CN116085005A

CN116085005A - Vertical arch frame manipulator with danger eliminating function and arch frame trolley

Info

Publication number: CN116085005A
Application number: CN202310371398.9A
Authority: CN
Inventors: 胡鹏填; 杨亮; 国清华
Original assignee: Hunan Pengxiang Xingtong Automobile Co ltd
Current assignee: Hunan Pengxiang Xingtong Automobile Co ltd
Priority date: 2023-04-10
Filing date: 2023-04-10
Publication date: 2023-05-09
Anticipated expiration: 2043-04-10
Also published as: CN116085005B

Abstract

The invention belongs to the technical field of tunnel arches, in particular to an arch erecting manipulator with an evacuation function and an arch trolley, comprising an L-shaped arm; the L-shaped arm is provided with a rotary supporting seat; the rotary support base is provided with a rotary support table; a hanging basket seat is fixedly arranged on the rotary support table; a working hanging basket is fixedly arranged on the hanging basket seat; the mechanical arm is hinged with the hanging basket seat through a pin shaft; the hanging basket seat is provided with a manipulator pitching oil cylinder, and the other end of the manipulator pitching oil cylinder extends into the manipulator basic arm and is hinged with the manipulator basic arm through a pin shaft; the manipulator basic arm is connected with a manipulator extension arm in a sliding way; a lifting oil cylinder is arranged in the basic arm of the manipulator; a bottom plate is fixedly arranged on the manipulator extension arm; the bottom plate is provided with an escape mechanism; the invention is mainly used for solving the potential safety hazard to staff when the rock which does not fall is manually removed.

Description

Vertical arch frame manipulator with danger eliminating function and arch frame trolley

Technical Field

The invention belongs to the technical field of tunnel arches, and particularly relates to an arch erecting manipulator with an evacuation function and an arch trolley.

Background

At present, in the tunnel construction process, a blasting method is generally adopted to obtain a rudiment of the tunnel, residues after cleaning blasting are then supported by the surrounding vertical frames of the tunnel, and supporting work is generally completed manually or by using an arch frame installation trolley.

Before arch support is carried out, rock strata which have safety risks but do not fall down on the arch are required to be dropped in a mode of manually prizing, smashing and the like, so that the situation that the rock strata suddenly fall down to cause injury to constructors during manual support is avoided. The potential risk is eliminated, and a mode is completed by 1-2 constructors standing under an unsupported vault and using a crowbar, namely, the constructors are in a dangerous area where rocks possibly fall off;

however, when the rock which is not dropped is manually removed, if the worker is too close to the station, the rock layer is not avoided when falling off, and the worker is damaged; meanwhile, if the worker stands too far, the crowbar in the hand is long enough, but the force is not applied too long, the risk cannot be completely eliminated, and the safety of the constructor in the standing process cannot be ensured.

Disclosure of Invention

In order to make up for the deficiency of the prior art, solve the above-mentioned technical problem; the invention provides a vertical arch manipulator with an evacuation function and an arch trolley.

A vertical arch mechanical arm with a risk elimination function comprises an L-shaped arm; the L-shaped arm is provided with a rotary supporting seat; the rotary support base is provided with a rotary support table; a hanging basket seat is fixedly arranged on the rotary support table; the hanging basket seat is fixedly provided with a working hanging basket, and a control platform is arranged in the working hanging basket;

the mechanical arm is hinged with the hanging basket seat through a pin shaft; the hanging basket seat is provided with a manipulator pitching oil cylinder, and the other end of the manipulator pitching oil cylinder extends into the manipulator basic arm and is hinged with the manipulator basic arm through a pin shaft;

the manipulator basic arm is connected with a manipulator extension arm in a sliding way; a lifting oil cylinder is arranged in the basic arm of the manipulator, and the lifting oil cylinder is used for controlling the lifting of the extending arm of the manipulator; a bottom plate is fixedly arranged on the manipulator extension arm, and a mounting groove is formed in the bottom plate;

