CN216140035U - Rotatable bearing structure, horizontal building machine of climbing - Google Patents

Abstract

The utility model discloses a rotatable supporting structure and a horizontal stair climbing machine, which comprises an object stage, wherein a front crawler assembly and a rear crawler assembly are respectively hinged to two sides of the object stage through a front rotating rod and a rear rotating rod; the front crawler assembly and/or the rear crawler assembly are/is hinged with the objective table through a telescopic mechanism; and the locking mechanism is used for locking the telescopic mechanism. The stair climbing machine can bear larger load capacity, the objective table is always parallel to the ground in the stair climbing process, the center of gravity of the stair climbing machine is pressed at the upper end of the objective table, and the stair climbing machine is higher in controllability, safety and working efficiency.

Description

Rotatable bearing structure, horizontal building machine of climbing

Technical Field

The utility model relates to the technical field of stair climbers, in particular to a horizontal stair climber with a rotatable supporting structure.

Background

Along with the development of buildings, more and more high-rise buildings are gradually created, some large-scale articles or goods cannot be transported through the elevator, and meanwhile, some old districts do not have the elevator and can only be transported through the stairs by a carrying stair climbing machine.

The present carrying stair climbing machine in the market mainly has three structures, namely a shifting wheel shaking back type, a three-star wheel type and a rear-hanging crawler chassis type. The stair climbers with the three structures have the common defect that the gravity center of the whole stair climber is pressed at the lower end of the chassis in the process of going upstairs and downstairs, an operator needs to press the operation handrail with force, otherwise, the whole vehicle body inclines forwards, the risk of overturning is caused, too large load capacity cannot be generated, and the controllability, the safety and the working efficiency are also very low; and current stair machine of climbing is climbing the building action in, when climbing stair end, under the effect of gravity, the chassis intermediate position makes the chassis take place to rotate with the step of stair the top layer after, and the chassis anterior segment directly contacts with ground, does not have the buffering, causes the damage to the goods very easily, and when the chassis anterior segment rotated the too fast influence chassis life, factor of safety is lower.

When the stair climbing machine climbs the building, the whole stability of the stair climbing machine is considered, the inclination angle of the object carrying surface needs to be adjusted, so that the gravity center of the object carrying surface moves forwards, the prior adjusting device is adjusted, particularly an electric driving device, is inconvenient to operate, has the problems of high cost and complex structure, faces various complex conditions, cannot adjust the angle of the object carrying surface timely and reasonably, and is not beneficial to normal use during climbing the building.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, a rotatable supporting structure and a horizontal stair climbing machine are provided.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides a rotatable supporting structure, which comprises an object stage and also comprises:

the object stage is rotatably connected with the travelling mechanism, the travelling mechanism is hinged with a telescopic outer rod, and a telescopic inner rod is slidably connected in the telescopic outer rod;

the brake plate is also provided with a clamping hole for the telescopic inner rod to pass through;

the piece resets, it is right to reset the piece the brake block provides elasticity or pulling force, and under the initial condition, when the brake block was in the primary importance, the cross section of clamp hole and the interior pole cross section of flexible formed the contained angle to prevent pole and the outer pole relative slip of flexible in the flexible, when the brake block was in the second place, the cross section of clamp hole and the interior pole cross section of flexible is parallel or tends to the parallel, thereby but makes the interior pole of flexible and the outer pole relative slip of flexible.

Preferably, the telescopic outer rod is provided with at least one clamping groove, and the brake plate is arranged in the clamping groove.

Preferably, the reset piece is a torsion spring, the brake plate is connected with the telescopic outer rod through the torsion spring, and in an initial state, the clamping hole plays a clamping role on the telescopic inner rod.

Preferably, the two brake plates are symmetrically arranged, and when the two brake plates move towards or away from each other, the two brake plates are simultaneously located at the first position and/or the second position.

Preferably, the brake plate is further connected with a plurality of brake pads which are attached to each other, and each brake pad is provided with the clamping hole.

Preferably, the objective table both sides fixedly connected with fixing base, the fixing base rotates and is connected with the frame, a first spacing groove has been seted up at least to the fixing base, the second spacing groove has been seted up to the frame, first spacing groove with the fixed pin is worn to be equipped with in the second spacing inslot.

Preferably, the frame is connected with a hand brake, the hand brake is connected with a brake cable, the other end of the brake cable is connected with the brake plate, and the brake cable is used for driving the brake plate to rotate around the telescopic outer rod.

