CN111304866A

CN111304866A - Ball removing device for clothes

Info

Publication number: CN111304866A
Application number: CN202010269181.3A
Authority: CN
Inventors: 黄石团; 富尧
Original assignee: Individual
Current assignee: Foshan Shunde Xibu Garment Co ltd
Priority date: 2018-09-04
Filing date: 2018-09-04
Publication date: 2020-06-19
Anticipated expiration: 2038-09-04
Also published as: CN111304866B; CN111270465A; CN108842354B; CN108842354A; CN111270465B

Abstract

The invention belongs to the technical field of clothing ball removing devices, and particularly relates to a ball removing device for clothing, which comprises a speed reducing motor, a storage box, an installation shell and a blade, wherein the speed reducing motor and the storage box are arranged on the upper side of the installation shell, and the blade is arranged on the inner lower side of the installation shell; the ball removing device provided by the invention controls the first rack to move through the speed reducing motor; the first rack controls the movement of the two blades; cutting by movement of two blades; the first rack is driven by the second rack, the fifth gear, the third rack and the fourth gear to move for about 5 times of the width of the blade, namely the moving distance of the blade is about 5 times of the width of the blade; the ball removing device is in a long strip shape, and compared with a common round ball removing device, the ball removing area is larger; and only need install two blades in this remove the ball device can, compare the ball device that removes of large-scale many blades, this remove the ball device and reduced the use cost of blade.

Description

Ball removing device for clothes

Technical Field

The invention belongs to the technical field of clothing ball removing devices, and particularly relates to a ball removing device for clothing.

Background

At present, all clothes containing wool generally have balls, and common clothes ball removing devices in the market are generally small circular ball removing devices; the clothes ball remover is labor-consuming to use in the ball removing process, and needs to spend more time on removing balls and cleaning clothes; if a large-scale ball removing device is used, a plurality of blades are required to be installed in the ball removing device to achieve the ideal ball removing effect, but the cost of the blades is high, so that the cost of the large-scale ball removing device is also increased; therefore, it is necessary to design a large ball removing device with a small number of blades.

The invention designs a ball removing device for clothes, which solves the problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses a ball removing device for clothes, which is realized by adopting the following technical scheme.

A ball removing device for clothes is characterized in that: the device comprises a motor support, a gear motor, a storage box, a handle, an installation shell, a box cover, a first gear, a blade, a first support, a second gear, a driving shaft, a third gear, a mesh plate, a square groove, a first shaft hole, an isolation top plate, a filter hole, a driving connecting plate, an isolation bottom plate, a blade fixing block, a first trapezoidal guide block, a first rack, a blade clamp, a first isolation side plate, a second rack, a first trapezoidal guide groove, a second trapezoidal guide groove, a third trapezoidal guide groove, a second shaft hole, a square guide groove, a fourth trapezoidal guide groove, a driving plate, a first swinging plate, a square connecting block, a third rack, a second swinging plate, a first mounting plate, a second mounting plate, a first rotating shaft, a guide block, a second rotating shaft, a fourth gear, a fifth gear, a driving mounting plate, a second trapezoidal guide block, an elastic baffle blade, a third rotating shaft, a third trapezoidal guide block, a third, The mounting structure comprises a square hole, a third shaft hole, a connecting plate, a square block, a fourth shaft hole, a sixth gear, a fourth rotating shaft, a plate spring, a fixed block, a rotating shaft, a fourth rack, a fifth rotating shaft and a sixth rotating shaft, wherein the lower end of a mounting shell is an open end, a square groove communicated with the inner side of the mounting shell is formed in the upper end surface of the mounting shell, and a first shaft hole communicated with the inner side of the mounting shell is formed in the upper end surface of the mounting shell; two square blocks are symmetrically arranged at the front end and the rear end of the inner side of the mounting shell; the handle is arranged on the upper end surface of the outer side of the mounting shell; the speed reducing motor is supported and installed on the upper end surface of the outer side of the installation shell through two symmetrically distributed motors; the upper end of the driving shaft is arranged on an output shaft of the speed reducing motor, and the lower end of the driving shaft penetrates through a first shaft hole formed in the mounting shell and is positioned on the inner side of the mounting shell; the third gear is arranged on the driving shaft; the upper end of the storage box is provided with a box cover, the box cover is provided with uniformly distributed air holes, and one side surface of the storage box is provided with an avoidance groove; the storage box is arranged on the upper end surface of the outer side of the mounting shell, and the lower end of the storage box is aligned and matched with the square groove formed in the mounting shell; the lower end of the fifth rotating shaft is arranged on the upper end surface of the outer side of the mounting shell; the second gear is arranged on the fifth rotating shaft; the second gear is meshed with the third gear, and one side of the second gear, which is far away from the third gear, penetrates through the avoidance groove on the storage box and is positioned in the storage box; the upper end of the sixth rotating shaft is arranged in the storage box through a first support; the first gear is arranged on the sixth rotating shaft and meshed with the second gear; the three blades are circumferentially and uniformly arranged at the lower end of the sixth rotating shaft and are positioned in the square groove formed in the mounting shell.

A second shaft hole is formed in the isolation top plate; two ends of the isolating top plate are respectively arranged on two opposite end faces of the two square blocks; the lower end of the driving shaft passes through a second shaft hole on the isolating top plate and is positioned at the lower side of the isolating top plate; the first isolation side plate and the second isolation side plate are symmetrically arranged on two sides of the lower end of the isolation top plate; gaps are formed between the first isolation side plate and the second isolation side plate and the two side surfaces of the mounting shell; one side of the upper side surface of the isolation bottom plate is provided with a first trapezoidal guide groove which penetrates through the front end and the rear end of the isolation bottom plate, and the lower side of the first trapezoidal guide groove is provided with a square guide groove communicated with the lower side of the isolation bottom plate; the square guide groove is positioned in the middle of the first trapezoidal guide groove, and the length of the square guide groove is half of that of the first trapezoidal guide groove; a fourth trapezoidal guide groove is formed in the upper side face of the isolation bottom plate and is close to the first trapezoidal guide groove; the fourth trapezoidal guide groove is positioned in the middle of the isolation bottom plate in the front and back longitudinal directions, and the length of the fourth trapezoidal guide groove is one third of that of the first trapezoidal guide groove; the upper side surface of the isolation bottom plate is provided with a third trapezoidal guide groove which is close to the fourth trapezoidal guide groove; the third trapezoidal guide groove is positioned in the middle of the isolation bottom plate in the front and back longitudinal directions, and the length of the third trapezoidal guide groove is two thirds of that of the first trapezoidal guide groove; the upper side surface of the isolation bottom plate is provided with a second trapezoidal guide groove, and the second trapezoidal guide groove is close to the third trapezoidal guide groove; the second trapezoidal guide groove is positioned in the middle of the isolation bottom plate in the front and back longitudinal directions, and the length of the second trapezoidal guide groove is one third of that of the first trapezoidal guide groove; the isolation bottom plate is arranged at the lower ends of the first isolation side plate and the second isolation side plate, and the front end and the rear end of the isolation bottom plate are arranged on two opposite end faces of the two square blocks; keep apart roof, first isolation curb plate, second and keep apart curb plate and keep apart bottom plate and two square block groups and have become a square chamber.

