CN112921581A

CN112921581A - Hospital's internal medicine surgical gown washs and presses dry equipment

Info

Publication number: CN112921581A
Application number: CN202110066177.1A
Authority: CN
Inventors: 李芝
Original assignee: Individual
Current assignee: Zaozhuang Chest Hospital Zaozhuang Tumor Hospital
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2021-06-08
Anticipated expiration: 2041-01-18
Also published as: CN112921581B

Abstract

The invention relates to a cleaning device for surgical gowns in medical departments of hospitals, in particular to a cleaning and press-drying device for surgical gowns in medical departments of hospitals, which comprises a mounting shell mechanism, a surgical gown cleaning mechanism, a surgical gown press-drying mechanism and a surgical gown conveying mechanism, wherein the cleaning and press-drying mechanism can clean surgical gowns, the cleaning and press-drying mechanism can convey the cleaned surgical gowns into a press-drying box, the cleaning and press-drying mechanism can press-dry the surgical gowns, the pressing and press-drying mechanism can discharge the pressed water into a sewage box for sterilization, and the drying and press-drying mechanism can convey the cleaned surgical gowns into a clothes-airing box. The installation shell mechanism is connected with the surgical suit cleaning mechanism, the surgical suit cleaning mechanism is connected with the surgical suit press-drying mechanism, the surgical suit press-drying mechanism is connected with the surgical suit conveying mechanism, and the surgical suit conveying mechanism is connected with the installation shell mechanism.

Description

Hospital's internal medicine surgical gown washs and presses dry equipment

Technical Field

The invention relates to a cleaning device for hospital internal medicine surgical gowns, in particular to a cleaning and press-drying device for hospital internal medicine surgical gowns.

Background

In hospital's internal medicine surgical gown cleaning process, often need more flow, the linkage is relatively poor between the flow to do disinfection processing less to the water after wasing, do not have better hospital's internal medicine surgical gown again on the market and wash the pressure and do equipment, so designed this kind of hospital's internal medicine surgical gown and wash and press dry equipment.

Disclosure of Invention

The technical problem mainly solved by the invention is to provide a hospital internal medicine surgical gown cleaning and drying device, which can clean the surgical gown, convey the cleaned surgical gown into a drying box, dry the cleaned surgical gown, discharge the discharged water into a sewage box and sterilize, and convey the dried surgical gown into a clothes airing box.

In order to solve the technical problem, the invention relates to a cleaning device for surgical gowns in medical departments of hospitals, in particular to a cleaning and drying device for surgical gowns in medical departments of hospitals, which comprises a mounting shell mechanism, a cleaning mechanism for surgical gowns, a pressing and drying mechanism for surgical gowns and a conveying mechanism for surgical gowns, wherein the cleaning and drying mechanism can clean surgical gowns, the conveying mechanism for surgical gowns can convey the cleaned surgical gowns into a pressing and drying box, the cleaning and drying mechanism can press and dry the surgical gowns, the conveying mechanism can discharge the pressed water into a sewage box for disinfection, and the conveying mechanism can convey the dried surgical gowns into a clothes airing box.

The installation shell mechanism is connected with the surgical suit cleaning mechanism, the surgical suit cleaning mechanism is connected with the surgical suit press-drying mechanism, the surgical suit press-drying mechanism is connected with the surgical suit conveying mechanism, and the surgical suit conveying mechanism is connected with the installation shell mechanism.

As a further optimization of the technical scheme, the invention relates to a hospital internal medicine surgical gown cleaning and drying device, wherein the mounting shell mechanism comprises a mounting plate a, a mounting plate b, a mounting plate c, a mounting plate d, a mounting plate e, a mounting plate f, a mounting plate g, a mounting plate h, a middle layer plate, an inclined plate, a baffle plate, a mounting plate i, a concave plate, a mounting plate j, a mounting plate k, a bottom plate and a long mounting plate, the mounting plate a is connected with the middle layer plate, the mounting plate a is connected with the concave plate, the mounting plate b is connected with the mounting plate c, the mounting plate b is connected with the mounting plate d, the mounting plate b is connected with the mounting plate f, the mounting plate b is connected with the middle layer plate, the mounting plate b is connected with the concave plate, the mounting plate b is connected with the bottom plate, the mounting plate c is connected with the middle layer plate, the, the mounting plate d is connected with the mounting plate i, the mounting plate e is connected with the mounting plate f, the mounting plate e is connected with the middle layer plate, the mounting plate f is connected with the mounting plate i, the mounting plate f is connected with the bottom plate, the mounting plate g is connected with the middle layer plate, the mounting plate g is connected with the bottom plate, the mounting plate h is connected with the middle layer plate, the mounting plate h is connected with the mounting plate j, the mounting plate h is connected with the mounting plate k, the mounting plate h is connected with the bottom plate, the middle layer plate is connected with the mounting plate i, the middle layer plate is connected with the concave plate, the middle layer plate is connected with the mounting long plate, the inclined plate is connected with the baffle.