Preferably, a guide seat is connected between the vehicle frames, the guide seat is connected with a moving rod arranged in the horizontal direction in a sliding manner, and the guide seat is further connected with a rotating rod in a rotating manner; the one end of dwang articulates there is the trace, the other end of trace with the carriage release lever is articulated, the handlebar hand still seted up a plurality of with carriage release lever matched with locating hole.

Preferably, the movable rod is provided with two at least, and two at least movable rods move in opposite directions, one of them movable rod pass through the trace with the upper end of dwang or be close to the upper end articulated, another movable rod pass through the trace with the lower extreme of dwang or be close to the lower extreme articulated.

The utility model provides a horizontal stair climbing machine, includes foretell rotatable bearing structure, running gear includes preceding track subassembly and back track subassembly, the objective table both sides respectively through preceding dwang and back dwang with preceding track subassembly is articulated with back track subassembly, form first contained angle between back track section and the preceding track section, still include:

a rotation shaft disposed at or near a rear end of the front track assembly and at the same time disposed at or near a front end of the rear track assembly;

the front track assembly or the rear track assembly is hinged with the telescopic outer rod.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model adopts the front crawler belt component and the rear crawler belt component which are hinged with the object stage, the front crawler belt component and the rear crawler belt component can rotate relatively, so that when climbing stairs, the locking mechanism does not limit the movement of the telescopic mechanism, the front crawler belt component drives the front crawler belt component and the rear crawler belt component to form an included angle after contacting with a step, the telescopic mechanism freely stretches and retracts, so that the object stage is always parallel to the ground, the gravity center of the device is pressed at the front section of the object stage, the forward turning of the vehicle is not caused, the safety coefficient is high, compared with the conventional mode that the object stage is driven to rotate by the driving mechanism, the mode needs manpower to forcibly press the vehicle frame, when the object stage rotates, the gravity center is easy to be unstable, and the device is inclined, and the self-adaptive rotation mode of the crawler belt adopted by the utility model does not need to manually carry out excessive auxiliary work, simple operation and convenient use.

2. The utility model adopts the rotatable crawler belt, after the climbing action of the steps is finished, the middle part of the chassis of the conventional carrying vehicle is contacted with the uppermost step, under the action of gravity, the chassis of the loading vehicle can rotate instantaneously, so that the front section of the loading vehicle can be quickly contacted with the ground, in the process, the frame needs to be pressed down manually, if the force is too small, the loading vehicle is easy to turn over, and the chassis is easy to be damaged, in the utility model, after the steps are climbed, the rear crawler belt section is firstly contacted with the uppermost step, under the action of gravity, the rear crawler belt section rotates, the front crawler belt assembly and the rear crawler belt assembly form an included angle, a certain buffer effect is provided for the stair climbing machine, the stair climbing action is smoother, and the safety factor is higher, do not need artifical too much operation, and can make objective table and ground be in the horizontality all the time, prolong the life of chassis.

3. The utility model is also provided with a locking mechanism, when the clamping hole is vertical relative to the telescopic inner rod, the telescopic inner rod can slide to pass through the clamping hole, when the clamping hole is inclined relative to the telescopic inner rod, the clamping hole and the telescopic inner rod generate friction, so that the clamping work of the telescopic inner rod is realized, under the action of the volute spiral spring and in a conventional state, the brake plate performs the clamping work of the telescopic inner rod, when the stairs climb starts and finishes, the hand brake drives the brake plate to move through the brake wire, so that the free sliding of the telescopic inner rod can be realized, the operation is more convenient, the operation is economic and practical, the clamping effect on the telescopic mechanism is better, and the object carrying table is prevented from rotating in the processes of walking on the flat ground and climbing the stairs.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is an overall perspective view one of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the utility model as a whole;

FIG. 4 is an overall side view of the present invention;

FIG. 5 is an overall front view of the present invention;

FIG. 6 is a schematic view of a portion of the carrier of FIG. 1;

FIG. 7 is a schematic structural view of a portion of the brake plate of FIG. 6;

FIG. 8 is a front view of a portion of the handlebar arrangement of FIG. 1;

FIG. 9 is a perspective view of a portion of the handlebar arrangement of FIG. 1;

FIG. 10 is an initial climbing state diagram of the horizontal stair climbing machine according to the present invention;

FIG. 11 is a state diagram of the horizontal stair climbing machine of the present invention during climbing stairs;

fig. 12 is a diagram of the state of the horizontal stair climbing machine climbing to the top in the utility model.

