the annular surface of the inner ring ball body (44) is attached to the inner ring friction plate (40), the inner ring stabilizing plate (42) and the inner ring friction ball (43).

5. hydraulic lifting platform for construction engineering based on dual gravity consolidation, according to the claim 1, characterized in that the fork (10) is installed with a honeycomb embedded pile (100) on its inner side, the honeycomb embedded pile (100) includes an outer coating (50), an inner coating (51), a honeycomb net pad (52), a honeycomb inlay (53), the bottom of the outer coating (50) is connected with the inner coating (51) by glue, the inner coating (51) is attached to the upper surface of the honeycomb net pad (52), the bottom of the honeycomb net pad (52) is connected with the honeycomb inlay (53) by embedding, and the honeycomb net pad (52) is provided with a honeycomb cushion block (520).

6. The hydraulic lifting platform for construction engineering based on dual gravity consolidation is characterized in that the honeycomb inlay (53) comprises a protective layer pad (530), a drawing plate (531) and a panel frame body (532), the bottom of the protective layer pad (530) is attached to the drawing plate (531), and the bottom of the drawing plate (531) is embedded and connected with the panel frame body (532).

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