CN216574584U - Circulating ventilation system of energy-saving air shower - Google Patents

Abstract

The utility model relates to a circulating and ventilating system of an energy-saving air shower, which relates to the field of air shower equipment, and comprises an air shower, wherein gas arranged in the air shower is blown to shower components and is used for blowing to the gas to shower circulating air guide mechanisms of the component air supply, the gas is blown to shower components comprises a nozzle and an air conveying cover, the nozzle is rotatably arranged on the side wall of the air shower, the air conveying cover is arranged on the outer wall of the air shower, the air inlet of the nozzle is positioned in the air conveying cover, the air cover is provided with an air inlet, the air inlet is communicated with the air outlet end of the circulating air guide mechanism, the nozzle is fixedly connected with a swing arm, one side of the swing arm is provided with a swing mechanism used for driving the swing of the swing arm, the swing mechanism is positioned in the air conveying cover, the plane where the swing track of the nozzle is controlled by the swing arm is perpendicular to the track of people walking in the air shower, this application has fully to blow the health that drenches staff, the effect of good dust removal.

Description

Circulating ventilation system of energy-saving air shower

Technical Field

The application relates to the field of air shower equipment, in particular to a circulating ventilation system of an energy-saving air shower.

Background

In laboratory instrument, in the manufacturing industry of medicine and precision instrument, production and processing process need go on in highly dustless room, because staff's mobility is great, staff can carry the dust before getting into the dustless room on one's body, in order to get rid of the dust on one's body of staff, the entrance of dustless room can be provided with the wind shower, after the staff gets into the wind shower, blow at its clean air and drench down, the dust on one's body of staff can be got rid of, make the cleanliness factor on one's body of staff reach the requirement of dustless room.

The Chinese patent document with the publication number of CN108480319A discloses an air shower, which comprises an air shower body and a blowing and sprinkling mechanism, wherein two sides of the air shower body are of cavity structures, the blowing and sprinkling mechanism is provided with two cavities and is respectively arranged in the cavity structures at two sides of the air shower, the blowing and sprinkling mechanism comprises a fan, a primary filter, a high-efficiency filter and a nozzle, the primary filter is arranged at the lower end of the inner side wall of the air shower and is communicated with an air shower channel, the fan and the high-efficiency filter are arranged in the space structures at two sides of the air shower body, the nozzle is fixed on the inner side wall of the air shower body, an air inlet of the fan is communicated with the primary filter, an air outlet of the fan is communicated with the high-efficiency filter, an air outlet of the high-efficiency filter is communicated with the nozzle, and filtered clean air is sprayed out of the nozzle, so that the circulation of the air is realized.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the nozzles fixed on the air shower body are provided with a plurality of groups, and each group of nozzles are arranged at intervals along the vertical direction, so that the spraying area of the nozzles has a certain distance in the vertical direction, and the partial area on the body of a worker cannot be blown to spray, so that the dust removal effect on the body of the worker cannot be well achieved.

SUMMERY OF THE UTILITY MODEL

In order to enable the body of a worker to be fully blown and drenched and achieve a good dust removal effect, the application provides a circulating ventilation system of an energy-saving air shower.

The application provides a circulating ventilation system of energy-saving air shower adopts following technical scheme: including the wind leaching rooms, install the gaseous circulation air guide mechanism that drenches the subassembly and be used for to gaseous circulation air guide mechanism that drenches the subassembly air feed that blows in the wind leaching rooms, gaseous blowing drenches the subassembly and includes nozzle and air delivery cover, the nozzle rotates to set up on the lateral wall of wind leaching rooms, the air delivery cover sets up the outer wall in the wind leaching rooms just the air intake of nozzle is located in the air delivery cover, be equipped with the air input port on the air cover, the air input port with circulation air guide mechanism's air-out end intercommunication, the rigid coupling has the swing arm on the nozzle, one side of swing arm is equipped with and is used for driving swing arm wobbling swing mechanism, just swing mechanism is located in the air delivery cover, swing arm control the plane at nozzle wobbling orbit place with the orbit looks vertical of pedestrian's walking in the wind leaching rooms.

