CN113546837A

CN113546837A - Device and method for recycling residual products for glass production

Info

Publication number: CN113546837A
Application number: CN202110821349.1A
Authority: CN
Inventors: 毕道钦
Original assignee: Jiangsu Jiacheng Special Glass Manufacturing Co ltd
Current assignee: Jiangsu Jiacheng Special Glass Manufacturing Co ltd
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2021-10-26

Abstract

The invention discloses a residual product recovery device for glass production and a recovery method thereof, relates to the technical field of glass residual product recovery, and aims to solve the problems that in the prior art, the recovery of glass residual products requires workers to carry out split charging and then sorting, the labor intensity of the workers is increased, the working efficiency of a glass production line is reduced, the recovered glass residual products cannot be finely crushed, and the subsequent residual product glass is inconvenient to melt and recycle. The top of shell is provided with the leak protection swash plate, and leak protection swash plate and shell welded connection, one side of leak protection swash plate is provided with the screening plate, the inboard of screening plate is provided with the filter screen, the bottom of screening plate is provided with one-level glass room, the bottom of one-level glass room is provided with the transport chamber, and one-level glass room and transport chamber pass through first passageway intercommunication, the bottom of leak protection swash plate is provided with the second grade glass room, the second grade glass room passes through the second passageway intercommunication with the transport chamber, the bottom of transport chamber is provided with the storing room.

Description

Device and method for recycling residual products for glass production

Technical Field

The invention relates to the technical field of recovery of glass residues, in particular to a recovery device and a recovery method of a glass production residue.

Background

The glass is a substance commonly used in modern life of human beings, and can be made into various appliances, utensils, plate glass and the like. In the production process of glass products, more or less defective products appear, and defective glass and products can be collected for sustainable utilization of resources, so that the harm is turned into the benefit, and the waste is changed into the valuable. There are several types of recycling of glass products: as a flux for casting, transformation and utilization, re-melting, raw material recovery and reuse, and the like.

However, the existing glass residue recovery needs workers to split and arrange the glass residues, so that the labor intensity of the workers is increased, the working efficiency of a glass production line is reduced, the recovered glass residues cannot be finely crushed, and the subsequent glass residues are inconvenient to melt and recycle; therefore, the existing requirements are not met, and a device and a method for recovering the residual products for glass production are provided.

Disclosure of Invention

The invention aims to provide a device and a method for recovering residual products for glass production, which are used for solving the problems that the recovery of the residual products of glass in the background art needs workers to carry out split charging and arrangement, the labor intensity of the workers is increased, the working efficiency of a glass production line is reduced, the recovered residual products of glass cannot be finely crushed, and the subsequent residual products of glass cannot be conveniently recycled by hot melting.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a defective product recovery unit is used in glass production, includes the shell, the top of shell is provided with the leak protection swash plate, and leak protection swash plate and shell welded connection, one side of leak protection swash plate is provided with the screening plate, the inboard of screening plate is provided with the filter screen, the bottom of screening plate is provided with one-level glass room, the bottom of one-level glass room is provided with the transport chamber, and one-level glass room and transport chamber pass through first passageway intercommunication, the bottom of leak protection swash plate is provided with second grade glass room, second grade glass room passes through the second passageway intercommunication with the transport chamber, the bottom of transport chamber is provided with the storing room, one side of storing room is provided with the partial shipment room, the inside of partial shipment room is provided with the tray, the bottom of tray is provided with pressure sensor, the top of partial shipment room is provided with the warning light.

Preferably, the outside of filter screen is provided with the filter screen frame, the filter screen frame passes through spring telescopic connection with the screening board.

Preferably, the inside of second passageway is provided with rolls a section of thick bamboo, and rolls a section of thick bamboo and have two, the surface that rolls a section of thick bamboo is provided with rolls the tooth, and rolls the tooth and have a plurality ofly, a plurality of roll the tooth and be cyclic annular distribution.

Preferably, the inside of transport chamber is provided with the rotary rod, the outside of rotary rod is provided with helical blade, and rotary rod and helical blade welded connection.