Description of reference numerals:

1, a frame; 11 a fixing pin; 12, fixing a base;

2, a handlebar; 21 a console; 22 a support plate; 23, a guide seat; 24 moving the rod; 25 a trace; 26 rotating the rod; 27 rotating the handle; 28 positioning holes;

3, an object stage; 31 a telescoping mechanism; 311 an inner telescopic rod; 312 telescopic outer rods; 32 springs; 33 fisheye bearings;

a rear track assembly; 4, a rear crawler belt; 41, rotating the rear rod; 42 rear track wheels; 43 driving a motor; 44 rear track frame;

a front track assembly; 5, a front crawler belt; a front turning lever 51; 52 a front track section; 53 rear track section; 54 front track wheels; 55, a pinch roller; 56 a front track frame; 57 fixing the rod;

6, rotating the shaft;

7 a tensioning device;

8, a hand brake; 81 clamping grooves; 82 brake cables; 83 a brake plate; 84 brake pads.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

Example one

As shown in fig. 1 to 12, the embodiment provides a height-adjustable vehicle frame, which includes a vehicle frame 1 and an object stage 3, wherein a guide seat 23 is connected between the vehicle frames 1, the vehicle frame 1 is slidably connected with a vehicle handle 2, the guide seat 23 is slidably connected with at least one moving rod 24, and the guide seat 23 is further rotatably connected with a rotating rod 26; one end of the rotating rod 26 is hinged with a linkage rod 25, the other end of the linkage rod 25 is hinged with the moving rod 24, and the handlebar 2 is further provided with a plurality of positioning holes 28 matched with the moving rod 24.

The sliding tray has been seted up along length direction to frame 1, and handlebar hand 2 slides and sets up in the sliding tray, and locating hole 28 is provided with a plurality of and all with carriage release lever 24 looks adaptation along handlebar hand 2 length direction to make things convenient for carriage release lever 24 to remove in locating hole 28, thereby realize the relatively fixed of handlebar hand 2 position.

The moving bar 24 structure may be provided with several groups each including two moving bars 24 in consideration of the fixing effect to the handlebar 2. In the structure of the set of moving bars 24, two moving bars 24 move towards each other, wherein one moving bar 24 is hinged to the upper end or near the upper end of the rotating bar 26 through a linkage 25, and the other moving bar 24 is hinged to the lower end or near the lower end of the rotating bar 26 through a linkage 25.

Two movable rods 24 set up on same horizontal plane, and two trace 25 and the articulated point symmetry setting of dwang 26 are connected with rotatory handle 27 on the both sides of dwang 26 with guide holder 23 pin joint, and rotatory handle 27 outside cover is equipped with rubber, can drive the dwang 26 when doing benefit to handheld operation and rotate.

Therefore, when the rotating rod 26 rotates, the two moving rods 24 are driven to move by the same distance, so that the lengths of the two moving rods 24 extending into the positioning holes 28 are the same, and the stability of the whole vehicle handle 2 is facilitated.

A supporting plate 22 arranged in the horizontal direction is fixedly connected between the frames 1, a guide seat 23 is fixedly connected with the supporting plate 22, and a moving rod 24 is arranged in the horizontal direction and penetrates through the guide seat 23.

In this example, three guide seats 23 are provided, two of the guide seats 23 are provided on both sides of the support plate 22 and slidably coupled to the moving rod 24, respectively, the guide seat 23 located at the middle portion of the support plate 22 is rotatably coupled to the rotating rod 26, and the guide seats 23 are provided at positions on the left side of the handlebar 2, thereby facilitating the operation of the user.

3 both sides fixedly connected with fixing base 12 of objective table, frame 1 rotates with fixing base 12 to be connected, and a first spacing groove has been seted up at least to fixing base 12, and the second spacing groove has been seted up to frame 1, and fixed pin 12 is worn to be equipped with in first spacing groove and the second spacing inslot.

In this example, the fixing base 12 is provided with two first limiting grooves, wherein one of the first limiting grooves is disposed at the uppermost end of the fixing base 12, so that when the vehicle frame 1 is in the vertical direction, the fixing pin 12 is inserted into the first limiting groove and the second limiting groove, thereby achieving the relative fixation of the position of the vehicle frame 1, and enabling the vehicle frame 1 to keep the vertical direction.