By adopting the technical scheme, after a worker enters the channel of the air shower, the circulating air guide mechanism and the swing mechanism are started, under the action of the circulating air guide mechanism, air in the air shower is sucked from the air inlet end of the circulating air guide mechanism, the sucked air is conveyed to the nozzle from the air outlet end of the circulating air guide mechanism through the air conveying cover, clean air is blown out of the channel of the air shower through the nozzle, in the blowing-out process of the air, the swing mechanism drives the swing arm to swing, the nozzle is driven to swing, the plane of the swinging track of the nozzle is perpendicular to the walking track of the worker in the air shower, the blowing angle is constantly changed, the body of the worker can be fully blown and showered, the good dust removal effect is achieved, meanwhile, the blowing efficiency can be improved, the blowing time is saved, and the circulating ventilation system is more energy-saving.

Optionally, the swing mechanism comprises a push rod, a connecting rod, a rotating rod and a driving component for driving the rotating rod to rotate, the rotating rod is provided with two rotating rods which are arranged at a same interval, the two rotating rods are all rotatably arranged on the air shower, the rotating axis is parallel to the track of the person walking in the air shower, the driving component is arranged at one end of the rotating rod far away from the other rotating rod, the connecting rod is provided with two connecting rods, one end of each connecting rod is fixedly connected to one end of each rotating rod close to the other end of each rotating rod, the axis of each connecting rod is perpendicular to the track of the person walking in the air shower, the two ends of the push rod are respectively connected to one end of each connecting rod far away from the rotating rod, and the axis of the push rod is parallel to the track of the person walking in the air shower, the air shower is characterized in that the swing arm is provided with a sliding through hole, the length arrangement direction of the sliding through hole is perpendicular to the walking track of the pedestrians in the air shower, and the pushing rod penetrates through the sliding through hole.

Through adopting above-mentioned technical scheme, drive assembly starts the back, drive assembly drives the dwang and rotates, the dwang drives the connecting rod and rotates, support the push rod and rotate along the axis of dwang under the drive of connecting rod, the dwang is continuous to rotate or endless along clockwise or anticlockwise rotate and all can make and support the cyclic nozzle of being close to and keeping away from of push rod, when supporting the push rod and being close to the nozzle, support the lower surface butt of push rod and slip through-hole, the swing arm downswing, the air outlet upswing of nozzle, when supporting the push rod and keeping away from the nozzle, support the upper surface butt of push rod and slip through-hole, the swing arm upswing, the air outlet downswing of nozzle, thereby make the air outlet endless luffing motion of nozzle, the motion state of nozzle can be controlled to the motion state of control dwang, operation process is simple.

Optionally, the nozzle has laid the multiunit at vertical direction interval, swing mechanism is provided with the multiunit, the multiunit swing mechanism and multiunit the nozzle one-to-one, every group the nozzle has laid a plurality ofly at the horizontal direction interval, the swing arm is provided with a plurality ofly, one the swing arm is with one the nozzle is corresponding, it runs through a plurality ofly of every group to support the push rod the slip through-hole.

Through adopting above-mentioned technical scheme, support the push rod and drive the synchronous swing of a set of nozzle, every group nozzle corresponds a set of drive assembly, and the motion state between every group drive assembly is mutually independent, can realize the difference of the angle of blowing between the multiunit nozzle, and staff's health can obtain blowing of different angles and drench, has further improved the efficiency of removing dust to staff's health.

Optionally, the drive assembly is motor and shaft coupling, the motor is fixed in on the air shower casing, the coaxial rigid coupling of one end of shaft coupling in one another is kept away from to the dwang the one end of dwang, the coaxial rigid coupling of the other end of shaft coupling in on the output shaft of motor.

Through adopting above-mentioned technical scheme, the shaft coupling can be convenient stable with the power transmission to the dwang of motor, make the dwang rotate along a direction in succession.

Optionally, drive assembly is actuating lever and cylinder, actuating lever rigid coupling in one another is kept away from to the dwang the one end of dwang, the actuating lever slides to inlay and is equipped with the slider, and the direction of sliding with the axis of dwang is mutually perpendicular, the cylinder is fixed in on the inner wall of air transportation cover, the output shaft and the slider of cylinder rotate to be connected, and the orbit that the pedestrian walked in axis of rotation and the wind shower paralleled.