Preferably, the one end of rotary rod is provided with the rotating electrical machines, and the other end of rotary rod is provided with the drainage way, shell and rotating electrical machines and drainage way welded connection.

Preferably, the top of the drainage channel is provided with a flow limiting plate, the flow limiting plate is matched with the cross section of the transport chamber in shape, the top of the flow limiting plate is provided with a first cylinder, and the pressure sensor is electrically connected with the first cylinder and the prompting lamp.

Preferably, a second cylinder is arranged in the storage chamber, and an installation guide plate is arranged on one side of the second cylinder.

Preferably, the bottom of second cylinder and the top of tray all are provided with the branch vanning, divide the vanning to include rectangle curb plate, isosceles triangle curb plate, right angled triangle curb plate and rectangle bottom plate, and rotate through the pivot between rectangle curb plate, isosceles triangle curb plate, right angled triangle curb plate and the rectangle bottom plate and connect.

Preferably, the top of right angled triangle curb plate is provided with spacing post, the top of spacing post is provided with the handle piece, the both sides of handle piece all are provided with the spacing ring, the one end of spacing post is provided with the holding ring, spacing post passes through slide sliding connection with holding ring and spacing ring.

A use method of a residual product recovery device for glass production comprises the following steps:

the method comprises the following steps: the remnants produced in the glass production are poured into the screen plate from the top, the filter screen in the screen plate can shake under the action of the elastic force of the spring and the external force to filter the glass remnants, small glass residues pass through the filter screen and enter the first-stage glass chamber, and large glass remnants slide down from the filter screen and enter the second-stage glass chamber;

step two: the glass in the primary glass chamber directly enters the conveying chamber through the first channel, the glass in the secondary glass chamber enters the conveying chamber through the second channel, and the glass is crushed into fine glass slag through the grinding teeth on the grinding drum in the process;

step three: the rotating motor drives the rotating rod and the helical blade on the surface of the rotating rod to rotate, so that the glass slag moves to the drainage channel along the conveying chamber;

step four: the second cylinder drives the uniform-loading guide plate to contract back and forth, so that the glass slag slides onto the uniform-loading guide plate from the drainage channel and is uniformly loaded into the sub-packaging box;

step five: when the weight of the glass in the split charging box reaches a certain value, the pressure sensor sends a signal, the prompt lamp and the first air cylinder respond simultaneously, the prompt lamp is turned on, and the first air cylinder drives the flow limiting plate to descend to block the outlet of the transport chamber;

step six: the worker takes out the full subpackaging box in the subpackaging chamber, takes out a new subpackaging box from the storage chamber and puts the new subpackaging box on the tray on the pressure sensor, and the boxing can be carried out again.

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

1. according to the invention, the uniform-loading guide plate is arranged, the second cylinder drives the uniform-loading guide plate to contract back and forth, so that the glass slag slides onto the uniform-loading guide plate from the drainage channel and is uniformly loaded into the split charging box, the uniform-loading guide plate enables the glass slag to more uniformly enter the split charging box, the situation that the glass slag is pushed high and does not exist at the same time can not occur, the split charging and leveling treatment can be automatically carried out on the glass slag, the labor intensity of workers is reduced, the pressure sensor is arranged at the bottom of the split charging box and is used for monitoring the weight of the split charging box in real time, the pressure sensor sends a signal after a certain numerical value is reached, the prompt lamp and the first cylinder respond at the same time, the split charging box can be timely replaced, and the working efficiency of the device is improved;

2. according to the invention, through arranging the screening plate and the rolling cylinder, the filter screen in the screening plate can shake under the action of the spring elasticity and the external force to filter the glass residues, small glass residues pass through the filter screen and enter the primary glass chamber, large glass residues slide down from the filter screen and enter the secondary glass chamber, the recovered glass residues are firstly filtered and classified, so that the subsequent recovery treatment of the glass residues is facilitated, the glass in the primary glass chamber directly enters the transportation chamber through the first channel, the glass in the secondary glass chamber enters the transportation chamber through the second channel, and is crushed into fine glass residues through the rolling teeth on the rolling cylinder in the process, the fine crushing effect of the rolling teeth on the glass on the rolling cylinder is good, so that the recovered glass residues are all changed into fine crushed glass residues, and the hot melting reutilization of the subsequent glass is facilitated.