The second rack is arranged on the upper side of the isolation bottom plate, is close to the second trapezoidal guide groove and is positioned in the middle of the isolation bottom plate in the front-back longitudinal direction; the length of the second rack is the same as that of the second trapezoidal guide groove; the lower end of the second rotating shaft is provided with a first mounting plate; the lower end of the guide block is provided with a third trapezoidal guide block; the lower end of the first mounting plate is provided with a guide block; the first mounting plate is arranged on the upper side of the isolation base plate through the matching of a third trapezoidal guide block on the guide block and a second trapezoidal guide groove formed in the isolation base plate; the two third rotating shafts are symmetrically arranged on the lower sides of the two ends of the first mounting plate; the two fifth gears are respectively arranged on the two third rotating shafts and are meshed with the second rack; the lower end of the third rack is provided with a second trapezoidal guide block; the third rack is arranged on the upper side of the isolation base plate through the matching of the second trapezoidal guide block and a third trapezoidal guide groove formed in the isolation base plate; in an initial state, the third rack is positioned at the middle position of the isolation bottom plate in the front and back longitudinal directions; the length of the third rack is the same as that of the second rack; the third rack is meshed with the two fifth gears; the lower end of the first rotating shaft is provided with a second mounting plate; the structure mounted on the second mounting plate is completely the same as the structure mounted on the first mounting plate; the two fourth gears are respectively arranged on the two third rotating shafts and are meshed with the third racks; the lower end of the first rack is provided with a first trapezoidal guide block; the first rack is arranged on the upper side of the isolation base plate through the matching of the first trapezoidal guide block and a first trapezoidal guide groove formed in the isolation base plate; in an initial state, the first rack is positioned at the middle position of the isolation bottom plate in the front and back longitudinal directions; the length of the first rack is 1.5 times of the length of the second rack; the first rack is meshed with the two fourth gears; a circular shaft hole is formed in the middle of the driving plate; the driving plate is arranged at the lower end of the driving shaft through a circular shaft hole; one end of the first swinging plate is arranged at the lower side of one end of the driving plate through a revolute pair; the other end of the first swinging plate is arranged at the upper end of the second rotating shaft through a bearing; one end of the second swinging plate is arranged on the upper side of the other end of the driving plate through a revolute pair; the other end of the second swinging plate is arranged at the upper end of the first rotating shaft through a bearing; the upper end of the square connecting block is arranged on the lower side of the first rack, and the square connecting block is positioned in the middle of the first rack; the lower end of the square connecting block passes through a square guide groove formed in the isolation bottom plate and is positioned on the lower side of the isolation bottom plate.

A square hole is formed in the middle of the driving mounting plate; the driving mounting plate is mounted on the square connecting block through the square hole and is positioned on the lower side of the isolation bottom plate; the upper side surface of the driving mounting plate is clung to the lower side surface of the isolation bottom plate; elastic blocking blades are respectively arranged between the two ends of the driving mounting plate and the front end surface and the rear end surface of the inner side of the mounting shell; one end of the connecting plate is arranged at the lower end of the square connecting block; the other end of the connecting plate is provided with a driving connecting plate; the driving connecting plate is positioned at the middle position of the inner side of the mounting shell in the transverse direction; and the two ends of the driving connecting plate are respectively provided with a fourth shaft hole.

The mounting structures of the two ends of the driving connecting plate are completely the same, and for one end of the driving connecting plate, the upper end of the fourth rotating shaft is mounted in a fourth shaft hole formed in the driving connecting plate through a bearing; the sixth gear is arranged on the fourth rotating shaft; the blade clamp is U-shaped; the end, not opened, of the blade clamp is arranged at the lower end of the fourth rotating shaft, and the fourth rotating shaft is positioned in the middle of the blade clamp; two ends of the fixed block are symmetrically provided with two rotating shafts; the fixed block is arranged in the blade clamp through the conventional mechanism; one end of the blade fixing block is provided with a third shaft hole; the lower end of the blade is splayed; two blade fixing blocks are symmetrically arranged on two sides of the upper end of the blade; the blade is arranged at the lower side of the fixed block through the matching of third shaft holes formed on the two blade fixed blocks and two rotating shafts arranged on the fixed blocks; three plate springs are sequentially and uniformly arranged on one side surfaces of the blade and the fixed block; the two fourth racks are symmetrically arranged at two ends of the lower side of the isolation bottom plate and are correspondingly matched with the two sixth gears; one end of each of the two fourth racks is flush with the corresponding end face of the lower side face of the isolation bottom plate; the mesh plate is fully distributed with evenly distributed filter holes; the reticular plate is arranged on the inner side of the lower end of the mounting shell, and the upper side surface of the reticular plate is flush with the lower side surfaces of the two blades.

The rotating diameter value of the driving plate is one third of that of the first trapezoidal guide groove; the blade fixing block is provided with an arc chamfer.

As a further improvement of the technology, the mesh plate is a stainless steel mesh plate.

As a further improvement of the technology, the speed reducing motor is provided with a rechargeable battery; the speed reducing motor is provided with a control switch.

As a further improvement of the technology, the speed reducing motor is provided with a transformer, and the speed reducing motor is connected with the household socket through the transformer.

As a further improvement of this technique, the control switch is provided on the case lid of the storage case.

When the speed reducing motor works, the speed reducing motor can drive the driving shaft to rotate; the driving shaft rotates to drive the driving plate arranged on the driving shaft to rotate; the driving plate rotates to drive the first swinging plate and the second swinging plate to swing; the second swinging plate swings to enable the second rotating shaft to move along the direction of the second trapezoidal guide groove; the second rotating shaft moves to drive the first mounting plate arranged on the second rotating shaft to move; the first mounting plate moves to drive the two fifth gears mounted on the first mounting plate to move along the second trapezoidal guide groove; in the process, the guide block and the third trapezoidal guide block which are arranged on the first mounting plate play a role in guiding the movement of the two fifth gears; the second rack is fixedly arranged on the upper side of the isolation bottom plate and is meshed with the two fifth gears, so that when the two fifth gears move, the fifth gears can rotate under the action of the second rack; the fifth gear rotates to drive the third rack meshed with the fifth gear to move; the first swinging plate swings to enable the first rotating shaft to move along the direction of the fourth trapezoidal guide groove; the first rotating shaft moves to drive the second mounting plate mounted on the first rotating shaft to move; the second mounting plate moves to drive the two fourth gears mounted on the second mounting plate to move along the fourth trapezoidal guide groove; the two fourth gears are meshed with the third rack, so that the movement of the two fourth gears drives the third rack to move; the third rack is driven to move by the rotation of the fifth gear on one hand, and the third rack is driven to move by the movement of the fourth gear on the other hand; since the fifth gear and the fourth gear are driven to move by two ends of the driving plate respectively, the moving speeds of the fifth gear and the fourth gear are the same, and the fourth gear must rotate in order to adapt to the movement of the third rack and the rotating speed of the fourth gear is twice of the rotating speed of the fifth gear; in the process that the driving plate drives the fourth gear to move, the fourth gear drives the first rack to move, and the rotation of the fourth gear drives the first rack to move, namely the movement of the first rack is driven by the movement and the rotation of the fourth gear; when the fifth gear is driven to move to be L, the fourth gear is also driven to move for a distance of L, the fifth gear drives the third rack to move for a distance of L, and the fourth gear drives the third rack to move for a distance of L, namely the third rack is driven for a distance of 2L under the common drive of the fourth gear and the fifth gear; and the rotation distance of the fourth gear is 2L in order to adapt to the movement of the third rack; the distance that first rack is driven its removal by fourth gear revolve is 2L, and the distance that first rack is driven its removal by fourth gear revolve is L, and the distance that first rack is driven its removal by fourth gear revolve and removal jointly is 3L promptly.

