CN109222845B - Pedal automatic shoe-cleaning machine - Google Patents

Abstract

The invention discloses a pedal type automatic shoe polisher, which belongs to the field of shoe polishers and comprises a pedal plate, a vamp cleaning mechanism, a left side cleaning mechanism and a right side cleaning mechanism, wherein a connecting rod slider mechanism is hinged on the pedal plate, a driving shaft is arranged below the pedal plate, gear teeth are arranged on the driving shaft, a gear strip meshed with the gear teeth is fixed on the pedal plate, a compression air bag is arranged below the pedal plate, a plurality of air nozzles are arranged above the pedal plate and are connected with an air outlet of the compression air bag through an air pipe, when the pedal plate is pressed downwards, the pedal plate moves downwards to enable the gear strip to drive the driving shaft to rotate, and the compression air bag is compressed and is sprayed by the air nozzles. The pedal type automatic shoe polisher disclosed by the invention can realize pure mechanical driving, is more energy-saving and environment-friendly, can automatically clean shoes by pedaling without manual operation, and is thorough in cleaning and free from residue due to the combination of wiping cleaning and air injection cleaning.

Description

Pedal automatic shoe-cleaning machine

Technical Field

The invention relates to the field of shoe-cleaning machines, in particular to a pedal type automatic shoe-cleaning machine.

Background

The shoe polisher is a device for polishing shoes such as leather shoes and board shoes in daily life, when the shoes are stained with various stains and dust, the shoes can be cleaned in a cleaning or wiping mode, but the shoes are not easy to dry after being cleaned with water, manual wiping is usually needed for wiping, cleaning rags is needed, and the shoes are troublesome to clean by using the shoe polisher.

The existing automatic shoe polisher usually needs to drive a motor to work through electric energy to clean shoes, so that the structure is relatively complex, the operation is inconvenient, the electric energy is consumed, and potential safety hazards exist; the existing automatic shoe polisher can not thoroughly clean shoes, has poor cleaning effect, and easily remains dust and stains on the shoes.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a pedal type automatic shoe polisher which can realize pure mechanical driving and is more energy-saving and environment-friendly, shoes can be automatically cleaned by pedaling without manual operation, and the cleaning is combined with air injection cleaning, so that the shoes are thoroughly cleaned without residues.

The technical scheme adopted by the invention is as follows:

the invention provides a pedal type automatic shoe polisher which comprises a pedal plate, a vamp brushing mechanism, a left side brushing mechanism and a right side brushing mechanism, wherein the pedal plate can move up and down, the vamp brushing mechanism is positioned at one end of the pedal plate, the left side brushing mechanism and the right side brushing mechanism are respectively arranged on two sides of the pedal plate, a connecting rod slider mechanism used for driving the vamp brushing mechanism to act is hinged on the pedal plate, and a driving shaft used for driving the left side brushing mechanism and the right side brushing mechanism to act is arranged below the pedal plate; the air injection device is characterized in that gear teeth are arranged on the driving shaft, a gear strip meshed with the gear teeth is fixed on the pedal plate, a compression air bag is arranged below the pedal plate and is arranged on one side of the driving shaft, a plurality of air injection nozzles are arranged above the pedal plate and are all connected with an air outlet of the compression air bag through an air pipe, when the pedal plate is pedaled on and pressed down, the pedal plate moves downwards, the gear strip drives the driving shaft to rotate, and the compression air bag is compressed and is injected by the air injection nozzles.

As a further improvement of the scheme, the shoe cleaning machine further comprises a casing, the pedal plate, the vamp cleaning mechanism, the left side cleaning mechanism and the right side cleaning mechanism are all located inside the casing, the pedal plate is obliquely arranged, the lower end of the pedal plate is hinged to the bottom of the inner side of the casing, the vamp cleaning mechanism is located at the lower end of the pedal plate, the gear strip is fixed at the higher end of the pedal plate, and the driving shaft is located below the higher end of the pedal plate.

As a further improvement of the scheme, the vamp cleaning mechanism comprises a first support and a second support fixed on the casing, a rotating frame hinged on the first support and the second support at the middle part, a support hinged on the upper end of the rotating frame, a spring connected between the support and the rotating frame, a brush hair cylinder fixed on the support, a first push handle rod and a second push handle rod respectively fixed on both sides of the lower end of the rotating frame, a left connecting rod slider mechanism and a right connecting rod slider mechanism respectively located on both sides of the pedal plate, the left connecting rod slider mechanism comprises a left connecting rod hinged on the higher end of the pedal plate, a left cross rod hinged on the lower end of the left connecting rod, and a left slider fixed on one end of the left cross rod and used for pushing the first push handle rod, the right connecting rod sliding block mechanism comprises a right connecting rod hinged to the higher end of the pedal, a right cross rod hinged to the lower end of the right connecting rod, and a right sliding block fixed to one end of the right cross rod and used for pushing the second push handle rod.