As a further optimization of the technical scheme, the invention relates to a cleaning and drying device for hospital internal medicine surgical gowns, which comprises a motor, a motor shaft, a gear a, a bevel gear a, a gear b, a rotating column a, a bevel gear b, a bevel gear c, a rotating column b, a gear c, a barrel, an external thread rotating column, a key rotating column, a gear d, a rotating column c, a gear e, a rotating shaft, a strip plate, a cleaning tank and a limit strip plate, wherein the motor is connected with a bottom plate, the motor is connected with the motor shaft, the motor shaft is connected with the gear a, the motor shaft is connected with the bevel gear a, the gear a is meshed with the gear b, the gear b is connected with the rotating column a, the rotating column a is connected with the bottom plate bearing, the rotating column a is connected with the strip plate b, the rotating column a is connected with the strip plate bearing, the bevel gear b is meshed with the bevel, the rotating column b is connected with a bearing of the mounting plate g, the rotating column b is connected with a gear c, the gear c is meshed with the external thread rotating column, the barrel is connected with the middle layer plate, the external thread rotating column is connected with a bearing of the middle layer plate, the external thread rotating column is connected with a key rotating column in a sliding mode, the key rotating column is connected with a bottom plate bearing, the key rotating column is connected with a gear d, the key rotating column is connected with a rotating shaft bearing, the rotating column c is connected with the bottom plate bearing, the rotating column c is connected with a gear e, the rotating column c is connected with a long strip plate bearing, a rotating shaft is connected with a cleaning tank, the long strip plate is connected with a limit long strip plate, and the limit.

As a further optimization of the technical scheme, the invention relates to a cleaning and press-drying device for hospital internal medicine surgical gowns, which comprises a helical gear d, a rotary column d, a belt a, a rotary column e, a helical gear e, a belt b, a wheel disc, a round pin, a connecting rod, sector teeth, a rotary column f, an L-shaped plate, a barrel with teeth, a sliding column, a round cover plate, a press-drying barrel, a fixing plate, a water receiving tank, a drain pipe, a garment pressing disc and a rotary column g, wherein the helical gear d is connected with the rotary column d, the rotary column d is connected with a bearing of a mounting plate h, the rotary column d is connected with the belt a in a friction manner, the belt a is connected with the rotary column e in a friction manner, the rotary column e is connected with the belt b in a friction manner, the belt b is connected with the rotary column g in a friction manner, the wheel disc is connected with the rotary column g, round pin and connecting rod bearing are connected, the round pin is connected with fan-shaped tooth, fan-shaped tooth is connected with column spinner f, fan-shaped tooth meshes with taking the tooth cask mutually, column spinner f is connected with L template bearing, L template and circular apron are connected, take the tooth cask and slide column connection, slide column and mounting panel a sliding connection, slide column and circular apron sliding connection, slide column and pressure clothing dish are connected, circular apron is connected with the pressure dry bucket, the pressure dry bucket is connected with the baffle, the fixed plate is connected with mounting panel d, the fixed plate is connected with concave type board, the fixed plate is connected with the water receiving tank, the water receiving tank is connected and is linked together with the drain pipe, the drain pipe is connected and is linked together with mounting panel d, column spinner g is connected with mounting panel e bearing.

