CN113202054A

CN113202054A - Bearing frame structure suitable for platform is encorbelmented to disconnect-type sea pond

Info

Publication number: CN113202054A
Application number: CN202110484418.4A
Authority: CN
Inventors: 周建芬; 董志勇; 毛前; 徐存东; 吴红梅; 高景泉; 庞鑫杰; 赵海涛; 蒋宁; 李骞
Original assignee: Zhejiang University of Technology ZJUT
Current assignee: Zhejiang University of Water Resources and Electric Power
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-08-03
Anticipated expiration: 2041-04-30
Also published as: CN113202054B

Abstract

The invention discloses a bearing frame structure suitable for a separated type sea pond overhanging platform, which belongs to the technical field of bearing frame structures and comprises a base, wherein lower limiting slide rail assemblies are arranged on two sides of the top of the base, a cross-shaped adjusting frame is hinged to the top of each lower limiting slide rail assembly, a hydraulic cylinder adjusting assembly is arranged in the middle of the top of each lower limiting slide rail assembly, the functions of exhausting and sucking are realized by starting an air compression assembly and matching ventilation directions of a first one-way valve assembly and a second one-way valve assembly in an opposite mode, when the carrying is needed, the air is exhausted, so that the volume of a waterproof elastic layer is increased, the buoyancy is improved, the carrying is assisted, and when the carrying is not needed, the air is sucked, and the drainage is reduced.

Description

Bearing frame structure suitable for platform is encorbelmented to disconnect-type sea pond

Technical Field

The invention relates to a bearing frame structure, in particular to a bearing frame structure suitable for a separate type sea pond overhanging platform, and belongs to the technical field of bearing frame structures.

Background

The dike is built by rock blocks or boulders along the coast for preventing tide and wave in the shape of steep wall, also called as steep wall type sea dike.

The sea pond is an artificially constructed tidal barrier dam and an important barrier in the coastal region of southeast China, has been used for more than two thousand years so far and is mainly distributed in Jiangsu and Zhejiang provinces.

The key point of historical treatment is that a section of six hundred kilometers from south of the Yangtze river mouth to north of the Yongjiang river mouth, wherein the engineering of a sea pond, particularly the engineering of the sea pond in the area of north bank of the Changchang river mouth, is most dangerous. The tall stone-built sea pond is winding on a coast hundreds of kilometers long, and the sea pond is simply and intuitively.

The sea pond originally originated from the mouth of the Qiantanjiang river, which is determined by natural conditions, the tidal water in the mouth of the Qiantanjiang river is particularly large, the river is a famous tide for the Qiantangjiang river, and the Nanbei geography scientist Li has described the Qiantangriver with simple pen and ink, so that people always hide in the month and expect the river to be large when the water comes from day and night. The second seal of the second Anthriscus may be left until February.

The Qiantang tide is a natural victory scene, but also causes great damage to coastal areas. Twelve years of land, more than forty miles of south of Jinhaining county, was lost into the sea due to the tide.

In addition, the sea towns in sea salt counties have been totally engulfed by sea tides, and nowadays, the sea ponds are still coastal barriers in the economic areas of Yangtze delta.

The basic function of the platform for separating type sea pond overhanging in the prior art is to realize the function of convenient transportation and combination, so that the platform can be directly disassembled when needing to be disassembled, the function of direct installation when the installation is needed, and aiming at the function of convenient transportation and disassembly, it still requires crane adjustment and manual fine adjustment, which is extremely dangerous, in addition, the bearing frame structure of the separating type sea pond overhanging platform in the prior art has the advantages that the gravity of the platform needs to be borne by a crane completely when the platform is carried, the buoyancy of river water can not be fully utilized for assisting, secondly, when the utility model is used, the height of the direct stacking is adjusted when the utility model can not be used, which is not flexible, and the bearing frame structure is not suitable for different river surfaces, so that the bearing frame structure suitable for the separate type sea pond cantilever platform is designed to improve the problems.