As a further improvement of this solution, the rotating frame includes a rotating shaft penetrating through the first support and the second support, a first rotating rod and a second rotating rod fixed at two ends of the rotating shaft, and a third rotating rod and a fourth rotating rod fixed on the rotating shaft and located between the first rotating rod and the second rotating rod, the first rotating rod and the second rotating rod are parallel to each other, the third rotating rod and the fourth rotating rod are parallel to each other, the first rotating rod and the second rotating rod are located below the first support and the second support, the third rotating rod and the fourth rotating rod are located above the first support and the second support, the first push handle rod is fixed at a lower end of the first rotating rod, and the second push handle rod is fixed at a lower end of the second rotating rod.

As a further improvement of the present scheme, the left side surface cleaning mechanism comprises a left transmission shaft, a left auxiliary transmission shaft arranged above the left transmission shaft, a first brush arranged on the left transmission shaft, and a second brush arranged on the left auxiliary transmission shaft, wherein a first transmission gear is fixed on the left transmission shaft, a second transmission gear meshed with the first transmission gear is fixed on the left auxiliary transmission shaft, a first bevel gear is fixed at one end of the left transmission shaft, a second bevel gear meshed with the first bevel gear is fixed on the driving shaft, and both ends of the left transmission shaft and the left auxiliary transmission shaft are fixed inside the casing through first supporting seats.

As a further improvement of the scheme, the right side surface cleaning mechanism comprises a right transmission shaft, a right auxiliary transmission shaft arranged above the right transmission shaft, a third brush arranged on the right transmission shaft, and a fourth brush arranged on the right auxiliary transmission shaft, wherein a third transmission gear is fixed on the right transmission shaft, a fourth transmission gear meshed with the third transmission gear is fixed on the right auxiliary transmission shaft, a third bevel gear is fixed at one end of the right transmission shaft, a fourth bevel gear meshed with the third bevel gear is fixed on the driving shaft, and two ends of the right transmission shaft and two ends of the right auxiliary transmission shaft are fixed in the casing through second supporting seats.

As a further improvement of the scheme, the bottom of the inner side of the casing is provided with a strip-shaped placing groove, the placing groove is positioned below the driving shaft, the gear rack is a soft gear rack, one end of the gear rack is fixed on the pedal, and the other end of the gear rack is positioned in the placing groove.

As a further improvement of the scheme, a V-shaped spring piece is arranged below the pedal plate, the V-shaped spring piece comprises an upper spring piece and a lower spring piece which are connected, the upper spring piece is attached to the lower end face of the pedal plate, the lower spring piece is attached to the bottom of the inner side of the casing, the bottom of the compression air bag is fixed on the lower spring piece, and the top of the compression air bag is fixed on the upper spring piece.

As a further improvement of the scheme, one side of the driving shaft is provided with a limiting block, the limiting block is fixed at the bottom of the inner side of the casing, and the gear strip is located between the driving shaft and the limiting block.

As a further improvement of the scheme, a cover is arranged at the top of the casing, a foot inlet is formed in the cover above the pedal plate, the plurality of air nozzles are fixed on the cover and located in the casing, and the plurality of air nozzles are uniformly distributed on two sides of the foot inlet.

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

the invention provides a pedal type automatic shoe polisher, which is provided with a pedal plate capable of moving up and down, a vamp cleaning mechanism, a left side cleaning mechanism and a right side cleaning mechanism, wherein a driving shaft and a gear strip matched with the driving shaft are arranged below the pedal plate, when the pedal plate is pressed down, the gear strip moves down along with the pedal plate to drive the driving shaft to rotate, so that the driving shaft drives the left side cleaning mechanism and the right side cleaning mechanism to act to wipe two side surfaces of a shoe, a connecting rod sliding block mechanism arranged on the pedal plate also acts along with the pedal plate to drive the vamp cleaning mechanism to act, so that the upper surface of the shoe is wiped, so that stains, dust and the like on the surface of the shoe are wiped, a compression air bag is arranged below the pedal plate, a plurality of air nozzles communicated with the compression air bag are arranged above the pedal plate to move down along with the pedal plate, the compression air bag is stressed and compressed to enable the plurality of air nozzles to eject air, can clean the vamp with water the mechanism, the left surface is cleaned with water the mechanism and the right surface is cleaned with water the mechanism and is cleaned the dust that gets off from shoes, blow away from dirt granule etc., prevent the dust, dirt granule etc. remain the surface that adheres to the shoes, through cleaning the combination of clearance and jet-propelled clearance, it is more thorough to the cleanness of shoes, can realize automatic shoe-cleaning through wearing shoes with pedal pushing down on the running-board, pure mechanical type drive vamp is cleaned with water the mechanism, the action of left surface is cleaned with water the mechanism and the right surface is cleaned with water the mechanism, need not electric drive, need not parts such as motor, need not worry power supply problem, energy-concerving and environment-protective more, and simple structure, low in production cost.