As a further optimization of the technical scheme, the invention relates to a cleaning and drying device for hospital internal medicine surgical gowns, wherein a surgical gown conveying mechanism comprises a helical gear f, a rotary column h, a belt c, a push wheel, a rotary column i, a rotary wheel disc, a cylindrical pin, a fixed cylinder, a rotary column j, a perforated sector gear, a short toothed lath, a fixed long lath, a roller, a long rack plate, a rotary column k, a gear f, a square frame plate, a support plate, a mounting plate l, a water filtering plate, a rotary column l and a clothes drying box, the helical gear f is meshed with the helical gear e, the helical gear f is connected with the rotary column h, the rotary column h is connected with the mounting plate j through a bearing, the rotary column h is connected with the mounting plate k through a bearing, the rotary column h is connected with the belt c, the rotary column h is connected with the push wheel, the belt c is connected with the rotary column i through a friction, the rotary column i, the rotary wheel disc is connected with the cylindrical pin, the cylindrical pin is connected with the fixed cylinder, the cylindrical pin is connected with the perforated fan-shaped teeth in a sliding mode, the rotary column j is connected with a bearing of the mounting plate d, the rotary column j is connected with a bearing of the concave plate, the perforated fan-shaped teeth are meshed with the long rack plate, the short rack plate is connected with the mounting plate d, the short rack plate is connected with the concave plate, the fixed long rack plate is connected with the mounting plate d, the fixed long rack plate is connected with the concave plate, the fixed long rack plate is connected with the long rack plate in a sliding mode, the roller is connected with the rotary column l, the long rack plate is connected with the square frame plate, the rotary column k is connected with the gear f, the rotary column k is connected with the square frame plate, the support plate is connected with the mounting plate l, the support plate is connected with the bearing.

The cleaning and press-drying equipment for the hospital internal medicine surgical gown has the beneficial effects that:

the equipment can clean the surgical gown in the medical department of the hospital, can convey the cleaned surgical gown into the drying box, can dry the cleaned surgical gown, can discharge the extruded water into the sewage box for disinfection, and can convey the dried surgical gown into the clothes airing box.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a cleaning and drying device for hospital gowns.

Fig. 2 is a first structural schematic diagram of a housing mounting mechanism 1 of the cleaning and press-drying equipment for the surgical gown in the medical department of hospitals.

Fig. 3 is a structural schematic diagram II of a mounting shell mechanism 1 of the cleaning and press-drying equipment for the hospital internal medicine surgical gown.

Fig. 4 is a third structural schematic diagram of the mounting housing mechanism 1 of the cleaning and press-drying equipment for the surgical gown in the medical department of hospitals.

Fig. 5 is a fourth structural schematic diagram of the mounting housing mechanism 1 of the cleaning and press-drying equipment for the hospital internal medicine surgical gown of the invention.

Fig. 6 is a fifth structural schematic diagram of the mounting housing mechanism 1 of the cleaning and press-drying equipment for the hospital internal medicine surgical gown of the invention.

Fig. 7 is a first structural schematic diagram of the surgical gown cleaning mechanism 2 of the surgical gown cleaning and drying device in the medical department of hospital of the invention.

Fig. 8 is a structural schematic diagram II of the surgical gown cleaning mechanism 2 of the surgical gown cleaning and drying device for the medical department of hospitals.

Fig. 9 is a third structural schematic diagram of the surgical gown cleaning mechanism 2 of the surgical gown cleaning and drying device in the medical department of hospital of the invention.

Fig. 10 is a first structural schematic diagram of the surgical gown press-drying mechanism 3 of the surgical gown cleaning and press-drying device in the medical department of hospital of the invention.

Fig. 11 is a structural schematic diagram of a second surgical gown drying mechanism 3 of the surgical gown cleaning and drying device in the medical department of hospital of the invention.

Fig. 12 is a third structural schematic diagram of the surgical gown press-drying mechanism 3 of the surgical gown cleaning and press-drying apparatus in the medical department of hospital of the present invention.

Fig. 13 is a fourth structural schematic diagram of the surgical gown press-drying mechanism 3 of the surgical gown cleaning and press-drying apparatus in the medical department of hospital of the present invention.

Fig. 14 is a fifth structural schematic diagram of the surgical gown press-drying mechanism 3 of the surgical gown cleaning and press-drying apparatus in the medical department of hospital of the present invention.

Fig. 15 is a first structural schematic diagram of a surgical suit conveying mechanism 4 of the cleaning and drying device for surgical suits in hospitals according to the present invention.

Fig. 16 is a second structural schematic diagram of the surgical gown conveying mechanism 4 of the cleaning and drying apparatus for the surgical gowns in the medical department of hospitals.