When the speed reducing motor works, the speed reducing motor can drive the driving shaft to rotate; the driving shaft rotates to drive the third gear installed on the driving shaft to rotate; the third gear rotates to drive the second gear meshed with the third gear to rotate; the second gear rotates to drive the first gear meshed with the second gear to rotate; the first gear rotates to drive the sixth rotating shaft to rotate; the sixth rotating shaft rotates to drive the three blades arranged on the sixth rotating shaft to rotate, negative pressure is generated in the containing box through the rotation of the blades, and the lint balls cut off by the blades and positioned on the lower side of the mounting shell are absorbed into the containing box through gaps between the first isolation side plate and the second isolation side plate and the two side surfaces of the inner side of the mounting shell; the air holes formed in the box cover of the storage box have the effect that air absorbed by the rotation of the blades flows out of the outer side of the storage box, and the absorbed pompon cannot flow out of the outer side of the storage box to influence the environment because the air holes are small; and after the use is finished, the box cover is opened to clean the pompon in the storage box.

When the first rack moves towards one side of the mounting shell, one end of the square guide groove formed in the isolation bottom plate on the lower side of the first rack is exposed; the square connecting block moves to drive the driving mounting plate arranged on the square connecting block to move; the driving mounting plate moves to stretch or compress the elastic baffle blades arranged on the two sides of the driving mounting plate; one side that exposes square guide slot is blocked through the elasticity fender leaf for keep apart roof, first keep apart curb plate, second and keep apart the square chamber that curb plate and two square block group become and keep a encapsulated situation all the time, prevent to be located the driving that the pompon that the installation shell downside was cut by the blade got into square intracavity influence first rack.

When the first rack is blocked to move, the first rack can drive the square connecting block arranged on the lower side of the first rack to move; the square connecting block drives the driving connecting plate to move through the connecting plate; the driving connecting plate moves to drive the blade clamps on the two sides to move; the blade clamp moves to drive the fixing block arranged on the blade clamp to move; the fixed block moves to drive the blade arranged on the fixed block to move; cutting the pompompon on the clothes through the movement of the blade; the blade is arranged on the lower side of the fixed block through the matching of the third shaft holes formed on the two blade fixed blocks and the two rotating shafts arranged on the fixed blocks; the blade can swing relative to the fixed block; when the blade contacts the pompom on the clothes during moving, the blade can cut the pompom, but the pom can also provide resistance to the blade; when the resistance is larger than the elastic force of a plate spring arranged on the blade on the fixed block, the blade can swing, so that the pressure between the end of the blade, which is in contact with the pompon, and the mesh plate is increased, the cutting effect of the blade on the pompon is better, and the pressure between the end of the blade, which is not in contact with the pompon, and the mesh plate is reduced or a gap is formed, so that the friction of the mesh plate on the blade at the end is reduced; the service life of the blade is long; the leaf spring has the function of providing pressure between the blade and the reticular plate, so that the blade and the reticular plate are always in contact fit; in the invention, when the sixth gear arranged on the driving connecting plate is meshed with the corresponding fourth rack in the moving process of the driving connecting plate, the sixth gear can rotate under the action of the fourth rack; the sixth gear rotates to drive the fourth rotating shaft to rotate; the fourth rotating shaft rotates to drive the blade clamp to rotate; the blade clamp rotates to drive the blade arranged on the lower side of the blade clamp to rotate; the cutting area of the blade for the clothes is enlarged through the rotation of the blade; the blade fixing block is provided with the arc-shaped chamfer, and the function of the blade fixing block is to prevent the blade from interfering with two side surfaces of the mounting shell in the rotating process.

The rotating diameter value of the driving plate is one third of that of the first trapezoidal guide groove; when the driving plate rotates for one circle, the distance moved by the first rack is three times of the rotating diameter of the driving plate; i.e. the distance the blade moves is three times the diameter of rotation of the drive plate.

The cutting area of the blade is enlarged by increasing the rotation of the blade; when the blade does not need to rotate, the cutting area of the blade is reduced, and in order to increase the cutting area of the blade, only the type of the blade needs to be changed, the length of the mounting shell is changed, and two symmetrical square blocks are mounted in the mounting shell; the structure for driving the blade to move does not need to be replaced, so that a manufacturer can adapt to two different cutting requirements by only producing one internal structure in the production process, and the production cost is reduced.

Compared with the traditional clothing ball removing device technology, the ball removing device disclosed by the invention controls the first rack to move through the speed reducing motor; the first rack controls the movement of the two blades; cutting by movement of two blades; the first rack is driven by the second rack, the fifth gear, the third rack and the fourth gear to move for about 5 times of the width of the blade, namely the moving distance of the blade is about 5 times of the width of the blade; the ball removing device is in a long strip shape, and compared with a common round ball removing device, the ball removing area is larger; and only need install two blades in this remove the ball device can, compare the ball device that removes of large-scale many blades, this remove the ball device and reduced the use cost of blade.

Drawings

Fig. 1 is an external view of an entire part.

Fig. 2 is a schematic view of the overall component distribution.

FIG. 3 is a schematic view of a blade installation.

Fig. 4 is a schematic view of the internal structural distribution of the integral component.

Fig. 5 is a schematic view of the structure of the mounting case.

Fig. 6 is a schematic view of an isolated ceiling distribution.

Fig. 7 is a schematic diagram of a mesh plate structure.

Fig. 8 is a schematic blade distribution.

Fig. 9 is a schematic view of a blade structure.

Fig. 10 is a schematic view of blade installation.

Fig. 11 is a schematic view of a blade holder installation.

Fig. 12 is a schematic view of a drive web distribution.

Fig. 13 is a second rack mount schematic.

FIG. 14 is a schematic view of an isolated floor installation.

Fig. 15 is a schematic view of an isolated floor structure.

Fig. 16 is a schematic view of the first rack mounting.

Fig. 17 is a drive plate mounting schematic.

FIG. 18 is a schematic view of a drive connection plate installation.

Fig. 19 is a schematic view of a third rack structure.

FIG. 20 is a fourth gear mounting schematic.

FIG. 21 is a drive mounting plate installation schematic.

FIG. 22 is a schematic view of a drive mounting plate arrangement.

Figure 23 is a schematic view of a square connector block installation.

Fig. 24 is a schematic view of the spring flapper installation.

Fig. 25 is a schematic view of a drive link plate configuration.

Fig. 26 is a sixth gear mounting schematic.

Fig. 27 is a schematic view of leaf spring installation.

Fig. 28 is a schematic view of a fixed block structure.

Fig. 29 is a schematic view of the blade and mounting block engagement.

Fig. 30 is a schematic view of blade replacement.