the bottom plate is provided with an escape mechanism; the danger eliminating mechanism comprises a connecting piece; the connecting piece is inserted into the mounting groove and is rotationally connected with the mounting groove; rectangular pin shafts are inserted into the connecting pieces and positioned below the bottom plate; the top of the connecting piece is provided with a universal coupling;

the top of the universal coupling is fixedly provided with a supporting frame; a crushing pick is arranged above the supporting frame; two pipe clamps are fixedly arranged on the support frame, and shock-absorbing rubber is arranged in each pipe clamp; one of the pipe clamps is arranged on the crushing pick and used for supporting the crushing pick; the other pipe clamp is arranged on the pick;

an arch bar trolley, comprising an arch bar trolley; a control room is arranged on the arch frame trolley; a crane arm is arranged on the arch frame trolley; the L-shaped arm is hinged with the lifting arm through a pin shaft; and the L-shaped arm is provided with a rotating oil cylinder, and the other end of the rotating oil cylinder is hinged with the lifting arm.

Preferably, the device further comprises a protection mechanism; the protection mechanism comprises a stop block, an annular bin, an annular plate and a protection plate;

the stop block is arranged on the pipe clamp far away from the baffle plate; the annular bin is sleeved on the pick and is in sliding connection with the pick; the stop block is connected with the annular bin through a spring; an annular plate is fixedly connected to the end face of one side of the annular bin, which is far away from the stop block; the inner wall of the annular plate is provided with uniformly arranged air holes which extend into the annular bin; the end face of one side of the annular plate, which is far away from the annular bin, is fixedly connected with a protection plate, and the protection plate is bowl-shaped; the protection plate is a transparent plate; an air pump is arranged at the bottom of the annular bin, and the air inlet end of the air pump is communicated with the annular bin; the air outlet end of the air pump is fixedly connected with an air pipe.

Preferably, a limiting rod is fixedly connected to the end face of one side of the annular bin, which is opposite to the baffle, and the limiting rod is positioned at the inner ring of the spring; a through hole is formed in the inner wall of the stop block, and the limiting rod slides in the through hole.

Preferably, a conical cylinder is arranged on the end face of one side of the annular plate, facing the pick, and the inner ring of the conical cylinder is attached to the outer surface of the pick;

the inner ring surface of the conical cylinder is fixedly connected with a spiral strip; the pick is provided with a spiral groove, and the spiral strip is meshed with the spiral groove;

an annular groove is formed in the annular plate, and the cross section of the annular groove is in a convex shape; a convex block is fixedly connected to the end face of one side, which is attached to the annular plate, of the conical cylinder, and the convex block slides in the annular groove;

the cone-shaped cylinder is fixedly connected with a cleaning rod through a connecting rod, and cleaning cotton is arranged on the cleaning rod.

Preferably, a protective layer is fixedly connected to one side, away from the annular bin, of the protective plate.

The beneficial effects of the invention are as follows:

1. according to the vertical arch frame manipulator and the arch frame trolley with the danger removing function, through the fact that the danger removing mechanism is arranged on the mechanical telescopic arm, workers can remove rocks which do not fall in a tunnel in a short distance by using the danger removing mechanism, meanwhile, as the crushing pick is arranged on the mechanical arm telescopic arm through the universal coupling, the crushing pick can knock down the rocks which do not fall in the tunnel in different directions and at different angles, compared with a mode of manually inserting the rocks into a rock seam, labor is saved, the situation that when rocks are manually removed, if the workers are too close to each other, the falling rocks cannot avoid the situation that the workers are damaged, and meanwhile, the situation that if the distance of the workers is too far, longer crow is needed, but the force is too long, risks cannot be completely removed, and the safety of the constructors cannot be guaranteed when the vertical frame is achieved can be avoided.