Disclosure of Invention

The invention mainly aims to provide a bearing frame structure suitable for a separate type sea pond cantilever platform, the bearing frame structure is more suitable for loads with different degrees by placing a device in water, then driving the side supporting arms to adjust the direction by starting a frame body direction adjusting supporting component so as to realize the adjustment of the sizes of different supporting surfaces, then enabling the bearing frame structure to be more suitable for loads with different degrees, enabling the bearing frame structure to play a role of conducting electricity when a base inclines towards different directions by a multi-direction level gauge, further enabling an electric lifting component to realize the function of keeping the base balanced, enabling the bearing frame structure to move towards different directions when moving by starting a wheel body direction adjusting component, enabling the electric driving wheel body component to realize the function of self-moving without manual transportation, so that the bearing frame structure is safer and more stable and high in efficiency, and pushing a lower-position sliding rail component to move by starting a hydraulic cylinder adjusting component, adjust cross alignment jig through lower spacing slide rail set spare and realize promoting the function of backup pad altitude mixture control, realize exhausting and inspiratory function through the ventilative opposite direction that starts first check valve subassembly of air compression subassembly cooperation and second check valve subassembly, thereby it increases waterproof elastic layer volume and improves buoyancy to exhaust when needs transport to supplementary transport, breathe in when not needing the transport and reduce the drainage.

The purpose of the invention can be achieved by adopting the following technical scheme:

a bearing frame structure suitable for a separated type sea pond overhanging platform comprises a base, wherein lower limiting slide rail assemblies are arranged on two sides of the top of the base, a cross-shaped adjusting frame is hinged to the top of the lower limiting slide rail assembly, a hydraulic cylinder adjusting assembly is arranged in the middle of the top of the lower limiting slide rail assembly, the hydraulic cylinder adjusting assembly and the lower limiting slide rail assemblies are matched with each other to adjust the cross-shaped adjusting frame, a multidirectional level gauge is arranged in the middle of the top of the base, an air storage cylinder is arranged at the position, close to the multidirectional level gauge, of the top of the base, air vents are formed in the side wall of the air storage cylinder at equal intervals, a first check valve assembly and a second check valve assembly are respectively inserted into the air vents in a staggered mode, the air ventilation directions of the first check valve assembly and the second check valve assembly are opposite, and an air compression assembly penetrating through the air storage cylinder is arranged at the top of the air storage cylinder, the top of cross alignment jig articulates there is last spacing slide rail set spare, go up spacing slide rail set spare's top and install the backup pad, go up the top of backup pad and install bearing frame subassembly, it is equipped with waterproof elastic layer to go up the cover between the outside of backup pad and base, support body position adjustment supporting component is installed to the bottom four corners department of base, electric lift subassembly is installed to support body position adjustment supporting component's bottom, wheel body position adjustment subassembly is installed through the collateral branch supporting arm to electric lift subassembly's output, wheel body position adjustment subassembly's outside cover is equipped with electric drive wheel body subassembly.

Preferably, lower spacing slide rail set spare includes slide rail, U type slider and side fixing plate down, the slide rail is installed down the both sides at base top, the outside cover of slide rail is equipped with down can gliding U type slider on the slide rail, the side fixing plate is installed at the top of U type slider, the top mid-mounting of slide rail has pneumatic cylinder adjusting part down, just pneumatic cylinder adjusting part's output with the inner wall of side fixing plate is fixed.

Preferably, pneumatic cylinder adjusting part includes pneumatic cylinder support frame and double-end pneumatic cylinder, the pneumatic cylinder support frame is installed the top middle part department of slide rail down, just the double-end pneumatic cylinder is installed at the top of pneumatic cylinder support frame, the output of double-end pneumatic cylinder with the inner wall of side fixing plate is fixed.

Preferably, the first check valve assembly comprises a first check valve and a first limiting spring, the first limiting spring is installed on the inner wall of a part of the vent hole, the other end of the first limiting spring is fixed to one side of the first check valve, and the end of the first check valve is plugged into the part of the vent hole.