Number designation in the figures: 1. supporting a motor; 2. a reduction motor; 3. a storage box; 4. a handle; 5. mounting a shell; 6. a box cover; 7. a first gear; 8. a blade; 9. a first support; 10. a second gear; 11. a drive shaft; 12. a third gear; 13. a fifth rotating shaft; 14. a mesh plate; 15. a square groove; 16. a first shaft hole; 17. isolating the top plate; 18. a filtration pore; 19. a drive connection plate; 20. an isolation base plate; 21. a blade; 22. a blade fixing block; 23. a first trapezoidal guide block; 24. a first rack; 25. a blade holder; 26. a first insulating side plate; 27. a second insulating side plate; 28. a second rack; 29. a first trapezoidal guide groove; 30. a second trapezoidal guide groove; 31. a third trapezoidal guide groove; 32. a second shaft hole; 33. a square guide groove; 34. a fourth trapezoidal guide groove; 35. a drive plate; 36. a first swing plate; 37. a square connecting block; 38. a third rack; 39. a second swing plate; 40. a first mounting plate; 41. a second mounting plate; 42. a first rotating shaft; 43. a guide block; 44. a second rotating shaft; 45. a fourth gear; 46. a fifth gear; 47. driving the mounting plate; 48. a second trapezoidal guide block; 49. an elastic baffle blade; 50. a third rotating shaft; 51. a third trapezoidal guide block; 52. a square hole; 53. a third shaft hole; 54. a connecting plate; 55. a square block; 56. a fourth shaft hole; 57. a sixth gear; 58. a fourth rotating shaft; 59. a plate spring; 60. a fixed block; 61. a rotating shaft; 62. a fourth rack; 63. and a sixth rotating shaft.

Detailed Description

As shown in fig. 1 and 2, the blade-type electric toothbrush includes a motor support 1, a reduction motor 2, a storage box 3, a handle 4, a mounting case 5, a box cover 6, a first gear 7, a blade 8, a first support 9, a second gear 10, a driving shaft 11, a third gear 12, a mesh plate 14, a square groove 15, a first shaft hole 16, an isolation top plate 17, a filter hole 18, a driving connecting plate 19, an isolation bottom plate 20, a blade 21, a blade fixing block 22, a first trapezoidal guide block 23, a first rack 24, a blade clamp 25, a first isolation side plate 26, a second isolation side plate 27, a second rack 28, a first trapezoidal guide groove 29, a second trapezoidal guide groove 30, a third trapezoidal guide groove 31, a second shaft hole 32, a square guide groove 33, a fourth trapezoidal guide groove 34, a driving plate 35, a first swing plate 36, a square connecting block 37, a third rack 38, a second swing plate 39, a first mounting plate 40, a second mounting plate 41, a first rotating shaft 42, a second rotating, The mounting structure comprises a guide block 43, a second rotating shaft 44, a fourth gear 45, a fifth gear 46, a driving mounting plate 47, a second trapezoidal guide block 48, an elastic baffle 49, a third rotating shaft 50, a third trapezoidal guide block 51, a square hole 52, a third shaft hole 53, a connecting plate 54, a square block 55, a fourth shaft hole 56, a sixth gear 57, a fourth rotating shaft 58, a plate spring 59, a fixed block 60, a rotating shaft 61, a fourth rack 62, a fifth rotating shaft 13 and a sixth rotating shaft 63, wherein as shown in fig. 5, the lower end of the mounting shell 5 is an open end, a square groove 15 communicated with the inner side of the mounting shell 5 is formed in the upper end surface of the mounting shell 5, and a first shaft hole 16 communicated with the inner side of the mounting shell 5 is formed in the upper end surface of the mounting shell 5; two square blocks 55 are symmetrically arranged at the front end and the rear end of the inner side of the mounting shell 5; as shown in fig. 1, the handle 4 is mounted on the upper end surface of the outside of the mounting case 5; as shown in fig. 3, the reduction motor 2 is mounted on the upper end surface of the outer side of the mounting shell 5 through two motor supports 1 which are symmetrically distributed; as shown in fig. 4, the upper end of the driving shaft 11 is mounted on the output shaft of the reduction motor 2, and the lower end of the driving shaft 11 passes through a first shaft hole 16 formed in the mounting case 5 and is located inside the mounting case 5; as shown in fig. 3, the third gear 12 is mounted on the drive shaft 11; the upper end of the storage box 3 is provided with a box cover 6, the box cover 6 is provided with uniformly distributed air holes, and one side surface of the storage box 3 is provided with an avoidance groove; the storage box 3 is arranged on the upper end surface of the outer side of the mounting shell 5, and the lower end of the storage box 3 is aligned and matched with the square groove 15 formed in the mounting shell 5; the lower end of the fifth rotating shaft 13 is arranged on the upper end surface of the outer side of the mounting shell 5; the second gear 10 is mounted on the fifth rotating shaft 13; the second gear 10 is meshed with the third gear 12, and one side of the second gear 10, which is far away from the third gear 12, penetrates through an avoiding groove in the storage box 3 and is positioned in the storage box 3; the upper end of the sixth rotating shaft 63 is mounted in the storage box 3 through the first support 9; the first gear 7 is installed on the sixth rotating shaft 63, and the first gear 7 is meshed with the second gear 10; the three blades 8 are circumferentially and uniformly mounted at the lower end of the sixth rotating shaft 63, and the three blades 8 are located in the square groove 15 formed in the mounting shell 5.

As shown in fig. 14, the isolating top plate 17 is provided with a second shaft hole 32; as shown in fig. 6, two ends of the isolation top plate 17 are respectively installed on two opposite end faces of the two square blocks 55; as shown in fig. 4, the lower end of the drive shaft 11 is located on the lower side of the partition top plate 17 through the second shaft hole 32 on the partition top plate 17; as shown in fig. 14, a first partition side plate 26 and a second partition side plate 27 are symmetrically installed at both sides of the lower end of the partition top plate 17; as shown in fig. 6, the first and second insulating side plates 26 and 27 have a gap between both side surfaces of the mounting case 5; as shown in fig. 14, a first trapezoidal guide groove 29 penetrating through the front and rear ends of the isolation base plate 20 is formed on one side of the upper side surface of the isolation base plate 20, and as shown in fig. 15, a square guide groove 33 communicating with the lower side of the isolation base plate 20 is formed on the lower side of the first trapezoidal guide groove 29; the square guide groove 33 is positioned in the middle of the first trapezoidal guide groove 29, and the length of the square guide groove 33 is half of that of the first trapezoidal guide groove 29; the upper side surface of the isolation bottom plate 20 is provided with a fourth trapezoidal guide groove 34, and the fourth trapezoidal guide groove 34 is close to the first trapezoidal guide groove 29; the fourth trapezoidal guide groove 34 is positioned at the middle position of the separation bottom plate 20 in the front-back longitudinal direction, and the length of the fourth trapezoidal guide groove 34 is one third of that of the first trapezoidal guide groove 29; the upper side surface of the isolation bottom plate 20 is provided with a third trapezoidal guide groove 31, and the third trapezoidal guide groove 31 is close to a fourth trapezoidal guide groove 34; the third trapezoidal guide groove 31 is positioned at the middle position of the separation bottom plate 20 in the front and back longitudinal direction, and the length of the third trapezoidal guide groove 31 is two thirds of the length of the first trapezoidal guide groove 29; the upper side surface of the isolation bottom plate 20 is provided with a second trapezoidal guide groove 30, and the second trapezoidal guide groove 30 is close to a third trapezoidal guide groove 31; the second trapezoidal guide groove 30 is positioned at the middle position of the separation bottom plate 20 in the front and back longitudinal direction, and the length of the second trapezoidal guide groove 30 is one third of that of the first trapezoidal guide groove 29; as shown in fig. 14, the isolation base plate 20 is mounted on the lower ends of the first isolation side plate 26 and the second isolation side plate 27, and the front and rear ends of the isolation base plate 20 are mounted on the two opposite end faces of the two square blocks 55; as shown in fig. 13, the top partition plate 17, the first partition side plate 26, the second partition side plate 27, the bottom partition plate 20 and the two square blocks 55 form a square cavity.