2. According to the vertical arch manipulator with the danger elimination function and the arch trolley, the protection plate is arranged, so that the splashed rock fragments can be blocked, and therefore the splashed rock fragments can be prevented from being splashed towards one side of a worker, the fragments can be prevented from being splashed into eyes of the worker, the working process of the worker is influenced, meanwhile, when the air pump works, dust generated when the broken pick knocks down the rock can be pumped into the annular bin through the air hole, and then the dust is discharged out of the tunnel through the air pipe, in the process, the environment in which excessive dust is scattered can be prevented, the sight of the worker is reduced, excessive dust is prevented, excessive suction of the worker is prevented, and the worker is injured.

3. According to the vertical arch manipulator with the danger eliminating function and the arch trolley, the spiral strips are meshed with the spiral grooves, so that the conical barrel is driven to rotate, the convex blocks rotate in the annular grooves in the rotating process of the conical barrel, and the cleaning rods are driven to rotate in the rotating process of the conical barrel, so that the cleaning rods can clean the protection plates, excessive dust is prevented from adhering to the protection plates, and the visibility of the protection plates is affected.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is an overall view of an arch trolley of the present invention;

FIG. 2 is a perspective view of an L-arm and a work basket of the present invention;

FIG. 3 is a side view of the L-arm and work basket of the present invention;

FIG. 4 is a side view of the L-arm and work basket of the present invention;

FIG. 5 is a perspective view of the base arm and the evacuation mechanism of the robot of the present invention;

FIG. 6 is a perspective view of the evacuation mechanism of the present invention;

FIG. 7 is a rear view of the evacuation mechanism of the present invention;

FIG. 8 is a side view of the safety gear assembly of the present invention with the protective mechanism installed;

FIG. 9 is an enlarged view of a portion of FIG. 8A in accordance with the present invention;

fig. 10 is an enlarged view of a portion of fig. 8B in accordance with the present invention.

In the figure:

1. an arch frame trolley; 11. a boom; 12. rotating the oil cylinder; 2. an L-shaped arm; 21. a rotary supporting seat; 22. a rotary support table; 23. a hanging basket seat; 24. a working basket; 3. a manipulator base arm; 31. a manipulator pitching oil cylinder; 32. a manipulator extension arm; 33. a bottom plate; 34. a mounting groove; 35. a lifting oil cylinder; 4. an escape mechanism; 41. a connecting piece; 42. rectangular pin shafts; 43. a universal coupling; 44. a support frame; 45. crushing a pick; 46. a pipe clamp; 47. pick head; 5. a protective mechanism; 51. a stop block; 52. an annular bin; 53. an annular plate; 54. air holes; 55. a protection plate; 56. an air pump; 57. an air pipe; 58. a limit rod; 59. a through hole; 6. a conical cylinder; 61. a spiral strip; 62. a spiral groove; 63. an annular groove; 64. a male block; 65. cleaning a rod; 66. and (5) a protective layer.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 10, the present invention relates to an arch erecting manipulator with an evacuation function and an arch trolley, which specifically comprises the following steps:

in a general embodiment, an arch centering manipulator with an evacuation function comprises an L-shaped arm 2; the L-shaped arm 2 is provided with a rotary supporting seat 21; a rotary support table 22 is mounted on the rotary support seat 21; a hanging basket seat 23 is fixedly arranged on the rotary support table 22; a working hanging basket 24 is fixedly arranged on the hanging basket seat 23, and a control platform is arranged in the working hanging basket 24;

the device also comprises a manipulator basic arm 3, wherein the manipulator basic arm 3 is hinged with the hanging basket seat 23 through a pin shaft; the manipulator pitching oil cylinder 31 is arranged on the hanging basket seat 23, and the other end of the manipulator pitching oil cylinder 31 extends into the manipulator basic arm 3 and is hinged with the manipulator basic arm 3 through a pin shaft;