The length of second spacing groove is long enough, and fixed pin 12 can freely slide in the second spacing inslot, and second spacing inslot mid portion set up with the spring leaf, and the spring leaf makes the second spacing inslot fall into two parts, and the size of two parts all with fixed pin 12's diameter looks adaptation, and the spring leaf is used for realizing the preliminary fixed of fixed pin 12. When the fixing pin 12 is used, the fixing pin 12 can slide in the second limiting groove manually, and when the fixing pin slides, the spring piece deforms, so that the fixing pin 12 can conveniently move from one part of the second limiting groove to the other part of the second limiting groove.

Example two

As shown in fig. 1 to 12, the present embodiment provides a rotatable support structure, which includes a height-adjustable frame as described in the first embodiment, wherein a front track assembly and a rear track assembly are respectively hinged on two sides of an object stage 3 through a front rotating rod 51 and a rear rotating rod 41, the front track assembly includes a front track section 52 and a rear track section 53, a first included angle is formed between the rear track section 53 and the front track section 52, and the first included angle is an obtuse angle.

Further comprising: a rotating shaft 6, the rotating shaft 6 being disposed at or near a rear end of the front track assembly, and at the same time the rotating shaft 6 being disposed at or near a front end of the rear track assembly;

the telescopic mechanism 31, the front crawler assembly and/or the rear crawler assembly are hinged with the objective table 3 through the telescopic mechanism;

and the locking mechanism is used for locking the telescopic mechanism, and is in a locking state in an initial state.

The rear track assembly includes a rear track frame 44, at least two rear wheels 42 and a rear track 4 annularly wrapped around the rear wheels 42, at least one of the rear wheels 42 is a drive wheel, the rear wheels 42 are each rotatably mounted to the rear track frame 44, and the at least two rear wheels 42 cooperate with each other to form a plane on a bottom surface on which the rear track 4 travels.

Wherein, the rear track support 44 is further rotatably connected with a plurality of supporting wheels, the rear track 4 annularly surrounds the supporting wheels, and the supporting wheels support the rear track 4, so that the walking bottom surface of the rear track 4 forms a plane, which is beneficial to climbing.

The rear crawler belts 4 are symmetrically arranged on two sides of the objective table 3, and the double-crawler belt structure is beneficial to adapting to various complex terrains and is beneficial to the overall stability.

The front track segment 52 and the rear track segment 53 are one of the following: (1) the front crawler belt assembly is formed by winding the same crawler belt into an integral crawler belt structure, and (2) the front crawler belt assembly is formed by winding two crawler belts into two independent crawler belt structures.

When taking form (1), the front track assembly comprises a front track frame 56, at least three front wheels 54, and a front track 5 annularly wrapped around the front wheels 54, the front wheels 54 each being rotatably mounted to the front track frame 56; at least one of the front track wheels 54 is a drive wheel, and three of the front track wheels 54 divide the front track assembly into a front track segment 52 and a rear track segment 53.

The front track frame 56 is bent into an L-shape, and the front track wheels 54 are disposed at two ends of the front track frame, and the front track section 52 and the rear track section 53 form an L-shaped structure, and a first included angle therebetween is always constant. At the L-shaped corner, a rear crawler wheel 54 is provided on the inner side of the front crawler 5, a pinch roller 55 is provided on the outer side of the front crawler 5, and the front crawler 5 is in sliding contact with the lower end of the pinch roller 55, so that the front crawler 5 is shaped as the structure shown in fig. 1.

The bottom surface of the rear crawler belt section 53 and the bottom surface of the rear crawler belt 4 form a plane, normal walking of the device is facilitated, the front crawler belt section 52 inclines obliquely upwards, the inclined angle is matched with the gradient of a conventional step, contact with the step is facilitated, and therefore the device is driven to wholly climb the step.

The two front caterpillars 5 are symmetrically disposed on both sides of the two rear caterpillars 4.

When the step climbing action is carried out, under the action of the gravity of the device, the front crawler belt assembly and/or the rear crawler belt assembly rotate around the rotating shaft 6, when the rotation is in a first state, the front crawler belt section 52 inclines downwards, the rear end of the rear crawler belt section 53 and the front section of the rear crawler belt 4 incline upwards, an included angle is formed between the rear crawler belt section 53 and the front section of the rear crawler belt 4, and when the rotation is in a second state, the rear crawler belt section 53 and the walking plane of the rear crawler belt 4 are on the same plane.

