CN112120648A - Be applied to sanitary energy-conserving washing drying machine of hospital's operating room shoe washing - Google Patents

Abstract

The application relates to a sanitary, energy-saving, cleaning and drying integrated machine applied to shoe washing in a hospital operating room, which comprises a machine shell, an outer barrel arranged in the machine shell, an inner barrel rotatably arranged in the outer barrel and a driving assembly for driving the inner barrel to rotate, wherein the machine shell is provided with a feed port communicated with the inner barrel, a feed port is formed in the position, corresponding to the feed port, of the inner barrel, and the inner barrel is provided with an opening and closing assembly for opening or closing the feed port; the inner cylinder is provided with a plurality of filter holes along the circumferential direction, and the shell is provided with a water supply assembly for supplying water into the outer cylinder; the shell is provided with a drainage component for draining water flowing into the inner barrel; the casing is provided with a drying component for conveying hot air into the outer barrel. The method and the device have the advantages of reducing energy consumption and achieving the effects of energy conservation and emission reduction.

Description

Be applied to sanitary energy-conserving washing drying machine of hospital's operating room shoe washing

Technical Field

The application relates to the field of medical cleaning equipment, in particular to a sanitary energy-saving cleaning and drying integrated machine applied to shoe cleaning in a hospital operating room.

Background

At present, with the continuous improvement of medical treatment in the society, doctors and nurses need to clean medical articles worn by the doctors and nurses after operations, the same is true of medical shoes, and after an operation, the medical shoes are firstly cleaned and then dried for recycling.

In view of the above-mentioned related art, the inventor believes that there is a defect that cleaning of medical shoes is performed by two devices, namely, a cleaning device and a drying device, and the materials and energy consumption for manufacturing the two devices are large.

Disclosure of Invention

In order to reduce the energy consumption and achieve the effects of energy conservation and emission reduction, the application provides a sanitary, energy-saving, cleaning and drying integrated machine applied to shoe washing in a hospital operating room.

The application provides a pair of be applied to sanitary energy-conserving washing drying machine of hospital's operating room shoe washing adopts following technical scheme:

a sanitary, energy-saving, cleaning and drying integrated machine applied to shoe washing in operating rooms of hospitals comprises a machine shell, an outer barrel arranged in the machine shell, an inner barrel rotatably arranged in the outer barrel and a driving assembly for driving the inner barrel to rotate, wherein the machine shell is provided with a feed port communicated with the inner barrel, a feed port is arranged at the position of the inner barrel corresponding to the feed port, and the inner barrel is provided with an opening and closing assembly for opening or closing the feed port; the inner cylinder is provided with a plurality of filter holes along the circumferential direction, and the shell is provided with a water supply assembly for supplying water into the outer cylinder; the shell is provided with a drainage component for draining water flowing into the inner barrel; the casing is provided with a drying component for conveying hot air into the outer barrel.

By adopting the technical scheme, when the shoes need to be cleaned, the feed inlet is opened through the opening and closing assembly, the writing to be cleaned is put into the inner barrel from the feed inlet, the writing enters the inner barrel from the feed inlet, the feed inlet is closed through the opening and closing assembly, then the water is supplied into the inner barrel through the water supply assembly, and the water enters the inner barrel from the filter hole and contacts with the shoes; the driving component drives the inner barrel to rotate, so that the shoes can be fully cleaned; starting a drainage assembly to drain water in the inner barrel after a period of time; after draining water for a period of time, the inner barrel is driven to rotate by the driving component, so that most of water in the shoe is thrown out; finally, the drying component is started to introduce hot air into the outer barrel, the hot air enters the inner barrel through the filter holes to be contacted with the shoes, and the shoes are dried; the process is carried out in the same equipment, so that the material and energy consumption for manufacturing the two equipment is reduced, the effects of energy conservation and emission reduction are achieved, and the cleaning efficiency can be improved.

Preferably, the opening and closing assembly includes: slide rail, dodge gate and locking piece, the slide rail is installed in the inner tube and is located the position of the relative both sides of feed inlet, the relative both ends slidingtype of dodge gate is installed at the slide rail, the lateral wall butt, the other end that the one end and the inner tube of dodge gate are close to feed inlet one end lock in the inner tube through the locking piece and are close to the feed inlet other end.

By adopting the technical scheme, the constraint on the movable door is loosened through the locking piece, and then the movable door is slid, so that the opening of the feeding hole can be realized; the operation process is simple and convenient, and the practicability is high.