the manipulator basic arm 3 is connected with a manipulator extension arm 32 in a sliding way; a lifting oil cylinder 35 is arranged in the manipulator basic arm 3, and the lifting oil cylinder 35 is used for controlling the lifting of the manipulator extension arm 32; a bottom plate 33 is fixedly arranged on the manipulator extension arm 32, and a mounting groove 34 is formed in the bottom plate 33;

the bottom plate 33 is provided with an escape mechanism 4; the risk elimination mechanism 4 comprises a connecting piece 41; the connecting piece 41 is inserted into the mounting groove 34 and is rotationally connected with the mounting groove 34; a rectangular pin shaft 42 is inserted into the connecting piece 41 below the bottom plate 33; the top of the connecting piece 41 is provided with a universal coupling 43;

a supporting frame 44 is fixedly arranged at the top of the universal coupling 43; a crushing pick 45 is arranged above the supporting frame 44; two pipe clamps 46 are fixedly arranged on the supporting frame 44, and shock-absorbing rubber is arranged in each pipe clamp 46; one of the pipe clamps 46 is mounted on the crushing pick 45 and is used for supporting the crushing pick 45; the other of the pipe clamps 46 is mounted on a pick 47;

an arch support trolley comprises an arch support trolley 1; a control room is arranged on the arch center trolley 1; a crane arm 11 is arranged on the arch support trolley 1; the L-shaped arm 2 is hinged with the lifting arm 11 through a pin shaft; a rotary oil cylinder 12 is arranged on the L-shaped arm 2, and the other end of the rotary oil cylinder 12 is hinged with a crane arm 11;

specifically, when rocks which do not fall in a tunnel are removed, a worker on a driving seat pours the arch trolley 1 into the tunnel, then a worker who does not fall in the tunnel stands in the working basket 24, then the worker on the driving seat controls the lifting arm 11 to lift, meanwhile controls the rotary oil cylinder to work, the working basket 24 is always parallel to the ground, after the working basket 24 moves up to a proper height, the lifting arm 11 and the rotary oil cylinder are controlled to stop working, and then the worker standing in the working basket 24 can remove the rocks which do not fall;

when removing the rock which is not dropped in the tunnel, a worker stands in the hanging basket, as the crushing pick 45 is installed on the universal coupler 43 through the supporting frame 44, and the universal coupler 43 is rotationally connected with the installation groove 34 through the connecting piece 41, when the worker removes the rock which is not dropped by using the crushing pick 45, the worker holds the crushing pick 45 by hand, then adjusts the angle of the body of the crushing pick 45 and the angle of the adjusting pick 47, finally enables the pick 47 to aim at the rock which is not dropped, then starts the crushing pick 45, after the crushing pick 45 is started, the crushing pick 45 can impact the rock which is not dropped, so that the rock which is not dropped can be knocked down, and because of the existence of the universal coupler 43, the worker can manually rotate the crushing pick 45, so that the direction of the crushing pick 45 and the angle of the pick 47 can be adjusted, so that the rock which is not dropped in the working range of the crushing pick 45 can be knocked down by using the crushing pick 45, when the rock which is not dropped by using the crushing pick 45 is required to be aligned with the rock which is not dropped, and the lifting arm 35 is controlled by the lifting worker to push the lifting arm or the lifting mechanism to stretch the rock which is not dropped by the extension platform 32, so that the lifting mechanism can be contracted or not dropped by the extension platform;

when the rock which is not dropped in the working range of the crushing pick 45 is completely knocked down, a worker standing in the working basket 24 controls the rotation of the rotary support table 22 through the control platform, and in the process of rotating the rotary support table 22, the basket seat 23, the working basket 24, the manipulator basic arm 3 and the danger discharging mechanism 4 are driven to rotate, and when the rock is not dropped, the rotation of the rotary support table 22 is controlled to stop, and then the worker knocks down the rock which is not dropped by the crushing pick 45 again;