As shown in fig. 16, the second rack 28 is mounted on the upper side of the partition bottom plate 20, and the second rack 28 is close to the second trapezoidal guide groove 30, and the second rack 28 is located at an intermediate position of the partition bottom plate 20 in the front-rear longitudinal direction; the length of the second rack 28 is the same as the length of the second trapezoidal guide groove 30; as shown in fig. 17, the lower end of the second rotating shaft 44 is mounted with the first mounting plate 40; the lower end of the guide block 43 is provided with a third trapezoidal guide block 51; a guide block 43 is mounted at the lower end of the first mounting plate 40; as shown in fig. 12 and 16, the first mounting plate 40 is mounted on the upper side of the isolation base plate 20 by the cooperation of the third trapezoidal guide block 51 on the guide block 43 and the second trapezoidal guide groove 30 opened on the isolation base plate 20; two third rotating shafts 50 are symmetrically installed at the lower sides of both ends of the first installation plate 40; as shown in fig. 18, two fifth gears 46 are respectively mounted on the two third rotating shafts 50, and the two fifth gears 46 are engaged with the second rack 28; as shown in fig. 19, a second trapezoidal guide block 48 is mounted to the lower end of the third rack 38; as shown in fig. 16, the third rack 38 is mounted on the upper side of the isolation base plate 20 by the cooperation of the second trapezoidal guide block 48 and the third trapezoidal guide groove 31 opened on the isolation base plate 20; in the initial state, the third rack 38 is located at an intermediate position of the partition floor 20 in the front-rear longitudinal direction; the length of the third rack 38 is the same as the length of the second rack 28; the third rack 38 meshes with two fifth gears 46; as shown in fig. 17, the lower end of the first rotating shaft 42 is mounted with a second mounting plate 41; the structure mounted on the second mounting plate 41 is identical to the structure mounted on the first mounting plate 40; as shown in fig. 20, two fourth gears 45 are respectively mounted on the two third rotating shafts 50, and the two fourth gears 45 are engaged with the third rack 38; a first trapezoidal guide block 23 is arranged at the lower end of the first rack 24; as shown in fig. 18, the first rack 24 is mounted on the upper side of the isolation base plate 20 by the cooperation of the first trapezoidal guide block 23 and the first trapezoidal guide groove 29 opened on the isolation base plate 20; in the initial state, the first rack 24 is located at an intermediate position of the partition floor 20 in the front-rear longitudinal direction; the length of the first rack 24 is 1.5 times the length of the second rack 28; the first rack 24 is engaged with two fourth gears 45; as shown in fig. 17, a circular shaft hole is formed at a middle position of the driving plate 35; the driving plate 35 is mounted on the lower end of the driving shaft 11 through a circular shaft hole; one end of the first swing plate 36 is mounted on the lower side of one end of the driving plate 35 through a revolute pair; the other end of the first swinging plate 36 is mounted on the upper end of the second rotating shaft 44 through a bearing; one end of the second swing plate 39 is mounted on the upper side of the other end of the driving plate 35 through a revolute pair; the other end of the second swinging plate 39 is mounted on the upper end of the first rotating shaft 42 through a bearing; as shown in fig. 10, the upper end of the square connecting block 37 is mounted on the lower side of the first rack 24, and the square connecting block 37 is located at the middle position of the first rack 24; as shown in fig. 12, the lower end of the square connecting block 37 is positioned at the lower side of the insulation base plate 20 through the square guide groove 33 opened at the insulation base plate 20.

As shown in fig. 24, a square hole 52 is formed at the middle position of the driving mounting plate 47; as shown in fig. 21, the driving mounting plate 47 is mounted on the square connecting block 37 through the square hole 52 and is located at the lower side of the isolation base plate 20; the upper side of the driving mounting plate 47 is closely attached to the lower side of the isolation bottom plate 20; as shown in fig. 11 and 23, an elastic blocking blade 49 is respectively arranged between the two ends of the driving mounting plate 47 and the front and rear end surfaces of the inner side of the mounting shell 5; as shown in fig. 22, one end of the connecting plate 54 is mounted on the lower end of the square connecting block 37; as shown in fig. 25, the other end of the connecting plate 54 is mounted with a driving connecting plate 19; the driving connecting plate 19 is located at an intermediate position inside the mounting case 5 in the lateral direction; the driving connecting plate 19 is provided at both ends thereof with fourth shaft holes 56, respectively.

As shown in fig. 8 and 11, the mounting structure of the two ends of the driving connecting plate 19 is completely the same, and for one end of the driving connecting plate 19, as shown in fig. 26, the upper end of the fourth rotating shaft 58 is mounted in the fourth shaft hole 56 formed on the driving connecting plate 19 through a bearing; the sixth gear 57 is mounted on the fourth rotating shaft 58; as shown in fig. 27, the blade holder 25 is U-shaped; the non-open end of the blade holder 25 is mounted on the lower end of the fourth rotating shaft 58, and the fourth rotating shaft 58 is located in the middle of the blade holder 25; as shown in fig. 28, two rotation shafts 61 are symmetrically installed at both ends of the fixed block 60; the fixed block 60 is mounted in the blade holder 25 by conventional means; one end of the blade fixing block 22 is provided with a third shaft hole 53; as shown in fig. 9, the lower end of the blade 21 is splayed; two blade fixing blocks 22 are symmetrically arranged on two sides of the upper end of the blade 21; as shown in fig. 29, the blade 21 is mounted on the lower side of the fixing block 60 through the engagement of the third shaft holes 53 formed in the two blade fixing blocks 22 with the two rotation shafts 61 mounted on the fixing block 60; three plate springs 59 are sequentially and uniformly arranged on one side surfaces of the blade 21 and the fixed block 60; two fourth racks 62 are symmetrically installed at two ends of the lower side of the isolation base plate 20, and the two fourth racks 62 are correspondingly matched with the two sixth gears 57; one end of each of the two fourth racks 62 is flush with the corresponding end surface of the lower side surface of the isolation bottom plate 20; as shown in fig. 7, the mesh plate 14 is distributed with uniformly distributed filter holes 18; the mesh plate 14 is mounted inside the lower end of the mounting case 5 with the upper side of the mesh plate 14 flush with the lower sides of the two blades 21.

The diameter of the drive plate 35 is one third of the diameter of the first trapezoidal guide groove 29.

The mesh plate 14 is a stainless steel mesh plate.