Preferably, one side that the dodge gate is close to the slide rail is equipped with the mounting hole, the slide rail is equipped with the joint groove with the position that the drill way of mounting hole corresponds, the locking piece includes: the clamping device comprises a clamping block, an elastic piece and a shifting block, wherein the clamping block is slidably mounted in a mounting hole, one end of the elastic piece is mounted at the bottom of the mounting hole, the other end of the elastic piece is connected with the clamping block, and one end, far away from the elastic piece, of the clamping block extends out of the mounting hole and is clamped into a clamping groove; the position that dodge gate and mounting hole correspond is equipped with the groove that slides towards the extension of joint piece slip direction, the one end and the joint piece of shifting block are connected, the other end wears to locate the groove that slides.

Through adopting above-mentioned technical scheme, stir the shifting block earlier and make the joint piece slide in the mounting hole, the sliding movable door makes the position of mounting hole and joint groove corresponding, loosens the shifting block after that for the joint piece shifts out the mounting hole, and makes the joint piece card go into the joint inslot, can accomplish the spacing to the movable door, and simple structure is easy and simple to handle.

Preferably, the water supply assembly includes: the water inlet pipe and the valve, the position that is close to the top in one end of inlet tube and the urceolus, the other end extend outside the casing, the valve is installed in the one end that the inlet tube extends outside the casing.

Through adopting above-mentioned technical scheme, when needs supply water in to the urceolus, open the inlet tube through starting the valve, then with the one end that the water pipe switch-on inlet tube extends the casing outside, this structure is simple and convenient, and can be according to the quantity of putting into the inner tube shoes and control the inflow.

Preferably, the drain assembly includes: the water draining device comprises a water draining pipe, a water draining valve and a first hose, wherein one end of the water draining pipe is communicated with the bottommost part of the outer barrel, and the other end of the water draining pipe extends out of the machine shell; the drain valve is arranged on the shell, and one end of the drain pipe, which extends out of the shell, is communicated with a water inlet of the drain valve; the first hose is connected with the water outlet of the drain valve through a fixing piece.

By adopting the technical scheme, after the shoes are cleaned, the drain valve is started, so that water in the outer barrel is drained; thereby make when external water discharge pipe adaptable more not equidimension pipe diameters through setting up to first hose, improve the practicality.

Preferably, the drying assembly includes: the fan is arranged on the shell, an air outlet of the fan is communicated with an air inlet of the heat exchanger, and an air outlet of the heat exchanger is communicated with the inside of the outer barrel; the top of the casing is provided with an exhaust pipe, one end of the exhaust pipe is communicated with the inside of the outer cylinder, and the other end of the exhaust pipe is communicated with the outside of the casing.

By adopting the technical scheme, when the water in the outer barrel is discharged and is dehydrated, the fan and the heat exchanger are started, so that the wind input into the heat exchanger from the fan is converted into the hot wind input into the outer barrel, the wind can penetrate into the inner barrel through the filtering holes, the shoes in the inner barrel can be heated and dried, and the inner barrel can be driven to rotate by the driving component in the drying process, so that the drying effect is improved.

Preferably, the driving assembly includes: the device comprises a rotating shaft, a mounting frame, a driving belt wheel, a driven belt wheel and a belt, wherein one end of the rotating shaft is connected with the inner barrel, the other end of the rotating shaft is rotatably arranged on the inner barrel and extends out of the shell, the mounting frame is arranged on the shell, the driving belt wheel is rotatably arranged on the mounting frame, the driven belt wheel is arranged on the rotating shaft, and the driving belt wheel is connected with the driven belt wheel through the belt; the drive assembly further includes: the first driving piece is used for driving the driving pulley to rotate.

Through adopting above-mentioned technical scheme, when needs drive inner tube rotates, the accessible starts first driving piece drive driving pulley and rotates, drives driven pulley through the belt and rotates, can reach the drive axis of rotation and rotate and make the inner tube rotate, and this transmission structure stability is high.

Preferably, the first drive member comprises: the speed reduction box is mounted on the mounting frame, an output shaft of the servo motor is connected with an input end of the speed reduction box, and an output end of the speed reduction box is connected with the driving belt wheel.

By adopting the technical scheme, the rotating speed of the servo motor can be reduced to the required rotating speed by arranging the reduction gearbox, and larger output torque is obtained, so that the protection effect on the servo motor is achieved.

Preferably, the casing is close to the rigidity of mounting bracket and is equipped with adjusting screw, the mounting bracket is equipped with the adjustment tank that supplies adjusting screw to pass, the adjustment tank extends towards the elasticity direction of belt, adjusting nut is installed to the adjusting screw thread, one side that the casing was kept away from in the mounting bracket to adjusting nut butt.