Preferably, the second check valve component comprises a second check valve and a second limiting spring, the second limiting spring is installed on the inner wall of one part of the vent holes, the second check valve is installed at one end of the second limiting spring, the second check valve is partially plugged into the part of the vent holes, and the first check valve and the second check valve are matched with each other to form an in-out ventilation component structure.

Preferably, the air compression subassembly includes side electric telescopic handle, compression board and rubber ring, side electric telescopic handle's top mid-mounting has the top middle part of gas receiver, side electric telescopic handle's output runs through the gas receiver is installed can the compression board of gas receiver internal motion, the outside cover of compression board is equipped with the rubber ring.

Preferably, go up spacing slide rail set spare and include spacing U type slider, go up articulated seat and last spacing slide rail, it installs to go up spacing slide rail go up the both sides department of backup pad bottom, just the outside cover of going up spacing slide rail is equipped with spacing U type slider, go up the bottom of spacing U type slider and install articulated seat, go up the bottom of articulated seat with the top of cross alignment jig is articulated.

Preferably, the bearing frame subassembly includes joint support post, rectangle supporting top, awl type upper fixing frame, awl type lower fixing frame and L type supporting top, the mount is installed under the awl type the top department of going up the backup pad, the top integrated into one piece of awl type lower fixing frame has joint support post, the top integrated into one piece of joint support post has the awl type upper fixing frame, the top integrated into one piece of awl type upper fixing frame has rectangle supporting top or L type supporting top.

Preferably, support body position adjustment supporting component includes outer spacing section of thick bamboo, second and turns to motor and second pivot, outer spacing section of thick bamboo is installed the four corners department of base bottom, just be located in the outer spacing section of thick bamboo the bottom department of base installs the second and turns to the motor, the second turns to the output of motor and installs the second pivot, the electric lift subassembly is installed to the bottom of second pivot, the inner wall of outer spacing section of thick bamboo is equipped with the side spacing ring.

Preferably, the electric lifting assembly comprises a second limiting annular groove, an electric output rod and an electric telescopic rod, the second limiting annular groove is formed in the top of the outer side of the electric telescopic rod in a surrounding mode, the second limiting annular groove is matched with the side limiting rings, the electric output rod is installed at the output end of the electric telescopic rod, and the side supporting arm is installed below the outer side of the electric output rod.

Preferably, wheel body position adjustment assembly includes ring seat, first spacing annular groove, first pivot and the first motor that turns to on the T type, the ring seat is fitted to the T type is installed to the bottom of supporting leg, first spacing annular groove has been seted up at the middle part in the ring seat outside on the T type, first motor that turns to is installed ring seat's interior top department on the T type, first pivot is installed to the output of first motor that turns to, the bottom of first pivot with electric drive wheel body subassembly is fixed.

Preferably, the electric drive wheel body subassembly includes ring seat, spacing ring, removal supporting wheel, side articulated slab and mobile motor under the T type, the inboard mid-mounting of ring seat has the spacing ring under the T type, the spacing ring housing is established the inboard of first spacing annular groove, the side articulated slab is installed to the bottom of ring seat under the T type, the inboard of side articulated slab articulates there is the removal supporting wheel, mobile motor is installed to one side of side articulated slab, mobile motor's output runs through the side articulated slab is installed and is removed the supporting wheel.

Preferably, the multidirectional level comprises an upper cover, a middle clamping plate, a hollow circular seat, a conductive tube, a limiting spring, a conductive ball, an arc-shaped conductive seat and a conductive wire, wherein the middle conductive bin is installed at the middle part of an inner bottom of the hollow circular seat, the arc-shaped conductive seat is installed on the inner wall of the middle conductive bin, the middle clamping plate is arranged on the outer side of the middle conductive bin, the conductive tubes are arranged on the outer side of the middle clamping plate at equal intervals, the limiting spring is installed at the inner end part of the conductive tube, the arc-shaped conductive block is installed at the other end of the limiting spring, the conductive ball is arranged inside the conductive tube, and the conductive wire is connected between the arc-shaped conductive seat and the conductive ball.