A fixed rod 57 is fixedly connected between the front crawler belt sections 52, front rotating rods 51 are hinged to two sides of the fixed rod 57, and the other ends of the front rotating rods 51 are hinged to the object stage 3.

A fixing rod 57 is fixedly connected between the two rear crawler belts 4, thereby achieving relative fixation of the position between the two rear crawler belts 4. The two sides of the rear track support 44 are hinged with a hinged rear rotating rod 41, and the other end of the rear rotating rod 41 is hinged with the objective table 3.

The hinge axis of the front rotating rod 51 and the object stage 3 is the same as the hinge axis of the rear rotating rod 41 and the object stage 3.

Wherein preceding dwang 51 and back dwang 41 are same pin joint with objective table 3 to convenient under telescopic machanism 31's effect, when current track subassembly and back track subassembly revoluted axis of rotation 6 and taken place relative rotation, preceding dwang 51 and back dwang 41 took place to rotate simultaneously, and then made objective table 3 remain throughout with ground parallel state.

The front track assembly and/or the rear track assembly are connected to the stage by springs 32. In this example, a fixing rod 57 is fixedly connected between the rear track sections 53, the fixing rod 57 is connected with the spring 32 through a fisheye bearing 33, and the upper end of the spring 32 is connected with the bottom end of the stage 3 through the fisheye bearing 33.

The spring 32 is rotatable in either direction by the fisheye bearing 33, thereby preventing the spring 32 from interfering with normal operation when the rear track section 53 is rotated. The spring 32, on the one hand, functions as a shock absorber and, on the other hand, functions as a stop for the rotation of the rear track section 53, preventing the rear track section 53 from rotating through an excessive angle.

The rear end of the front track assembly has a drive wheel disposed on the rear side of the rear track section 53. The front end of the rear track assembly has a drive wheel disposed on the front side of the rear track 4. The center shaft of the drive wheel of the front track assembly and the center shaft of the drive shaft of the rear track assembly are the same shaft, the shaft is a rotating shaft 6, and the front track assembly and the rear track assembly are both rotatably connected with the rotating shaft 6.

The telescopic mechanism 31 comprises a telescopic outer rod 312, the telescopic outer rod 312 is hinged with the rear crawler assembly, a telescopic inner rod 311 is slidably connected in the telescopic outer rod 312, and the telescopic inner rod 311 is hinged with the objective table 3.

The fixed plate is fixedly connected between the end of the rear crawler 4 close to the rear crawler section 53, the fixed plate plays a supporting role for the telescopic mechanism, the hinged seat is fixedly connected to the fixed plate, and the telescopic outer rod 312 is hinged to the hinged seat.

The brake plate 83 is further included, and the brake plate 83 is further provided with a clamping hole for the telescopic inner rod 311 to pass through;

the reset piece provides elasticity or pulling force for the brake block 83, and in an initial state, when the brake block 83 is in a first position, the cross section of the clamping hole and the cross section of the telescopic inner rod 311 form an included angle to prevent the telescopic inner rod 311 and the telescopic outer rod 312 from sliding relatively, and when the brake block 83 is in a second position, the cross section of the clamping hole and the cross section of the telescopic inner rod 311 are parallel or tend to be parallel, so that the telescopic inner rod 311 and the telescopic outer rod 312 can slide relatively.

The reset piece is a torsion spring, the brake plate 83 is connected with the telescopic outer rod 311 through the torsion spring, and in an initial state, the clamping hole plays a role in clamping the telescopic inner rod 311.

The locking mechanism comprises a brake cable 82, a clamping groove 81 is formed in the telescopic outer rod 312, and a brake plate 83 is arranged in the clamping groove 81. The brake cable 82 is connected with the brake plate 83, the brake cable 82 is used for driving the brake plate 83 to rotate, and the brake plate 83 is connected with the telescopic outer rod 312 through a spiral spring.

The brake plate 83 is further connected with a plurality of brake pads 84 which are mutually attached together, the brake plate 83 and each brake pad 84 are respectively provided with a clamping hole 63, the telescopic inner rod 311 is arranged in the clamping holes, and in an initial state, the clamping holes play a clamping role on the telescopic inner rod 311.

The two brake plates 83 are symmetrically arranged, and when the two brake plates 83 move towards or away from each other, the two brake plates 83 are at the first position and/or the second position at the same time.

When the plurality of brake pads 84 are deflected to one side, the plurality of brake pads 84 simultaneously apply pressure to the telescopic inner rod 311, so that the frictional area can be increased to facilitate more firm clamping.