Drawings

FIG. 1 is a schematic structural view of a pedal-type automatic shoe polisher with a link-slider mechanism removed according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the pedal-powered automatic shoe polisher with the left side cleaning mechanism and the right side cleaning mechanism removed according to the embodiment of the present invention;

FIG. 3 is a schematic structural view of the pedal-powered automatic shoe polisher with the link-slider mechanism, the left-side cleaning mechanism and the right-side cleaning mechanism removed, according to an embodiment of the present invention;

FIG. 4 is a schematic top view of an automatic foot-operated shoe polisher according to an embodiment of the present invention;

FIG. 5 is a schematic top view of the pedal-powered automatic shoe polisher with the foot pedal removed according to the preferred embodiment of the present invention;

FIG. 6 is a schematic structural view of a shoe upper brushing mechanism provided in an embodiment of the present invention;

fig. 7 is a bottom view of the canopy in accordance with the exemplary embodiment of the present invention.

In the figure:

1. a foot pedal; 2. a vamp brushing mechanism; 3. a left side surface brushing mechanism; 4. a right side brushing mechanism; 5. a connecting rod slider mechanism; 6. a drive shaft; 61. gear teeth; 62. a gear rack; 7. compressing the air bag; 71. an air nozzle; 72. an air tube; 8. a housing; 81. a first support; 82. a second support; 83. a rotating frame; 84. a support; 85. a spring; 86. a bristle cartridge; 87. a first push handle rod; 88. a second push handle rod; 51. a left link slider mechanism; 52. a right link slider mechanism; 53. a left connecting rod; 54. a left cross bar; 55. a left slider; 800. a rotating shaft; 801. a first rotating lever; 802. a second rotating rod; 803. a third rotating rod; 804. a fourth rotating rod; 31. a left drive shaft; 32. a left counter drive shaft; 33. a first brush; 34. a second brush; 35. a first drive gear; 36. a second transmission gear; 37. a first bevel gear; 63. a second bevel gear; 38. a first support base; 89. a placing groove; 9. a V-shaped spring piece; 91. a spring plate is arranged; 92. a lower reed; 10. a limiting block; 80. a machine cover; 810. a foot inlet; 540. a first extension spring.

Detailed Description

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings and technical solutions required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

As shown in fig. 1 to 7, the pedal type automatic shoe polisher provided by this embodiment includes a pedal plate 1 capable of moving up and down, a shoe upper cleaning mechanism 2 located at one end of the pedal plate 1, a left side cleaning mechanism 3 and a right side cleaning mechanism 4 respectively located at two sides of the pedal plate 1, a link slider mechanism 5 hinged on the pedal plate 1 for driving the shoe upper cleaning mechanism 2 to operate, a driving shaft 6 located below the pedal plate 1 for driving the left side cleaning mechanism 3 and the right side cleaning mechanism 4 to operate, gear teeth 61 arranged on the driving shaft 6, a gear rack 62 fixed on the pedal plate 1 and engaged with the gear teeth 61, a compression air bag 7 located below the pedal plate 1, the compression air bag 7 located at one side of the driving shaft 6, a plurality of air nozzles 71 located above the pedal plate 1, the plurality of air nozzles 71 all connected to an air outlet of the compression air bag 7 through an air pipe 72, when a foot is stepped on the pedal 1 and pressed down, the pedal 1 moves down to enable the gear strip 62 to drive the driving shaft 6 to rotate, the compressed air bag 7 is compressed and is sprayed by a plurality of air nozzles 71, a compression spring is arranged inside the compressed air bag 7 to facilitate the recovery of the compressed air bag 7, the automatic pedal shoe-cleaning machine also comprises a shell 8, the pedal 1, the vamp cleaning mechanism 2, the left side cleaning mechanism 3 and the right side cleaning mechanism 4 are all positioned inside the shell 8, the pedal 1, the vamp cleaning mechanism 2, the left side cleaning mechanism 3, the right side cleaning mechanism 4 and other mechanisms can be prevented from being damaged by external force such as impact and the like by arranging the shell 8, the appearance is more attractive, the pedal 1 is obliquely arranged, the lower end of the pedal 1 is hinged at the inner bottom of the shell 8, the vamp cleaning mechanism 2 is positioned at the lower end of the pedal 1, the gear strip 62 is fixed at the higher end of the pedal 1, the driving shaft 6 is located below the upper end of the pedal 1, and the air inlet of the compression air bag 7 is communicated with the outside of the housing through a pipe. When in use, the pedal for wearing shoes is directly arranged on the pedal plate 1, the tiptoe faces to the lower end of the pedal plate 1, the heel faces to the higher end of the pedal plate 1, the other end of the pedal plate 1 is hinged to the other end of the pedal plate 1, the other end of the pedal plate 1 can rotate relative to the other end of the pedal plate 1, the stability is higher, the force is conveniently exerted on the pedal plate 1, the heel presses the higher end of the pedal plate 1 downwards with force, the higher end of the pedal plate 1 rotates relative to the lower end of the pedal plate 1, the gear strip 62 is driven to move downwards, the gear strip 62 is meshed with the gear teeth 61 on the driving shaft 6, so as to drive the driving shaft 6 to rotate, the driving shaft 6 drives the left side cleaning mechanism 3 and the right side cleaning mechanism 4 which are positioned at two sides of, the upper vamp of the shoe is cleaned, simultaneously, the compressed air bag 7 is compressed under the force of the foot pedal 1, the air inside the compressed air bag 7 is conveyed to the plurality of air nozzles 71 through the air pipe 72, the air injection direction of the air nozzles 71 faces the foot pedal 1, the air is injected to the vamp from top to bottom through the plurality of air nozzles 71, the dust, stain particles and the like which are cleaned from the surface of the shoe by the vamp cleaning mechanism 2, the left side cleaning mechanism 3 and the right side cleaning mechanism 4 can be blown off, the dust and the stain particles are prevented from being adhered to the surface of the shoe, the surface of the shoe is cleaned more thoroughly through the combination of the cleaning of the vamp cleaning mechanism 2, the left side cleaning mechanism 3 and the right side cleaning mechanism 4 and the air injection cleaning of the air nozzles 71, and the vamp cleaning mechanism 2, the left side cleaning mechanism 3, the right side cleaning mechanism 4 and the air injection of the air nozzles 71 can be realized through the foot pedal 1, Automatic shoe polishing of action when a plurality of parts such as compression gasbag 7, compactness rational in infrastructure, to the clean convenient and fast more of shoes, labour saving and time saving, and pure mechanical type drive, need not electric energy, motor, do not worry the power problem, application range is wider, and is more energy-concerving and environment-protective, overall structure is simple, low in production cost.