Through adopting above-mentioned technical scheme, after using a period, when discovering the belt has the not hard up condition, accessible unscrewing adjusting nut, after that towards the direction removal mounting bracket of tensile belt, rethread rotation adjusting nut when removing suitable position for adjusting nut butt is in the mounting bracket one side of keeping away from the casing, can accomplish the regulation to the belt elasticity, convenient operation.

Preferably, the inner side wall of the inner cylinder is provided with baffles at intervals along the circumferential direction.

Through adopting above-mentioned technical scheme, make when the drive inner tube rotates through being provided with the baffle for shoes in the inner tube are more dispersed, can not only make shoes and water contact more fully, can make the effect of drying better when drying moreover.

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

1. when the shoes need to be cleaned, the feed inlet is opened through the opening and closing assembly, the writing to be cleaned is put into the inner barrel from the feed inlet and enters the inner barrel from the feed inlet, the feed inlet is closed through the opening and closing assembly, then water is supplied into the inner barrel through the water supply assembly, and the water enters the inner barrel from the filter hole and contacts with the shoes; the driving component drives the inner barrel to rotate, so that the shoes can be fully cleaned; starting a drainage assembly to drain water in the inner barrel after a period of time; after draining water for a period of time, the inner barrel is driven to rotate by the driving component, so that most of water in the shoe is thrown out; finally, the drying component is started to introduce hot air into the outer barrel, the hot air enters the inner barrel through the filter holes to be contacted with the shoes, and the shoes are dried; the process is carried out in the same equipment, so that the material and energy consumption for manufacturing the two equipment is reduced, the effects of energy conservation and emission reduction are achieved, and the cleaning efficiency can be improved;

2. when the belt is loosened after being used for a period of time, the adjusting nut can be unscrewed, the mounting frame is moved towards the direction of stretching the belt, and when the belt is moved to a proper position, the adjusting nut is rotated to enable the adjusting nut to be abutted against one side, far away from the shell, of the mounting frame, so that the tightness of the belt can be adjusted, and the operation is convenient;

3. make when the drive inner tube rotates through being provided with the baffle for shoes in the inner tube are more dispersed, can not only make shoes and water contact more fully, can make the effect of drying better when drying moreover.

Drawings

Fig. 1 is a schematic view of the overall structure of the invention of the present application.

Fig. 2 is a partially enlarged view of a in fig. 1.

FIG. 3 is a sectional view showing a connecting structure of an inner cylinder and an outer cylinder according to the present invention.

FIG. 4 is a schematic view of the inner barrel structure of the subject invention.

Fig. 5 is a partially enlarged view of B in fig. 4.

Fig. 6 is a schematic structural diagram of the interior of the first mounting cavity of the invention of the application.

Fig. 7 is a partial enlarged view of C in fig. 6.

Fig. 8 is a schematic view of the internal structure of the second mounting cavity of the invention of the application.

Fig. 9 is a sectional view of an outlet pipe mounting structure according to a first embodiment of the present invention.

Fig. 10 is a sectional view of an outlet pipe mounting structure according to a second embodiment of the present invention.

Fig. 11 is a schematic structural diagram of an adjusting assembly according to a second embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a second driving member according to a second embodiment of the present invention.

Fig. 13 is a partial enlarged view of D in fig. 12.

Description of reference numerals: 1. a housing; 11. a feeding port; 12. a cover plate; 121. sealing the limiting groove; 13. a positioning frame; 14. a bit block; 15. a limiting block; 16. a first mounting cavity; 17. a second mounting cavity; 18. an exhaust pipe; 19. an accommodating chamber; 191. a protective net; 2. an outer cylinder; 3. an inner barrel; 31. a feed inlet; 311. a clamping groove; 32. a slide rail; 321. a clamping groove; 33. a movable door; 331. a clamping plate; 332. mounting holes; 333. a sliding groove; 34. a clamping block; 35. an elastic member; 36. shifting blocks; 37. a baffle plate; 4. a drive assembly; 41. a rotating shaft; 42. a mounting frame; 421. adjusting the screw rod; 422. adjusting the nut; 423. an adjustment groove; 43. a driving pulley; 44. a driven pulley; 45. a belt; 46. a reduction gearbox; 47. a servo motor; 48. a fixed seat; 49. a bearing plate; 5. a water supply assembly; 51. a water inlet pipe; 52. a valve; 6. a drainage assembly; 61. a drain pipe; 62. a drain valve; 63. a first hose; 7. a drying assembly; 71. a heat exchanger; 72. a fan; 73. an air outlet pipe; 8. an adjustment assembly; 81. a mounting seat; 82. a screw rod; 83. a sliding block; 84. a second hose; 85. a flare tube; 86. a foldable dust cover; 9. a second driving member; 91. a driving gear; 92. a driven gear; 93. a transition gear; 94. a connecting seat; 95. connecting blocks; 96. the cylinder is driven.