Fig. 17 is a third structural schematic diagram of the surgical gown conveying mechanism 4 of the cleaning and drying apparatus for the surgical gowns in the medical department of hospitals.

Fig. 18 is a fourth schematic structural diagram of the surgical gown conveying mechanism 4 of the cleaning and drying apparatus for the surgical gowns in the medical department of hospitals.

Fig. 19 is a fifth structural schematic diagram of the surgical gown conveying mechanism 4 of the cleaning and drying equipment for the surgical gowns in the medical department of hospitals.

Fig. 20 is a sixth schematic structural view of the surgical gown conveying mechanism 4 of the cleaning and drying apparatus for the surgical gowns in the medical department of hospitals.

In the figure: mounting the shell mechanism 1; mounting plate a 1-1; mounting plate b 1-2; mounting plate c 1-3; mounting plate d 1-4; mounting plate e 1-5; mounting plate f 1-6; mounting plate g 1-7; mounting plates h 1-8; 1-9 parts of a middle layer plate; 1-10 of an inclined plate; 1-11 parts of baffle plates; mounting plate i 1-12; 1-13 parts of concave plate; mounting plate j 1-14; mounting plate k 1-15; a bottom plate 1-16; installing long plates 1-17; a surgical gown washing mechanism 2; a motor 2-1; a motor shaft 2-2; gear a 2-3; bevel gear a 2-4; gear b 2-5; spin column a 2-6; bevel gear b 2-7; bevel gear c 2-8; rotating column b 2-9; gear c 2-10; 2-11 of round barrel; 2-12 parts of external thread rotating column; 2-13 of a key rotating column; gear d 2-14; spin column c 2-15; gear e 2-16; a rotating shaft 2-17; 2-18 parts of strip plates; 2-19 of a cleaning tank; 2-20 parts of a limiting strip plate; a surgical gown press-drying mechanism 3; helical gear d 3-1; rotating column d 3-2; belt a 3-3; spin column e 3-4; bevel gear e 3-5; belt b 3-6; 3-7 parts of a wheel disc; 3-8 parts of round pin; connecting rods 3-9; 3-10 parts of fan-shaped teeth; spin column f 3-11; 3-12 parts of an L-shaped plate; 3-13 of a barrel with teeth; 3-14 of sliding column; 3-15 parts of a circular cover plate; 3-16 parts of a press drying barrel; fixing plates 3-17; 3-18 parts of a water receiving tank; 3-19 parts of a drain pipe; 3-20 parts of a clothes pressing disc; rotating column g 3-21; a surgical gown transfer mechanism 4; bevel gear f 4-1; spin column h 4-2; belt c 4-3; 4-4 of a push wheel; spin column i 4-5; 4-6 of a rotary wheel disc; 4-7 of a cylindrical pin; 4-8 parts of a fixed cylinder; spin column j 4-9; 4-10 of sector teeth with holes; 4-11 parts of short toothed plate; 4-12 of fixed long laths; 4-13 of rollers; long rack plates 4-14; spin column k 4-15; gear f 4-16; 4-17 of square frame plates; 4-18 of a support plate; mounting plates l 4-19; 4-20 parts of a water filtering plate; spin columns l 4-21; and 4-22 of a clothes drying box.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and fig. 20, and the present invention relates to a cleaning apparatus for surgical gowns in hospital internal medicine, and more specifically, to a cleaning and press-drying apparatus for surgical gowns in hospital internal medicine, which includes a housing mounting mechanism, a surgical gown cleaning mechanism, a surgical gown press-drying mechanism, a transfer gown mechanism, an apparatus capable of cleaning surgical gowns, transferring the cleaned surgical gowns into a press-drying box, an apparatus capable of press-drying the surgical gowns, an apparatus capable of draining the surgical gowns after cleaning, an apparatus capable of draining the pressed water into a sewage box and sterilizing the same, and an apparatus.