In order to facilitate the automatic wiping and resetting of the shoe upper by the shoe upper cleaning mechanism 2, further, the shoe upper cleaning mechanism 2 includes a first support 81 and a second support 82 fixed on the inner side wall of the casing 8, and a rotating frame 83 hinged on the first support 81 and the second support 82 at the middle part, the first support 81 and the second support 82 are located on the side wall of the casing 8 near the lower end of the pedal 1, the upper end of the rotating frame 83 is hinged with a support 84, a spring 85 is connected between the support 84 and the rotating frame 83, a brush barrel 86 is fixed on the support 84, the support 84 and the brush barrel 86 are both located above the pedal 1, the brush barrel 86 includes a fixed shaft, a cylindrical brush or sponge brush sleeved on the fixed shaft, the axial direction of the brush barrel 86 is consistent with the width direction of the pedal 1, a first push handle 87 and a second push handle 88 are respectively fixed on both sides of the lower end of the rotating frame 83, the first push handle 87 and the second push handle 88 are respectively located on both sides of the pedal 1, the link slider mechanism 5 comprises a left link slider mechanism 51 and a right link slider mechanism 52 which are respectively positioned at two sides of the pedal 1, the left link slider mechanism 51 is positioned between the left side surface cleaning mechanism 3 and the side wall of the machine shell 8, the right link slider mechanism 52 is positioned between the right side surface cleaning mechanism 4 and the side wall of the machine shell 8, the left link slider mechanism 51 comprises a left link 53 hinged at the higher end of the pedal 1, a left cross rod 54 hinged at the lower end of the left link 53, a left slider 55 fixed at one end of the left cross rod 54 and used for pushing a first push handle rod 87, the right link slider mechanism 52 comprises a right link hinged at the higher end of the pedal 1, the left connecting rod 53 and the right connecting rod are respectively hinged on the two fixing rods extending from the two sides of the higher end of the pedal 1. When the pedal 1 is pressed by feet, the higher end of the pedal 1 rotates downwards relative to the lower end of the pedal 1, so that the left connecting rod 53 and the right connecting rod are pushed, because the left connecting rod 53 is inclined downwards from the higher end of the pedal 1 to the lower end of the pedal 1, the right connecting rod is inclined downwards from the higher end of the pedal 1 to the lower end of the pedal 1, the lower end of the left connecting rod 53 and the lower end of the right connecting rod slide towards the lower end of the pedal 1 when stressed, the left connecting rod 53 pushes the left cross rod 54, the left cross rod 54 pushes the left sliding block 55, the left sliding block 55 pushes the first push handle rod 87, the right connecting rod pushes the right cross rod, the right cross rod pushes the right sliding block, the right sliding block pushes the second push handle rod 88, so that the first push handle rod 87 and the second push handle rod 88 move towards the direction far away from the pedal 1, the first push handle rod 87 and the second push handle rod 88 drive the rotating frame 83, and the rotating frame 83 rotates relative to the hinged part of the rotating, the upper end of the rotating frame 83 drives the support 84 and the brush hair cylinder 86 to rotate towards the direction close to the pedal 1, when the brush hair cylinder 86 is contacted with the vamp, the brush hair cylinder 86 and the support 84 are stressed, the support 84 rotates relative to the hinged position of the support 84 and the rotating frame 83, so that the brush hair cylinder 86 is upwards wiped on the vamp from the toe cap towards the vamp opening, the vamp is automatically wiped in a moving way, dirt, dust and the like on the vamp can be effectively wiped through the relative moving friction between the brush hair cylinder 86 and the vamp, when the foot is loosened to enable the higher end of the pedal 1 to upwards rotate and reset relative to the lower end of the pedal 1, the higher end of the pedal 1 drives the left connecting rod 53 and the right connecting rod, the left cross rod 54 and the right cross rod to move towards the higher end of the pedal 1, the left sliding block 55 and the right sliding block are driven to move towards the higher end of the pedal 1, so that the rotating frame 83 resets, support 84 automatic re-setting when being convenient for the foot to move upward and relax running-board 1, left cross-bar 54 is fixed with first extension spring 540 with left connecting rod 53 looks articulated one end, the other end of first extension spring 540 is fixed on the lateral wall of casing 8, right cross-bar is fixed with second extension spring with right connecting rod looks articulated one end, the other end of second extension spring is fixed on the lateral wall of casing 8, through setting up first extension spring 540 and second extension spring, left cross-bar 54 and right cross-bar automatic re-setting when being convenient for the higher one end of running-board 1 shifts up, thereby realize that the clear mechanism of brushing of vamp automatically cleans the vamp and resets, and it is effectual to the cleanness of vamp.