Detailed Description

The present application is described in further detail below with reference to figures 1-13.

The embodiment of the application discloses a sanitary energy-saving cleaning and drying all-in-one machine applied to shoe washing in an operating room of a hospital.

Example 1

Referring to fig. 1 and 2, the cleaning and drying all-in-one machine comprises a machine shell 1, an outer cylinder 2 and an inner cylinder 3, wherein the outer cylinder 2 is cylindrical, the outer cylinder 2 is arranged towards the horizontal direction, and the outer cylinder 2 is fixedly arranged in the machine shell 1; a feeding port 11 is arranged at the top of the machine shell 1, the feeding port 11 is communicated with the inner part of the outer cylinder 2, a cover plate 12 is arranged at the position of the machine shell 1 corresponding to the feeding port 11, the cover plate 12 is rectangular, and one side of the cover plate 12 is hinged to one end of the feeding port 11 far away from the station; casing 1 corresponds the position of dog-house 11 and is fixed with locating frame 13, and locating frame 13 extends the setting along the edge of dog-house 11, and one side that apron 12 is close to dog-house 11 is equipped with along the edge and supplies locating frame 13 to keep away from the sealed spacing groove 121 that the one end of casing 1 was gone into, and when apron 12 rotated towards the direction of dog-house 11, the one end card that dog-house 11 kept away from casing 1 was gone into in sealed spacing groove 121 to can reach opening and being closed to dog-house 11.

A pair of clamping blocks 14 is arranged at the top of the machine shell 1, one ends of the two clamping blocks 14 are hinged to the machine shell 1, limiting blocks 15 are arranged at the other ends of the two clamping blocks 14, one ends of the two limiting blocks 15 are integrally formed with the clamping blocks 14, the other ends of the two limiting blocks 15 extend towards the horizontal direction and the direction close to each other, and the two limiting blocks 15 are respectively abutted to one end, close to the feeding port 11, of the cover plate 12; when the cover plate 12 is opened, the clamping block 14 can be rotated to enable the limiting block 15 to abut against one end of the cover plate 12 close to the feeding port 11, so that the effect of limiting the cover plate 12 is achieved.

Referring to fig. 1 and 3, the inner cylinder 3 is cylindrical, the inner cylinder 3 is arranged in the horizontal direction, a plurality of filter holes are uniformly formed in the surface of the inner cylinder 3, the inner cylinder 3 is arranged in the outer cylinder 2, rotating shafts 41 are respectively installed at two opposite ends of the inner cylinder 3 in the horizontal direction, the rotating shafts 41 extend towards the horizontal direction, one end of each rotating shaft 41 is fixedly installed in the middle position of the end part of the outer cylinder 2, and the other end of each rotating shaft 41 penetrates through the casing 1; one side of casing 1 is provided with first installation cavity 16, the opposite side is provided with second installation cavity 17, the one end that inner tube 3 was kept away from to axis of rotation 41 extends first installation cavity 16, the one end that inner tube 3 was kept away from to another axis of rotation 41 extends second installation cavity 17, the equal fixed mounting in position that is close to axis of rotation 41 in first installation cavity 16 and the second installation cavity 17 has fixing base 48, the one end that casing 1 was worn to locate by axis of rotation 41 passes through the bearing and rotates and install at fixing base 48, can make inner tube 3 rotate and install in urceolus 2.

A receiving plate 49 with an upper opening is fixedly installed in each of the first installation cavity 16 and the second installation cavity 17, and the receiving plate 49 is positioned right below the fixed seat 48, so that water flowing out from a gap between the rotating shaft 41 and the machine shell 1 is collected.

Referring to fig. 3 and 4, a feed inlet 31 is formed in a position of the inner cylinder 3 corresponding to the feed inlet 11, the feed inlet 31 is rectangular, and the inner cylinder 3 is provided with an opening and closing assembly for controlling the opening and closing of the feed inlet 31.