The speed reducing motor 2 is provided with a rechargeable battery; the speed reducing motor 2 is provided with a control switch.

The speed reducing motor 2 is provided with a transformer, and the speed reducing motor 2 is connected with a household socket through the transformer.

The box cover 6 on the containing shell is provided with a control switch.

In summary, the following steps:

the beneficial effects of the design of the invention are as follows: the ball removing device controls the first rack 24 to move through the speed reducing motor 2; the first rack 24 controls the movement of the two blades 21; cutting by movement of the two blades 21; the first rack 24 moves about 5 times the width of the blade 21 through the transmission of the second rack 28, the fifth gear 46, the third rack 38 and the fourth gear 45, that is, the blade 21 moves about 5 times the width of the blade 21; the ball removing device is in a long strip shape, and compared with a common round ball removing device, the ball removing area is larger; and only two blades 21 need to be installed in the ball removing device, and compared with the ball removing device with a large plurality of blades 21, the ball removing device reduces the use cost of the blades 21.

The speed reducing motor achieves the purpose of meeting the use rotating speed of equipment through the motor matched with the speed reducing gear.

When the speed reducing motor 2 works, the speed reducing motor 2 can drive the driving shaft 11 to rotate; the driving shaft 11 rotates to drive the driving plate 35 mounted on the driving shaft to rotate; the driving plate 35 rotates to drive the first swinging plate 36 and the second swinging plate 39 to swing; the second swinging plate 39 swings so that the second rotating shaft 44 moves in the direction of the second trapezoidal guide groove 30; the second rotating shaft 44 moves to drive the first mounting plate 40 mounted thereon to move; the first mounting plate 40 moves to drive the two fifth gears 46 mounted thereon to move along the second trapezoidal guide groove 30; in the process, the guide block 43 and the third trapezoidal guide block 51 mounted on the first mounting plate 40 guide the movement of the two fifth gears 46; since the second rack 28 is fixedly installed on the upper side of the isolation base plate 20, and the second rack 28 is meshed with the two fifth gears 46, when the two fifth gears 46 move, the fifth gears 46 rotate under the action of the second rack 28; the rotation of the fifth gear 46 drives the third rack 38 engaged therewith to move; the first swinging plate 36 swings so that the first rotating shaft 42 moves in the direction of the fourth guiding groove 34; the first rotating shaft 42 moves to drive the second mounting plate 41 mounted on the first rotating shaft to move; the second mounting plate 41 moves to drive the two fourth gears 45 mounted thereon to move along the fourth trapezoidal guide groove 34; since the two fourth gears 45 are meshed with the third rack 38, the movement of the two fourth gears 45 drives the third rack 38 to move; the third rack 38 is moved by the rotation of the fifth gear 46, and the third rack 38 is moved by the movement of the fourth gear 45; since the fifth gear 46 and the fourth gear 45 are driven to move by both ends of the driving plate 35, respectively, the moving speeds of the fifth gear 46 and the fourth gear 45 are the same, while the fourth gear 45 must rotate and the rotating speed of the fourth gear 45 is twice the rotating speed of the fifth gear 46 in order to accommodate the movement of the third rack 38; in the process that the driving plate 35 is driven to move by the fourth gear 45, the fourth gear 45 drives the first rack 24 to move, and the rotation of the fourth gear 45 also drives the first rack 24 to move, that is, the movement of the first rack 24 is driven by the movement and the rotation of the fourth gear 45; when the fifth gear 46 is driven to move to L, the distance that the fourth gear 45 is driven to move is also L, the distance that the fifth gear 46 drives the third rack 38 to move is L, the distance that the fourth gear 45 drives the third rack 38 to move is L, that is, the distance that the third rack 38 is driven by the common drive of the fourth gear 45 and the fifth gear 46 is 2L; and the fourth gear 45 rotates by a distance of 2L in order to accommodate the movement of the third rack 38; the distance that the first rack 24 is driven to move by the rotation of the fourth gear 45 is 2L, and the distance that the first rack 24 is driven to move by the movement of the fourth gear 45 is L, that is, the distance that the first rack 24 is driven to move by the rotation and the movement of the fourth gear 45 is 3L.

When the speed reducing motor 2 works, the speed reducing motor 2 can drive the driving shaft 11 to rotate; the driving shaft 11 rotates to drive the third gear 12 mounted on the driving shaft to rotate; the third gear 12 rotates to drive the second gear 10 engaged with the third gear to rotate; the second gear 10 rotates to drive the first gear 7 meshed with the second gear to rotate; the first gear 7 rotates to drive the sixth rotating shaft 63 to rotate; the sixth rotating shaft 63 rotates to drive the three blades 8 mounted on the sixth rotating shaft to rotate, negative pressure is generated in the storage box 3 through the rotation of the blades 8, and the pompon which is positioned at the lower side of the mounting shell 5 and cut off by the blade 21 passes through the first isolation side plate 26 and the second isolation side plate and is absorbed into the storage box 3 through the gap between the two side surfaces of the inner side of the mounting shell 5; the function of the air hole formed in the box cover 6 of the storage box 3 is to enable the air absorbed by the rotation of the blades 8 to flow out of the storage box 3, and the air hole is small, so that the absorbed pompon cannot flow out of the storage box 3 to affect the environment; after use, the box cover 6 is opened to clean the pompon in the storage box 3.

In the present invention, when the first rack 24 moves towards one side of the mounting case 5, one end of the square guide groove 33 opened on the isolation bottom plate 20 located at the lower side of the first rack 24 is exposed, and in order to prevent this, the present invention designs the elastic blocking blade 49, and when the first rack 24 moves, the first rack 24 drives the square connecting block 37 installed at the lower side thereof to move; the square connecting block 37 moves to drive the driving mounting plate 47 mounted on the square connecting block to move; the driving mounting plate 47 moves to stretch or compress the elastic blocking leaves 49 arranged at both sides thereof; one side exposed out of the square guide groove 33 is blocked by the elastic blocking leaf 49, so that the square cavity formed by the isolation top plate 17, the first isolation side plate 26, the second isolation side plate 27, the isolation bottom plate 20 and the two square blocks 55 is always kept in a sealing state, and lint balls positioned at the lower side of the mounting shell 5 and cut off by the blade 21 are prevented from entering the square cavity to influence the driving of the first rack 24.