The second embodiment is as follows:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, the present embodiment further illustrates the present embodiment, and the present embodiment further illustrates the present embodiment, where the mounting casing mechanism 1 includes a mounting plate a1-1, a mounting plate b1-2, a mounting plate c1-3, a mounting plate d1-4, a mounting plate e1-5, a mounting plate f1-6, a mounting plate g1-7, a mounting plate 539h 1-8, a middle plate 1-9, a sloping plate 1-10, a baffle plate 1-11, a mounting plate i1-12, a concave plate 1-13, a mounting plate j1-14, a mounting plate k1-15, a bottom plate 1-16, a mounting long plate 1-17, a mounting plate a1-, mounting plate a1-1 is connected with concave plates 1-13, mounting plate b1-2 is connected with mounting plate c1-3, mounting plate b1-2 is connected with mounting plate d1-4, mounting plate b1-2 is connected with mounting plate f1-6, mounting plate b1-2 is connected with middle layer plate 1-9, mounting plate b1-2 is connected with concave plates 1-13, mounting plate b1-2 is connected with bottom plates 1-16, mounting plate c1-3 is connected with middle layer plate 1-9, mounting plate c1-3 is connected with mounting plate i1-12, mounting plate c1-3 is connected with bottom plates 1-16, mounting plate d1-4 is connected with mounting plate e1-5, mounting plate d1-4 is connected with middle layer plate 1-9, mounting plate d1-4 is connected with mounting plate i1-12, mounting plate e1-5 is connected with mounting plate f1-6, mounting plate e1-5 is connected with middle layer plate 1-9, mounting plate f1-6 is connected with middle layer plate 1-9, mounting plate f1-6 is connected with mounting plate i1-12, mounting plate f1-6 is connected with bottom plate 1-16, mounting plate g1-7 is connected with middle layer plate 1-9, mounting plate g1-7 is connected with bottom plate 1-16, mounting plate h1-8 is connected with middle layer plate 1-9, mounting plate h1-8 is connected with mounting plate j1-14, mounting plate h1-8 is connected with mounting plate k1-15, mounting plate h1-8 is connected with bottom plate 1-16, middle layer plate 1-9 is connected with mounting plate i1-12, middle layer plate 1-9 is connected with concave plate 1-13, the middle layer plate 1-9 is connected with the installation long plate 1-17, the inclined plate 1-10 is connected with the baffle plate 1-11, the inclined plate 1-10 is connected with the concave plate 1-13, the baffle plate 1-11 is connected with the concave plate 1-13, the installation plate i1-12 is connected with the concave plate 1-13, and the installation plate i1-12 is connected with the bottom plate 1-16.

The third concrete implementation mode:

the following describes this embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and fig. 20, and this embodiment further describes the embodiment, where the surgical suit cleaning mechanism 2 includes a motor 2-1, a motor shaft 2-2, a gear a2-3, a helical gear a2-4, a gear b2-5, a rotating column a2-6, a helical gear b2-7, a helical gear c2-8, a rotating column b2-9, a gear c2-10, a drum 2-11, an externally threaded rotating column 2-12, a keyed rotating column 2-13, a gear d2-14, a rotating column c2-15, a gear e2-16, a rotating shaft 2-17, a strip 2-18, and a strip 2, Cleaning groove 2-19, limit long strip plate 2-20, motor 2-1 is connected with base plate 1-16, motor 2-1 is connected with motor shaft 2-2, motor shaft 2-2 is connected with gear a2-3, motor shaft 2-2 is connected with helical gear a2-4, gear a2-3 is meshed with gear b2-5, gear b2-5 is connected with rotating column a2-6, rotating column a2-6 is connected with base plate 1-16 bearing, rotating column a2-6 is connected with helical gear b2-7, rotating column a2-6 is connected with long strip plate 2-18 bearing, helical gear b2-7 is meshed with helical gear c2-8, helical gear c2-8 is connected with rotating column b2-9, rotating column b2-9 is connected with mounting plate g1-7 bearing, the rotating column b2-9 is connected with a gear c2-10, the gear c2-10 is engaged with an external thread rotating column 2-12, a drum 2-11 is connected with a middle layer plate 1-9, the external thread rotating column 2-12 is connected with a middle layer plate 1-9 bearing, the external thread rotating column 2-12 is connected with a key rotating column 2-13 in a sliding way, the key rotating column 2-13 is connected with a bottom plate 1-16 bearing, the key rotating column 2-13 is connected with a gear d2-14, the key rotating column 2-13 is connected with a rotating shaft 2-17 bearing, the rotating column c2-15 is connected with a bottom plate 1-16 bearing, the rotating column c2-15 is connected with a gear e2-16, the rotating column c2-15 is connected with a long strip plate 2-18 bearing, the rotating shaft 2-17 is connected with a cleaning tank 2-19, the long strip plates 2-18 are connected with the limiting long strip plates 2-20, the limiting long strip plates 2-20 are connected with the bottom plates 1-16 in a sliding mode, equipment can clean surgical gowns, when the surgical gowns are placed in a cleaning tank 2-19, the long strip plates 2-18 are pulled downwards to enable the gears d2-14 to be meshed with the gears e2-16, the gears a2-3 are meshed with the gears e2-16, at the moment, the motors 2-1 rotate forward and backward for a period of time, the motors 2-1 rotate to drive the motor shafts 2-2 to rotate, the motor shafts 2-2 rotate to drive the gears a2-3 to rotate, the gears a2-3 rotate to drive the gears e2-16 to rotate, the gears e2-16 rotate to drive the keyed rotary columns 2-13 to rotate, the keyed rotary columns 2-13 rotate to drive the external threaded rotary columns 2-12 to rotate, the external thread rotating columns 2-12 rotate to drive the cleaning tanks 2-19 to rotate, the external thread rotating columns 2-12 rotate and move upwards through the gears c2-10, the equipment can convey the cleaned surgical gown into the press drying box, when the surgical gown is cleaned for a period of time, the long strip plates 2-18 are pulled upwards to enable the gears a2-3 to be meshed with the gears b2-5, at the moment, the motors 2-1 rotate to drive the motor shafts 2-2 to rotate, the motor shafts 2-2 rotate to drive the gears a2-3 to rotate, the gears a2-3 rotate to drive the gears b2-5 to rotate, the gears b2-5 rotate to drive the rotating columns a2-6 to rotate, the rotating columns a2-6 rotate to drive the bevel gears b2-7 to rotate, the bevel gears b2-7 rotate to drive the bevel gears c2-8, the bevel gear c2-8 rotates to drive the rotating column b2-9 to rotate, the rotating column b2-9 rotates to drive the gear c2-10 to rotate, the gear c2-10 rotates to drive the external thread rotating column 2-12 to move upwards, the external thread rotating column 2-12 moves upwards to drive the cleaning tank 2-19 to move upwards, when the cleaning tank 2-19 is jacked to the inclined plate 1-10, the cleaning tank 2-19 rotates through the rotating shaft 2-17, and the surgical gown is poured into the pressure drying barrel 3-16.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and fig. 20, and further describes the present embodiment, where the surgical gown drying mechanism 3 includes a helical gear d3-1, a rotating column d3-2, a belt a3-3, a rotating column e3-4, a helical gear e3-5, a belt b3-6, a wheel 3-7, a round pin 3-8, a connecting rod 3-9, a sector gear 3-10, a rotating column f3-11, an L-shaped plate 3-12, a toothed drum 3-13, a sliding column 3-14, a round cover plate 3-15, a drying drum 3-16, a fixing plate 3-17, and a water receiving tank 3-18, 3-19 parts of drain pipe, 3-20 parts of clothes pressing disc, 3-21 parts of rotating column g3-21 parts, 3-1 part is connected with d3-2 part, d3-2 part is connected with h1-8 part of mounting plate, d3-2 part is connected with 3-3 part of belt, 3-3 part is connected with e3-4 part, e3-4 part is connected with h1-8 part of mounting plate, e3-4 part is connected with e3-5 part of helical gear, e3-4 part is connected with b3-6 part of belt, b3-6 part is connected with g3-21 part of rotating column, 3-7 part of wheel disc is connected with 3-8 part of round pin, 3-7 part of wheel disc is connected with g3-21 part of rotating column, 3-8 part of round pin is connected with 3-9 part of connecting rod, 3-8 part of round pin is connected with 3-10 part of sector gear, sector teeth 3-10 are connected with a rotating column f3-11, sector teeth 3-10 are engaged with a toothed barrel 3-13, a rotating column f3-11 is connected with an L-shaped plate 3-12 bearing, an L-shaped plate 3-12 is connected with a circular cover plate 3-15, a toothed barrel 3-13 is connected with a sliding column 3-14, a sliding column 3-14 is connected with a mounting plate a1-1 in a sliding manner, a sliding column 3-14 is connected with a circular cover plate 3-15 in a sliding manner, a sliding column 3-14 is connected with a clothes press plate 3-20, a circular cover plate 3-15 is connected with a drying barrel 3-16, a drying barrel 3-16 is connected with a baffle plate 1-11, a fixing plate 3-17 is connected with a mounting plate d1-4, a fixing plate 3-17 is connected with a concave plate 1-13, a fixing plate 3-17 is connected with a water receiving tank 3-18, the water receiving tank 3-18 is connected and communicated with the water discharging pipe 3-19, the water discharging pipe 3-19 is connected and communicated with the mounting plate d1-4, the rotating column g3-21 is connected with the mounting plate e1-5 through a bearing, the device can press the cleaned surgical suit, when the surgical suit is poured into the pressing barrel 3-16, the motor 2-1 rotates, the motor shaft 2-2 rotates and drives the helical gear a2-4 to rotate, the helical gear a2-4 rotates and drives the helical gear d3-1 to rotate, the helical gear d3-1 rotates and drives the rotating column d3-2 to rotate, the rotating column d3-2 rotates and drives the rotating column e3-4 to rotate through the belt a3-3, the rotating column e3-4 rotates and drives the rotating column g3-21 to rotate through the belt b3-6, the rotary column g3-21 rotates to drive the wheel disc 3-7 to rotate, the wheel disc 3-7 rotates to drive the sector teeth 3-10 to rotate through the connecting rod 3-9, the sector teeth 3-10 rotate to drive the toothed drums 3-13 to move up and down, the toothed drums 3-13 move up and down to drive the sliding columns 3-14 to slide up and down in the mounting plate a1-1 and the circular cover plate 3-15, the sliding columns 3-14 slide up and down to drive the clothes press disc 3-20 to move up and down, the surgical gowns in the clothes press drum 3-16 are pressed and dried, the extruded water filter plates 4-20 flow into the water receiving grooves 3-18, the equipment can discharge the extruded water into the sewage tank and sterilize, when the extruded water flows into the water receiving grooves 3-18, the water can discharge the sewage into the mounting plate d1-4 through the water discharge pipes 3-19, The sewage is disinfected in a disinfection box consisting of a mounting plate e1-5, a mounting plate f1-6 and a mounting plate i 1-12.