Referring to fig. 4 and 5, the opening and closing assembly includes two sliding rails 32 and a movable door 33, the two sliding rails 32 are respectively and fixedly installed at two opposite sides of the feed port 31, the sliding rails 32 extend along the edge of the feed port 31, and the opposite side walls of the two sliding rails 32 are provided with sliding grooves; the cross section of the movable door 33 is arc-shaped, two opposite sides of the movable door 33 are slidably mounted in the sliding grooves, an inner arc surface at one end of the movable door 33 in the length direction of the sliding rail 32 abuts against an outer arc surface at one side, close to the feeding port 31, of the inner cylinder 3, a clamping plate 331 is fixedly mounted at the other end of the movable door 33, a clamping groove 311 is formed in one end, close to the clamping plate 331, of the feeding port 31, and the clamping plate 331 is mounted in the clamping groove 311 in a clamping mode, so that the movable door 33 can close the feeding port 31 more accurately.

Mounting holes 332 are formed in one end, close to the clamping plate 331, of the movable door 33 and on two opposite sides, close to the slide rails 32, clamping grooves 321 are formed in one ends, close to the clamping grooves 311, of the two slide rails 32, and locking pieces are mounted in the mounting holes 332; the locking piece comprises a clamping block 34, an elastic piece 35 and a shifting block 36, the clamping block 34 is installed in the installation hole 332 in a sliding mode, one end of the clamping block 34 is located in the installation hole 332, the other end of the clamping block extends out of the installation hole 332, and the clamping block is installed in the clamping groove 321 in a clamping mode; the elastic part 35 is a spring, the elastic part 35 is located between the clamping block 34 and the bottom of the mounting hole 332, one end of the elastic part 35 and one end of the clamping block 34 located in the mounting hole 332 are fixedly connected, and the other end of the elastic part is fixedly mounted at the bottom of the mounting hole 332, so that the movable door 33 can be closed to the feed port 31.

The one end that dodge gate 33 is close to screens board 331 and all is equipped with the groove 333 that slides with the corresponding position of mounting hole 332, and the extending direction in groove 333 that slides is unanimous with the slip direction of joint piece 34, and the one end and the joint piece 34 fixed connection of shifting block 36, the other end extend out the groove 333 that slides to the accessible is stirred shifting block 36 and is made joint piece 34 slide, and the opening and closing of control dodge gate 33.

The movable door 33 is provided with filter holes, and the distance between adjacent filter holes on the surface of the inner cylinder 3 gradually increases from the end farthest from the feed port 31 to the feed port 31.

Referring to fig. 6 and 7, a driving assembly 4 for driving the inner cylinder 3 to rotate is installed in the first installation cavity 16, the driving assembly 4 comprises an installation frame 42, a driving belt wheel 43, a driven belt wheel 44, a belt 45 and a first driving piece, the first driving piece comprises a reduction gearbox 46 and a servo motor 47, the installation frame 42 is installed in the first installation cavity 16, the reduction gearbox 46 is fixedly installed on the installation frame 42, an output shaft of the servo motor 47 is fixedly connected with an input end of the reduction gearbox 46, and the driving belt wheel 43 is sleeved on an output end of the reduction gearbox 46 and fixedly connected; the driven pulley 44 is sleeved on the rotating shaft 41 in the first installation cavity 16, and the driving pulley 43 and the driven pulley 44 are connected through a belt 45, so that the rotating shaft 41 can be driven to rotate, and the inner cylinder 3 is driven to rotate.

The level of driving pulley 43 is less than the level of driven pulley 44, mounting bracket 42 is provided with adjustment tank 423, adjustment tank 423 extends towards vertical direction, casing 1 is located the chamber end of first installation cavity 16 and is equipped with adjusting screw 421 with the position that adjustment tank 423 corresponds, adjusting screw 421's one end fixed mounting is at the chamber end of first installation cavity 16, adjusting tank 423 is worn to locate by the other end, adjusting screw 421 wears to locate the one end screw thread of adjustment tank 423 and installs adjusting nut 422, adjusting nut 422 butt is at mounting bracket 42, thereby the accessible is adjusted the position of mounting bracket 42 and is reached the elasticity of adjusting belt 45.

Referring to fig. 8, be provided with water supply unit 5 in the second installation cavity 17, water supply unit 5 includes inlet tube 51 and valve 52, inlet tube 51 is the hard tube, inlet tube 51 is installed in the position that second installation cavity 17 is close to the top, the one end of inlet tube 51 is worn to locate in the casing 1 and is stretched into the top position in urceolus 2, the other end extends into in the second installation cavity 17, valve 52 fixed mounting is in the one end that inlet tube 51 extends into second installation cavity 17, thereby can communicate raceway and inlet tube 51, can supply water in the urceolus 2.

