CN113184669A - Suspension body supporting device of light elevator - Google Patents

Abstract

The invention discloses a suspension body supporting device of a light weight type elevator, which relates to the field of elevator suspension and comprises an outer fixing frame, wherein a supporting connecting frame is welded at the inner side edge of the outer fixing frame, an inner fixing frame is welded at the inner side edge of the supporting connecting frame, connecting through holes are uniformly formed in the side edge of the inner fixing frame, side inclined rods are symmetrically and obliquely welded at the two side edges of the outer fixing frame, reinforcing inclined rods are welded at the bottom surfaces of the side inclined rods, a sleeving block is vertically welded at one end, far away from the outer fixing frame, of each side inclined rod, a buckling side groove is vertically formed in one side edge, far away from each side inclined rod, a top fixing plate is vertically and upwards welded at the top surface of the outer fixing frame, and supporting inclined rods are obliquely welded at the two side edges of the top fixing plate. The device disclosed by the invention is simple in design structure and convenient to operate, is stably and simultaneously reduced in weight due to the adoption of the monomer package and the adoption of the lightweight structure, and greatly improves the overall stability under the condition of multiple reinforced structures.

Description

Suspension body supporting device of light elevator

Technical Field

The invention relates to the technical field of elevator suspension, in particular to a light-weight suspension body supporting device of an elevator.

Background

The life is continuing, science and technology are developing, and elevators are also advancing. For 150 years, the materials of the elevators are changed from black and white to color, the styles are changed from straight to inclined, and the operation control is more new-handle switch operation, button control, signal control, centralized selection control, man-machine conversation and the like, and a plurality of elevators are controlled in parallel and intelligently in groups; the double-deck car elevator shows the advantages of saving the hoistway space and improving the transportation capacity; the variable speed type escalator of the moving sidewalk greatly saves the time of pedestrians; the sightseeing elevators with different shapes, such as sector, triangle, semi-diamond, semicircle and full circle, can prevent the sight lines of passengers in the sightseeing elevators from being closed.

To present elevator hang, what adopt all is whole parcel structure, make holistic weight heavier, and all adopted the solid material preparation, also brought the danger coefficient increase condition for the elevator operation when letting its weight increase, just adopted spring-supported to operate at buffer structure simultaneously, make the effect of buffering not good, let the elevator move until the speed of stopping in-process can not the uniform velocity decrease progressively, and appear when stopping and frustrate the condition in addition, the personnel of having caused inside have uncomfortable and feel, be unfavorable for present elevator development's needs.

Disclosure of Invention

The invention aims to provide a light-weight suspension body supporting device of an elevator, which solves the problems that the existing elevator suspension proposed in the background technology adopts an integral wrapping structure, so that the integral weight is heavier, the suspension is made of solid materials, the weight of the suspension is increased, the danger coefficient is increased for the operation of the elevator, meanwhile, a spring support is adopted for operation in a buffering structure, the buffering effect is poor, the speed of the elevator in the process of operation until stopping cannot be decreased at an equal speed, and the suspension state occurs during stopping, so that internal personnel feel uncomfortable and the development requirement of the existing elevator is not facilitated.

In order to achieve the purpose, the invention provides the following technical scheme:

a suspension body supporting device of a light-weight elevator comprises an outer fixing frame, wherein a supporting connecting frame is welded on the inner side edge of the outer fixing frame, an inner fixing frame is welded on the inner side edge of the supporting connecting frame, connecting through holes are uniformly formed in the side edge of the inner fixing frame, side inclined rods are symmetrically and obliquely welded on the two side edges of the outer fixing frame, reinforcing inclined rods are welded on the bottom surfaces of the side inclined rods, a sleeving block is vertically welded at one end, away from the outer fixing frame, of each side inclined rod, a fastening side groove is vertically formed in one side edge, away from the side inclined rods, of each sleeving block, a top fixing plate is vertically and upwardly welded on the top surface of the outer fixing frame, supporting inclined rods are obliquely welded on the two side edges of the top fixing plate, a fixing bearing is fixedly clamped on the inner side edge of the top fixing plate, a fixing bearing is horizontally inserted and connected with a side rod on the inner side edge of the fixing bearing, a rolling top wheel is fixedly sleeved on the outer side edge of the main shaft rod, the bottom surface of the outer fixing frame is vertically downwards welded with a bottom outer box body, two side edges of the bottom outer box body are symmetrically and obliquely welded with stabilizing diagonal rods, the bottom end of the bottom outer box body is vertically inserted with an extending vertical rod in an inserting manner, the bottom end of the extending vertical rod is fixedly sleeved with a colloid sleeve block, the inner side edge of the supporting connecting frame is fixedly sleeved with an inner reinforcing layer, the inner side edge of the inner reinforcing layer is uniformly and obliquely welded with a diagonal support rod, the inner side edge of the outer fixing frame is uniformly and vertically welded with an inner ejector rod, the bottom surface of the side diagonal rod is uniformly welded with a triangular plate, the inner side edge of the buckling side groove is uniformly provided with a side sleeving groove, the inner side edge of the side sleeving groove is clamped with a limiting roller, the outer side edge of the limiting roller is provided with a limiting ring groove, the inner side edge of the side sleeving groove is symmetrically provided with side sleeving grooves, the two side edges of the limiting roller are horizontally inserted with side shaft rods, the inner side edge of the buckling side groove is symmetrically provided with a symmetrical channel, the inboard side joint of symmetry channel has the extrusion gyro wheel, the side level of extrusion gyro wheel is pegged graft and is had the axle to connect the pole, the inner jacket groove has evenly been seted up to the inboard side of the outer box body in end, spacing sleeve groove has been seted up to the inboard side symmetry in inner jacket groove, the inboard side fixed joint in spacing sleeve groove has the top to connect the spring, the inboard side joint in inner jacket groove has the squeeze roll, the both ends level of squeeze roll is pegged graft and is had the axle end pole, the inboard side fixed joint of the outer box body in end has the gasbag body, the inboard side level of the outer box body in end is provided with the activity plate body, the bottom horizontal welding that extends the pole setting has interior mosaic block.

As a preferred embodiment of the present invention: the inner side of the outer fixing frame is arranged in a hollow structure, the outer fixing frame is vertically fixed and arranged on the inner side of the outer fixing frame and the outer side center line of the inner fixing frame in a supporting mode, the cross sections of the outer fixing frame, the supporting connecting frame and the inner fixing frame are arranged in an I-shaped mode, the outer fixing frame and the inner fixing frame are arranged in the same material, and the connecting through holes are arranged on the edge positions, close to two sides, of the inner fixing frame in an equidistant mode.

As a preferred embodiment of the present invention: the number of side down tube is four, and the top homocline of four side down tubes upwards welds the setting and is close to both ends position in the both sides limit of external fixation frame, consolidates the fixed bottom surface central line position that sets up at four side down tubes of down tube, and consolidates the top oblique welding of down tube and put in the outside limit position of external fixation frame, and the number of cup jointing the piece keeps unanimous setting with the number of side down tube, and cup joints the piece and all with the mutual parallel arrangement in the both sides limit of external fixation frame.

As a preferred embodiment of the present invention: the utility model discloses a side of external fixation frame, including external fixation frame, lock joint lateral groove, top fixed plate, two top fixed plates, two bottom fixed plates, two perpendicular outside limit positions that extend to the top surface and the bottom surface that run through the cover joint piece in the both ends of lock joint lateral groove are vertical, and the both ends of lock joint lateral groove are all vertical to extending to outside limit position to the top surface and the bottom surface that run through the cover joint piece, the number of top fixed plate is two, and two top fixed plates parallel arrangement each other, and the bottom of top fixed plate welds perpendicularly downwards and is close to both sides border position at the top surface center of external fixation frame, support the two bisymmetry oblique fixed settings respectively of down-tube at the both sides limit of top fixed plate, and the bottom oblique welding of supporting the down-tube is in the top surface position of external fixation frame.

As a preferred embodiment of the present invention: the fixed bearing is fixed to be set up and is close to the top position in the inboard of top fixed plate, and the top wheel that rolls is vertical to setting up the position between the fixed plate of top, and the number of outer box body at the end is two, and two outer box body parallel arrangement each other at the end, and two outer box bodies are fixed respectively and are set up the bottom surface of outer fixed frame and be close to both ends position at the end, and the one end oblique welding of stabilizing the down tube is in the bottom surface position of outer fixed frame.

As a preferred embodiment of the present invention: the bottom central point that extends the top of pole setting and upwards run through outer box body in end perpendicularly puts and extends to inside, and extends the end vertical welding and put at the bottom surface central point of activity plate body, and the colloid cover piece adopts the setting of stereoplasm rubber material, and the fixed outside limit position of inlaying the piece including cup jointing of colloid cover piece sets up, and the number of bearing diagonal pole is many, and many bearing diagonal poles are the three horn-shaped structural connection settings each other.