Drawings

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

FIG. 2 is a schematic view of the dispenser of the present invention;

FIG. 3 is a schematic view of a flow restrictor of the present invention;

FIG. 4 is an enlarged view of the invention at A;

fig. 5 is an enlarged view of the invention at B.

In the figure: 1. a housing; 2. filtering with a screen; 3. screening the plate; 4. a leakage-proof sloping plate; 5. a primary glass chamber; 6. a first channel; 7. a secondary glass chamber; 8. a second channel; 9. rolling the cylinder; 10. grinding teeth; 11. a first cylinder; 12. a restrictor plate; 13. a drainage duct; 14. a transport chamber; 15. a rotating electric machine; 16. rotating the rod; 17. a helical blade; 18. a storage chamber; 19. a dispensing chamber; 20. subpackaging; 21. guide plates are all installed; 22. a second cylinder; 23. a pressure sensor; 24. a rectangular side plate; 25. an isosceles triangular side plate; 26. a right-angled triangular side plate; 27. a rectangular bottom plate; 28. a positioning ring; 29. a limiting column; 30. a limiting ring; 31. a handle block; 32. a screen frame; 33. a warning light; 34. a tray.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a defective product recovery device for glass production comprises a shell 1, wherein a leakage-proof inclined plate 4 is arranged at the top of the shell 1, the leakage-proof inclined plate 4 is connected with the shell 1 in a welding manner, the leakage-proof inclined plate 4 prevents glass defective products from splashing everywhere in the recovery device, the safety of workers in use is protected, a screening plate 3 is arranged on one side of the leakage-proof inclined plate 4, a filter screen 2 is arranged on the inner side of the screening plate 3, a primary glass chamber 5 is arranged at the bottom of the screening plate 3, a transport chamber 14 is arranged at the bottom of the primary glass chamber 5, the primary glass chamber 5 is communicated with the transport chamber 14 through a first channel 6, a secondary glass chamber 7 is arranged at the bottom of the leakage-proof inclined plate 4, the secondary glass chamber 7 is communicated with the transport chamber 14 through a second channel 8, the primary glass chamber 5 and the secondary glass chamber 7 are distinguished according to different sizes of the glass defective products for subsequent processing, a storage chamber 18 is arranged at the bottom of the transport chamber 14, a separate loading chamber 19 is arranged on one side of the storage chamber 18, a tray 34 is arranged in the separate loading chamber 19, a pressure sensor 23 is arranged at the bottom of the tray 34, and a prompt lamp 33 is arranged at the top of the separate loading chamber 19.

Further, the outside of filter screen 2 is provided with filter screen frame 32, and filter screen frame 32 passes through spring telescopic connection with screening board 3 for filter screen 2 can shake, improves glass's filtration efficiency.

Further, the inside of second passageway 8 is provided with rolls a section of thick bamboo 9, and rolls a section of thick bamboo 9 and have two, and the surface that rolls a section of thick bamboo 9 is provided with rolls tooth 10, and rolls tooth 10 and have a plurality ofly, and a plurality of teeth 10 that roll are cyclic annular and distribute, roll tooth 10 and have strengthened the effect that rolls a section of thick bamboo 9.

Further, the rotating rod 16 is arranged inside the conveying chamber 14, the spiral blade 17 is arranged outside the rotating rod 16, the rotating rod 16 is connected with the spiral blade 17 in a welding mode, and the rotating rod 16 and the spiral blade 17 improve the conveying efficiency of the glass slag.

Further, one end of the rotating rod 16 is provided with a rotating motor 15, the other end of the rotating rod 16 is provided with a drainage channel 13, and the shell 1 is connected with the rotating motor 15 and the drainage channel 13 in a welding mode.

Furthermore, the top of the drainage channel 13 is provided with a current limiting plate 12, the current limiting plate 12 is matched with the cross-sectional shape of the transport chamber 14, the top of the current limiting plate 12 is provided with a first cylinder 11, the pressure sensor 23 is electrically connected with the first cylinder 11 and the prompt lamp 33, the pressure sensor 23 monitors the weight of the subpackaging box 20 in real time, the pressure sensor 23 sends a signal after a certain value is reached, the prompt lamp 33 and the first cylinder 11 respond simultaneously, and the subpackaging box 20 can be conveniently replaced by workers.