The invention has the beneficial technical effects that:

the invention provides a bearing frame structure suitable for a separate type sea pond cantilever platform, which is characterized in that a device is placed in water, then a support body position adjusting support component is started to drive the position of a side support arm to adjust, thereby realizing the adjustment of different support surface sizes, further being more suitable for loads of different degrees, secondly a multidirectional level meter is used to play a role of conducting electricity when a base inclines towards different directions, and then an electric lifting component is started to realize the function of keeping the base balanced, the wheel body position adjusting component is started to move towards different directions during moving, the function of self-moving is realized by starting the electric driving wheel body component without manual carrying, the self-moving function is safer and more stable, the hydraulic cylinder adjusting component is started to push a lower limiting slide rail component to move, and the cross-shaped adjusting frame is adjusted by the lower limiting slide rail component to realize the function of pushing the height adjustment of an upper support plate, realize the function of exhausting and breathing in through the ventilative opposite direction of starting the air compression subassembly cooperation first check valve subassembly and second check valve subassembly, thereby carry out when needs transport and exhaust and increase waterproof elastic layer volume and improve buoyancy to supplementary transport breathes in when need not carrying and reduces the drainage.

Drawings

Fig. 1 is an exploded perspective view of the whole structure of a preferred embodiment of a bearing frame structure suitable for a separate type sea pond cantilever platform according to the present invention;

fig. 2 is a whole perspective structural view of a preferred embodiment of a bearing frame structure suitable for a separate type sea pond cantilever platform according to the invention;

fig. 3 is a schematic perspective view of a combined structure of an adjusting leg assembly, a lifting frame assembly and a base according to a preferred embodiment of the bearing frame structure of the split-type sea pond cantilever platform;

fig. 4 is a schematic perspective view of a gas storage module according to a preferred embodiment of the present invention, which is adapted to a load-bearing frame structure of a split-type sea-pond cantilever platform;

fig. 5 is an enlarged view of a structure at a position a of a preferred embodiment of a bearing frame structure suitable for the split-type sea pond cantilever platform according to the present invention;

FIG. 6 is a side sectional view of a preferred embodiment of a load bearing frame structure suitable for use with a split pond suspended platform according to the present invention;

fig. 7 is an enlarged view of a structure at b of a preferred embodiment of a load-bearing frame structure suitable for the split-type pond cantilever platform according to the present invention;

fig. 8 is a schematic perspective view of a support and adjustment leg assembly according to a preferred embodiment of the present invention for a load-bearing frame structure of a split-type pond cantilever platform;

fig. 9 is an exploded perspective view of a rotary adjustment moving wheel assembly according to a preferred embodiment of the present invention for a load bearing frame structure of a split-type fishpond cantilever platform;

fig. 10 is an enlarged view of a preferred embodiment of a load-bearing frame structure suitable for the split-type pond cantilever platform according to the present invention at position c;

fig. 11 is a perspective view of a first embodiment of a support frame assembly of a preferred embodiment of a load bearing frame structure for a split pond suspended platform according to the present invention;

fig. 12 is a perspective view of the lower half of the supporting frame assembly of a preferred embodiment of the supporting frame structure for the split-type floating platform of the sea pond according to the present invention;

fig. 13 is a perspective view of a second embodiment of a support frame assembly of a preferred embodiment of a load bearing frame structure for a split pond suspended platform according to the present invention;

fig. 14 is an exploded perspective view of a multi-directional level according to a preferred embodiment of the present invention for use in a load-bearing frame structure for a split-type pond suspended platform;

fig. 15 is a top view of a preferred embodiment of a multi-directional level suitable for use in the load-bearing frame structure of a split-type pond cantilever platform according to the present invention.