Through adopting above-mentioned technical scheme, when the output shaft of cylinder stretches out, the output shaft of cylinder promotes the slider motion, under the effect of pushing away of the support of slider, the actuating lever rotates and then drives the dwang rotation along the axis of dwang, when the output shaft withdrawal of cylinder, the output shaft pulling slider of cylinder moves to opposite direction, makes the dwang rotate to opposite direction, the cylinder endless stretches out and the withdrawal messenger supports the endless nozzle of being close to of push-rod and keeping away from, and then makes the swing arm drive the nozzle and carry out reciprocating swing.

Optionally, the pushing rod is coaxially sleeved with a plurality of bearings, the bearings correspond to the nozzles one to one, and the bearings are located in the sliding through holes.

By adopting the technical scheme, the bearing changes the reciprocating sliding of the pushing rod in the sliding through hole into the reciprocating rolling of the bearing in the sliding through hole, so that the friction loss generated in the motion process of the pushing rod is reduced, and the service life of the circulating ventilation system of the energy-saving air shower is prolonged.

Optionally, the circulation air guide mechanism includes fan, primary air cleaner and high-efficient air cleaner, primary air cleaner installs the lower extreme at the wind drenches indoor wall, primary air cleaner's income wind gap with the passageway intercommunication of wind drenches room, the income wind gap of fan with primary air cleaner's air outlet intercommunication, the air outlet of fan with high-efficient air cleaner's income wind gap intercommunication, high-efficient air cleaner's air outlet with air input port intercommunication.

Through adopting above-mentioned technical scheme, the fan starts the back, and the air in the passageway of air shower gets into the fan through the filtration of primary filter, and fan exhaust air further filters through high efficiency filter, and the clean air of air outlet exhaust from high efficiency filter discharges to the air shower passageway from the nozzle through the air transportation cover, has realized the circulation of the air in the air shower passageway.

Optionally, an anti-drop groove is formed in the swing arm, the anti-drop groove is located in the sliding through hole, and the bearing is located in the anti-drop groove.

Through adopting above-mentioned technical scheme, the anticreep groove makes the bearing be difficult for deviating from in the slip through-hole, has promoted the stability that the nozzle swing was bloied to promote energy-saving air shower's circulating ventilation system's stability.

In summary, the present application includes at least one of the following beneficial technical effects:

1. after the worker enters the channel of the air shower, the circulating air guide mechanism and the swing mechanism are started, the nozzle is circularly sprayed out to clean the body of the worker, the swing mechanism drives the swing arm to swing in the blowing process of air, so that the nozzle is driven to swing, the plane of the swinging track of the nozzle is perpendicular to the walking track of the worker in the air shower, the blowing angle is continuously changed, the body of the worker can be fully blown and showered, and a good dust removal effect is achieved;

2. the pushing rod drives a group of nozzles to synchronously swing, each group of nozzles corresponds to a group of driving assemblies, the motion states of each group of driving assemblies are mutually independent, the difference of air blowing angles among the groups of nozzles can be realized, the body of a worker can be blown and showered at different angles, and the efficiency of removing dust on the body of the worker is further improved;

3. the bearing is arranged on the pushing rod, the rolling of the bearing in the sliding through hole replaces the sliding of the pushing rod in the sliding through hole when no bearing exists, the friction loss generated in the movement process of the pushing rod is reduced, and the service life of the circulating ventilation system of the energy-saving air shower is prolonged.

Drawings

FIG. 1 is a schematic overall structure diagram of a first embodiment of the present application;

FIG. 2 is a schematic view of the connection structure of the gas shower module, the swing mechanism and the circulating gas guide mechanism in the first embodiment of the present application;

FIG. 3 is a schematic connection diagram of a swing mechanism according to an embodiment of the present application;

FIG. 4 is an enlarged partial schematic view of portion A of FIG. 2;

FIG. 5 is a schematic structural diagram of a second embodiment of the present application;

fig. 6 is a partially enlarged schematic view of a portion B in fig. 5.

Reference numerals: 1. an air shower; 2. a gas shower assembly; 21. a nozzle; 211. swinging arms; 2111. a slide through hole; 2112. a drop-proof groove; 22. an air delivery hood; 221. an air input port; 3. a circulating gas guide mechanism; 31. a fan; 32. a primary air filter; 33. a high efficiency air filter; 4. a swing mechanism; 41. pushing the push rod; 42. a connecting rod; 43. rotating the rod; 44. a drive assembly; 441. a motor; 442. a coupling; 443. a drive rod; 444. a cylinder; 5. a slider; 6. a bearing; 7. a protective shell; 8. and (7) mounting the plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a circulating ventilation system of an energy-saving air shower.

