CN113355900B

CN113355900B - Method for preparing ready-made clothes

Info

Publication number: CN113355900B
Application number: CN202110618285.5A
Authority: CN
Inventors: 谢雅辉
Original assignee: Ningbo Sunrise Industrial Automation Co ltd
Current assignee: Ningbo Sunrise Industrial Automation Co ltd
Priority date: 2021-06-01
Filing date: 2021-06-01
Publication date: 2022-09-09
Anticipated expiration: 2041-06-01
Also published as: CN113355900A

Abstract

The invention discloses a ready-made clothes preparation method, wherein a cleaning work station is arranged at the downstream position of all sewing work stations on a hanging system, the cleaning work station comprises an entry branch rail, an exit branch rail and a conveying chain, a lint cleaning machine is arranged below the conveying chain, the lint cleaning machine is provided with a channel for ready-made clothes to pass through, and three movable doors which can be opened and closed are arranged in the channel along the entry and exit direction of the ready-made clothes; the sewed ready-made clothes enter the cleaning work station through the rail transfer mechanism and enter the channel under the driving of the conveying chain, after the ready-made clothes completely enter the channel, the sliding doors at the two ends of the channel are closed, and the air flowing in from the upper part of the channel sucks sundries on the ready-made clothes; when the ready-made clothes move to the tail part of the channel, the sliding door in the channel is closed, so that the channel is divided into a first chamber and a second chamber, the ready-made clothes are located in the second chamber without wind power, then the sliding door at the tail end of the channel is opened, and the conveying chain moves the ready-made clothes out of the channel.

Description

Ready-made garment preparation method

Technical Field

The invention relates to a ready-made garment preparation method, in particular to a method for preparing a ready-made garment by using a hanging system.

Background

The hanging system is used for clothing and home textile manufacturing enterprises and comprises a ring rail, a plurality of workstations are arranged on the ring rail at intervals in the moving direction, a station is arranged below each workstation, garment pieces hung on a clothes hanger are conveyed to the appointed workstation through the ring rail by system control to be processed, and after the garment pieces are processed, the garment pieces enter the ring rail from an out-of-station mechanism of the workstation and are conveyed to the next workstation to be processed in the next procedure.

In the sewing process of the ready-made clothes, more thread ends, fluff, dust, fine scraps and other sundries are stuck on the clothes often, so that the product quality of the ready-made clothes is influenced. However, the existing cleaning work of the ready-made clothes is finished manually, the working efficiency is low, a plurality of workers are required to work simultaneously to meet the speed of the ready-made clothes production, the labor cost is high, and the labor intensity of the workers is high.

Disclosure of Invention

The invention provides a ready-made garment preparation method, which combines a hanging system and a velvet cleaning machine, can efficiently clean the sewn ready-made garment, reduces the cost and has low energy consumption.

The ready-made clothes preparation method is characterized in that cloth is sewn by utilizing workstations of a hanging system, the hanging system comprises a main rail, the workstations are arranged on the main rail at intervals, cleaning workstations are arranged at the downstream positions of all sewing workstations on the hanging system and comprise an entry branch rail, an exit branch rail and a conveying chain, the entry branch rail and the exit branch rail are connected through the conveying chain, and the entry branch rail and the exit branch rail are respectively connected with the main rail through rail changing mechanisms; a velvet cleaning machine is arranged below the conveying chain, the velvet cleaning machine is provided with a channel for ready-made clothes to pass through, the top end of the channel is opened, and the bottom of the channel is communicated with an air suction opening; three openable sliding doors are arranged in the channel along the in-out direction of the ready-made clothes; the sewed ready-made clothes enter the cleaning work station through the rail transfer mechanism and enter the channel under the driving of the conveying chain, after the ready-made clothes completely enter the channel, the sliding doors at the two ends of the channel are closed, and the air flowing in from the upper part of the channel sucks sundries on the ready-made clothes; when the ready-made clothes move to the tail part of the channel, the sliding door in the channel is closed, so that the channel is divided into a first chamber and a second chamber, the ready-made clothes are located in the second chamber without wind power, then the sliding door at the tail end of the channel is opened, and the conveying chain moves the ready-made clothes out of the channel.