In the figure: 1-a rectangular supporting top, 2-a connecting supporting column, 3-an upper supporting plate, 4-a waterproof elastic layer, 5-a base, 6-a side supporting arm, 7-an electric telescopic rod, 8-a supporting leg, 9-a conical upper fixing frame, 10-a conical lower fixing frame, 11-a side fixing plate, 12-a multidirectional level meter, 13-a cross-shaped adjusting frame, 14-an air cylinder, 15-an electric telescopic rod, 16-an arc-shaped conducting block, 17-a lower sliding rail, 18-a double-head hydraulic cylinder, 19-a U-shaped sliding block, 20-a hydraulic cylinder supporting frame, 21-a first one-way valve, 22-an air vent, 23-a first limiting spring, 24-a second one-way valve, 25-a second limiting spring, 26-a T-shaped upper ring seat and 27-a first limiting annular groove, 28-a first steering motor, 29-a T-shaped lower ring seat, 30-a moving support wheel, 31-a side hinged plate, 32-a moving motor, 33-a first rotating shaft, 34-a limiting ring, 35-a second steering motor, 36-a second rotating shaft, 37-a second limiting annular groove, 38-an outer limiting barrel, 39-an upper limiting U-shaped sliding block, 40-an upper limiting sliding rail, 41-an upper hinged seat, 42-an L-shaped supporting top, 43-an upper cover, 44-a hollow circular seat, 45-a middle clamping plate, 46-a conductive pipe, 47-a limiting spring, 48-a middle conductive bin, 49-a conductive ball, 50-a conductive wire, 51-an arc conductive seat, 52-a compression plate and 53-an electric output rod.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1 to 15, the bearing frame structure suitable for the separable sea pond overhanging platform provided by this embodiment includes a base 5, lower limiting slide rail assemblies are installed on two sides of the top of the base 5, a cross-shaped adjusting bracket 13 is hinged to the top of the lower limiting slide rail assembly, a hydraulic cylinder adjusting assembly is installed in the middle of the top of the lower limiting slide rail assembly, the hydraulic cylinder adjusting assembly and the lower limiting slide rail assembly are mutually matched to adjust the cross-shaped adjusting bracket 13, a multi-directional level 12 is installed in the middle of the top of the base 5, an air storage cylinder 14 is installed at a position, close to the multi-directional level 12, of the top of the base 5, air vents 22 are equidistantly formed in the side wall of the air storage cylinder 14, first check valve assemblies and second check valve assemblies are respectively inserted in the air vents in a staggered manner, the air permeable orientations of the first check valve assemblies and the second check valve assemblies are opposite, an air compression assembly penetrating through the air storage cylinder 14 is installed at the top of the air storage cylinder 14, articulated at cross alignment jig 13's top has last spacing slide rail set spare, backup pad 3 is installed at the top of going up spacing slide rail set spare, the bearing frame subassembly is installed at the top of going up backup pad 3, it is equipped with waterproof elastic layer 4 to go up the cover between the outside of backup pad 3 and base 5, support body position adjustment supporting component is installed to the bottom four corners department of base 5, electric lift assembly is installed to support body position adjustment supporting component's bottom, wheel body position adjustment assembly is installed through collateral branch brace 6 to electric lift assembly's output, wheel body position adjustment assembly's outside cover is equipped with electric drive wheel body subassembly.

The general working principle is as follows: the device is placed in water, then the support body position adjusting and supporting component is started to drive the side supporting arms 6 to adjust the position, so as to realize the adjustment of different supporting surfaces, thereby being more suitable for loads with different degrees, secondly, the multidirectional gradienter 12 can play a role of electric conduction when the base 5 inclines to different directions, then the electric lifting component is started to realize the function of keeping the base 5 balanced, the wheel body position adjusting component can be started to move to different directions when moving, the function of self-moving can be realized by starting the electric driving wheel body component without manual carrying, the device is safer and more stable, the hydraulic cylinder adjusting component is started to push the lower limiting sliding rail component to move, and the cross-shaped adjusting frame 13 is adjusted by the lower limiting sliding rail component to realize the function of pushing the upper supporting plate 3 to adjust the height, realize the function of exhausting and breathing in through the ventilative opposite direction of starting the air compression subassembly cooperation first check valve subassembly and second check valve subassembly, thereby carry out when needs transport and exhaust and increase 4 volumes of waterproof elastic layer and improve buoyancy, thereby supplementary transport breathes in when need not carrying and reduces the drainage.