when the rocks which do not fall on the side wall of the tunnel are required to be removed, a worker controls the manipulator pitching oil cylinder 31 to stretch and retract through the control platform, so that the manipulator basic arm 3 can be driven to rotate, the danger removing mechanism 4 can be driven to rotate after the manipulator basic arm 3 rotates, then the rocks which do not fall on the side wall of the tunnel can be knocked down, and when the rocks which do not fall on other positions of the tunnel are required to be removed, the worker on the driving seat can control the arch trolley 1 to move in the tunnel;

the danger removing mechanism 4 is arranged on the mechanical telescopic arm, so that workers can remove rocks which do not fall in a tunnel by utilizing the danger removing mechanism 4 in a short distance, meanwhile, as the crushing pick 45 is arranged on the mechanical arm extension arm 32 through the universal coupling 43, the crushing pick 45 can knock down the rocks which do not fall in the tunnel in different directions and at different angles, compared with the mode of manually inserting the rocks into a rock slot, the labor is saved, the situation that when the workers remove the rocks manually, if the workers stand too close, the fallen rocks are not avoided, the damage to the workers can be caused, and meanwhile, if the distance between the workers stand is too far, the longer crow is required, but the force is too long, the risk cannot be completely removed, and the safety of the constructors cannot be guaranteed when the workers stand;

after the removal of the rocks not dropped in the tunnel is completed, the worker pulls out the rectangular pin shaft 42 from the connector 41, and then the danger removing mechanism 4 can be detached.

Another embodiment based on the general embodiment further comprises a protection mechanism 5; the protection mechanism 5 comprises a stop block 51, an annular bin 52, an annular plate 53 and a protection plate 55;

the stop 51 is mounted on the pipe clamp 46 remote from the baffle; the annular bin 52 is sleeved on the pick 47 and is in sliding connection with the pick 47; the stop block 51 is connected with the annular bin 52 through a spring; an annular plate 53 is fixedly connected to the end surface of one side of the annular bin 52, which is far away from the stop block 51; the inner wall of the annular plate 53 is provided with uniformly arranged air holes 54, and the air holes 54 extend into the annular bin 52; the end surface of one side of the annular plate 53 far away from the annular bin 52 is fixedly connected with a protection plate 55, and the protection plate 55 is bowl-shaped; the protection plate 55 is a transparent plate; an air pump 56 is arranged at the bottom of the annular bin 52, and an air inlet end of the air pump 56 is communicated with the annular bin 52; an air pipe 57 is fixedly connected with the air outlet end of the air pump 56;

specifically, before the worker uses the breaking pick 45, the protection mechanism 5 may be installed on the breaking pick 45, when the breaking pick 45 with the protection mechanism 5 installed works, the worker may align the pick 47 with the rock to be knocked down through the protection plate 55 because the protection plate 55 is a transparent plate, when the pick 47 contacts with the rock, the protection plate 55 contacts with the rock on the outer ring of the pick 47, during the process of gradually extending the pick 47 into the rock, the protection plate 55 moves on the pick 47 toward the stop block 51 under the obstruction of the rock, at this time, the annular bin 52 compresses the spring, and during the process of knocking down the rock by the pick 47, the guard plate 55 will block the splashed rock fragments, thereby prevent the rock fragments from splashing towards one side of the staff, thereby prevent the fragments from splashing into eyes of the staff, and influence the working process of the staff, and meanwhile, when the air pump 56 works, the broken pick 45 can be used for knocking down the rocks, the generated dust is pumped into the annular bin 52 through the air hole 54, and then the dust is discharged out of the tunnel through the air pipe 57, in the process, the excessive dust can be prevented from drifting out, the sight of the staff is reduced, and meanwhile, the excessive dust is prevented from being sucked in, so that the staff is injured.