As a preferred embodiment of the present invention: the set-square symmetry respectively is fixed to be set up in side down tube and reinforcement down tube contained angle position, and the side grafting groove is vertical to the in-line range and is kept away from opening side position in the lock joint side groove, and the both ends level of side axostylus axostyle is pegged graft in the inboard side position in side grafting groove, and the both ends level of extension pole is pegged graft in the inboard side position of symmetry channel.

As a preferred embodiment of the present invention: the number of inner sleeve groove is a plurality of, and a plurality of inner sleeve grooves are four a set of cyclic annular settings respectively and are in the inboard side position of outer box body in end, and a plurality of inner sleeve grooves overlap formula parallel arrangement setting each other, and the opening side that the outside limit of squeeze roll runs through inner sleeve groove extends to the inboard side position of outer box body in end, and the both ends correspondence of axle end pole is pegged graft in the inboard side position in spacing sleeve groove.

As a preferred embodiment of the present invention: the air bag body is fixedly arranged at the top end of the inner side of the bottom outer box body, and the four side edges of the movable plate body are butted at the inner side edge of the bottom outer box body.

Compared with the prior art, the invention has the beneficial effects that:

1. the protection is more comprehensive by designing the wrapping structure, the firmness is increased while the weight is reduced due to the design of the inclined support rods, the I-shaped support connecting frame and the outer fixing frame are arranged on the outer side edge of the elevator in a wrapping mode, so that the stability and firmness are higher, meanwhile, the hollowed-out positions are designed in a light weight mode, the fastening side grooves on the side edges of the sleeving blocks are fastened at the outer side edge of the track, the limiting ring grooves on the side edges of the limiting idler wheels are fastened at the side edge of the track, the clamping of the limiting ring grooves is stable, meanwhile, the extrusion idler wheels extrude at the two side edges of the track, so that the stability and the efficiency are higher while the elevator runs, and the stability is increased while the weight is reduced due to the structures of the inclined side rods, the reinforcing inclined rods and the triangular plates.

2. After the elevator runs to the bottom position, the invention leads the bottom end colloid nest block of the extension upright stanchion to be propped against the ground, thereby driving the top end of the extending upright stanchion to extrude the movable plate body to move upwards on the inner side edge of the bottom outer box body, when moving, the extrusion roller is extruded, so that the extrusion roller rolls and moves towards the inner part of the inner sleeve groove, the movable plate body can bear a certain resistance effect when moving under the extrusion rolling of the extrusion roller, the extension vertical rod can buffer the falling speed of the elevator under the multiple resistance, and the air bag body is propped against the movable plate body at the last position, so that the elevator is more slowly cooled after being decelerated and stopped, the inner feeling of the elevator is more comfortable, the design structure of the device is simple, the operation is convenient, adopt monomer parcel and all adopted the lightweight structure to make stable while still reduce weight, make overall stability improve greatly under multiple reinforced structure simultaneously.

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 is a perspective view of a suspension body supporting device of a lightweight elevator;

fig. 2 is a structural view showing a front sectional connection detail of a support link of a suspension body supporting device of a lightweight elevator;

fig. 3 is a schematic structural view showing a front sectional connection detail of an outer fixing frame of a suspension supporting device of a lightweight elevator;

fig. 4 is a schematic structural view of a front connection detail of a side-sway bar of a suspension support arrangement for a lightweight elevator;

fig. 5 is a structural view showing a side-view connection detail of a side-sway bar of a suspension support apparatus for a lightweight elevator;

fig. 6 is a schematic structural view showing a coupling detail of a socket block of a suspension body supporting device of a lightweight elevator in a top sectional view;

fig. 7 is a structural view showing a connection detail of a bottom outer case in a front cross-section of a suspension support device of a lightweight elevator.