In this embodiment, lower spacing slide rail set spare includes lower slide rail 17, U type slider 19 and side mount board 11, and lower slide rail 17 installs the both sides at base 5 top, and the outside cover of lower slide rail 17 is equipped with can be on lower slide rail 17 gliding U type slider 19, and side mount board 11 is installed at U type slider 19's top, and the top mid-mounting of lower slide rail 17 has pneumatic cylinder adjusting part, and pneumatic cylinder adjusting part's output is fixed with the inner wall of side mount board 11.

In this embodiment, pneumatic cylinder adjusting part includes pneumatic cylinder support frame 20 and double-end pneumatic cylinder 18, and pneumatic cylinder support frame 20 installs in the top middle part department of lower slide rail 17, and pneumatic cylinder support frame 20's top installs double-end pneumatic cylinder 18, and double-end pneumatic cylinder 18's output is fixed with the inner wall of side mounting plate 11.

In the present embodiment, the first check valve assembly includes a first check valve 21 and a first stopper spring 23, the first stopper spring 23 is installed at an inner wall of a portion of the vent hole 22, and the other end of the first stopper spring 23 is fixed to one side of the first check valve 21, and an end of the first check valve 21 is inserted into the portion of the vent hole 22.

In this embodiment, the second check valve assembly includes a second check valve 24 and a second limiting spring 25, the second limiting spring 25 is installed on the inner wall of a part of the vent hole 22, the second check valve 24 is installed at one end of the second limiting spring 25, the second check valve 24 is partially plugged into the part of the vent hole 22, and the first check valve 21 and the second check valve 24 are matched with each other to form an in-out vent assembly structure.

In this embodiment, the air compression subassembly includes side electric telescopic handle 15, compression plate 52 and rubber ring, and the top middle part of gas receiver 14 is installed to the top mid-mounting of side electric telescopic handle 15, and the output of side electric telescopic handle 15 runs through gas receiver 14 and installs the compression plate 52 that can move in gas receiver 14, and the outside cover of compression plate 52 is equipped with the rubber ring.

In this embodiment, go up spacing slide rail set spare including last spacing U type slider 39, go up articulated seat 41 and last spacing slide rail 40, go up spacing slide rail 40 and install the both sides department in last backup pad 3 bottom, and go up the outside cover of spacing slide rail 40 and be equipped with and go up spacing U type slider 39, go up articulated seat 41 is installed to the bottom of going up spacing U type slider 39, and the bottom of going up articulated seat 41 is articulated with the top of cross alignment jig 13.

In this embodiment, the bearing frame assembly includes a connection support column 2, a rectangular support top 1, a conical upper fixing frame 9, a conical lower fixing frame 10 and an L-shaped support top 42, the conical lower fixing frame 10 is installed at the top of the upper support plate 3, the connection support column 2 is integrally formed at the top of the conical lower fixing frame 10, the conical upper fixing frame 9 is integrally formed at the top of the connection support column 2, and the rectangular support top 1 or the L-shaped support top 42 is integrally formed at the top of the conical upper fixing frame 9.

In this embodiment, support body position adjustment supporting component includes outer spacing section of thick bamboo 38, the second turns to motor 35 and second pivot 36, and outer spacing section of thick bamboo 38 is installed in the four corners department of base 5 bottom, and the bottom department that just is located base 5 in the outer spacing section of thick bamboo 38 installs the second and turns to motor 35, and second pivot 36 is installed to the output that motor 35 was turned to the second, and the electronic lift subassembly is installed to the bottom of second pivot 36, and the inner wall of outer spacing section of thick bamboo 38 is equipped with the side spacing ring.

In this embodiment, the electric lift assembly includes the spacing annular groove 37 of second, electric output pole 53 and electric telescopic handle 7, and the top in the electric telescopic handle 7 outside is encircleed and has been seted up the spacing annular groove 37 of second, and the spacing annular groove 37 of second mutually supports with the side spacing ring, and electric output pole 53 is installed to electric telescopic handle 7's output, and side support arm 6 is installed to electric output pole 53's outside below.