Further, the inside of storing room 18 is provided with second cylinder 22, one side of second cylinder 22 is provided with all adorns guide plate 21, second cylinder 22 drives all to adorn guide plate 21 and carries out the shrink and move back and forth, make the glass sediment follow drainage channel 13 landing all to adorn guide plate 21 on, in the vanning 20 of being even again packed, all adorn guide plate 21 and let the glass sediment can be more even get into in the vanning 20, the high circumstances of not having on one side of can not appearing pushing, can carry out the partial shipment to the glass sediment automatically and smooth the processing.

Further, the bottom of second cylinder 22 and the top of tray 34 all are provided with partial shipment case 20, and partial shipment case 20 includes rectangle curb plate 24, isosceles triangle curb plate 25, right angled triangle curb plate 26 and rectangle bottom plate 27, and rotates through the pivot between rectangle curb plate 24, isosceles triangle curb plate 25, right angled triangle curb plate 26 and the rectangle bottom plate 27 and connect, and partial shipment case 20 can have folding and three-dimensional two kinds of forms, is convenient for accomodate partial shipment case 20.

Further, the top of right triangle curb plate 26 is provided with spacing post 29, the top of spacing post 29 is provided with handle piece 31, the both sides of handle piece 31 all are provided with spacing ring 30, the one end of spacing post 29 is provided with holding ring 28, spacing post 29 passes through slide sliding connection with holding ring 28 and holding ring 30, makes spacing post 29 through passing holding ring 28 and holding ring 30 to fix the shape of split packing box 20, simple structure, the workman of being convenient for operates.

the method comprises the following steps: the remnants generated in glass production are poured into the screen plate 3 from the top, the filter screen 2 in the screen plate 3 can shake under the action of spring force and external force to filter the glass remnants, small glass residues pass through the filter screen 2 and enter the first-stage glass chamber 5, large glass remnants slide down from the filter screen 2 and enter the second-stage glass chamber 7, and the recovered glass remnants are firstly filtered and classified, so that the subsequent recovery treatment of the glass remnants is facilitated;

step two: the glass in the primary glass chamber 5 directly enters the conveying chamber 14 through the first channel 6, the glass in the secondary glass chamber 7 enters the conveying chamber 14 through the second channel 8 and is crushed into fine glass slag through the grinding teeth 10 on the grinding drum 9 in the process, the grinding teeth 10 on the grinding drum 9 have a good fine crushing effect on the glass, so that the recovered glass residues are all changed into the fine glass slag, and the subsequent hot melting recycling of the glass is facilitated;

step three: the rotating motor 15 drives the rotating rod 16 and the helical blade 17 on the surface of the rotating rod to rotate, so that the glass slag moves to the drainage channel 13 along the conveying chamber 14, the conveying effect of the glass slag is improved, and the recovery efficiency of the recovery device is improved;

step four: the second cylinder 22 drives the uniform loading guide plate 21 to contract back and forth, so that the glass slag slides onto the uniform loading guide plate 21 from the drainage channel 13 and is uniformly loaded into the subpackaging box 20, the uniform loading guide plate 21 enables the glass slag to more uniformly enter the subpackaging box 20, the situation that the glass slag is pushed to be high and does not exist at the same time can be avoided, and the subpackaging and leveling treatment can be automatically carried out on the glass slag;

step five: when the weight of glass in the sub-packaging box 20 reaches a certain value, the pressure sensor 23 sends a signal, the prompt lamp 33 and the first cylinder 11 respond simultaneously, the prompt lamp 33 lights, the first cylinder 11 drives the flow limiting plate 12 to descend to block the outlet of the transport chamber 14, after the sub-packaging box 20 is full, a worker is reminded of replacing the sub-packaging box through the prompt lamp 33, the outlet of the transport chamber 14 is blocked in time, unnecessary leakage of the glass is reduced, and the safety of the worker in replacing the sub-packaging box 20 is guaranteed;

step six: the workman takes out the partial shipment case 20 that fills up in the partial shipment room 19 to take out new partial shipment case 20 from the storing room 18 and put on the tray 34 on pressure sensor 23, can pack once more, directly take out partial shipment case 20 in the storing room 18, the workman uses convenient and fast, has improved work efficiency.