In the specific implementation process, a limiting rod 58 is fixedly connected to the end surface of one side of the annular bin 52 opposite to the baffle plate, and the limiting rod 58 is positioned at the inner ring of the spring; a through hole 59 is formed in the inner wall of the stop block 51, and the limit rod 58 slides in the through hole 59;

specifically, when the annular magazine 52 moves toward the stop 51, the stop rod 58 follows the annular magazine 52 and gradually extends out of the through hole 59 in the stop 51, and during this process, the stop rod 58 can stop the annular magazine 52, thereby preventing the annular magazine 52 from rotating on the pick 47.

In the specific implementation process, the end face of one side of the annular plate 53, which faces towards the pick 47, is provided with a conical cylinder 6, and the inner ring of the conical cylinder 6 is attached to the outer surface of the pick 47;

the inner ring surface of the conical cylinder 6 is fixedly connected with a spiral strip 61; the pick 47 is provided with a spiral groove 62, and the spiral strip 61 is meshed with the spiral groove 62;

an annular groove 63 is formed in the annular plate 53, and the cross section of the annular groove 63 is in a convex shape; a convex block 64 is fixedly connected to the end surface of one side, which is attached to the annular plate 53, of the conical cylinder 6, and the convex block 64 slides in the annular groove 63;

the cone-shaped cylinder 6 is fixedly connected with a cleaning rod 65 through a connecting rod, and cleaning cotton is arranged on the cleaning rod 65;

specifically, since the conical cylinder 6 is arranged on the side of the annular plate 53 facing the pick 47, when the pick 47 is separated from rock, the annular bin 52 gradually restores to the initial state under the action of the spring, and meanwhile, the conical cylinder 6 is driven to move towards the tip of the pick 47, and dust adhered to the pick 47 can be broken stone and pushed away in the moving process of the conical cylinder 6;

in the process that the pick 47 gradually stretches into the rock, at this moment, the protection plate 55 moves towards the stop block 51 side on the pick 47 under the obstruction of the rock, the spiral strip 61 is meshed with the spiral groove 62, so that the conical cylinder 6 is driven to rotate, the convex block 64 can rotate in the annular groove 63 in the process of rotating the conical cylinder 6, and the cleaning rod 65 can be driven to rotate in the process of rotating the conical cylinder 6, so that the cleaning rod 65 can clean the protection plate 55, excessive dust is prevented from adhering to the protection plate 55, and the visibility of the protection plate 55 is affected.

In the specific implementation process, a protective layer 66 is fixedly connected to one side, away from the annular bin 52, of the protective plate 55; specifically, since the protection layer 66 is fixedly connected to the protection plate 55, the protection plate 55 can be better attached to the rock due to the protection layer 66, excessive broken stone can be prevented from splashing out of gaps between the protection plate 55 and the rock, and excessive dust can be prevented from flying in the environment.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A vertical arch manipulator with an evacuation function comprises an L-shaped arm (2); a rotary supporting seat (21) is arranged on the L-shaped arm (2); a rotary support table (22) is arranged on the rotary support seat (21); a hanging basket seat (23) is fixedly arranged on the rotary support table (22); a working hanging basket (24) is fixedly arranged on the hanging basket seat (23), and a control platform is arranged in the working hanging basket (24); the device is characterized by further comprising a manipulator basic arm (3), wherein the manipulator basic arm (3) is hinged with the hanging basket seat (23) through a pin shaft; the manipulator pitching oil cylinder (31) is arranged on the hanging basket seat (23), and the other end of the manipulator pitching oil cylinder (31) extends into the manipulator basic arm (3) and is hinged with the manipulator basic arm (3) through a pin shaft; a manipulator extension arm (32) is connected in a sliding manner in the manipulator basic arm (3); a lifting oil cylinder (35) is arranged in the manipulator basic arm (3), and the lifting oil cylinder (35) is used for controlling the lifting of the manipulator extension arm (32); a bottom plate (33) is fixedly arranged on the manipulator extension arm (32), and a mounting groove (34) is formed in the bottom plate (33); the bottom plate (33) is provided with an escape mechanism (4); the danger elimination mechanism (4) comprises a connecting piece (41); the connecting piece (41) is inserted into the mounting groove (34) and is rotationally connected with the mounting groove (34); a rectangular pin shaft (42) is inserted into the connecting piece (41) below the bottom plate (33); the top of the connecting piece (41) is provided with a universal coupling (43); a supporting frame (44) is fixedly arranged at the top of the universal coupling (43); a crushing pick (45) is arranged above the supporting frame (44); two pipe clamps (46) are fixedly arranged on the support frame (44), and shock-absorbing rubber is arranged in each pipe clamp (46); one of the pipe clamps (46) is arranged on the crushing pick (45) and is used for supporting the crushing pick (45); the other pipe clamp (46) is mounted on a pick (47).