In the figure: 1. an outer fixed frame; 2. supporting the connecting frame; 3. an inner fixed frame; 4. a connecting through hole; 5. a side diagonal rod; 6. reinforcing the diagonal rods; 7. sleeving and connecting blocks; 8. fastening the side groove; 9. a top fixing plate; 10. supporting the diagonal rods; 11. fixing the bearing; 12. a main shaft rod; 13. rolling the top wheel; 14. a bottom outer case body; 15. a stabilizing diagonal rod; 16. extending the vertical rod; 17. a colloid block; 18. an inner reinforcement layer; 19. an inclined support rod; 20. an inner ejector rod; 21. a set square; 22. a side splicing groove; 23. limiting the idler wheel; 24. a limiting ring groove; 25. a side sleeve groove; 26. a side shaft lever; 27. a symmetrical channel; 28. extruding the roller; 29. a shaft extension rod; 30. an inner sleeve groove; 31. a limiting sleeve groove; 32. the top is connected with a spring; 33. a squeeze roll; 34. a shaft end rod; 35. a balloon body; 36. a movable plate body; 37. the embedded block is embedded in the groove.

Detailed Description

Referring to fig. 1-3, in the embodiment of the present invention, a suspension body supporting device for a lightweight elevator comprises an outer fixing frame 1, a support connecting frame 2 welded to the inner side edge of the outer fixing frame 1, an inner fixing frame 3 welded to the inner side edge of the support connecting frame 2, connecting through holes 4 uniformly formed in the side edge of the inner fixing frame 3, the inner side edge of the outer fixing frame 1 being hollow, the support connecting frame 2 being vertically and fixedly disposed at the inner side of the outer fixing frame 1 and the outer side center line of the inner fixing frame 3, the outer fixing frame 1, the support connecting frame 2 and the inner fixing frame 3 having i-shaped cross sections, the outer fixing frame 1 and the inner fixing frame 3 being made of the same material, the connecting through holes 4 being equidistantly arranged at the edge positions of the inner fixing frame 3 near both sides, side diagonal rods 5 symmetrically and obliquely welded to both sides of the outer fixing frame 1, reinforcing diagonal rods 6 welded to the bottom surfaces of the side diagonal rods 5, the side sway rod 5 is vertically welded with a sleeving block 7 at one end far away from the outer fixed frame 1, the number of the side sway rods 5 is four, the top ends of the four side sway rods 5 are welded upwards at the two side edges of the outer fixed frame 1 close to the two end positions, a reinforcing sway rod 6 is fixedly arranged at the bottom center line positions of the four side sway rods 5, the top end of the reinforcing sway rod 6 is welded at the outer side edge position of the outer fixed frame 1, the number of the sleeving blocks 7 is consistent with the number of the side sway rods 5, the sleeving blocks 7 are arranged in parallel with the two side edges of the outer fixed frame 1, a buckling side groove 8 is vertically arranged at one side edge far away from the side sway rods 5 of the sleeving block 7, a top fixed plate 9 is vertically welded upwards at the top surface of the outer fixed frame 1, supporting sway rods 10 are welded at the two side edges of the top fixed plate 9, the buckling side groove 8 is vertically arranged at the side center line position of the sleeving block 7, the two ends of the buckling side groove 8 vertically penetrate through the top surface and the bottom surface of the sleeving block 7 to extend to the outer side edge position, the number of the top fixing plates 9 is two, the two top fixing plates 9 are arranged in parallel, the bottom ends of the top fixing plates 9 are vertically welded downwards at the center of the top surface of the outer fixing frame 1 and close to the edge positions of the two sides, the supporting inclined rods 10 are respectively and symmetrically and obliquely fixed at the two sides of the top fixing plates 9, the bottom ends of the supporting inclined rods 10 are obliquely welded at the top surface of the outer fixing frame 1, the inner side edges of the top fixing plates 9 are fixedly clamped with fixed bearings 11, the inner side edges of the fixed bearings 11 are horizontally inserted with spindle rods 12, the outer side edges of the spindle rods 12 are fixedly sleeved with rolling top wheels 13, the bottom surface of the outer fixing frame 1 is vertically welded downwards with a bottom outer box body 14, the two side edges of the bottom outer box body 14 are symmetrically and obliquely welded with stabilizing inclined rods 15, the fixed bearings 11 are fixedly arranged at the inner side of the top fixing plates 9 and close to the top end positions, the rolling top wheel 13 is vertically arranged between the top fixing plates 9, the number of the bottom outer boxes 14 is two, the two bottom outer boxes 14 are arranged in parallel, the two bottom outer boxes 14 are respectively and fixedly arranged at the positions close to the two ends of the bottom surface of the outer fixing frame 1, one end of the stabilizing diagonal rod 15 is obliquely welded at the bottom surface of the outer fixing frame 1, the bottom end of the bottom outer box 14 is vertically inserted with the extending vertical rod 16, the bottom end of the extending vertical rod 16 is fixedly sleeved with the colloid sleeve block 17, the inner side edge of the supporting connecting frame 2 is fixedly sleeved with the inner reinforcing layer 18, the inner side edge of the inner reinforcing layer 18 is uniformly and obliquely welded with the diagonal support rod 19, the top end of the extending vertical rod 16 vertically penetrates through the bottom center position of the bottom outer boxes 14 upwards and extends to the inside, the extending end is vertically welded at the bottom center position of the movable plate body 36, the colloid sleeve block 17 is arranged by hard rubber materials, and the colloid sleeve block 17 is fixedly sleeved at the outer side edge position of the inner mosaic block 37, the number of the inclined supporting rods 19 is multiple, the plurality of inclined supporting rods 19 are connected with one another in a triangular structure, and the inner side edge of the outer fixing frame 1 is uniformly and vertically welded with inner mandrils 20;