According to the invention, the cleaning work stations are arranged at the downstream positions of all sewing work stations, the ready-made clothes after sewing is cleaned, after sundries such as thread ends and fluff on the ready-made clothes are cleaned, the ready-made clothes are moved to the second cavity without wind power, and the second cavity is used as a transition cavity for moving out the ready-made clothes, so that the influence on air draft cleaning in the first cavity caused by opening of the tail end sliding door is avoided, the wind power loss is reduced, and the energy consumption is reduced.

Preferably, the cleaning work station is arranged between the sewing work stations of the hanging system, and is used for cleaning ready-made clothes in the sewing process and then conveying the cleaned ready-made clothes to the next sewing process for processing.

Preferably, a transmission mechanism is arranged at an opening of the channel, the transmission mechanism comprises two chains, the two chains are respectively sleeved on a group of chain wheels, the two chains clamp the top of the ready-made clothes for conveying, and the transmission mechanism and the conveying chain are kept synchronous.

Because the exhaust fan exhausts air, the ready-made clothes are attracted downwards, and therefore the bearing of the hanging conveying line is increased. According to the invention, the top of the ready-made clothes is clamped by the two chains for conveying, and part of the force is borne by the transmission mechanism, so that the load bearing of the hanging conveying line is reduced, the transmission mechanism forms a narrow slit avoiding the ready-made clothes at the opening of the channel, the opening of the channel can be partially blocked, impurities such as thread ends and fluff are prevented from escaping to pollute the production environment, and the wind power loss is reduced. And the transmission mechanism and the conveying chain are kept synchronous, so that the ready-made clothes are prevented from being pulled mutually and damaged.

Preferably, hollow partition plates are arranged at the bottoms of the first cavity and the second cavity, hollow baffles are further arranged at the bottom of the second cavity, and the hollow baffles are used for opening or closing air openings in the hollow partition plates. When the hollow air openings in the hollow baffle plates correspond to the hollow air openings in the hollow partition plates, air in the second cavity can flow to the air channel through the hollow air openings. When the entity on the hollowed-out baffle plate corresponds to the hollowed-out air opening on the hollowed-out baffle plate, the air in the second cavity cannot flow to the air duct, and the second cavity is taken as a transition cavity for the ready-made clothes to move out, so that the wind power loss caused by the opening of the tail end sliding door is avoided.

Preferably, the bottom of the first chamber is communicated with the air duct, and a hollow partition plate is arranged at the bottom of the first chamber. The second chamber is not communicated with the air duct, and the second chamber is a transition chamber, so that the wind power loss caused by opening of the tail end sliding door can be avoided.

Preferably, two sides of the sliding door at two ends of the channel are respectively provided with a door opening sensor and a door closing sensor, the door opening sensor is a correlation photoelectric sensor, and the door closing sensor is a correlation grating sensor.

Preferably, a sliding rail is arranged on a shell of the linter cleaning machine, and a sliding block matched with the sliding rail is arranged on the sliding door; the driving mechanism of the sliding door comprises an air cylinder, a rope and a movable pulley, wherein the air cylinder is installed on the shell, a piston rod of the air cylinder is connected with the movable pulley, one end of the rope is connected onto the shell, and the other end of the rope bypasses the movable pulley and then is connected onto the sliding door. The driving mechanism of the sliding door utilizes the principle that the movable pulleys save distance, adopts one or more movable pulleys, greatly shortens the stroke of the cylinder and reduces the volume of the lint remover.

Preferably, the door opening and closing device further comprises a controller, and the transmission mechanism, the driving mechanism of the sliding door, the sensor and the driving mechanism of the hollow baffle are connected with the controller.

Preferably, the station entering support rail is provided with a first blocking and releasing mechanism at the position close to the output end, and a first anti-shaking mechanism and a clothes hanger detection mechanism are correspondingly arranged at the position of the first blocking and releasing mechanism; the outbound branch rail is provided with a second stopping and releasing mechanism at the position close to the output end, and a second anti-shaking mechanism is correspondingly arranged at the position of the second stopping and releasing mechanism.

Preferably, the branch rail that enters the station and the branch rail that leaves the station all are equipped with near input end department and examine the device entirely, set up chain guard rail between the output of branch rail that enters the station and the input of branch rail that leaves the station, chain guard rail is including the first segmental arc, horizontal straightway and the second segmental arc that connect gradually, the clear fine hair machine sets up the below of horizontal straightway.