In this embodiment, wheel body position adjusting assembly includes that the ring seat 26 is gone up to the T type, first spacing annular groove 27, first pivot 33 and first steering motor 28, and the ring seat 26 is gone up to the T type is installed to the bottom of supporting leg 8, and first spacing annular groove 27 has been seted up at the middle part in the ring seat 26 outside on the T type, and first steering motor 28 is installed in the interior top department of ring seat 26 on the T type, and first pivot 33 is installed to the output of first steering motor 28, and the bottom of first pivot 33 is fixed with electric drive wheel body assembly.

In this embodiment, the electric driving wheel assembly includes a T-shaped lower ring seat 29, a limiting ring 34, a moving supporting wheel 30, a side hinge plate 31 and a moving motor 32, the limiting ring 34 is installed in the middle of the inner side of the T-shaped lower ring seat 29, the limiting ring 34 is sleeved on the inner side of the first limiting annular groove 27, the side hinge plate 31 is installed at the bottom of the T-shaped lower ring seat 29, the moving supporting wheel 30 is hinged on the inner side of the side hinge plate 31, the moving motor 32 is installed on one side of the side hinge plate 31, and the moving supporting wheel 30 is installed through the side hinge plate 31 at the output end of the moving motor 32.

In the present embodiment, the multi-direction level 12 includes an upper cover 43, a middle clamping plate 45, a hollow circular seat 44, a conductive tube 46, a limiting spring 47, conductive balls 49, an arc-shaped conductive seat 51 and conductive wires 50, wherein a middle conductive bin 48 is installed at the middle portion of the inner bottom of the hollow circular seat 44, the arc-shaped conductive seat 51 is installed on the inner wall of the middle conductive bin 48, the middle clamping plate 45 is installed on the outer side of the middle conductive bin 48, the conductive tubes 46 are equally spaced on the outer side of the middle clamping plate 45, the limiting spring 47 is installed at the inner end portion of the conductive tube 46, the arc-shaped conductive block 16 is installed at the other end of the limiting spring 47, the conductive balls 49 are installed inside the conductive tube 46, and the conductive wires 50 are connected between the arc-shaped conductive seat 51 and the conductive balls 49.

The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.

Claims

1. The utility model provides a bearing frame structure suitable for platform is encorbelmented to disconnect-type sea pond which characterized in that: including base (5), spacing slide rail set spare under the both sides at base (5) top are installed, spacing slide rail set spare's top is articulated to have cross alignment jig (13) down, spacing slide rail set spare's top mid-mounting has pneumatic cylinder adjusting part down, pneumatic cylinder adjusting part with spacing slide rail set spare is mutually supported and is adjusted cross alignment jig (13) down, the top mid-mounting of base (5) has multidirectional spirit level (12), base (5) top is close to multidirectional spirit level (12) department installs gas receiver (14), the air vent (22) have been seted up to the lateral wall equidistant of gas receiver (14), the inside of air vent (22) is crisscross respectively to be filled in first check valve subassembly and second check valve subassembly, and the ventilative opposite direction of first check valve subassembly and second check valve subassembly, the top of gas receiver (14) is installed and is run through to the air compression subassembly of gas receiver (14) inside, the top of cross alignment jig (13) articulates there is last spacing slide rail set spare, go up spacing slide rail set spare's top and install backup pad (3), go up the top of backup pad (3) and install bearing frame subassembly, it is equipped with waterproof elastic layer (4) to go up to cover between the outside of backup pad (3) and base (5), support body position adjustment supporting component is installed in the bottom four corners department of base (5), electric lift subassembly is installed to support body position adjustment supporting component's bottom, wheel body position adjustment subassembly is installed through collateral branch brace arm (6) to electric lift subassembly's output, the outside cover of wheel body position adjustment subassembly is equipped with electric drive wheel body subassembly.

2. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 1, wherein: lower limit slide rail set spare includes slide rail (17), U type slider (19) and side mounting plate (11) down, slide rail (17) are installed down the both sides at base (5) top, the outside cover of slide rail (17) is equipped with can slide rail (17) go up gliding U type slider (19) down, side mounting plate (11) are installed at the top of U type slider (19), the top mid-mounting of slide rail (17) has pneumatic cylinder adjusting part down, just pneumatic cylinder adjusting part's output with the inner wall of side mounting plate (11) is fixed.

3. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 2, wherein: pneumatic cylinder adjusting part includes pneumatic cylinder support frame (20) and double-end pneumatic cylinder (18), pneumatic cylinder support frame (20) are installed the top middle part department of slide rail (17) down, just double-end pneumatic cylinder (18) are installed at the top of pneumatic cylinder support frame (20), the output of double-end pneumatic cylinder (18) with the inner wall of side-mounting board (11) is fixed.

4. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 3, wherein: the first check valve assembly comprises a first check valve (21) and a first limiting spring (23), the first limiting spring (23) is installed on the inner wall of one part of the vent hole (22), the other end of the first limiting spring (23) is fixed to one side of the first check valve (21), and the end of the first check valve (21) is plugged into the part of the vent hole (22).

5. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 4, wherein: the second one-way valve assembly comprises a second one-way valve (24) and a second limiting spring (25), the second limiting spring (25) is installed on the inner wall of one part of the vent holes (22), the second one-way valve (24) is installed at one end of the second limiting spring (25), the part of the second one-way valve (24) is plugged into the part of the vent holes (22), and the first one-way valve (21) and the second one-way valve (24) are matched with each other to form an in-out vent assembly structure.

6. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 5, wherein: the air compression subassembly includes side electric telescopic handle (15), compression plate (52) and rubber ring, the top mid-mounting of side electric telescopic handle (15) has the top middle part of gas receiver (14), the output of side electric telescopic handle (15) runs through gas receiver (14) are installed and are can the compression plate (52) of gas receiver (14) internal motion, the outside cover of compression plate (52) is equipped with the rubber ring.

7. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 6, wherein: go up spacing slide rail set spare and include spacing U type slider (39), go up articulated seat (41) and go up spacing slide rail (40), it installs to go up spacing slide rail (40) go up the both sides department of backup pad (3) bottom, just the outside cover of going up spacing slide rail (40) is equipped with spacing U type slider (39), go up articulated seat (41) are installed to the bottom of spacing U type slider (39), the bottom of going up articulated seat (41) with the top of cross alignment jig (13) is articulated.

8. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 7, wherein: bearing frame subassembly includes joint support post (2), rectangle supporting top (1), awl type upper fixing frame (9), awl type lower fixing frame (10) and L type supporting top (42), install in awl type lower fixing frame (10) go up the top department of backup pad (3), the top integrated into one piece of awl type lower fixing frame (10) has joint support post (2), the top integrated into one piece of joint support post (2) has awl type upper fixing frame (9), the top integrated into one piece of awl type upper fixing frame (9) has rectangle supporting top (1) or L type supporting top (42).

9. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 8, wherein: support body position adjustment supporting component turns to motor (35) and second pivot (36) including outer spacing section of thick bamboo (38), second, install outer spacing section of thick bamboo (38) the four corners department of base (5) bottom, just be located in outer spacing section of thick bamboo (38) the bottom department of base (5) installs the second and turns to motor (35), second turns to the output of motor (35) and installs second pivot (36), the electric lift subassembly is installed to the bottom of second pivot (36), the inner wall of outer spacing section of thick bamboo (38) is equipped with the side limit ring.

10. The load-bearing frame structure suitable for the separate type sea pond cantilever platform according to claim 9, wherein: electric lift assembly includes spacing annular groove of second (37), electric output pole (53) and electric telescopic handle (7), the top in electric telescopic handle (7) outside is encircleed and has been seted up spacing annular groove of second (37), just spacing annular groove of second (37) with the side limit ring is mutually supported, electric output pole (53) are installed to the output of electric telescopic handle (7), collateral branch brace arm (6) are installed to the outside below of electric output pole (53).