A drainage component 6 is arranged in the second mounting cavity 17, the drainage component 6 comprises a drainage pipe 61, a drainage valve 62 and a first hose 63, the drainage valve 62 is fixedly mounted in the second mounting cavity 17, one end of the drainage pipe 61 and a water inlet of the drainage valve 62 extend into the machine shell 1, and the other end of the drainage pipe extends into the bottommost part of the outer barrel 2; one end of the first hose 63 is connected to the water outlet of the drain valve 62 through a fixing member, and the other end extends out of the casing 1, wherein the fixing member is a hoop, so that the water in the outer cylinder 2 can be drained.

Referring to fig. 8 and 9, a containing cavity 19 is arranged in the middle of one side of the machine case 1 away from the station, a protective net 191 is fixedly installed at the cavity opening of the containing cavity 19, a drying component 7 is installed in the containing cavity 19, the drying component 7 comprises a heat exchanger 71 and a fan 72, the heat exchanger 71 and the fan 72 are fixedly installed in the containing cavity 19, an air inlet of the heat exchanger 71 is communicated with an air outlet of the fan 72 through a pipeline, an air outlet 73 is sleeved at the air outlet of the heat exchanger 71, and one end, far away from the heat exchanger 71, of the air outlet 73 extends into the outer barrel 2, so that the shoes in the inner barrel 3 can be dried after being washed.

Casing 1 fixed mounting has blast pipe 18, and blast pipe 18 and the topmost intercommunication of urceolus 2, the other end upwards extend the topmost of casing 1 towards vertical to can be convenient for discharge the moisture at the stoving in-process, improve the stoving effect.

The implementation principle of the embodiment 1 is as follows: when the shoes need to be cleaned, firstly, the cover plate 12 is rotated to open the feed opening 11, the shifting block 36 is shifted to enable the clamping block 34 to retract into the mounting hole 332, the movable door 33 is slid to open the feed opening 31, then the shoes to be cleaned are poured into the feed opening 11 and the feed opening 31, and then the feed opening 11 and the feed opening 31 are closed through the cover plate 12 and the movable door 33; starting the valve 52 to input water into the outer cylinder 2, and the water enters the inner cylinder 3 from the filtering holes; after the water level reaches a set water level, the servo motor 47 is started to drive the inner barrel 3 to rotate, and then the shoe can be cleaned; after washing for a period of time, the drain valve 62 is opened to drain the water in the outer tub 2; then, the servo motor 47 is started to dehydrate the shoes in the inner barrel 3; then, the fan 72 and the heat exchanger 71 are started, and hot air is input into the outer barrel 2 through the air outlet pipe 73 so as to dry the shoes; finally, the shoes can be cleaned, and the cleaning efficiency is high.

Example 2

Referring to fig. 10 and 11, the present embodiment is different from embodiment 1 in that an adjusting assembly 8 is installed in an outer cylinder 2, the adjusting assembly 8 includes an installation seat 81, a screw 82 and a sliding block 83, the installation seat 81 is fixedly installed on an inner side wall of the outer cylinder 2, and the installation seat 81 extends in a horizontal length direction of the outer cylinder 2; the screw rod 82 extends towards the length direction of the mounting seat 81, one end of the screw rod 82 is rotatably mounted at one end of the mounting seat 81, and the other end of the screw rod extends into the first mounting cavity 16; the sliding block 83 is slidably mounted on the mounting seat 81, and the sliding block 83 is mounted on the screw rod 82 in a threaded manner; so that the screw rod 82 can drive the sliding block 83 to slide towards the length direction of the screw rod 82 when rotating.

The parts of the screw 82, which are positioned on the two opposite sides of the sliding block 83, are sleeved with folding dust covers 86, one ends of the folding dust covers 86 are fixedly arranged on the sliding block 83, and the other ends of the folding dust covers are fixedly arranged on the end parts of the mounting seats 81, so that the influence on the service life of the screw 82 caused by the contact between water and the screw 82 can be avoided.

One end of the air outlet pipe 73 extending into the outer cylinder 2 is fixedly connected with a second hose 84, the length of the second hose 84 is greater than half of the length of the screw rod 82, one end of the second hose 84 far away from the air outlet pipe 73 is fixedly installed on the sliding block 83, and an opening of one end of the sliding block 83, which is fixed by the second hose 84, faces the inner cylinder 3, so that hot air transmitted from the heat exchanger 71 can be transmitted to a plurality of positions of the inner cylinder 3 more uniformly, and the drying effect is improved.