Example 1:

referring to fig. 1 and 2, the circulating ventilation system of the energy-saving air shower includes an air shower 1, a set of circulating air guide mechanism 3 and a set of gas shower component 2 are symmetrically arranged on two opposite side walls of the air shower 1, the suction end of the circulating air guide mechanism 3 is communicated with the channel of the air shower 1, the air outlet end of the circulating air guide mechanism 3 is communicated with the air inlet end of the gas shower component 2, clean air is discharged to the channel of the air shower 1 from the air outlet end of the gas shower component 2, protective cases 7 are mounted on two sides of the air shower 1, and the circulating air guide mechanism 3 and the gas shower component 2 are located in the protective cases 7.

The circulating air guide mechanism 3 comprises a fan 31, a primary air filter 32 and a high-efficiency air filter 33, the primary air filter 32 is installed at the lower end of the inner wall of the air shower 1, an air inlet of the primary air filter 32 is communicated with the channel of the air shower 1, the fan 31 is installed at the lower end of the outer wall of the air shower 1, an air inlet of the fan 31 is communicated with an air outlet of the primary air filter 32, the high-efficiency filter is installed above the fan 31, and an air inlet of the high-efficiency filter is communicated with an air outlet of the fan 31.

Gaseous component 2 that drenches that blows includes nozzle 21 and air transportation cover 22, nozzle 21 is provided with the multiunit along vertical direction, every group nozzle 21 has laid a plurality ofly along the horizontal direction, a plurality of nozzles 21 all articulate on the lateral wall of wind leaching rooms 1, and the orbit that the articulated axis walked with the interior pedestrian of wind leaching rooms 1 parallels, the income wind gap and the air outlet of nozzle 21 bulge respectively in the lateral wall and the inside wall of wind leaching rooms 1, air transportation cover 22 seals through the sealed processing of silicone sealant through the bolt fastening at the outer wall of wind leaching rooms 1 and junction, the income wind gap of a plurality of nozzles 21 all is located air transportation cover 22, air transportation cover 22 has been close to one side of high efficiency filter and has been seted up air input 221, high efficiency filter's air outlet and air input 221 are linked together, clean air is carried to spout to wind leaching rooms 1 passageway behind the nozzle 21.

Referring to fig. 3 and 4, in order to enable the nozzles 21 to swing up and down, so that the body of a worker can be sufficiently blown and showered, and a good dust removing effect is achieved, a plurality of sets of swing mechanisms 4 are arranged in the air delivery cover 22, the plurality of sets of swing mechanisms 4 correspond to the plurality of sets of nozzles 21 one by one, each swing mechanism 4 comprises a push rod 41, a connecting rod 42, a rotating rod 43 and a driving assembly 44 arranged on the rotating rod 43, the driving assembly 44 is used for driving the rotating rod 43 to rotate, the driving assembly 44 comprises a motor 441 and a coupler 442, two mounting plates 8 are butt-welded on the outer wall of the air shower 1, the motor 441 is fixed on one of the mounting plates 8, an output shaft of the motor 441 penetrates through the mounting plate 8 adjacent to the motor 441 and is arranged towards the mounting plate 8 far away from the motor 441, the rotating rod 43 is arranged with two coaxial intervals, one end of one rotating rod 43 is coaxially and fixedly connected to the output shaft of the motor 441 through the coupler 442, the one end of another dwang 43 is rotated and is installed on another mounting panel 8, and the orbit that the pedestrian walked in axis of rotation and the wind leaching rooms 1 parallels, connecting rod 42 is provided with two, the one end of two connecting rods 42 welds the one end that is close to mutually at two dwang 43 respectively, and the orbit that the pedestrian walked in two connecting rods 42 and the wind leaching rooms 1 is mutually perpendicular, the both ends that support push rod 41 weld respectively in the one end that dwang 43 was kept away from to two connecting rods 42, and the orbit that the pedestrian walked in axis and the wind leaching rooms 1 that supports push rod 41 parallels.