When the clamping hole is perpendicular to the telescopic inner rod 311, the telescopic inner rod 311 can freely slide through the clamping hole, and when the clamping hole is inclined relative to the telescopic inner rod 311, the clamping hole and the telescopic inner rod 311 rub against each other, so that the telescopic inner rod 311 is clamped.

Under the effect of scroll spring, under the conventional state, brake block 83 and brake block 84 are the centre gripping state to pole 311 in stretching out and drawing back, when climbing the building and begin and climb the building and end, brake line 82 drives the activity of brake block 83, and brake block 83 drives the activity of brake block 84, can realize the free slip of pole 311 in stretching out and drawing back, and it is comparatively convenient to operate, economical and practical, and better to telescopic machanism's clamping effect, walk on the level land and climb the building in-process, for clamping state, prevent that objective table 3 from taking place to rotate.

EXAMPLE III

As shown in fig. 1 to 12, the present embodiment provides a horizontal stair climbing machine, which includes a rotatable support structure as described above, and the front track wheel and the rear track wheel are respectively connected to an independent driving mechanism or the same driving mechanism to drive the front track wheel and the rear track wheel to rotate.

When independent driving mechanisms are adopted, the driving mechanisms respectively drive the front crawler belt 5 and the rear crawler belt 4 to rotate.

When the same driving mechanism is adopted, the driving mechanism is a driving motor 43, and two driving motors 43 are arranged and fixedly connected with the two rear crawler supports 44 respectively.

The rotating shaft 6 is fixedly sleeved with a rear crawler wheel 42 and a front crawler wheel 54, the rotating shaft 6 penetrates through the rear crawler support 44 and the front crawler support 56, and both the rear crawler support 44 and the front crawler support 56 are rotatably connected with the rotating shaft 6. And one end of the rotating shaft 6 close to the rear crawler wheel 42 is fixedly sleeved with a first gear, and the driving motor 43 is connected with a second gear, wherein the first gear is meshed with the second gear.

The driving motor 43 drives the rotating shaft 6 to rotate through the gear, and then drives the rear track wheel 42 and the front track wheel 54 to rotate, wherein the diameter of the rear track wheel 42 is the same as that of the front track wheel 54, so as to realize the synchronous movement of the rear track 4 and the front track 5.

And when the apparatus performs the stair climbing action, the rear track frame 56 and the front track frame 44 are rotated about the rotating shaft 6 without affecting the normal rotation of the rotating shaft 6, so as not to affect the normal walking of the apparatus.

The rear track 4 and the front track 5 are also connected with a tensioner 7.

The tensioning device 7 is: the bracket comprises a first part and a second part, and the first part is connected with the second part in a sliding way; the concrete structural form is as follows: the first part is provided with a first sliding chute; the second part is provided with a second sliding chute which is arranged corresponding to the first sliding chute; the number of the first sliding grooves and the second sliding grooves can be provided with two grooves which are respectively arranged up and down. When the butt joint fixing device is used, the first sliding groove is aligned with the second sliding groove, the fastening bolt is arranged in the first sliding groove and the second sliding groove in a penetrating mode, and the butt joint fixing of the first portion and the second portion is achieved. A blocking table is arranged on the outer wall of the first part, a fixing block is welded on the second part, and the fixing block can be a nut; the adjusting bolt is in threaded connection with the nut; the end part of the adjusting bolt is supported on the baffle table. Through setting up adjusting bolt, utilize adjusting bolt shore on keeping off the platform, when adjusting the track elasticity, unload power earlier with fastening bolt, rotate adjusting bolt, utilize adjusting bolt's shore power to realize the slip between second part and the first part, treat to adjust to suitable length after, screw up fastening bolt again can, it is more convenient to operate.

The frame 1 is connected with a handlebar 2 in a sliding mode, the handlebar 2 and/or the frame 1 are connected with a hand brake 8, and the hand brake 8 is connected with a brake cable 82.

In this example, the handbrake 8 is fixed to the handlebar 2 and is disposed on the side remote from the rotating handle 27 for convenient operation. Wherein, a control platform 21 is fixedly connected on the handlebar 2, and the control platform 21 is used for remotely controlling the work of the driving motor 43 so as to control the normal advance of the device.