Compared with the prior art, the invention combines the cashmere cleaning machine and the hanging system, after ready-made clothes enter the cleaning work station, the ready-made clothes hung on the clothes hanger are dragged by the conveying chain to enter the cashmere cleaning machine, and the impurities such as fluff, thread ends and the like on the ready-made clothes are cleaned, thereby realizing the purpose of full-automatic cleaning. According to the invention, the channel is divided into two chambers by arranging the three sliding doors, so that wind power loss caused by opening of the sliding doors when the ready-made clothes are moved out can be avoided, the energy consumption is reduced, and the cleaning effect is better. In addition, the transmission mechanism is arranged above the channel, so that the load bearing of the hanging conveying line is reduced.

Drawings

FIG. 1 is a schematic view of a cleaning station;

FIG. 2 is a perspective view of a cleaning station;

FIG. 3 is a front view of a cleaning workstation;

FIG. 4 is a side view of the cleaning station;

FIG. 5 is a schematic structural view of the linter cleaning machine;

FIG. 6 is a perspective view of the clearer (omitting the transmission mechanism);

FIG. 7 is a perspective view of the lint picker (omitting the transmission mechanism and the top cover plate);

FIG. 8 is a bottom structure view of the pile clearer (omitting the bottom plate);

FIG. 9 is a top view of the pile clearer;

fig. 10 is a partially enlarged view of the sliding door drive mechanism.

Reference numerals: 1. entering a station and supporting a rail; 2. exiting the branch rail; 3. a conveyor chain; 4. an inbound track transfer mechanism; 5. a primary rail; 6. a first barrier release mechanism; 7. a first anti-sloshing mechanism; 8. a hanger detection mechanism; 9. an outbound track transfer mechanism; 10. a second barrier release mechanism; 11. a second anti-wobble mechanism; 12. a full inspection device; 13. a chain guard rail; 14. a velvet cleaning machine; 14.1, a channel; 14.2, an air suction opening; 14.3, hollowing out the partition board; 14.4, a first sliding door; 14.5, a second sliding door; 14.6, a third sliding door; 14.7, a first door opening sensor; 14.8, a first door closing sensor; 14.9, a second door opening sensor; 14.10, a second door closing sensor; 14.11, hollowing out the baffle; 14.12, a first chain; 14.13, a second chain; 14.14, a cylinder; 14.15, a first movable pulley; 14.16, a second movable pulley; 14.17, a first fixed pulley; 14.18, second fixed pulley.

Detailed Description

The invention is further described below with reference to the following examples and the drawings.

The cleaning work station can be arranged at the downstream positions of all sewing work stations to clean the ready-made clothes after sewing, and can also be arranged between the sewing work stations of the hanging system to clean the ready-made clothes during sewing and send the cleaned ready-made clothes to the next sewing process for processing. In this embodiment, the cleaning work station and the sewing work station are disposed on the same hanging line. In other embodiments, the hanging system may be formed by connecting a plurality of conveying lines through a bridging mechanism, and the sewing work station and the cleaning work station may be respectively disposed on the respective conveying lines, for example, all the sewing work stations are disposed on the conveying lines for the sewing process, all the cleaning work stations are disposed on the conveying lines for the cleaning process, and even the sewing process may occupy a plurality of conveying lines. It is foreseeable that the preparation method of the invention can be applied not only to ready-made clothes, but also to other large fabrics such as clothes, quilt covers, quilts, blankets and the like.

As shown in fig. 1-4, the cleaning station of the hanging system includes an inbound track 1, an outbound track 2 and a conveying chain 3, the inbound track 1 is connected with the outbound track 2 through the conveying chain 3, the conveying chain 3 is driven by a motor and operates at a constant speed, and the clothes hangers at the tail end of the inbound track 1 can be conveyed to the outbound track 2. The input end of the inbound branch rail 1 is connected with the main rail 5 through the inbound track-changing mechanism 4, the inbound branch rail 1 is provided with a first stopping and releasing mechanism 6 near the output end, a first anti-shaking mechanism 7 and a clothes hanger detection mechanism 8 are correspondingly arranged at the position of the first stopping and releasing mechanism 6, and the output end of the inbound branch rail 1 is connected with the conveying chain 3. The input end of the outbound branch rail 2 is connected with the conveying chain 3, and the output end of the outbound branch rail 2 is connected with the main rail 5 through an outbound rail transfer mechanism 9. The outbound branch rail 2 is provided with a second blocking and releasing mechanism 10 near the output end, and a second anti-shaking mechanism 11 is correspondingly arranged at the position of the second blocking and releasing mechanism 10. And the inbound branch rail 1 and the outbound branch rail 2 are provided with full detection devices 12 close to the input ends and used for detecting whether the hanger occupies the branch rails.