referring to fig. 4-7, in the embodiment of the present invention, a triangular plate 21 is uniformly welded on the bottom surface of a side diagonal rod 5, side sleeving grooves 22 are uniformly formed on the inner side edge of a buckling side groove 8, a limiting roller 23 is clamped on the inner side edge of the side sleeving groove 22, a limiting ring groove 24 is formed on the outer side edge of the limiting roller 23, side sleeving grooves 25 are symmetrically formed on the inner side edge of the side sleeving groove 22, side shaft rods 26 are horizontally inserted on both side edges of the limiting roller 23, symmetrical channel grooves 27 are symmetrically formed on the inner side edge of the buckling side groove 8, an extrusion roller 28 is clamped on the inner side edge of the symmetrical channel grooves 27, a shaft connecting rod 29 is horizontally inserted on the side edge of the extrusion roller 28, the triangular plate 21 is respectively and symmetrically and fixedly arranged at the included angle position between the side diagonal rod 5 and a reinforcing diagonal rod 6, the side sleeving grooves 22 are vertically arranged in a straight line at the position far from the opening side edge of the buckling side groove 8, the two ends of the side shaft lever 26 are horizontally inserted in the inner side position of the side sleeve groove 25, the two ends of the shaft connecting lever 29 are horizontally inserted in the inner side position of the symmetrical channel 27, the inner side of the bottom outer box body 14 is uniformly provided with inner sleeve grooves 30, the inner side of the inner sleeve grooves 30 is symmetrically provided with limit sleeve grooves 31, the inner side of the limit sleeve grooves 31 is fixedly connected with a top connecting spring 32 in a clamping manner, the inner side of the inner sleeve grooves 30 is connected with an extrusion roller 33 in a clamping manner, the two ends of the extrusion roller 33 are horizontally inserted with shaft end levers 34, the number of the inner sleeve grooves 30 is multiple, the inner sleeve grooves 30 are respectively arranged in groups of four in an annular manner in the inner side position of the bottom outer box body 14, the inner side of the inner sleeve grooves 30 are arranged in a stacked parallel manner, the outer side of the extrusion roller 33 penetrates through the opening side of the inner sleeve grooves 30 to extend to the inner side position of the bottom outer box body 14, the two ends of the shaft end levers 34 correspond to the inner side position of the limit sleeve grooves 31 in a plugging manner, the fixed joint of the inboard side of end outer box 14 has gasbag body 35, and the inboard side level of end outer box 14 is provided with activity plate body 36, and gasbag body 35 is fixed to be set up at the inboard top position of end outer box 14, and four sides butt joint of activity plate body 36 is in the inboard side position of end outer box 14, and the bottom horizontal welding of extension pole setting 16 has embedded piece 37.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The working principle of the invention is as follows:

the inner fixing frame 3 is fixedly sleeved at the position of the outer side edge of the elevator, the inner fixing frame is fixedly connected with the position of the outer side edge of the connecting through hole 4 through bolt insertion, a steel rope is sleeved at the position of the outer side edge of the rolling top wheel 13, the firmness is increased due to the adoption of the design of the inclined supporting rod 19, the I-shaped supporting connecting frame 2 and the outer fixing frame 1 are arranged at the position of the outer side edge of the elevator in a wrapping mode, so that the stability and firmness are improved, meanwhile, the hollowed-out position is in light weight design, the fastening side groove 8 at the side edge of the sleeving block 7 is fastened at the position of the outer side edge of the track, the limiting ring groove 24 at the side edge of the limiting idler wheel 23 is fastened at the position of the side edge of the track, the clamping is stabilized, meanwhile, the extruding idler wheels 28 are extruded at the positions of the two side edges of the track, so that the stability and the efficiency are improved during the operation of the elevator, and the stability is improved while the light weight is realized under the structures of the inclined rod 5, the reinforcing inclined rod 6 and the triangular plate 21, after the elevator moves to the bottom position, make the bottom colloid nest block 17 top of extending pole setting 16 connect subaerial, thereby it extrudees movable plate 36 and moves up at the inboard side of outer box 14 of end to drive the top of extending pole setting 16, to squeeze roll 33 extrusion effect when removing, make squeeze roll 33 at the rolling inside motion of rolling inside race 30 of simultaneously, make movable plate 36 receive certain resistance effect when the motion under squeeze roll 33's extrusion, make to extend pole setting 16 and can buffer the speed of falling of elevator and dissolve down, and gasbag body 35 withstands movable plate 36 when the last position, make more slowly make its inside feel more comfortable after the elevator slows down and stops.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (9)

1. A suspension body supporting device of a light-weight elevator comprises an outer fixing frame (1) and is characterized in that a supporting connecting frame (2) is welded at the inner side edge of the outer fixing frame (1), an inner fixing frame (3) is welded at the inner side edge of the supporting connecting frame (2), connecting through holes (4) are uniformly formed in the side edge of the inner fixing frame (3), oblique side rods (5) are symmetrically and obliquely welded at the two side edges of the outer fixing frame (1), a reinforcing oblique rod (6) is welded at the bottom surface of each oblique side rod (5), a sleeving block (7) is vertically welded at one end, away from the outer fixing frame (1), of each oblique side rod (7) is vertically provided with a fastening side groove (8), a top fixing plate (9) is vertically and upwardly welded at the top surface of the outer fixing frame (1), oblique supporting oblique rods (10) are welded at the two side edges of the top fixing plate (9), the inner side of the top fixing plate (9) is fixedly clamped with a fixing bearing (11), the inner side of the fixing bearing (11) is horizontally inserted with a main shaft rod (12), the outer side of the main shaft rod (12) is fixedly sleeved with a rolling top wheel (13), the bottom surface of the outer fixing frame (1) is vertically and downwards welded with an outer bottom box body (14), two side edges of the outer bottom box body (14) are symmetrically and obliquely welded with stabilizing inclined rods (15), the bottom end of the outer bottom box body (14) is vertically and obliquely inserted with an extending vertical rod (16), the bottom end of the extending vertical rod (16) is fixedly sleeved with a colloid sleeve block (17), the inner side edge of the support connecting frame (2) is fixedly sleeved with an inner reinforcing layer (18), the inner side edge of the inner reinforcing layer (18) is uniformly and obliquely welded with an inclined supporting rod (19), the inner side edge of the outer fixing frame (1) is uniformly and vertically welded with an inner top rod (20), the bottom surface of the side diagonal rod (5) is uniformly welded with a triangular plate (21), the inner side edge of the buckling side groove (8) is uniformly provided with a side sleeve groove (22), the inner side edge of the side sleeve groove (22) is clamped with a limiting roller (23), the outer side edge of the limiting roller (23) is provided with a limiting ring groove (24), the inner side edge of the side sleeve groove (22) is symmetrically provided with a side sleeve groove (25), the two side edges of the limiting roller (23) are horizontally inserted with a side shaft rod (26), the inner side edge of the buckling side groove (8) is symmetrically provided with a symmetrical channel (27), the inner side edge of the symmetrical channel (27) is clamped with an extrusion roller (28), the side edge of the extrusion roller (28) is horizontally inserted with a shaft connecting rod (29), the inner side edge of the bottom body (14) is provided with a uniform inner sleeve groove (30), the inner side edge of the inner sleeve groove (30) is symmetrically provided with a limiting sleeve groove (31), the inboard side fixed joint in spacing cover groove (31) has top spring (32), the inboard side joint in inner jacket groove (30) has squeeze roll (33), the both ends level of squeeze roll (33) is pegged graft and is had axle end pole (34), the inboard side fixed joint of end outer box body (14) has gasbag body (35), the inboard side level of end outer box body (14) is provided with activity plate body (36), the bottom horizontal welding that extends pole setting (16) has interior mosaic block (37).