In order to enhance the structural stability of the shoe upper cleaning mechanism 2, further, the rotating frame 83 includes a rotating shaft 800 penetrating the first support 81 and the second support 82, a first rotating rod 801 and a second rotating rod 802 fixed at both ends of the rotating shaft 800, a third rotating rod 803 and a fourth rotating rod 804 fixed on the rotating shaft 800 and located between the first rotating rod 801 and the second rotating rod 802, the first support 81 is located between the first rotating rod 801 and the third rotating rod 803, the second support 82 is located between the second rotating rod 802 and the fourth rotating rod 804, the first rotating rod 801 and the second rotating rod 802 are parallel to each other, the third rotating rod 803 and the fourth rotating rod 804 are parallel to each other, the first rotating rod 801 and the second rotating rod 802 are located below the first support 81 and the second support 82, the third rotating rod 803 and the fourth rotating rod 804 are located above the first support 81 and the second support 82, the bracket 84 is hinged on the third rotating rod 803 and the fourth rotating rod 804, the lower end of the first rotating rod 87 is fixed on the first rotating rod 801, the second push handle rod 88 is fixed at the lower end of the second rotating rod 802, when the left slider 55 and the right slider respectively push the first push handle rod 87 and the second push handle rod 88, the first rotating rod 801 and the second rotating rod 802 are forced to rotate in the direction away from the pedal 1, the rotating shaft 800 rotates along with the first pushing handle rod 87 and the second pushing handle rod 88 to drive the third rotating rod 803 and the fourth rotating rod 804 to rotate in the direction close to the pedal 1, so that the third rotating rod 803 and the fourth rotating rod 804 drive the bracket 84 and the brush barrel 86 to rotate to wipe the upper, the rotating shaft 800 can be connected to the first support 81 and the second support 82 through bearings, so that the rotating shaft 800 can rotate more smoothly, the first rotating rod 801, the second rotating rod 802, the third rotating rod 803 and the fourth rotating rod 804 can be simultaneously forced to rotate through the first rotating rod 801 and the second rotating rod 802, and the third rotating rod 803 and the fourth rotating rod 804 are all fixed on the rotating shaft 800, so that the structure of the rotating frame 83 is more firm during the rotating operation, thereby enhancing the stability of the vamp brushing mechanism 2 and ensuring the brushing effect of the vamp.

