CN209874605U

CN209874605U - Chain type lifting device for upgrading and traversing stereo garage

Info

Publication number: CN209874605U
Application number: CN201920184852.9U
Authority: CN
Inventors: 杨永刚; 吴云云
Original assignee: Guizhou High Tech Parking Equipment Co Ltd
Current assignee: Guizhou Haiyue Intelligent Equipment Co ltd
Priority date: 2019-02-02
Filing date: 2019-02-02
Publication date: 2019-12-31
Anticipated expiration: 2029-02-02

Abstract

The utility model discloses a chain formula hoisting device that upgrading sideslip stereo garage used, including frame (1), promotion drive mechanism (2), hoist mechanism A (3), hoist mechanism B (4), carry sweep (5), sideslip mechanism (6), its characterized in that: the lifting transmission mechanism (2) and the lifting mechanism A (3) are installed at the top of the frame (1), the lifting transmission mechanism (2), the lifting mechanism B (4) and the vehicle carrying plate (5) are installed on the transverse moving mechanism (6) installed on the inner side of the frame (1), the lifting transmission mechanism (2) is connected with the lifting mechanism A (3) and the lifting mechanism B (4), the lifting mechanism A (3) is installed on a longitudinal beam A (8) and a longitudinal beam B (12) on the layer of the frame 3 respectively, and the lifting mechanism B (4) is installed on a longitudinal beam C (39) and a longitudinal beam D (47). The utility model discloses possess the quick steady, the installation maintenance convenience of going up and down, prevent weighing down safety, loose chain regulation, the function that targets in place detected.

Description

Chain type lifting device for upgrading and traversing stereo garage

Technical Field

The utility model belongs to the technical field of sky parking equipment, relate to 3 layers of lifting and horizontal moving chain formula hoisting device for stereo garage particularly.

Background

With the rapid popularization and development of automobiles, the construction of urban parking lots is delayed, so that the urban parking lots are seriously insufficient in supply, the demands for the parking lots are increasingly large, and the urban parking lots become a social and civil problem to be solved urgently by the current government. At present, the main method for solving the problem of difficult parking is to construct a three-dimensional parking garage. Among various three-dimensional parking garages, the garage with the highest market share is a lifting and transverse moving garage. Generally, chain type lifting devices are mainly adopted in lifting devices of lifting and transverse moving type garages with 2-3 layers, and the chain type lifting devices are used as important key components of the type of stereo garage equipment and must meet the following functional requirements: firstly, the lifting is rapid and stable; secondly, the installation and maintenance are convenient; thirdly, an anti-falling safety device is equipped; fourthly, the chain loosening adjusting function is achieved; and fifthly, the lifting travel position in-place detection function is realized. For satisfying above technical requirement, the utility model provides a3 layers of chain formula hoisting device for lifting and horizontal moving stereo garage. And is applied to chain type lifting and horizontal moving garage projects.

Disclosure of Invention

An object of the utility model is to overcome above-mentioned shortcoming, and the 3 layers of lifting and drop moving stereo garage that possess to go up and down fast steady, installation maintenance convenient, prevent weighing down safety, pine chain regulation, detection in place that provide uses chain formula hoisting device.

The utility model discloses an aim at and solve its main technical problem and adopt following technical scheme to realize:

the utility model discloses a3 layer lifting and horizontal moving chain formula hoisting device for stereo garage, including frame, promotion drive mechanism, hoist mechanism A, hoist mechanism B, carry sweep, sideslip mechanism, wherein: frame top installation promotes drive mechanism, hoist mechanism A, and the sideslip mechanism of frame inboard installation goes up installation promotion drive mechanism, hoist mechanism B, carries the sweep, promotes drive mechanism and is connected with hoist mechanism A, hoist mechanism B, and the frame includes: the four upright posts are arranged on the top of the frame, a cross beam A and a cross beam B are arranged on the tops of the four upright posts, two ends of the cross beam A and two ends of the cross beam B are respectively connected through a longitudinal beam A and a longitudinal beam B, a plurality of pairs of longitudinal beams C are arranged on the cross beam A and the cross beam B between the longitudinal beams A and B, and guide rails are fixed on I-shaped beams arranged on the four upright posts; the lifting transmission mechanism comprises: the chain wheel B arranged on the shaft A at the lower part of the motor A is connected with the chain wheel A at the output end of the motor A through a chain A, and the chain wheel C arranged at the tail end of the shaft A at the lower part of the motor A, which extends out of the longitudinal beam, is connected with the lifting mechanism; the lifting mechanism a includes: a travel switch A is installed at one end, close to a motor A, of the 3-layer longitudinal beam, a travel switch B is installed at the other end of the longitudinal beam, a chain B, a chain C and a chain D are connected with one end of a triangular connecting plate A, the chain D is connected with a chain E around a guide chain wheel bearing B, the chain B is connected with a lifting ring screw rod around the guide chain wheel bearing D, the chain C is connected with the lifting ring screw rod after bypassing the guide chain wheel bearing C and the guide chain wheel bearing A, and the lifting ring screw rod is connected with a fixed seat fixed; the lifting mechanism B includes: a travel switch C and a travel switch D are mounted on a longitudinal beam of the transverse moving mechanism, a triangular connecting block B at the lower part of the travel switch C and the travel switch D is connected with one end of a chain G, a chain H and one end of a chain I, the other end of the chain G is wound on the lifting transmission mechanism and then connected with the triangular connecting block C, the other end of the chain H is connected with a lifting ring screw rod by winding a guide chain wheel bearing G, the other end of the chain I is connected with the triangular connecting block C, a chain J connected on the triangular connecting block C is wound on a guide chain wheel bearing E and connected with the lifting ring screw rod, and the lifting ring screw; the traversing mechanism comprises: the longitudinal beam C is fixedly connected with a driving wheel support A, a motor B and a driving wheel support B, the driving wheel support A and the driving wheel support B are connected through a shaft B, a chain wheel D connected with the motor B through a chain F is mounted on the shaft B, a bracket fixed on the longitudinal beam C is mounted on the shaft B, a driven wheel support A and a driven wheel support B are fixedly connected to two sides of the lower portion of the longitudinal beam D, and two ends of the longitudinal beam C and two ends of the longitudinal beam D are connected through a cross beam C and a cross beam D; a driving wheel support A, a driving wheel support B, a driven wheel support A and a driven wheel support B of the transverse moving mechanism are arranged on a guide rail of the I-beam, and a lifting transmission mechanism is respectively arranged on a beam A and a beam C; the lifting mechanism A is respectively installed on a longitudinal beam A and a longitudinal beam B on a layer 3 of the frame, a chain wheel C on a shaft A of the layer lifting transmission mechanism is matched with a chain E of the lifting mechanism A, a chain wheel C of the lifting transmission mechanism on the transverse moving mechanism is matched with a chain G of the lifting mechanism, the lifting mechanism B is installed on the longitudinal beam C and the longitudinal beam on the transverse moving mechanism, and a fixing seat of the lifting mechanism is fixed on a side beam of the vehicle carrying plate.

And the longitudinal beam A and the longitudinal beam D above the fixed seat of the car carrying plate are provided with falling protectors matched with the longitudinal beams A and D.

The chain E is fixedly connected with the chain D through the tightness adjuster A, and the chain G is fixedly connected with the triangular block B through the tightness adjuster B.

The tightness adjuster A and the tightness adjuster B are left and right spiral adjusting rods.

The transverse beam C of the transverse moving mechanism is a rectangular steel pipe, a reinforcing beam is fixed between the longitudinal beam C and the longitudinal beam D below the transverse moving mechanism, and the transverse beam C and the reinforcing beam are fixedly connected through a reinforcing plate.

The transverse moving mechanism longitudinal beam C and the longitudinal beam D are fixedly provided with two guide rods and are matched with a guide sleeve fixed on the vehicle carrying plate, and the guide rods and the guide sleeve are matched by conical surfaces.