2. The suspension body supporting device of a light weight elevator according to claim 1, wherein the inner side of the outer fixing frame (1) is hollow, the supporting connecting frame (2) is vertically fixed at the inner side of the outer fixing frame (1) and the outer side center line position of the inner fixing frame (3), the cross sections of the outer fixing frame (1), the supporting connecting frame (2) and the inner fixing frame (3) are arranged in an I shape, the outer fixing frame (1) and the inner fixing frame (3) are made of the same material, and the connecting through holes (4) are respectively arranged at the positions close to the two side edges of the inner fixing frame (3) at equal intervals.

3. The suspension body supporting device of a lightweight elevator according to claim 1, wherein the number of the side diagonal rods (5) is four, and the top ends of the four side diagonal rods (5) are welded upward and are arranged at the two side edges of the outer fixing frame (1) near the two end positions, the reinforcing diagonal rods (6) are fixedly arranged at the central line positions of the bottom surfaces of the four side diagonal rods (5), the top ends of the reinforcing diagonal rods (6) are welded at the outer side edge position of the outer fixing frame (1), the number of the sleeving blocks (7) is consistent with the number of the side diagonal rods (5), and the sleeving blocks (7) are arranged parallel to the two side edges of the outer fixing frame (1).

4. The suspension body supporting device of a light weight elevator as claimed in claim 1, wherein the buckling side groove (8) is vertically opened at the center line position of the side edge of the sleeving block (7), and both ends of the buckling side groove (8) vertically extend to the outer side edge position through the top surface and the bottom surface of the sleeving block (7), the number of the top fixing plates (9) is two, and the two top fixing plates (9) are arranged in parallel with each other, and the bottom end of the top fixing plate (9) is vertically welded downwards at the center of the top surface of the outer fixing frame (1) near the edge positions of both sides, the supporting diagonal rods (10) are respectively and symmetrically and obliquely fixed at both side edges of the top fixing plate (9), and the bottom end of the supporting diagonal rod (10) is obliquely welded at the top surface position of the outer fixing frame (1).

5. A suspension support device for a lightweight elevator according to claim 1, wherein the fixed bearing (11) is fixedly installed inside the top fixing plate (9) near the top end, the rolling top roller (13) is vertically installed between the top fixing plate (9), the number of the bottom outer cases (14) is two, the two bottom outer cases (14) are installed in parallel with each other, the two bottom outer cases (14) are respectively fixedly installed at the bottom of the outer fixing frame (1) near the two ends, and one end of the stabilizing diagonal rod (15) is welded to the bottom of the outer fixing frame (1) in an oblique manner.

6. The suspension body supporting device of a light weight elevator as claimed in claim 1, wherein the top end of the extending upright rod (16) extends vertically upwards through the bottom center of the bottom outer casing (14) to the inside, the extending end is welded vertically at the bottom center of the movable plate (36), the rubber sleeve (17) is made of hard rubber, the rubber sleeve (17) is fixedly sleeved at the outer side of the inner mosaic block (37), the number of the inclined supporting rods (19) is multiple, and the plurality of inclined supporting rods (19) are connected with each other in a triangular structure.

7. A suspension support device for a lightweight elevator according to claim 1, wherein the triangular plates (21) are symmetrically fixed at the angles between the side diagonal rods (5) and the reinforcing diagonal rods (6), the side engaging grooves (22) are vertically arranged in a line at the positions of the side edges of the engaging side grooves (8) away from the opening, the two ends of the side shaft rod (26) are horizontally inserted into the inner side edges of the side engaging grooves (25), and the two ends of the axial connecting rod (29) are horizontally inserted into the inner side edges of the symmetrical grooves (27).

8. The suspension body supporting device of a lightweight elevator according to claim 1, wherein the number of the inner casing grooves (30) is plural, and the plural inner casing grooves (30) are respectively annularly arranged at the inner side positions of the bottom outer casing body (14) in groups of four, and the plural inner casing grooves (30) are arranged in parallel in a stacked manner, the outer side of the squeeze roller (33) extends to the inner side position of the bottom outer casing body (14) through the opening side of the inner casing groove (30), and both ends of the shaft end rod (34) are correspondingly inserted at the inner side positions of the limit casing grooves (31).

9. A suspension body supporting device of a lightweight elevator according to claim 1, wherein the air bag body (35) is fixedly provided at an inner top end position of the bottom outer case (14), and four sides of the movable plate body (36) are butted against an inner side position of the bottom outer case (14).

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