In order to enhance the cleaning effect of the left side cleaning mechanism 3 and the right side cleaning mechanism 4 on the side of the shoe, further, the left side cleaning mechanism 3 comprises a left transmission shaft 31, a left auxiliary transmission shaft 32 arranged above the left transmission shaft 31, a first brush 33 arranged on the left transmission shaft 31, and a second brush 34 arranged on the left auxiliary transmission shaft 32, the first brush 33 and the second brush 34 are both cylindrical, a first transmission gear 35 is fixed on the left transmission shaft 31, a second transmission gear 36 meshed with the first transmission gear 35 is fixed on the left auxiliary transmission shaft 32, a first bevel gear 37 is fixed at one end of the left transmission shaft 31, a second bevel gear 63 meshed with the first bevel gear 37 is fixed on the driving shaft 6, both ends of the left transmission shaft 31 and the left auxiliary transmission shaft 32 are arranged on the first supporting seat 38 through bearings, the first supporting seat 38 is fixed at the bottom of the inner side of the machine shell 8, the axial direction of the driving shaft 6 is consistent with the width direction of the pedal 1, the two ends of the driving shaft 6 are fixed on the machine shell 8 through rotary joints, the right side surface cleaning mechanism 4 comprises a right transmission shaft, a right auxiliary transmission shaft arranged above the right transmission shaft, a third brush arranged on the right transmission shaft and a fourth brush arranged on the right auxiliary transmission shaft, the third brush and the fourth brush are cylindrical, a third transmission gear is fixed on the right transmission shaft, a fourth transmission gear meshed with the third transmission gear is fixed on the right auxiliary transmission shaft, a third bevel gear is fixed at one end of the right transmission shaft, a fourth bevel gear meshed with the third bevel gear is fixed on the driving shaft, and the two ends of the right transmission shaft and the right auxiliary transmission shaft are fixed inside the machine shell 8 through second supporting seats. When the foot is used to press the pedal 1, the higher end of the pedal 1 drives the gear rack 62 to move downwards to drive the driving shaft 6 to rotate in the forward direction, the driving shaft 6 drives the first bevel gear 37 to rotate through the second bevel gear 63, the first bevel gear 37 drives the left transmission shaft 31 to rotate, and further drives the first transmission gear 35 to rotate, so as to drive the second transmission gear 36 meshed with the first transmission gear 35 to rotate, so as to drive the left auxiliary transmission shaft 32 to rotate, the driving shaft 6 drives the third bevel gear to rotate through the fourth bevel gear, the third bevel gear rotates to drive the right transmission shaft to rotate, and further drives the third transmission gear to rotate, so as to drive the fourth transmission gear meshed with the third transmission gear to rotate, so as to drive the right auxiliary transmission shaft to rotate, through the rotation of the left transmission shaft 31 and the left auxiliary transmission shaft 32, the first brush 33 and the second brush 34 clean the side surface of the shoe, through the rotation of the right transmission shaft, the third brush and the fourth brush are used for wiping the side surface of a shoe, the second brush 33 and the fourth brush are both thick brushes, the first brush 33 and the third brush are both thin brushes, the second brush 33 and the fourth brush firstly contact the side surface of the shoe to wipe and remove stains with a large area, then the first brush 33 and the third brush are used for finely brushing the side surface of the shoe to clean stains, dust and the like in gaps on the surface of the shoe, the side surface of the shoe is more thoroughly cleaned, the foot is loosened when the pedal plate 1 is pressed to a limit position, the higher end of the pedal plate 1 rotates upwards relative to the lower end of the pedal plate 1, the higher end of the pedal plate 1 drives the gear strip 62 to move upwards to enable the driving shaft 6 to rotate reversely, and the left transmission shaft 31, the left auxiliary transmission shaft 32, the right transmission shaft and the right auxiliary transmission shaft are opposite to the rotation direction when the pedal plate 1 is pressed, so that the first brush 33, The second brush 34, the third brush and the fourth brush reversely wipe the side surfaces of the shoes, and the cleaning effect on the side surfaces of the shoes can be enhanced by alternately cleaning the shoes in a forward rotating mode and a reverse rotating mode, so that the side surfaces of the shoes are cleaned more thoroughly.

In order to facilitate the matching of the gear rack 62 and the driving shaft 6, further, the bottom of the inner side of the housing 8 is provided with a strip-shaped placing groove 89, the placing groove 89 is located below the driving shaft 6, the gear rack 62 is a soft gear rack, one end of the gear rack 62 is fixed on the pedal plate 1, the other end of the gear rack 62 is located in the placing groove 89, the gear rack 62 can be in a strip shape or a strip shape, when the higher end of the pedal plate 1 rotates downwards relative to the lower end of the pedal plate 1 to drive the gear rack 62 to move downwards, the gear rack 62 is made into the soft gear rack to enable the gear rack 62 to be bent so as to ensure that the gear rack 62 and the gear teeth 61 on the driving shaft 6 are always kept in a meshing state, and the placing groove 89 is arranged to facilitate the gear rack 62 to be folded and unfolded when the gear rack 62 moves downwards and pulls upwards, so as to ensure the normal matching of the gear rack 62. In order to ensure the strength of the gear bar 62, further, a spring sheet is embedded inside the gear bar 62, so that the gear bar 62 has enough strength to smoothly drive the driving shaft 6 to rotate when moving down along with the pedal 1, and the gear bar 62 is prevented from being blocked with the driving shaft 6 due to large bending deformation, thereby ensuring the stable operation of each mechanism of the pedal type automatic shoe polisher.

In order to facilitate the upward movement and return after the pedal 1 is pressed down, further, a V-shaped spring leaf 9 is arranged below the pedal 1, the V-shaped spring leaf 9 comprises an upper spring leaf 91 and a lower spring leaf 92 which are connected, the upper spring leaf 91 is attached to the lower end surface of the pedal 1, the lower spring leaf 92 is attached to the bottom of the inner side of the casing 8, the bottom of the compression air bag 7 is fixed on the lower spring leaf 92, the top of the compression air bag 7 is fixed on the upper spring leaf 91 through a wedge-shaped block, the compression air bag 7 is fixed to the upper spring leaf 91 through the wedge-shaped block, through the arrangement of the V-shaped spring leaf 9, the pedal 1 can automatically return and move up through the elastic force of the V-shaped spring leaf 9 after being pressed down, the compression air bag 7 after being pressed by force is convenient to recover, and the downward pressure can be better controlled through the resistance generated by the V-shaped spring leaf 9.