Compared with the prior art, the utility model, possess obvious beneficial effect, can know by above-mentioned scheme: the motor is adopted to drive the chain, the chain wheel and the chain wheel to drive the lifting chain, so that the lifting is fast and stable under a complex working environment, and the guide rod fixedly arranged on the longitudinal beam is matched with the guide sleeve fixed on the vehicle carrying plate, so that the stable lifting is facilitated when the vehicle carrying plate is in place; the whole body is mechanically assembled, so that the convenience in installation and maintenance is facilitated; the falling protector on the longitudinal beam of the transverse moving mechanism is matched with the fixed seat, so that the accidental falling of the vehicle carrying plate after ascending and parking is effectively prevented; the travel switch detects the motion of the chain and the triangular connecting plate, so that the detection function of the lifting travel of the vehicle carrying plate is realized; the chain E is fixedly connected with the chain D through the tightness adjuster A, and the chain G is fixedly connected with the chain I through the tightness adjuster B, so that the tightness of the circulating chain in the lifting mechanism is adjusted; the tightness adjuster is a left and right spiral adjusting rod, so that labor is saved and the tightness is improved during adjustment; the cross beam C is provided with a reinforcing plate, two ends of the reinforcing plate are fixedly connected with the upper rectangular tube and the lower rectangular tube, and two ends of the reinforcing beam are respectively fixedly connected with the longitudinal beam C and the longitudinal beam D, so that the strength and the rigidity of the lifting transmission mechanism are improved; the guide rod and the guide sleeve are matched by conical surfaces, so that the guide rod is more stable to be matched with the guide sleeve, and the car carrying plate is prevented from shaking during transverse movement. In a word, the utility model discloses possess the function that goes up and down fast and steadily, installation maintenance convenience, prevent weighing down safety, pine chain regulation, detection in place.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the frame of the present invention;

fig. 3 is a top view of the frame of the present invention;

fig. 4 is a schematic structural view of the layer 3 lifting transmission mechanism of the present invention;

fig. 5 is a schematic structural view of the layer 3 lifting mechanism of the present invention;

FIG. 6 is a schematic structural view of a driving wheel component of the 2-layer traversing mechanism of the present invention;

fig. 7 is a schematic structural view of a driven wheel component of the 2-layer traversing mechanism of the present invention;

fig. 8 is a top view of the 2-layer cross-sliding mechanism frame of the present invention;

fig. 9 is a schematic structural view of the layer 2 lifting transmission mechanism of the present invention;

fig. 10 is a schematic structural view of the layer 2 lifting mechanism of the present invention;

FIG. 11 is a schematic view of the present invention in use;

fig. 12 is a partially enlarged view of a in fig. 11.

The labels in the figure are:

1. a frame; 2. a lifting transmission mechanism; 3. a lifting mechanism A; 4. a lifting mechanism B; 5. a vehicle carrying board; 6. a traversing mechanism; 7. a column; 8. a beam A; 9. a longitudinal beam A; 10. a cross beam B; 11. a guide rail; 12. an I-beam; 13. a longitudinal beam B; 14. a longitudinal beam C; 15. a motor mounting seat; 16. a motor A; 17. a chain wheel A; 18. a chain A; 19. a sprocket B; 20. a bearing seat A; 21. a sprocket C; 22. a shaft end retainer ring; 23. an axis A; 24. a travel switch A; 25. a triangular connecting plate A; 26. a chain B; 27. a chain C; 28. a guide chain wheel bearing A; 29. a travel switch B; 30. a guide sprocket bearing B; 31. a guide sprocket bearing C; 32. a guide chain wheel bearing D; 33. a chain D; 34. a tightness adjuster A; 35. a ring screw; 36. a safety catch; 37. a fixed seat; 38. a chain E; 39. a longitudinal beam D; 40. a driving wheel support A; 41. a sprocket D; 42. a chain F; 43. a motor B; 44. a shaft B; 45. a bracket; 46. a driving wheel support B; 47. a longitudinal beam E; 48. a driven wheel support A; 49. a driven wheel support B; 50. a cross beam C; 51. a cross beam D; 52. a reinforcing plate; 53. a reinforcing beam; 54. a control box; 55. a guide sleeve; 56. a guide bar; 57. A chain G; 58. a guide sprocket bearing E; 59. a travel switch C; 60. a triangular connecting plate B; 61. a chain H; 62. a chain I; 63. a chain J; 64. a slack adjuster B; 65. a travel switch D; 66. a triangular connecting plate C; 67. a guide sprocket bearing F; 68. and a guide chain wheel bearing G.