The operation path of the clothes hangers at the workstation is as follows, the clothes hangers on the main rail 5 enter the inbound branch rail 1 through the inbound rail-changing mechanism 4, slide down to the first blocking release mechanism 6 along the inbound branch rail 1 for temporary storage, the clothes hanger detection mechanism 8 detects a signal, the time interval from the last release is longer than the specified time, the first blocking release mechanism 6 releases one clothes hanger to the output end of the inbound branch rail 1, then the clothes hanger is clamped into the clamping opening by the conveying chain 3, the clothes hanger is conveyed to the input end of the outbound branch rail 2 along the conveying chain 3, the clothes hanger slides down to the second blocking release mechanism 10 along the outbound branch rail 2, the second blocking release mechanism 10 releases the clothes hanger when the outbound condition is met, and the clothes hanger finally enters the main rail 5 through the outbound rail-changing mechanism 9. The structure of the conveyor chain 3 may refer to utility model patent (CN2019207339289) "a conveyor chain". A chain guard rail 13 is arranged between the output end of the inbound branch rail 1 and the input end of the outbound branch rail 2, the conveying chain 3 runs in the chain guard rail 13, and the chain guard rail 13 plays a role in guiding and supporting the conveying chain 3. The chain guard rail 13 comprises a first arc-shaped section, a horizontal straight section and a second arc-shaped section which are connected in sequence. A clearer 14 is arranged below the horizontal straight line section.

As shown in fig. 5-6, the clearer 14 is provided with a channel 14.1 for ready-made clothes to pass through, the channel 14.1 is positioned under the conveying chain 3, the bottom of the channel 14.1 is communicated with an air suction opening 14.2, the ready-made clothes hung on the clothes hanger are dragged into the channel 14.1 of the clearer 14 by the conveying chain 3, and the air suction fan sucks impurities such as fluff, thread ends and the like on the ready-made clothes, so that the purpose of automatic cleaning is achieved. In order to prevent ready-made clothes from falling off the clothes rack due to too large suction force and being sucked away by the exhaust fan to cause damage of the exhaust fan, the bottom of the channel 14.1 is provided with a hollow partition plate 14.3.

In order to achieve a better cleaning effect, three openable sliding doors are arranged in the channel 14.1. As shown in fig. 7, from the inlet to the outlet of the channel 14.1, there are a first sliding door 14.4, a second sliding door 14.5 and a third sliding door 14.6. When the three sliding doors are opened, the three sliding doors are all moved into the accommodating cavity on one side; when the sliding doors are closed, the three sliding doors move into the channel 14.1 to divide the channel 14.1 into chambers. Specifically, a first chamber is formed between the first sliding door 14.4 and the second sliding door 14.5, and a second chamber is formed between the second sliding door 14.5 and the third sliding door 14.6. A first door opening sensor 14.7 and a first door closing sensor 14.8 are arranged on two sides of the first sliding door 14.4, and a second door opening sensor 14.9 and a second door closing sensor 14.10 are arranged on two sides of the third sliding door 14.6.

Along the entering and exiting direction of the ready-made clothes, a first door opening sensor 14.7 is arranged at the inlet of a first movable door 14.4, and a first door closing sensor 14.8 is arranged at the outlet of the first movable door 14.4; the second door opening sensor 14.9 is arranged at the inlet of the third sliding door 14.6, and the second door closing sensor 14.10 is arranged at the outlet of the third sliding door 14.6. The first door opening sensor 14.7 and the second door opening sensor 14.9 are correlation photoelectric sensors; the first door-closing sensor 14.8 and the second door-closing sensor 14.10 are correlation grating sensors.