The working principle is as follows: when the glass residue filter is used, residues generated in glass production are poured into the glass residue filter from the top of the filter plate 3, the filter screen 2 in the filter plate 3 can shake under the action of spring force and external force to filter the glass residues, small glass residues pass through the filter screen 2 to enter the primary glass chamber 5, large glass residues slide down from the filter screen 2 to enter the secondary glass chamber 7, the recovered glass residues are firstly filtered and classified to facilitate subsequent recovery treatment of the glass residues, the glass in the primary glass chamber 5 directly enters the transport chamber 14 through the first channel 6, the glass in the secondary glass chamber 7 enters the transport chamber 14 through the second channel 8 and is crushed into fine glass residues through the crushing teeth 10 on the crushing cylinder 9 in the process, the crushing teeth 10 on the crushing cylinder 9 have a good fine crushing effect on the glass, so that the recovered glass residues are all changed into fine crushed glass residues, and the subsequent glass can be conveniently melted and reused, the rotating motor 15 drives the rotating rod 16 and the helical blade 17 on the surface to rotate, so that the glass slag moves to the drainage channel 13 along the conveying chamber 14, the glass slag conveying effect is improved, the recovery efficiency of the recovery device is improved, the second air cylinder 22 drives the uniform loading guide plate 21 to contract back and forth, so that the glass slag slides to the uniform loading guide plate 21 from the drainage channel 13 and is uniformly loaded into the subpackaging box 20, the uniform loading guide plate 21 enables the glass slag to more uniformly enter the subpackaging box 20, the situation that the glass slag is pushed high and is not available can not occur, the subpackaging leveling treatment can be automatically carried out on the glass slag, when the weight of the glass in the subpackaging box 20 reaches a certain value, the pressure sensor 23 sends out a signal, the prompt lamp 33 and the first air cylinder 11 respond simultaneously, the prompt lamp 33 is lightened, the first air cylinder 11 drives the flow limiting plate 12 to descend to block the outlet of the conveying chamber 14, and the prompt a worker to replace the subpackaging box 20 after being full, and block up the export of transport chamber 14 in time, reduced glass unnecessary and spilled hourglass, and guarantee the workman and be changing the security of partial shipment case 20, the workman takes out partial shipment case 20 that fills in partial shipment room 19 to take out new partial shipment case 20 from the storing room 18 and put on pressure sensor 23 on tray 34, can pack once more, directly take out partial shipment case 20 in the storing room 18, the workman uses convenient and fast, has improved work efficiency.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a glass production is with incomplete product recovery unit, includes shell (1), its characterized in that: the top of shell (1) is provided with leak protection swash plate (4), and leak protection swash plate (4) and shell (1) welded connection, one side of leak protection swash plate (4) is provided with screening plate (3), the inboard of screening plate (3) is provided with filter screen (2), the bottom of screening plate (3) is provided with one-level glass room (5), the bottom of one-level glass room (5) is provided with transport chamber (14), and one-level glass room (5) and transport chamber (14) are through first passageway (6) intercommunication, the bottom of leak protection swash plate (4) is provided with second grade glass room (7), second grade glass room (7) and transport chamber (14) are through second passageway (8) intercommunication, the bottom of transport chamber (14) is provided with storing room (18), one side of storing room (18) is provided with partial shipment room (19), the inside of partial shipment room (19) is provided with tray (34), the bottom of tray (34) is provided with pressure sensor (23), the top of partial shipment room (19) is provided with warning light (33).

2. The device for recovering remnants from glass production according to claim 1, wherein: the outside of filter screen (2) is provided with filter screen frame (32), filter screen frame (32) and screening board (3) pass through spring telescopic connection.