Swing arms 211 are welded at one ends, close to air inlets of the nozzles 21, of the nozzles 21 in each group, sliding through holes 2111 are formed in the swing arms 211, the length distribution direction of the sliding through holes 2111 is perpendicular to the walking track of pedestrians in the air shower 1, a plurality of bearings 6 are coaxially sleeved on the pushing rods 41, and the plurality of bearings 6 correspond to the sliding through holes 2111 one to one and are located in the sliding through holes 2111.

In order to prevent the bearing 6 from coming out of the sliding through hole 2111 and improve the stability of the nozzle 21 in swinging and blowing, an anti-falling groove 2112 is formed in the inner bottom wall of the sliding through hole 2111, and one side of the bearing 6 is located in the anti-falling groove 2112.

The implementation principle of the embodiment 1 is as follows: when a worker enters a channel of the air shower, the fan 31 and the motor 441 are started, air in the air shower 1 is sucked from an air inlet of the primary filter, the sucked air is conveyed to the high-efficiency filter through the fan 31, the filtered air is conveyed to the nozzle 21 through the air conveying cover 22, clean air is blown out to the channel of the air shower 1 through the nozzle 21, the rotating rod 43 continuously rotates in one direction in the air spraying process, and then the bearing 6 sleeved on the pushing rod 41 is driven to circularly push the upper surface and the lower surface of the sliding through hole 2111, so that the swinging arm 211 drives the nozzle 21 to circularly swing up and down, the blowing angle is continuously changed, the body of the worker can be fully blown and showered, and a good dust removal effect is achieved; because a plurality of motors 441 independently move, the blowing angles of each group of nozzles 21 can be different, and the body of a worker can be blown at different angles in the blowing process, so that the dust removal efficiency of the body of the worker is improved.

Example 2:

referring to fig. 5 and 6, the present embodiment is different from embodiment 1 in that two rotating levers 43 are respectively rotatably mounted on two mounting plates 8, the rotation axis is parallel to the walking track of the pedestrian in the air shower 1, the driving assembly 44 comprises a driving rod 443 and an air cylinder 444, the air cylinder 444 is fixed on the inner wall of the air conveying cover 22 opposite to the nozzle 21, one end of one rotating rod 43 far away from the pushing rod 41 protrudes out of the mounting plate 8 adjacent to the rotating rod, the driving rod 443 is welded at one end of the rotating rod 43 protruding out of the mounting plate 8 adjacent to the rotating rod, a T-shaped groove is formed in one side, close to the air cylinder 444, of the driving rod 443, the length distribution direction of the T-shaped groove is perpendicular to the walking track of the pedestrian in the air shower 1, a T-shaped sliding block 5 is embedded in the T-shaped groove, the output shaft of the air cylinder 444 is hinged to the sliding block 5, and the hinge axis is parallel to the walking track of the pedestrian in the air shower 1.

The output shaft of the cylinder 444 circularly extends and retracts, so that the driving rod 443 circularly rotates clockwise or counterclockwise along the axis of the rotating rod 43, the rotating rod 43 circularly rotates clockwise or counterclockwise under the driving of the driving rod 443, and then the bearing 6 sleeved on the pushing rod 41 is driven to circularly push the upper surface and the lower surface of the sliding through hole 2111, so that the swing arm 211 drives the nozzle 21 to circularly swing up and down.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a circulating ventilation system of energy-saving wind leaching rooms, includes wind leaching rooms (1), installs that the gas in wind leaching rooms (1) blows and drenches subassembly (2) and be used for to gas blow and drench circulation air guide mechanism (3) that subassembly (2) supplied air, its characterized in that: the gas blowing and sprinkling assembly (2) comprises a nozzle (21) and an air conveying cover (22), the nozzle (21) is rotatably arranged on the side wall of the air shower (1), the air conveying cover (22) is arranged on the outer wall of the air shower (1) and the air inlet of the nozzle (21) is positioned in the air conveying cover (22), an air inlet (221) is arranged on the air hood, the air inlet (221) is communicated with the air outlet end of the circulating air guide mechanism (3), a swing arm (211) is fixedly connected on the nozzle (21), a swing mechanism (4) for driving the swing arm (211) to swing is arranged on one side of the swing arm (211), and the swing mechanism (4) is positioned in the air conveying cover (22), and the swing arm (211) controls the plane where the swing track of the nozzle (21) is positioned to be vertical to the walking track of the pedestrians in the air shower (1).