As shown in fig. 8, a hollow baffle 14.11 capable of opening or closing the through hole of the hollow baffle 14.3 is disposed at the hollow baffle 14.3 at the bottom of the second chamber, and the hollow baffle 14.11 is connected to a driving mechanism, which is a cylinder. When the through holes in the hollow baffle 14.11 correspond to the through holes in the hollow partition 14.3, the air in the second chamber can flow to the air suction opening 14.2 through the through holes; when the solid on the hollow baffle 14.11 corresponds to the through hole on the hollow baffle 14.3, the air in the second chamber cannot flow to the air suction opening 14.2. The first door opening sensor, the first door closing sensor, the second door opening sensor, the second door closing sensor, the driving mechanism of the sliding door and the driving mechanism of the hollow baffle are all connected with the controller.

The following describes the process of cleaning the garment. The ready-made clothes are dragged into a channel 14.1 of the cashmere cleaning machine 14 by the conveying chain 3, the first door opening sensor 14.7 senses the ready-made clothes, the first sliding door 14.4 is opened, the ready-made clothes are sensed by the first door closing sensor 14.8 after passing through the first sliding door 14.4, the ready-made clothes gradually enter the first chamber, and when the ready-made clothes completely enter the first chamber, the first door opening sensor 14.7 and the first door closing sensor 14.8 cannot sense the ready-made clothes, the first sliding door 14.4 is closed. At the moment, the first sliding door 14.4 and the third sliding door 14.6 at the two ends of the channel 14.1 are closed, air is sucked at the lower end of the channel 14.1, air flows in from the upper part of the channel 14.1, finally flows out from the lower part of the channel 14.1, and is sucked away by the suction fan through the suction opening 14.2. Wind does not flow in from the two ends of the channel 14.1, so that a good air draft effect is achieved.

When the ready-made clothes move to the second door opening sensor 14.9 to sense the ready-made clothes, the second sliding door 14.5 and the hollow baffle 14.11 are closed, and then the third sliding door 14.6 is opened, so that the first cavity is separated from the second cavity, and the second cavity is used as a transition cavity for moving out the ready-made clothes. After the ready-made clothes pass through the third sliding door 14.6, the second door closing sensor 14.10 senses the ready-made clothes, and when the ready-made clothes are completely moved out and the ready-made clothes cannot be sensed by the second door opening sensor 14.9 and the second door closing sensor 14.10, the third sliding door 14.6 is closed, and then the second sliding door 14.5 and the hollow baffle 14.11 are opened.

Due to the air draft of the exhaust fan, the ready-made clothes are attracted downwards, so that the bearing of the conveying chain 3 and the chain guard rail 13 is increased. In order to reduce the bearing of the conveying chain and the chain guard rail, a transmission mechanism is arranged at the top end of the channel 14.1, and comprises a first chain 14.12 and a second chain 14.13 which are respectively sleeved on a group of chain wheels, the two chains run in opposite directions and are respectively driven by a motor, so that the top of the garment is clamped by the two chains, and part of force is borne by the transmission mechanism, so that the bearing of the conveying chain 3 and the chain guard rail 13 is shared. The running speeds of the first chain and the second chain are consistent with the running speed of the conveying chain.

In order to shorten the stroke of the sliding door driving mechanism, the invention can adopt a double-pulley structure. As shown in figure 10, the sliding door driving mechanism comprises an air cylinder 14.14 arranged on the shell of the linter cleaner, a piston rod of the air cylinder 14.14 is connected with a base, a first movable pulley 14.15 and a second movable pulley 14.16 are rotatably arranged on the base, the two movable pulleys are arranged up and down, and each movable pulley is provided with two wire grooves. A first fixed pulley 14.17 and a second fixed pulley 14.18 are arranged on the left side and the right side of the movable pulley on the shell. One end of the rope is connected to the shell, then sequentially passes through the first movable pulley 14.15, the first fixed pulley 14.17 and the second movable pulley 14.16, and the other end of the rope is connected with the sliding door. One end of the other rope is connected to the shell, then sequentially passes through the first movable pulley 14.15, the second fixed pulley 14.18 and the second movable pulley 14.16, and the other end of the other rope is connected with the sliding door. The two ropes are respectively positioned in the two wire grooves of the pulley. The invention adopts 2 pulleys, and the stroke of the cylinder is shortened to 1/4. The shell is also provided with a slide rail (not shown in the figure), the sliding door is provided with a slide block, and the slide block is matched with the slide rail, so that the sliding door moves along the slide rail.