In order to keep the gear rack 62 always engaged with the gear teeth 61 on the driving shaft 6, further, a stopper 10 is provided at one side of the driving shaft 6, the stopper 10 is fixed at the bottom of the inner side of the housing 8, the gear rack 62 is located between the driving shaft 6 and the stopper 10, one end of the gear rack 62 is fixed at the upper end of the pedal 1 by the arrangement of the stopper 10, the other end of the gear rack 62 extends into the installation groove 89 from the engagement position formed between the driving shaft 6 and the stopper 10, the gear rack 62 can be limited between the driving shaft 6 and the stopper 10, the gear rack 62 is prevented from being separated from the gear teeth 61, the stable operation of the pedal type automatic shoe polisher is ensured, and the stopper 10 can make the upper end of the pedal 1 rotate relative to the lower end of the pedal 1 to contact with the stopper 10, the downward movement limit of the pedal 1 is reached, and the pedal 1 is prevented from excessively moving downward to damage the, A compression air bag 7, a driving shaft 6 and the like.

In order to conveniently extend feet into and out of the machine shell 8, further, a machine cover 80 is arranged at the top of the machine shell 8, a foot inlet 810 is formed in the machine cover 80 and located above the pedal plate 1, the feet can be placed on the pedal plate 1 by extending the feet into the foot inlet 810, the use is more convenient and faster, the feet can be conveniently extended and extracted, furthermore, a plurality of air nozzles 71 are fixed on the machine cover 80 and located inside the machine shell 8, the air nozzles 71 are uniformly distributed on two sides of the foot inlet 810, the air spraying directions of the two air nozzles 71 close to the bristle cylinder 86 are aligned with the junction of the pedal plate 1 and the bristle cylinder 86, so that dust, dirt particles and the like wiped from the vamp by the bristle cylinder 86 are directly blown off when the bristle cylinder 86 acts, the air spraying directions of the air nozzles 71 close to one side of the left side cleaning mechanism 3 are aligned with the junction of the left side cleaning mechanism 3 and the pedal plate 1, and the air spraying directions of the air nozzles 71 close to the right side cleaning mechanism 4 are aligned with the right side cleaning mechanism 4 and the feet The juncture of the pedal 1 is convenient for directly blowing off the dust, dirt particles and the like which are wiped off when the left side cleaning mechanism 3 and the right side cleaning mechanism 4 clean the side surfaces of the shoes, and the effect of blowing off the dust, the dirt particles and the like on the vamps in an air injection manner is enhanced.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (10)

1. A pedal type automatic shoe polisher is characterized in that:

comprises a pedal (1) which can move up and down, a vamp cleaning mechanism (2) which is positioned at one end of the pedal (1), a left side cleaning mechanism (3) and a right side cleaning mechanism (4) which are respectively arranged at two sides of the pedal (1);

a connecting rod sliding block mechanism (5) for driving the vamp cleaning mechanism (2) to act is hinged on the pedal (1);

a driving shaft (6) for driving the left side surface cleaning mechanism (3) and the right side surface cleaning mechanism (4) to act is arranged below the pedal plate (1); gear teeth (61) are arranged on the driving shaft (6), and a gear strip (62) meshed with the gear teeth (61) is fixed on the pedal (1);

a compression air bag (7) is arranged below the pedal (1), and the compression air bag (7) is arranged on one side of the driving shaft (6); a plurality of air nozzles (71) are arranged above the pedal plate (1), and the air nozzles (71) are connected with an air outlet of the compression air bag (7) through an air pipe (72);

when a foot is stepped on the pedal plate (1) and pressed down, the pedal plate (1) moves down, so that the gear rack (62) drives the driving shaft (6) to rotate, and the compressed air bag (7) is compressed and is sprayed with air by a plurality of air nozzles (71);

the shoe upper cleaning machine further comprises a machine shell (8), and the pedal plate (1), the shoe upper cleaning mechanism (2), the left side cleaning mechanism (3) and the right side cleaning mechanism (4) are all located inside the machine shell (8);

the vamp brushing mechanism (2) comprises a first support (81) and a second support (82) which are fixed on the machine shell (8), and a rotating frame (83) the middle part of which is hinged on the first support (81) and the second support (82); the upper end of the rotating frame (83) is hinged with a bracket (84), and a spring (85) is connected between the bracket (84) and the rotating frame (83); a bristle cylinder (86) is fixed on the support (84), and the support (84) and the bristle cylinder (86) are both positioned above the pedal (1).

2. The pedal-operated automatic shoe polisher according to claim 1, characterized in that:

the pedal (1) is obliquely arranged, and the lower end of the pedal (1) is hinged to the bottom of the inner side of the shell (8);

the upper cleaning mechanism (2) is positioned at the lower end of the pedal (1);

the gear rack (62) is fixed at the higher end of the pedal plate (1), and the driving shaft (6) is positioned below the higher end of the pedal plate (1).