The utility model also provides a self-adaptive climbing method, and the horizontal stair climbing machine comprises the following steps:

in an initial state, the driving mechanism drives the front crawler wheel 54 and the rear crawler wheel 42 to rotate, and the horizontal stair climbing machine walks on the ground;

when the user climbs the step, the locking mechanism is controlled, the locking mechanism does not limit free extension and retraction of the extension mechanism 31, the front crawler belt section 52 inclines downwards to contact the step, the driving mechanism drives the front crawler belt 5 and the rear crawler belt 4 to rotate to perform climbing action, meanwhile, the front crawler belt assembly and the rear crawler belt assembly rotate around the rotating shaft 6, the rear end of the rear crawler belt section 53 and the front end of the rear crawler belt assembly incline upwards, so that an included angle is formed between the rear crawler belt section 53 and the rear crawler belt assembly, at the moment, the extension mechanism 31 extends and retracts freely, and the objective table 3 is kept in a parallel state with the ground all the time;

in the step of going up: after the climbing action is finished, the bottom surface of the rear crawler belt section 53 and the walking bottom surface of the rear crawler belt 4 form a plane to perform the step climbing action, at the moment, the locking mechanism is loosened, the telescopic mechanism 31 is changed into a locking state by the locking mechanism, so that the objective table 3 is always kept in a parallel state with the ground to perform the step climbing action;

after the step is carried out: by controlling the locking mechanism, the locking mechanism no longer limits the free extension and contraction of the telescopic mechanism 31, the rear track section 53 is inclined downwards to contact with the step, the front track assembly and the rear track assembly rotate around the rotating shaft 6, the rear end of the rear track section 53 and the front end of the rear track assembly are inclined upwards, so that the rear track section 53 and the rear track assembly form an included angle, at the moment, the telescopic mechanism 31 is freely extended and contracted, and the objective table 3 is always kept in a parallel state with the ground.

The working method of the locking mechanism comprises the following steps: the hand brake 8 is pressed, the hand brake 8 drives the brake plate 83 to move through the brake cable 82, the brake plate 83 drives the brake pad 84 to move, the cross section of the clamping hole gradually tends to be parallel to the cross section of the telescopic inner rod 311, and the telescopic inner rod 311 can freely slide in the clamping hole; when the hand brake 8 is released, the clamping hole clamps the telescopic inner rod 311 under the action of the volute spiral spring.

Through rotating rotatory handle 27, drive dwang 26 and rotate, dwang 26 passes through trace 25 and drives the removal of 24 horizontal directions of carriage release lever, and at this in-process, dwang 26 drives two removal poles 24 and moves in opposite directions simultaneously, thereby makes removal pole 24 and locating hole 28 separation, thereby realizes the free adjustment of handlebar 2 height, and after the adjustment was accomplished, through rotating rotatory handle 27, make removal pole 24 visit into in locating hole 28, realize the relatively fixed of handlebar 2 position.

When the fixing pin 11 is accommodated, the fixing pin 11 is driven to move upwards through manpower, so that the spring piece in the second limiting groove is deformed, and the fixing pin 11 moves out of the first limiting groove and moves to the upper part of the second limiting groove. But frame 1 free rotation this moment, through rotating frame 1 to the horizontal direction, then remove fixed pin 11, make fixed pin 11 remove first spacing groove and second spacing inslot, make frame 1 become the horizontal direction setting, make horizontal stair climbing machine volume minimizing, be convenient for accomodate and transport.

It should be noted that, in a conventional state, under the action of the scroll spring, the brake plate 83 and the brake pad 84 clamp the telescopic inner rod 311, at this time, the telescopic inner rod 311 cannot slide freely, only at the stage of starting to go up the step, the hand brake 8 is held at this time, the telescopic inner rod 311 can slide freely, under the action of the self gravity of the device, the front track assembly and the rear track assembly do self-adaptive motion, meanwhile, the front rotating rod 51 and the rear rotating rod 41 rotate, and the object stage 3 is always kept in a parallel state with the ground.

And in the step climbing process, the hand brake 8 is loosened at the moment, the telescopic inner rod 311 cannot freely slide, so that the objective table 3 can be always kept in a state parallel to the ground, and the rear crawler belt section 53 and the walking bottom surface of the rear crawler belt 4 form a plane at the moment, so that the climbing action is carried out. In the step-climbing ending operation, the hand brake 8 is gripped, and the telescopic inner rod 311 can slide freely, so that the device can return to the flat ground walking state.