Detailed Description

In order to better understand the technical solution of the chain type lifting device for a 3-layer lifting and horizontal moving stereo garage of the present invention, the following detailed description is provided for the manner, structure, features and efficacy thereof with reference to the accompanying drawings and preferred embodiments.

The utility model discloses a3 layers of lifting and horizontal moving chain formula hoisting device for stereo garage, including frame 1, promotion drive mechanism 2, hoist mechanism A3, hoist mechanism B4, carry sweep 5, sideslip mechanism 6, wherein: frame 1 top installation promotes drive mechanism 2, hoist mechanism A3, installs on the sideslip mechanism 6 of frame 1 inboard installation and promotes drive mechanism 2, hoist mechanism B4, carries sweep 5, promotes drive mechanism 2 and is connected with hoist mechanism A3, hoist mechanism B4, refers to fig. 1, and frame 1 includes: the four upright posts 7 are mounted on a cross beam A8 and a cross beam B10 which are mounted at the tops of the four upright posts, two ends of the cross beam A8 and two ends of the cross beam B10 are respectively connected through a longitudinal beam A9 and a longitudinal beam B13, a plurality of pairs of longitudinal beams C14 are mounted on the cross beam A8 and the cross beam B10 between the longitudinal beam A9 and the longitudinal beam B13, and guide rails 11 are fixed on I-shaped beams 12 mounted on the four upright posts 7, as shown in FIGS. 1-3; the lifting transmission mechanism 2 includes: a motor A16 fixed on the cross beam through a motor mounting seat 15, bearings mounted at two ends of a shaft A23 are fixed on the longitudinal beam through a bearing seat 20, a chain wheel B19 mounted on the shaft A23 at the lower part of a motor A16 is connected with a chain wheel A17 at the output end of a motor A16 through a chain A18, a chain wheel C21 mounted at the tail end of a shaft A23 at the lower part of the motor A16, which extends out of the longitudinal beam, is connected with a lifting mechanism, and refer to fig. 1, 4 and 9; the lift mechanism a3 includes: a travel switch A24 is installed at one end of the 3-layer longitudinal beam close to the motor A16, a travel switch B29 is installed at the other end of the 3-layer longitudinal beam, a chain B26, a chain C27 and a chain D33 are connected with one end of a triangular connecting plate A25, the chain D33 is connected with a chain E38 by winding a guide chain wheel bearing B30, the chain B26 is connected with a lifting ring screw 35 by winding a guide chain wheel bearing D32, the chain C27 is connected with the lifting ring screw 35 after winding a guide chain wheel bearing C31 and a guide chain wheel bearing A28, and the lifting ring screw 35 is connected with a fixed seat 37 fixed on a side beam of the vehicle carrying; the lift mechanism B4 includes: a travel switch C59 and a travel switch D65 are mounted on a longitudinal beam of the traversing mechanism 5, a triangular connecting block B60 at the lower part of the travel switch C59 and the travel switch D65 is connected with a chain G57, a chain H61 and one end of a chain I62, the other end of the chain G57 winds around the lifting transmission mechanism 2 and is connected with a triangular connecting block C66, the other end of the chain H61 winds around a guide sprocket bearing G68 and is connected with a lifting ring screw 35, the other end of the chain I62 is connected with a triangular connecting block C66, a chain J63 connected with the triangular connecting block C66 winds around a guide sprocket bearing E58 and is connected with the lifting ring screw 35, and the lifting ring screw 35 is connected with a fixed seat 37 fixed on a side beam of the vehicle; the traverse mechanism 5 includes: a driving wheel support A40, a motor B43 and a driving wheel support B46 are fixedly connected to the longitudinal beam C39, the driving wheel support A40 is connected with the driving wheel support B46 through a shaft B42, a chain wheel D45 connected with a motor B43 through a chain F44 is mounted on the shaft B42, a bracket 41 fixed to the longitudinal beam C39 is mounted on the shaft B42, a driven wheel support A48 and a driven wheel support B49 are fixedly connected to two sides of the lower portion of the longitudinal beam D47, and two ends of the longitudinal beam C39 and two ends of the longitudinal beam D47 are connected through a cross beam C50 and a cross beam 539D 51, which is shown in; a driving wheel support A40, a driving wheel support B46, a driven wheel support A48 and a driven wheel support B49 of the traversing mechanism 5 are installed on a guide rail 11 of an I-shaped beam 9, the lifting transmission mechanism 2 is respectively installed on a cross beam A8 and a cross beam C50, the lifting mechanism A3 is respectively installed on a longitudinal beam A8 and a longitudinal beam B12 on a layer 3 of the frame, a chain wheel C21 on a shaft A23 of the lifting transmission mechanism 2 on the layer 3 is matched with a chain E38 of the lifting mechanism A3, a chain wheel C21 of the lifting transmission mechanism 2 on the traversing mechanism 5 is matched with a chain G57 of the lifting mechanism, the lifting mechanism B4 is installed on a longitudinal beam C39 and a longitudinal beam D47 on the traversing mechanism 5, and a fixing seat 37 of the lifting mechanism 3 is fixed on a side beam of the vehicle.