The second hose 84 is fixed at one end of the sliding block 83 and is fixedly provided with a horn-shaped horn tube 85, and one end of the horn tube 85 with the largest cross section area is opened towards the inner cylinder 3, so that the emission range of hot gas can be improved.

Referring to fig. 12 and 13, a second driving member 9 for driving the screw rod 82 to rotate is arranged in the first mounting cavity 16, the second driving member 9 includes a driving gear 91, a driven gear 92 and a transition gear 93, the driving gear 91 is sleeved on the rotating shaft 41 in the first mounting cavity 16, the driven gear 92 is sleeved on one end of the screw rod 82 extending into the first mounting cavity 16, and the filter gear is simultaneously meshed with the driving gear 91 and the driven gear 92; a connecting seat 94 is fixedly arranged in the first mounting cavity 16, a connecting block 95 is slidably arranged on the connecting seat 94, and a transition gear 93 is rotatably arranged on the connecting block 95; a driving cylinder 96 is fixedly installed on the connecting seat 94, a piston rod of the driving cylinder 96 extends and retracts in the horizontal direction, and a piston of the driving cylinder 96 is fixedly connected with the connecting seat 94, so that when cleaning is performed, the driving cylinder 96 moves the transition gear 93 away from a position between the driving gear 91 and the driven gear 92, the rotating shaft 41 rotates, and the screw rod 82 stops rotating; during drying, the driving cylinder 96 moves the transition gear 93 to be simultaneously engaged with the driving gear 91 and the driven gear 92, so that the bell pipe 85 is moved together with the rotation of the inner cylinder 3.

The implementation principle of the embodiment 2 is as follows: when the shoes need to be cleaned, firstly, the cover plate 12 is rotated to open the feed opening 11, the shifting block 36 is shifted to enable the clamping block 34 to retract into the mounting hole 332, the movable door 33 is slid to open the feed opening 31, then the shoes to be cleaned are poured into the feed opening 11 and the feed opening 31, and then the feed opening 11 and the feed opening 31 are closed through the cover plate 12 and the movable door 33; the driving cylinder 96 is started to move the transition gear 93 away from the position between the driving gear 91 and the driven gear 92, then the servo motor 47 is started to drive the inner cylinder 3 to rotate, meanwhile, the valve 52 is started to input water into the outer cylinder 2, and the water enters the inner cylinder 3 from the filter holes, so that the shoe can be cleaned.

After washing for a period of time, the drain valve 62 is opened to drain the water in the outer tub 2; then, the servo motor 47 is started to dehydrate the shoes in the inner barrel 3; then, the driving cylinder 96 is started to move the filtering gear to the state that the driving gear 91 is meshed with the driven gear 92, then the fan 72 and the heat exchanger 71 are started, and hot air is input into the outer barrel 2 through the air outlet pipe 73 so as to dry the shoes; finally, the shoes can be cleaned, and the cleaning efficiency is high.

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

Claims (10)

1. The sanitary, energy-saving, cleaning and drying all-in-one machine is applied to shoe washing in operating rooms of hospitals and is characterized by comprising a machine shell (1), an outer barrel (2) arranged in the machine shell (1), an inner barrel (3) rotatably arranged in the outer barrel (2) and a driving assembly (4) used for driving the inner barrel (3) to rotate, wherein the machine shell (1) is provided with a feed opening (11) communicated with the inner barrel (2), a feed opening (31) is formed in the position, corresponding to the feed opening (11), of the inner barrel (3), and the inner barrel (3) is provided with an opening and closing assembly used for opening or closing the feed opening (31); the inner cylinder (3) is provided with a plurality of filter holes along the circumferential direction, and the casing (1) is provided with a water supply assembly (5) for supplying water into the outer cylinder (2); the shell (1) is provided with a drainage component (6) for draining water flowing into the inner cylinder (3); the machine shell (1) is provided with a drying component (7) used for conveying hot air into the outer barrel (2).

2. The integrated machine for cleaning, drying and sanitation in hospital operating room for washing shoes according to claim 1 is characterized in that the opening and closing assembly comprises: slide rail (32), dodge gate (33) and locking piece, the position that just is located feed inlet (31) both sides relatively is installed in inner tube (3) slide rail (32), the relative both ends slidingtype of dodge gate (33) is installed at slide rail (32), the one end of dodge gate (33) locks in inner tube (3) and is close to the feed inlet (31) other end through the locking piece in lateral wall butt, the other end that feed inlet (31) one end is close to in inner tube (3).