When the first rack 24 moves, the first rack 24 can drive the square connecting block 37 arranged on the lower side of the first rack to move; the square connecting block 37 drives the driving connecting plate 19 to move through the connecting plate 54; the driving connecting plate 19 moves to drive the blade clamps 25 on the two sides to move; the blade clamp 25 moves to drive the fixed block 60 mounted on the blade clamp to move; the fixed block 60 moves to drive the blade 21 mounted thereon to move; cutting the pompompom on the garment by the movement of the blade 21; the blade 21 is arranged at the lower side of the fixed block 60 through the matching of the third shaft holes 53 formed on the two blade fixed blocks 22 and the two rotating shafts 61 arranged on the fixed block 60; the blade 21 can oscillate with respect to the fixed block 60; when the blade 21 comes into contact with a pompom on a garment during movement, the blade 21 will cut the pompom, but the pom will also give the blade 21 a resistance; when the resistance is larger than the elastic force of the plate spring 59 mounted on the fixed block 60 of the blade 21, the blade 21 will swing, so that the pressure between the end of the blade 21 contacting the pompom and the mesh-shaped plate 14 becomes larger, the cutting effect of the blade 21 on the pom is better, and the pressure between the end of the blade 21 not contacting the pom and the mesh-shaped plate 14 becomes smaller or has a gap, thereby reducing the friction of the mesh-shaped plate 14 on the end blade 21; so that the service life of the blade 21 is long; the function of the plate spring 59 in the present invention is to provide a pressure between the blade 21 and the mesh plate 14, so that the blade 21 and the mesh plate 14 are always in contact fit; in the invention, when the sixth gear 57 mounted on the driving connecting plate 19 is meshed with the corresponding fourth rack 62 in the moving process, the sixth gear 57 rotates under the action of the fourth rack 62; the sixth gear 57 rotates to drive the fourth rotating shaft 58 to rotate; the fourth rotating shaft 58 rotates to drive the blade holder 25 to rotate; the blade holder 25 rotates to drive the blade 21 mounted on the lower side thereof to rotate; the cutting area of the blade 21 to the clothes is enlarged through the rotation of the blade 21; the blade fixing block 22 of the present invention has an arc-shaped chamfer thereon, which functions to prevent the blade 21 from interfering with both side surfaces of the mounting case 5 during rotation.

In the invention, the rotating diameter value of the driving plate 35 is one third of that of the first trapezoidal guide groove 29; when the drive plate 35 makes one rotation, the distance that the first rack 24 moves is three times the diameter of the rotation of the drive plate 35; i.e. the blade 21 moves a distance three times the diameter of rotation of the drive plate 35.

As shown in fig. 30, the present invention increases the cutting area of the blade 21 by increasing the rotation of the blade 21; when the blade 21 does not need to rotate, the cutting area of the blade 21 is reduced, and in order to increase the cutting area of the blade 21, only the type of the blade 21 needs to be changed, the length of the mounting shell 5 is changed, and two symmetrical square blocks 55 are mounted in the mounting shell 5; the structure for driving the blade 21 to move does not need to be replaced, so that a manufacturer can adapt to two different cutting requirements by only producing one internal structure in the production process, and the production cost is reduced.

The specific implementation mode is as follows: when the ball removing device designed by the invention is used, firstly, the speed reducing motor 2 is controlled to work, and the speed reducing motor 2 can drive the driving shaft 11 to rotate; the driving shaft 11 rotates to drive the driving plate 35 mounted on the driving shaft to rotate; the driving plate 35 rotates to drive the first swinging plate 36 and the second swinging plate 39 to swing; the second swinging plate 39 swings so that the second rotating shaft 44 moves in the direction of the second trapezoidal guide groove 30; the second rotating shaft 44 moves to drive the first mounting plate 40 to move; the first mounting plate 40 moves to drive the two fifth gears 46 to move along the second trapezoid guide slots 30; under the action of the second rack 28, the fifth gear 46 is rotated; the rotation of the fifth gear 46 drives the third rack 38 engaged therewith to move; the first swinging plate 36 swings so that the first rotating shaft 42 moves in the direction of the fourth guiding groove 34; the movement of the first rotating shaft 42 drives the second mounting plate 41 to move; the second mounting plate 41 moves to drive the two fourth gears 45 mounted thereon to move along the fourth trapezoidal guide groove 34; the movement of the two fourth gears 45 drives the third rack 38 to move; the third rack 38 is moved by the rotation of the fifth gear 46, and the third rack 38 is moved by the movement of the fourth gear 45; in the process that the driving plate 35 drives the fourth gear 45 to move, the fourth gear 45 drives the first rack 24 to move, and the rotation of the fourth gear 45 also drives the first rack 24 to move; the first rack 24 drives the square connecting block 37 arranged on the lower side of the first rack to move; the square connecting block 37 drives the driving connecting plate 19 to move through the connecting plate 54; the driving connecting plate 19 moves to drive the blade clamps 25 on the two sides to move; the blade clamp 25 moves to drive the fixed block 60 mounted on the blade clamp to move; the fixed block 60 moves to drive the blade 21 mounted thereon to move; the pompom on the garment is cut by the movement of the blade 21.

Claims

1. A ball removing device for clothes is characterized in that: the device comprises a motor support, a gear motor, a storage box, a handle, an installation shell, a box cover, a first gear, a blade, a first support, a second gear, a driving shaft, a third gear, a mesh plate, a square groove, a first shaft hole, an isolation top plate, a filter hole, a driving connecting plate, an isolation bottom plate, a blade fixing block, a first trapezoidal guide block, a first rack, a blade clamp, a first isolation side plate, a second rack, a first trapezoidal guide groove, a second trapezoidal guide groove, a third trapezoidal guide groove, a second shaft hole, a square guide groove, a fourth trapezoidal guide groove, a driving plate, a first swinging plate, a square connecting block, a third rack, a second swinging plate, a first mounting plate, a second mounting plate, a first rotating shaft, a guide block, a second rotating shaft, a fourth gear, a fifth gear, a driving mounting plate, a second trapezoidal guide block, an elastic baffle blade, a third rotating shaft, a third trapezoidal guide block, a third, The mounting structure comprises a square hole, a third shaft hole, a connecting plate, a square block, a fourth shaft hole, a sixth gear, a fourth rotating shaft, a plate spring, a fixed block, a rotating shaft, a fourth rack, a fifth rotating shaft and a sixth rotating shaft, wherein the lower end of a mounting shell is an open end, a square groove communicated with the inner side of the mounting shell is formed in the upper end surface of the mounting shell, and a first shaft hole communicated with the inner side of the mounting shell is formed in the upper end surface of the mounting shell; two square blocks are symmetrically arranged at the front end and the rear end of the inner side of the mounting shell; the handle is arranged on the upper end surface of the outer side of the mounting shell; the speed reducing motor is supported and installed on the upper end surface of the outer side of the installation shell through two symmetrically distributed motors; the upper end of the driving shaft is arranged on an output shaft of the speed reducing motor, and the lower end of the driving shaft penetrates through a first shaft hole formed in the mounting shell and is positioned on the inner side of the mounting shell; the third gear is arranged on the driving shaft; the upper end of the storage box is provided with a box cover, the box cover is provided with uniformly distributed air holes, and one side surface of the storage box is provided with an avoidance groove; the storage box is arranged on the upper end surface of the outer side of the mounting shell, and the lower end of the storage box is aligned and matched with the square groove formed in the mounting shell; the lower end of the fifth rotating shaft is arranged on the upper end surface of the outer side of the mounting shell; the second gear is arranged on the fifth rotating shaft; the second gear is meshed with the third gear, and one side of the second gear, which is far away from the third gear, penetrates through the avoidance groove on the storage box and is positioned in the storage box; the upper end of the sixth rotating shaft is arranged in the storage box through a first support; the first gear is arranged on the sixth rotating shaft and meshed with the second gear; the three blades are uniformly arranged at the lower end of the sixth rotating shaft in the circumferential direction and are positioned in a square groove formed in the mounting shell;