The above examples are only preferred embodiments of the present invention, it should be noted that: it will be apparent to those skilled in the art that various modifications and equivalents can be made without departing from the spirit of the invention, and it is intended that all such modifications and equivalents fall within the scope of the invention as defined in the claims.

Claims

1. A ready-made clothes preparation method is characterized in that a workstation of a hanging system is used for sewing cloth, the hanging system comprises a main rail, the workstation is arranged on the main rail at intervals, and the ready-made clothes preparation method is characterized in that: cleaning workstations are arranged on the hanging system at the downstream positions of all sewing workstations, each cleaning workstation comprises an inbound branch rail, an outbound branch rail and a conveying chain, the inbound branch rail is connected with the outbound branch rail through the conveying chain, and the inbound branch rail and the outbound branch rail are respectively connected with the main rail through a rail transfer mechanism; a velvet cleaning machine is arranged below the conveying chain, the velvet cleaning machine is provided with a channel for ready-made clothes to pass through, the top end of the channel is opened, and the bottom of the channel is communicated with an air suction opening; three openable sliding doors are arranged in the channel along the in-out direction of the ready-made clothes;

the sewed ready-made clothes enter the cleaning work station through the rail transfer mechanism and enter the channel under the driving of the conveying chain, after the ready-made clothes completely enter the channel, the sliding doors at the two ends of the channel are closed, and the air flowing in from the upper part of the channel sucks sundries on the ready-made clothes; when the ready-made clothes move to the tail part of the channel, the sliding door in the channel is closed, so that the channel is divided into a first chamber and a second chamber, the ready-made clothes are positioned in the second chamber without wind power, then the sliding door at the tail end of the channel is opened, and the conveying chain moves the ready-made clothes out of the channel; the bottom of the first cavity and the bottom of the second cavity are both provided with hollowed-out partition plates, hollowed-out baffle plates are further arranged at the bottom of the second cavity and used for opening or closing air ports in the hollowed-out partition plates, or the bottom of the first cavity is provided with the hollowed-out partition plates communicated with the air duct and used for air supply circulation, and the bottom of the second cavity is sealed.

2. A method of preparing a garment according to claim 1, wherein: the cleaning work station is arranged between the sewing work stations of the hanging system.

3. A method of preparing a garment according to claim 1 or 2, wherein: and a transmission mechanism is arranged at the opening of the channel, the transmission mechanism comprises two chains, the two chains are respectively sleeved on a group of chain wheels, the two chains clamp the top of the ready-made clothes for conveying, and the transmission mechanism and the conveying chains are kept synchronous.

4. A method of preparing a garment according to claim 3, wherein: the two sides of the sliding door at the two ends of the channel are respectively provided with a door opening sensor and a door closing sensor, the door opening sensor is a correlation photoelectric sensor, and the door closing sensor is a correlation grating sensor.

5. A method of preparing a garment according to claim 4, wherein: a sliding rail is arranged on the shell of the linter cleaning machine, and a sliding block matched with the sliding rail is arranged on the sliding door; the driving mechanism of the sliding door comprises an air cylinder, a rope and a movable pulley, wherein the air cylinder is installed on the shell, a piston rod of the air cylinder is connected with the movable pulley, one end of the rope is connected onto the shell, and the other end of the rope bypasses the movable pulley and then is connected onto the sliding door.

6. A method of preparing a garment according to claim 5, wherein: the door opening and closing device is characterized by further comprising a controller, wherein the transmission mechanism, the driving mechanism of the sliding door, the door opening sensor, the door closing sensor and the driving mechanism of the hollow baffle are all connected with the controller.

7. A method of preparing a garment according to claim 5, wherein: the station entering support rail is provided with a first blocking release mechanism at the position close to the output end, and a first anti-shaking mechanism and a clothes hanger detection mechanism are correspondingly arranged at the position of the first blocking release mechanism; the outbound branch rail is provided with a second stopping and releasing mechanism at the position close to the output end, and a second anti-shaking mechanism is correspondingly arranged at the position of the second stopping and releasing mechanism.

8. A method of preparing a garment according to claim 7, wherein: the full-detection device is arranged at the position close to the input end of each of the inbound branch rail and the outbound branch rail, a chain guard rail is arranged between the output end of the inbound branch rail and the input end of the outbound branch rail and comprises a first arc section, a horizontal straight section and a second arc section which are connected in sequence, and the down cleaning machine is arranged below the horizontal straight section.