The falling protector 36 matched with the longitudinal beam A9 and the longitudinal beam D39 above the fixed seat 37 of the car carrying board 5 is installed on the longitudinal beam A9 and the longitudinal beam D39, and refer to fig. 5, 10 and 11.

The chain E38 is fixedly connected with the chain D33 through a tightness adjuster A34, and the chain G57 is fixedly connected with the triangular block B66 through a tightness adjuster B64, as shown in figures 5 and 10.

The tightness adjuster A34 and the tightness adjuster B64 are left and right spiral adjusting rods, and refer to fig. 5 and 10.

The cross beam C50 of the traversing mechanism 5 is a rectangular steel tube, the reinforcing beam 53 is fixed between the lower longitudinal beam C39 and the longitudinal beam D47, and the cross beam C50 and the reinforcing beam 53 are fixedly connected by the reinforcing plate 52, as shown in fig. 9.

The transverse moving mechanism 5 is characterized in that two guide rods 55 are fixedly arranged on the longitudinal beam C39 and the longitudinal beam D47 and are matched with a guide sleeve 56 fixed on the vehicle carrying plate 5, and the guide rods 55 and the guide sleeve 56 are matched by adopting conical surfaces, as shown in fig. 5, 10, 11 and 12.

The working principle is as follows: referring to fig. 1, 2, 4, 5, 10, 11, 12, 3 layers of parking and taking vehicles, when a control box 54 is operated, vehicles are arranged below, so that a motor B43 of a 2-layer traversing mechanism 6 is electrified to drive a driving wheel support a40, a driving wheel support B46, a driven wheel support a48 and a driven wheel support B49 to move on a guide rail 11, a vehicle carrying plate 5 of the 2-layer traversing mechanism 6 stably moves under the matching of a guide sleeve 55 and a guide rod 56 tapered surface, and stops until a vacancy traversing position is moved to meet the lifting condition of an upper layer 387, a falling protector 36 on a longitudinal beam A5 is electrified, a hook is separated from a fixed seat 36, so that the falling prevention safety of the vehicle carrying plate 5 is realized, a motor a17 of a lifting transmission mechanism 2 fixed on a transverse beam A8 is electrified, the vehicle carrying plate 5 on the 3 layers is driven to lift through a lifting mechanism A3, a triangular connecting plate a25 touches a stroke switch a24 or a motor a 29 to realize the power-off detection function of the vehicle, when the chain of the lifting mechanism A3 becomes loose, the tightness adjustment of the chain of the lifting mechanism 3 is easily realized by adjusting the lengths of the chain E38 and the chain D33 through the tightness adjuster A34. When the transverse moving mechanism 6 gets out of the car, when the car is arranged below the transverse moving mechanism, the car is moved to a vacant position and stops when the vacancy meets the lifting condition of an upper parking space, the falling protector 36 on the longitudinal beam D39 is electrified through the control box 54, the hook is separated from the fixed seat 36, the motor A16 on the cross beam A50 is electrified and rotates, the shaft A21 drives the lifting mechanism B4 to enable the car carrying plate 5 to do descending motion, and when the triangular connecting plate B60 moves to the travel switch D65, the motor A16 is powered off, so that the in-place detection function of the car carrying plate 5 is realized; when the vehicle is stored, the motor A16 is electrified and rotated to drive the lifting mechanism B4 to enable the vehicle carrying plate 5 to move upwards, when the triangular connecting plate B60 moves to the travel switch C59, the motor A16 is powered off, the falling protector 37 is powered off and is matched with the fixed seat 36 to stably lock the vehicle carrying plate 5, and falling prevention safety of the vehicle carrying plate 5 is achieved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent change and modification made to the above embodiment according to the technical spirit of the present invention are within the scope of the present invention without departing from the technical spirit of the present invention.

Claims