a second shaft hole is formed in the isolation top plate; two ends of the isolating top plate are respectively arranged on two opposite end faces of the two square blocks; the lower end of the driving shaft passes through a second shaft hole on the isolating top plate and is positioned at the lower side of the isolating top plate; the first isolation side plate and the second isolation side plate are symmetrically arranged on two sides of the lower end of the isolation top plate; gaps are formed between the first isolation side plate and the second isolation side plate and the two side surfaces of the mounting shell; one side of the upper side surface of the isolation bottom plate is provided with a first trapezoidal guide groove which penetrates through the front end and the rear end of the isolation bottom plate, and the lower side of the first trapezoidal guide groove is provided with a square guide groove communicated with the lower side of the isolation bottom plate; the square guide groove is positioned in the middle of the first trapezoidal guide groove, and the length of the square guide groove is half of that of the first trapezoidal guide groove; a fourth trapezoidal guide groove is formed in the upper side face of the isolation bottom plate and is close to the first trapezoidal guide groove; the fourth trapezoidal guide groove is positioned in the middle of the isolation bottom plate in the front and back longitudinal directions, and the length of the fourth trapezoidal guide groove is one third of that of the first trapezoidal guide groove; the upper side surface of the isolation bottom plate is provided with a third trapezoidal guide groove which is close to the fourth trapezoidal guide groove; the third trapezoidal guide groove is positioned in the middle of the isolation bottom plate in the front and back longitudinal directions, and the length of the third trapezoidal guide groove is two thirds of that of the first trapezoidal guide groove; the upper side surface of the isolation bottom plate is provided with a second trapezoidal guide groove, and the second trapezoidal guide groove is close to the third trapezoidal guide groove; the second trapezoidal guide groove is positioned in the middle of the isolation bottom plate in the front and back longitudinal directions, and the length of the second trapezoidal guide groove is one third of that of the first trapezoidal guide groove; the isolation bottom plate is arranged at the lower ends of the first isolation side plate and the second isolation side plate, and the front end and the rear end of the isolation bottom plate are arranged on two opposite end faces of the two square blocks; the isolation top plate, the first isolation side plate, the second isolation side plate, the isolation bottom plate and the two square blocks form a square cavity;

the second rack is arranged on the upper side of the isolation bottom plate, is close to the second trapezoidal guide groove and is positioned in the middle of the isolation bottom plate in the front-back longitudinal direction; the length of the second rack is the same as that of the second trapezoidal guide groove; the lower end of the second rotating shaft is provided with a first mounting plate; the lower end of the guide block is provided with a third trapezoidal guide block; the lower end of the first mounting plate is provided with a guide block; the first mounting plate is arranged on the upper side of the isolation base plate through the matching of a third trapezoidal guide block on the guide block and a second trapezoidal guide groove formed in the isolation base plate; the two third rotating shafts are symmetrically arranged on the lower sides of the two ends of the first mounting plate; the two fifth gears are respectively arranged on the two third rotating shafts and are meshed with the second rack; the lower end of the third rack is provided with a second trapezoidal guide block; the third rack is arranged on the upper side of the isolation base plate through the matching of the second trapezoidal guide block and a third trapezoidal guide groove formed in the isolation base plate; in an initial state, the third rack is positioned at the middle position of the isolation bottom plate in the front and back longitudinal directions; the length of the third rack is the same as that of the second rack; the third rack is meshed with the two fifth gears; the lower end of the first rotating shaft is provided with a second mounting plate; the structure mounted on the second mounting plate is completely the same as the structure mounted on the first mounting plate; the two fourth gears are respectively arranged on the two third rotating shafts and are meshed with the third racks; the lower end of the first rack is provided with a first trapezoidal guide block; the first rack is arranged on the upper side of the isolation base plate through the matching of the first trapezoidal guide block and a first trapezoidal guide groove formed in the isolation base plate; in an initial state, the first rack is positioned at the middle position of the isolation bottom plate in the front and back longitudinal directions; the length of the first rack is 1.5 times of the length of the second rack; the first rack is meshed with the two fourth gears; a circular shaft hole is formed in the middle of the driving plate; the driving plate is arranged at the lower end of the driving shaft through a circular shaft hole; one end of the first swinging plate is arranged at the lower side of one end of the driving plate through a revolute pair; the other end of the first swinging plate is arranged at the upper end of the second rotating shaft through a bearing; one end of the second swinging plate is arranged on the upper side of the other end of the driving plate through a revolute pair; the other end of the second swinging plate is arranged at the upper end of the first rotating shaft through a bearing; the upper end of the square connecting block is arranged on the lower side of the first rack, and the square connecting block is positioned in the middle of the first rack; the lower end of the square connecting block passes through a square guide groove formed in the isolation bottom plate and is positioned on the lower side of the isolation bottom plate;

a square hole is formed in the middle of the driving mounting plate; the driving mounting plate is mounted on the square connecting block through the square hole and is positioned on the lower side of the isolation bottom plate; the upper side surface of the driving mounting plate is clung to the lower side surface of the isolation bottom plate; elastic blocking blades are respectively arranged between the two ends of the driving mounting plate and the front end surface and the rear end surface of the inner side of the mounting shell; one end of the connecting plate is arranged at the lower end of the square connecting block; the other end of the connecting plate is provided with a driving connecting plate; the driving connecting plate is positioned at the middle position of the inner side of the mounting shell in the transverse direction; a fourth shaft hole is respectively formed at two ends of the driving connecting plate;

the mounting structures of the two ends of the driving connecting plate are completely the same, and for one end of the driving connecting plate, the upper end of the fourth rotating shaft is mounted in a fourth shaft hole formed in the driving connecting plate through a bearing; the sixth gear is arranged on the fourth rotating shaft; the blade clamp is U-shaped; the end, not opened, of the blade clamp is arranged at the lower end of the fourth rotating shaft, and the fourth rotating shaft is positioned in the middle of the blade clamp; two ends of the fixed block are symmetrically provided with two rotating shafts; the fixed block is arranged in the blade clamp through the conventional mechanism; one end of the blade fixing block is provided with a third shaft hole; the lower end of the blade is splayed; two blade fixing blocks are symmetrically arranged on two sides of the upper end of the blade; the blade is arranged at the lower side of the fixed block through the matching of third shaft holes formed on the two blade fixed blocks and two rotating shafts arranged on the fixed blocks; three plate springs are sequentially and uniformly arranged on one side surfaces of the blade and the fixed block; the two fourth racks are symmetrically arranged at two ends of the lower side of the isolation bottom plate and are correspondingly matched with the two sixth gears; one end of each of the two fourth racks is flush with the corresponding end face of the lower side face of the isolation bottom plate; the mesh plate is fully distributed with evenly distributed filter holes; the reticular plate is arranged on the inner side of the lower end of the mounting shell, and the upper side surface of the reticular plate is flush with the lower side surfaces of the two blades;

the rotating diameter value of the driving plate is one third of that of the first trapezoidal guide groove; the blade fixing block is provided with an arc chamfer;

the speed reducing motor is provided with a transformer and is connected with the household socket through the transformer;

the box cover on the containing shell is provided with a control switch.

2. A ball removal device for use with a garment as claimed in claim 1, wherein: the reticular plate is a stainless steel reticular plate.

3. A ball removal device for use with a garment as claimed in claim 1, wherein: the speed reducing motor is provided with a rechargeable battery; the speed reducing motor is provided with a control switch.