3. The device for recovering remnants from glass production according to claim 1, wherein: the inside of second passageway (8) is provided with rolls a section of thick bamboo (9), and rolls a section of thick bamboo (9) and have two, the surface that rolls a section of thick bamboo (9) is provided with rolls tooth (10), and rolls tooth (10) and have a plurality ofly, a plurality of roll tooth (10) and be cyclic annular distribution.

4. The device for recovering remnants from glass production according to claim 1, wherein: the inside of transport chamber (14) is provided with rotary rod (16), the outside of rotary rod (16) is provided with helical blade (17), and rotary rod (16) and helical blade (17) welded connection.

5. The device for recovering remnants from glass production according to claim 4, wherein: the one end of rotary rod (16) is provided with rotating electrical machines (15), and the other end of rotary rod (16) is provided with drainage (13), shell (1) and rotating electrical machines (15) and drainage (13) welded connection.

6. The device for recovering remnants from glass production according to claim 5, wherein: the top of the drainage channel (13) is provided with a flow limiting plate (12), the shape of the cross section of the flow limiting plate (12) is matched with that of the cross section of the transport chamber (14), the top of the flow limiting plate (12) is provided with a first cylinder (11), and the pressure sensor (23) is electrically connected with the first cylinder (11) and the prompt lamp (33).

7. The device for recovering remnants from glass production according to claim 1, wherein: the inside of storing room (18) is provided with second cylinder (22), one side of second cylinder (22) is provided with all adorns guide plate (21).

8. The device for recovering remnants from glass production according to claim 7, wherein: the bottom of second cylinder (22) and the top of tray (34) all are provided with branch vanning (20), divide vanning (20) to include rectangle curb plate (24), isosceles triangle curb plate (25), right angled triangle curb plate (26) and rectangle bottom plate (27), and rotate through the pivot between rectangle curb plate (24), isosceles triangle curb plate (25), right angled triangle curb plate (26) and the rectangle bottom plate (27) and connect.

9. The device for recovering remnants from glass production according to claim 8, wherein: the top of right angled triangle curb plate (26) is provided with spacing post (29), the top of spacing post (29) is provided with handle piece (31), the both sides of handle piece (31) all are provided with spacing ring (30), the one end of spacing post (29) is provided with holding ring (28), slide sliding connection is passed through with holding ring (28) and holding ring (30) in spacing post (29).

10. A method for using a device for recovering remnants for glass production, which is realized based on the device for recovering remnants for glass production of any one of claims 1 to 9, and is characterized by comprising the following steps:

the method comprises the following steps: the remnants generated in the glass production are poured into the screen plate (3) from the top, the filter screen (2) in the screen plate (3) can shake under the action of the elastic force of the spring and the external force to filter the glass remnants, small glass residues pass through the filter screen (2) and enter the primary glass chamber (5), and large glass remnants slide down from the filter screen (2) and enter the secondary glass chamber (7);

step two: the glass in the primary glass chamber (5) directly enters the conveying chamber (14) through the first channel (6), the glass in the secondary glass chamber (7) enters the conveying chamber (14) through the second channel (8), and the glass is crushed into fine glass slag through the grinding teeth (10) on the grinding drum (9) in the process;

step three: the rotating motor (15) drives the rotating rod (16) and the helical blade (17) on the surface of the rotating rod to rotate, so that the glass slag moves to the drainage channel (13) along the conveying chamber (14);

step four: the second cylinder (22) drives the uniform-loading guide plate (21) to contract back and forth, so that the glass slag slides down onto the uniform-loading guide plate (21) from the drainage channel (13) and is uniformly loaded into the sub-packaging box (20);

step five: when the weight of the glass in the sub-packaging box (20) reaches a certain value, the pressure sensor (23) sends a signal, the prompt lamp (33) and the first cylinder (11) respond simultaneously, the prompt lamp (33) is lightened, and the first cylinder (11) drives the flow limiting plate (12) to descend to block the outlet of the transportation chamber (14);

step six: the worker takes out the full subpackage box (20) in the subpackage chamber (19), takes out a new subpackage box (20) from the storage chamber (18) and places the new subpackage box (20) on the tray (34) on the pressure sensor (23), and then boxing can be carried out again.