2. The vertical arch manipulator with risk elimination function according to claim 1, wherein: also comprises a protection mechanism (5); the protection mechanism (5) comprises a stop block (51), an annular bin (52), an annular plate (53) and a protection plate (55); the stop block (51) is arranged on the pipe clamp (46) far away from the baffle plate; the annular bin (52) is sleeved on the pick (47) and is in sliding connection with the pick (47); the stop block (51) is connected with the annular bin (52) through a spring; an annular plate (53) is fixedly connected to the end face of one side of the annular bin (52) far away from the stop block (51); air holes (54) which are uniformly distributed are formed in the inner wall of the annular plate (53), and the air holes (54) extend into the annular bin (52); the end face of one side, far away from the annular bin (52), of the annular plate (53) is fixedly connected with a protection plate (55), and the protection plate (55) is bowl-shaped; the protection plate (55) is a transparent plate; an air pump (56) is arranged at the bottom of the annular bin (52), and the air inlet end of the air pump (56) is communicated with the annular bin (52); an air pipe (57) is fixedly connected with the air outlet end of the air pump (56).

3. The vertical arch manipulator with risk elimination function according to claim 2, wherein: a limiting rod (58) is fixedly connected to the end face of one side, opposite to the baffle, of the annular bin (52), and the limiting rod (58) is positioned at the inner ring of the spring; a through hole (59) is formed in the inner wall of the stop block (51), and the limiting rod (58) slides in the through hole (59).

4. A vertical arch manipulator with danger elimination function according to claim 3, characterized in that: the annular plate (53) is provided with a conical cylinder (6) towards one side end face of the pick (47), and the inner ring of the conical cylinder (6) is attached to the outer surface of the pick (47).

5. The vertical arch manipulator with risk elimination function according to claim 4, wherein: the inner ring surface of the conical cylinder (6) is fixedly connected with a spiral strip (61); the pick (47) is provided with a spiral groove (62), and the spiral strip (61) is meshed with the spiral groove (62); an annular groove (63) is formed in the annular plate (53), and the cross section of the annular groove (63) is in a convex shape; the conical cylinder (6) is fixedly connected with a convex block (64) on one end face of the annular plate (53), and the convex block (64) slides in the annular groove (63).

6. The vertical arch manipulator with risk elimination function according to claim 5, wherein: the cone-shaped cylinder (6) is fixedly connected with a cleaning rod (65) through a connecting rod, and cleaning cotton is arranged on the cleaning rod (65).

7. A vertical arch manipulator with danger elimination function according to claim 3, characterized in that: and a protective layer (66) is fixedly connected to one side, away from the annular bin (52), of the protective plate (55).

8. An arch center trolley, characterized in that: a vertical arch manipulator with an evacuation function suitable for any one of the above claims 1-7, comprising an arch trolley (1); a control room is arranged on the arch center trolley (1); a crane arm (11) is arranged on the arch frame trolley (1); the L-shaped arm (2) is hinged with the lifting arm (11) through a pin shaft; the L-shaped arm (2) is provided with a rotating oil cylinder (12), and the other end of the rotating oil cylinder (12) is hinged with the lifting arm (11).