3. The pedal-operated automatic shoe polisher according to claim 2, characterized in that:

a first push handle rod (87) and a second push handle rod (88) are respectively fixed on two sides of the lower end of the rotating frame (83);

the connecting rod sliding block mechanism (5) comprises a left connecting rod sliding block mechanism (51) and a right connecting rod sliding block mechanism (52) which are respectively positioned at two sides of the pedal (1); the left connecting rod sliding block mechanism (51) comprises a left connecting rod (53) hinged to the higher end of the pedal (1), a left cross rod (54) hinged to the lower end of the left connecting rod (53), and a left sliding block (55) fixed to one end of the left cross rod (54) and used for pushing the first push handle rod (87); the right connecting rod sliding block mechanism (52) comprises a right connecting rod hinged to the higher end of the pedal (1), a right cross rod hinged to the lower end of the right connecting rod, and a right sliding block fixed to one end of the right cross rod and used for pushing the second push handle rod (88).

4. The pedal-operated automatic shoe polisher according to claim 3, characterized in that:

the rotating frame (83) comprises a rotating shaft (800) penetrating through the first support (81) and the second support (82), a first rotating rod (801) and a second rotating rod (802) fixed at two ends of the rotating shaft (800), and a third rotating rod (803) and a fourth rotating rod (804) which are fixed on the rotating shaft (800) and located between the first rotating rod (801) and the second rotating rod (802);

the first rotating rod (801) and the second rotating rod (802) are parallel to each other, and the third rotating rod (803) and the fourth rotating rod (804) are parallel to each other; the first rotating rod (801) and the second rotating rod (802) are positioned below the first support (81) and the second support (82), and the third rotating rod (803) and the fourth rotating rod (804) are positioned above the first support (81) and the second support (82);

the bracket (84) is hinged on the third rotating rod (803) and the fourth rotating rod (804);

the first push handle rod (87) is fixed at the lower end of the first rotating rod (801), and the second push handle rod (88) is fixed at the lower end of the second rotating rod (802).

5. The pedal-operated automatic shoe polisher according to claim 2, characterized in that:

the left side surface cleaning mechanism (3) comprises a left transmission shaft (31), a left auxiliary transmission shaft (32) arranged above the left transmission shaft (31), a first hairbrush (33) arranged on the left transmission shaft (31), and a second hairbrush (34) arranged on the left auxiliary transmission shaft (32);

a first transmission gear (35) is fixed on the left transmission shaft (31), and a second transmission gear (36) meshed with the first transmission gear (35) is fixed on the left auxiliary transmission shaft (32);

a first bevel gear (37) is fixed at one end of the left transmission shaft (31), and a second bevel gear (63) meshed with the first bevel gear (37) is fixed on the driving shaft (6);

the two ends of the left transmission shaft (31) and the two ends of the left auxiliary transmission shaft (32) are fixed in the machine shell (8) through first supporting seats (38).

6. The pedal-operated automatic shoe polisher according to claim 2, characterized in that:

the right side surface cleaning mechanism (4) comprises a right transmission shaft, a right auxiliary transmission shaft arranged above the right transmission shaft, a third hairbrush arranged on the right transmission shaft and a fourth hairbrush arranged on the right auxiliary transmission shaft;

a third transmission gear is fixed on the right transmission shaft, and a fourth transmission gear meshed with the third transmission gear is fixed on the right auxiliary transmission shaft;

a third bevel gear is fixed at one end of the right transmission shaft, and a fourth bevel gear meshed with the third bevel gear is fixed on the driving shaft;

the right transmission shaft and the two ends of the right auxiliary transmission shaft are fixed in the shell (8) through second supporting seats.

7. The pedal-operated automatic shoe polisher according to claim 2, characterized in that:

the bottom of the inner side of the shell (8) is provided with a strip-shaped placing groove (89), and the placing groove (89) is positioned below the driving shaft (6);

the gear rack (62) is a soft gear rack, one end of the gear rack (62) is fixed on the pedal plate (1), and the other end of the gear rack (62) is located in the placement groove (89).

8. The pedal-operated automatic shoe polisher according to claim 2, characterized in that:

a V-shaped spring piece (9) is arranged below the pedal (1), and the V-shaped spring piece (9) comprises an upper spring piece (91) and a lower spring piece (92) which are connected;

the upper reed (91) is attached to the lower end face of the pedal (1);

the lower reed (92) is attached to the bottom of the inner side of the shell (8);

the bottom of the compression air bag (7) is fixed on the lower spring plate (92), and the top of the compression air bag (7) is fixed on the upper spring plate (91).

9. The pedal-operated automatic shoe polisher according to claim 2, characterized in that:

a limiting block (10) is arranged on one side of the driving shaft (6), and the limiting block (10) is fixed at the bottom of the inner side of the shell (8);

the gear rack (62) is located between the driving shaft (6) and the limiting block (10).

10. The pedal-operated automatic shoe polisher according to claim 2, characterized in that:

a cover (80) is arranged at the top of the shell (8);

a foot inlet (810) is formed in the machine cover (80) above the pedal (1);

the air nozzles (71) are all fixed on the cover (80) and positioned inside the machine shell (8);

the air nozzles (71) are uniformly distributed on two sides of the foot inlet (810).

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