1. The utility model provides a chain formula hoisting device that upgrading sideslip stereo garage used, includes frame (1), promotes drive mechanism (2), hoist mechanism A (3), hoist mechanism B (4), carries sweep (5), sideslip mechanism (6), its characterized in that: frame (1) top installation promotes drive mechanism (2), hoist mechanism A (3), and frame (1) inboard installation is gone up installation and is promoted drive mechanism (2), hoist mechanism B (4), is carried sweep (5), promotes drive mechanism (2) and is connected with hoist mechanism A (3), hoist mechanism B (4), and frame (1) includes: the four-column-type vertical beam structure comprises four columns (7), and a cross beam A (8) and a cross beam B (10) which are arranged at the tops of the four columns, wherein the two ends of the cross beam A (8) and the cross beam B (10) are respectively connected through a longitudinal beam A (9) and a longitudinal beam B (13), a plurality of pairs of longitudinal beams C (14) are arranged on the cross beam A (8) and the cross beam B (10) between the longitudinal beams A (9) and the longitudinal beams B (13), and guide rails (11) are fixed on I-shaped beams (12) arranged on the four columns (7); the lifting transmission mechanism (2) comprises: a motor A (16) fixed on the cross beam through a motor mounting seat (15), bearings arranged at two ends of a shaft A (23) are fixed on the longitudinal beam through a bearing seat (20), a chain wheel B (19) arranged on the shaft A (23) at the lower part of the motor A (16) is connected with a chain wheel A (17) at the output end of the motor A (16) through a chain A (18), and a chain wheel C (21) arranged at the tail end of the shaft A (23) at the lower part of the motor A (16) extending out of the longitudinal beam is connected with a lifting mechanism; the lifting mechanism A (3) includes: a travel switch A (24) is installed at one end, close to a motor A (16), of the 3-layer longitudinal beam, a travel switch B (29) is installed at the other end of the 3-layer longitudinal beam, a chain B (26), a chain C (27) and a chain D (33) are connected with one end of a triangular connecting plate A (25), the chain D (33) is connected with a chain E (38) by winding a guide chain wheel bearing B (30), the chain B (26) is connected with a lifting ring screw rod (35) by winding a guide chain wheel bearing D (32), the chain C (27) is connected with the lifting ring screw rod (35) by winding a guide chain wheel bearing C (31) and a guide chain wheel bearing A (28), and the lifting ring screw rod (35) is connected with a fixed seat (37) fixed on a; the lifting mechanism B (4) comprises: a travel switch C (59) and a travel switch D (65) are mounted on a longitudinal beam of the transverse moving mechanism (5), a triangular connecting block B (60) at the middle lower part of the travel switch C (59) and the travel switch D (65) is connected with one end of a chain G (57), a chain H (61) and one end of a chain I (62), the other end of the chain G (57) is connected with the triangular connecting block C (66) after being wound on the lifting transmission mechanism (2), the other end of the chain H (61) is connected with the lifting ring screw rod (35) through a guide chain wheel bearing G (68), the other end of the chain I (62) is connected with the triangular connecting block C (66), a chain J (63) connected on the triangular connecting block C (66) is connected with the lifting ring screw rod (35) through a guide chain wheel bearing E (58), and the lifting ring screw rod (35) is connected with a fixed seat (37) of a; the traverse mechanism (5) includes: the longitudinal beam C (39) is fixedly connected with a driving wheel support A (40), a motor B (43) and a driving wheel support B (46), the driving wheel support A (40) is connected with the driving wheel support B (46) through a shaft B (42), a chain wheel D (45) connected with the motor B (43) through a chain F (44) is mounted on the shaft B (42), a bracket (41) fixed on the longitudinal beam C (39) is mounted on the shaft B (42), driven wheel supports A (48) and B (49) are fixedly connected to two sides of the lower portion of the longitudinal beam D (47), and two ends of the longitudinal beam C (39) and the longitudinal beam D (47) are connected through a cross beam C (50) and a cross beam D (51); a driving wheel support A (40), a driving wheel support B (46), a driven wheel support A (48) and a driven wheel support B (49) of the transverse moving mechanism (5) are arranged on a guide rail (11) of the I-beam (9), the lifting transmission mechanisms (2) are respectively installed on a cross beam A (8) and a cross beam C (50), the lifting mechanisms A (3) are respectively installed on a longitudinal beam A (8) and a longitudinal beam B (12) on a layer 3 of the frame, chain wheels C (21) on an axis A (23) of the lifting transmission mechanisms (2) on the layer 3 are matched with chains E (38) of the lifting mechanisms A (3), chain wheels C (21) of the lifting transmission mechanisms (2) on the transverse moving mechanisms (5) are matched with chains G (57) of the lifting mechanisms, the lifting mechanisms B (4) are installed on a longitudinal beam C (39) and a longitudinal beam D (47) on the transverse moving mechanisms (5), and fixing seats (37) of the lifting mechanisms (3) are fixed on side beams of the vehicle carrying plate (5).