The front track assembly and the rear track assembly can rotate relatively around the rotating shaft 6, so that when climbing stairs, the locking mechanism does not limit the movement of the telescopic mechanism 31, after the front track assembly is in contact with a step, the telescopic mechanism 31 can freely stretch and retract to drive the rear track section 53 and the rear track 4 to form an included angle, so that the objective table 3 is always parallel to the ground, the gravity center of the device is pressed on the front section of the objective table 3, the forward turning of a vehicle cannot be caused, the safety coefficient is high, compared with the conventional mode that the objective table 3 is driven to rotate by the driving mechanism, the mode needs manpower to forcibly press the vehicle frame, when the objective table 3 rotates, the gravity center is easy to be unstable, and the device is inclined.

After the step climbing action is completed, the middle part of the chassis of the conventional carrying vehicle is contacted with the uppermost step, under the action of gravity, the chassis of the carrying vehicle can be caused to rotate instantly, the front section of the carrying vehicle is rapidly contacted with the ground, in the process, the frame needs to be pressed down manually, if the force is too small, the carrying vehicle is easy to overturn and the chassis is easy to damage.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A rotatable support structure comprising an object table, further comprising:

the object stage is rotatably connected with the travelling mechanism, the travelling mechanism is hinged with a telescopic outer rod, and a telescopic inner rod is slidably connected in the telescopic outer rod;

the brake plate is also provided with a clamping hole for the telescopic inner rod to pass through;

the piece resets, it is right to reset the piece the brake block provides elasticity or pulling force, and under the initial condition, when the brake block was in the primary importance, the cross section of clamp hole and the interior pole cross section of flexible formed the contained angle to prevent pole and the outer pole relative slip of flexible in the flexible, when the brake block was in the second place, the cross section of clamp hole and the interior pole cross section of flexible is parallel or tends to the parallel, thereby but makes the interior pole of flexible and the outer pole relative slip of flexible.

2. A rotatable support structure according to claim 1, wherein the outer telescopic rod defines at least one clamping groove, and the brake plate is disposed in the clamping groove.

3. A rotatable support structure as claimed in claim 1, wherein the return member is a torsion spring, the brake plate is connected to the outer telescopic rod via the torsion spring, and the clamping hole clamps the inner telescopic rod in an initial state.

4. A rotatable support structure according to claim 1, wherein there are two brake pads arranged symmetrically, and when the two brake pads are moved towards or away from each other, the two brake pads are in the first position and/or the second position simultaneously.

5. A rotatable support structure as claimed in claim 1, wherein said brake plate further comprises a plurality of brake pads attached to each other, each of said brake pads having said clamping holes.

6. The rotatable supporting structure of claim 1, wherein fixing bases are fixedly connected to two sides of the stage, the fixing bases are rotatably connected to a frame, the fixing bases are formed with at least one first limiting groove, the frame is formed with a second limiting groove, and fixing pins are inserted into the first limiting groove and the second limiting groove.

7. The rotatable supporting structure of claim 6, wherein the frame is connected with a hand brake, the hand brake is connected with a brake cable, the other end of the brake cable is connected with the brake plate, and the brake cable is used for driving the brake plate to rotate around the telescopic outer rod.

8. A rotatable supporting structure according to claim 6, wherein the vehicle frames are slidably connected with vehicle handles, guide seats are connected between the vehicle frames, the guide seats are slidably connected with moving rods arranged in the horizontal direction, and the guide seats are further rotatably connected with rotating rods; the one end of dwang articulates there is the trace, the other end of trace with the carriage release lever is articulated, the handlebar hand still seted up a plurality of with carriage release lever matched with locating hole.

9. A rotatable support structure according to claim 8 wherein there are at least two said movable bars, at least two movable bars moving towards each other, one of the movable bars being hinged to the upper end or near the upper end of the rotatable bar by a linkage, the other movable bar being hinged to the lower end or near the lower end of the rotatable bar by a linkage.

10. A horizontal stair climbing machine, comprising a rotatable support structure according to any one of claims 1 to 9, wherein the traveling mechanism comprises a front track assembly and a rear track assembly, two sides of the object stage are respectively hinged with the front track assembly and the rear track assembly through a front rotating rod and a rear rotating rod, the front track assembly comprises a front track section and a rear track section, and a first included angle is formed between the rear track section and the front track section, and the horizontal stair climbing machine further comprises:

a rotation shaft disposed at or near a rear end of the front track assembly and at the same time disposed at or near a front end of the rear track assembly;

the front track assembly or the rear track assembly is hinged with the telescopic outer rod.

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