2. The circulating ventilation system of the energy-saving air shower as claimed in claim 1, wherein: swing mechanism (4) including supporting push rod (41), connecting rod (42), dwang (43) and being used for driving dwang (43) pivoted drive assembly (44), dwang (43) are provided with two, two dwang (43) coaxial interval is laid, two dwang (43) all rotate set up in on wind leaching rooms (1), and axis of rotation and the orbit of people walking in wind leaching rooms (1) parallel, drive assembly (44) are located one another dwang (43) are kept away from another the one end of dwang (43), connecting rod (42) are provided with two, two the one end of connecting rod (42) rigid coupling respectively in two dwang (43) one end that is close to mutually, just the axis of connecting rod (42) with the orbit of people's walking in wind leaching rooms (1) is mutually perpendicular, the both ends of supporting push rod (41) are connected respectively in dwang two connecting rod (42) are kept away from dwang (43) ) The axis of the push rod (41) is parallel to the walking track of the pedestrians in the air shower (1), a sliding through hole (2111) is formed in the swing arm (211), the length distribution direction of the sliding through hole (2111) is perpendicular to the walking track of the pedestrians in the air shower (1), and the push rod (41) penetrates through the sliding through hole (2111).

3. The circulating ventilation system of the energy-saving air shower as claimed in claim 2, wherein: the nozzle (21) has laid the multiunit at vertical direction interval, swing mechanism (4) are provided with the multiunit, the multiunit swing mechanism (4) and multiunit nozzle (21) one-to-one, every group nozzle (21) have laid a plurality ofly at the horizontal direction interval, swing arm (211) are provided with a plurality ofly, one swing arm (211) and one nozzle (21) are corresponding, it runs through a plurality of every group to support push rod (41) sliding through hole (2111).

4. The circulating ventilation system of the energy-saving air shower chamber as claimed in claim 3, wherein: drive assembly (44) are motor (441) and shaft coupling (442), motor (441) are fixed in on wind leaching rooms (1) casing, the coaxial rigid coupling of one end of shaft coupling (442) in one dwang (43) is kept away from another the one end of dwang (43), the coaxial rigid coupling of the other end of shaft coupling (442) in on the output shaft of motor (441).

5. The circulating ventilation system of the energy-saving air shower chamber as claimed in claim 3, wherein: drive assembly (44) are actuating lever (443) and cylinder (444), actuating lever (443) rigid coupling in one dwang (43) is kept away from another the one end of dwang (43), actuating lever (443) slip inlays and is equipped with slider (5), and the slip direction with the axis looks of dwang (43) is perpendicular, cylinder (444) are fixed in on the inner wall of air transportation cover (22), the output shaft and slider (5) rotation of cylinder (444) are connected, and the orbit that the pedestrian walked in axis of rotation and wind leaching rooms (1) parallels.

6. The circulating ventilation system of the energy-saving air shower as claimed in claim 2, wherein: the push rod (41) is supported to go up coaxial cover and be equipped with a plurality of bearings (6), and is a plurality of bearing (6) and a plurality of nozzle (21) one-to-one, bearing (6) are located in sliding through hole (2111).

7. The circulating ventilation system of the energy-saving air shower as claimed in claim 1, wherein: circulation air guide mechanism (3) are including fan (31), primary air filter (32) and high-efficient air cleaner (33), primary air cleaner (32) are installed at the lower extreme of wind leaching rooms (1) inner wall, the income wind gap of primary air filter (32) with the passageway intercommunication of wind leaching rooms (1), the income wind gap of fan (31) with the air outlet intercommunication of primary air filter (32), the air outlet of fan (31) with the income wind gap intercommunication of high-efficient air cleaner (33), the air outlet of high-efficient air cleaner (33) with air input port (221) intercommunication.

8. The circulating ventilation system of the energy-saving air shower as claimed in claim 6, wherein: an anti-falling groove (2112) is formed in the swing arm (211), the anti-falling groove (2112) is located in the sliding through hole (2111), and the bearing (6) is located in the anti-falling groove (2112).

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