3. The machine as claimed in claim 2, wherein the side of the movable door (33) close to the sliding rail (32) is provided with a mounting hole (332), the sliding rail (32) is provided with a clamping groove (321) at a position corresponding to the opening of the mounting hole (332), and the locking member comprises: the clamping device comprises a clamping block (34), an elastic piece (35) and a shifting block (36), wherein the clamping block (34) is slidably mounted in a mounting hole (332), one end of the elastic piece (35) is mounted at the bottom of the mounting hole (332), the other end of the elastic piece (35) is connected with the clamping block (34), and one end, far away from the elastic piece (35), of the clamping block (34) extends out of the mounting hole (332) and is clamped into a clamping groove (321); the position that dodge gate (33) and mounting hole (332) correspond is equipped with towards joint piece (34) the direction of sliding extension slide groove (332), the one end and the joint piece (34) of shifting block (36) are connected, the other end wears to locate slide groove (332).

4. The machine for washing and drying shoes in hospital operating room according to claim 1 is characterized in that the water supply assembly (5) comprises: the water inlet pipe (51) and the valve (52), the position that is close to the top in one end of inlet tube (51) and urceolus (2), the other end extend outside casing (1), install in inlet tube (51) extend the outer one end of casing (1) valve (52).

5. The machine for washing and drying shoes in hospital operating room according to claim 1 is characterized in that said drainage assembly (6) comprises: the water draining device comprises a water draining pipe (61), a water draining valve (62) and a first hose (63), wherein one end of the water draining pipe (61) is communicated with the bottommost part of the outer barrel (2), and the other end of the water draining pipe extends out of the machine shell (1); the drain valve (62) is arranged on the machine shell (1), and one end of the drain pipe (61) extending out of the machine shell (1) is communicated with a water inlet of the drain valve (62); the first hose (63) is connected with the water outlet of the drain valve (62) through a fixing piece.

6. The machine for cleaning, drying and sanitarily saving energy for washing shoes in hospital operating rooms according to claim 1, characterized in that said drying assembly (7) comprises: the fan (72) is arranged on the machine shell (1), an air outlet of the fan (72) is communicated with an air inlet of the heat exchanger (71), and an air outlet of the heat exchanger (71) is communicated with the inside of the outer barrel (2); the top of the machine shell (1) is provided with an exhaust pipe (18), one end of the exhaust pipe (18) is communicated with the inside of the outer cylinder (2), and the other end of the exhaust pipe is communicated with the outside of the machine shell (1).

7. The machine for cleaning, drying and sanitarily saving shoes for hospital operating rooms according to claim 1, characterized in that said drive assembly (4) comprises: the device comprises a rotating shaft (41), an installation frame (42), a driving pulley (43), a driven pulley (44) and a belt (45), wherein one end of the rotating shaft (41) is connected with an inner cylinder (3), the other end of the rotating shaft is rotatably installed on the inner cylinder (3) and extends out of a machine shell (1), the installation frame (42) is installed on the machine shell (1), the driving pulley (43) is rotatably installed on the installation frame (42), the driven pulley (44) is installed on the rotating shaft (41), and the driving pulley (43) is connected with the driven pulley (44) through the belt (45); the drive assembly (4) further comprises: a first driving member for driving the driving pulley (43) to rotate.

8. The machine as claimed in claim 7, wherein the first driving member comprises: the automatic belt wheel transmission device comprises a reduction gearbox (46) and a servo motor (47), wherein the reduction gearbox (46) is installed on a mounting frame (42), an output shaft of the servo motor (47) is connected with an input end of the reduction gearbox (46), and an output end of the reduction gearbox (46) is connected with a driving belt wheel (43).

9. The machine integrating functions of cleaning, drying and sanitation applied to shoe washing in hospital operating rooms as claimed in claim 8, wherein an adjusting screw (421) is fixed to a position of the machine shell (1) close to the mounting frame (42), the mounting frame (42) is provided with an adjusting groove (423) for the adjusting screw (421) to pass through, the adjusting groove (423) extends towards the tightness direction of the belt (45), an adjusting nut (422) is installed on the adjusting screw (421) in a threaded manner, and the adjusting nut (422) abuts against one side of the mounting frame (42) far away from the machine shell (1).

10. The integrated machine for cleaning and drying shoes in hospital operating room as claimed in claim 1 is characterized in that the inner side wall of the inner cylinder (3) is provided with baffles (37) at intervals along the circumferential direction.

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