2. The chain type lifting device for upgrading the transverse-moving stereo garage of claim 1, wherein: and a falling protector (36) matched with the longitudinal beam A (9) and the longitudinal beam D (39) above the fixed seat (37) of the car carrying plate (5) is arranged on the longitudinal beam A (9) and the longitudinal beam D (39).

3. The chain type lifting device for upgrading the transverse-moving stereo garage of claim 1, wherein: the chain E (38) is fixedly connected with the chain D (33) through the tightness adjuster A (34), and the chain G (57) is fixedly connected with the triangular block B (66) through the tightness adjuster B (64).

4. The chain type lifting device for the upgrading of the transverse stereo garage of claim 3, wherein: the tightness regulator A (34) and the tightness regulator B (64) are left and right spiral regulating rods.

5. The chain type lifting device for upgrading the transverse-moving stereo garage of claim 1, wherein: a cross beam C (50) of the transverse moving mechanism (6) is a rectangular steel pipe, a reinforcing beam (53) is fixed between a longitudinal beam C (39) and a longitudinal beam D (47) below the transverse moving mechanism, and the cross beam C (50) and the reinforcing beam (53) are fixedly connected through a reinforcing plate (52).

6. The chain type lifting device for upgrading the transverse stereo garage of claim 1 or 5, wherein: and the transverse moving mechanism (6) longitudinal beam C (39) and the longitudinal beam D (47) are fixedly provided with two guide rods (55) and matched with guide sleeves (56) fixed on the vehicle carrying plate (5), and the guide rods (55) and the guide sleeves (56) are matched by conical surfaces.