The fifth concrete implementation mode:

referring to FIGS. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, the present embodiment will be further described, wherein the surgical gown transfer mechanism 4 includes a helical gear f4-1, a rotary post h4-2, a belt c4-3, a pusher 4-4, a rotary post i4-5, a rotary wheel 4-6, a cylindrical pin 4-7, a fixed cylinder 4-8, a rotary post j4-9, a perforated sector gear 4-10, a short toothed strip 4-11, a fixed long strip 4-12, a roller 4-13, a long rack plate 4-14, a rotary post k4-15, a gear f4-16, a square plate 4-17, 17, Support plate 4-18, mounting plate l4-19, water filtering plate 4-20, rotary column l4-21, clothes drying box 4-22, helical gear f4-1 is engaged with helical gear e3-5, helical gear f4-1 is connected with rotary column h4-2, rotary column h4-2 is connected with mounting plate j1-14 bearing, rotary column h4-2 is connected with mounting plate k1-15 bearing, rotary column h4-2 is connected with belt c4-3 friction, rotary column h4-2 is connected with push wheel 4-4, belt c4-3 is connected with rotary column i4-5 friction, rotary column i4-5 is connected with mounting long plate 1-17 bearing, rotary column i4-5 is connected with rotary wheel 4-6, rotary wheel 4-6 is connected with cylindrical pin 4-7, cylindrical pin 4-7 is connected with fixed cylindrical pin 4-8, cylindrical pins 4-7 are slidably connected with perforated sector teeth 4-10, a rotating column j4-9 is connected with a mounting plate d1-4 bearing, a rotating column j4-9 is connected with a concave plate 1-13 bearing, the perforated sector teeth 4-10 are meshed with a long rack plate 4-14, a short toothed strip plate 4-11 is connected with a mounting plate d1-4, a short toothed strip plate 4-11 is connected with a concave plate 1-13, a fixed long strip plate 4-12 is connected with a mounting plate d1-4, a fixed long strip plate 4-12 is connected with a concave plate 1-13, a fixed long strip plate 4-12 is slidably connected with a long rack plate 4-14, rollers 4-13 are connected with rotating columns l4-21, a long rack plate 4-14 is connected with a square plate 4-17, a rotating column k4-15 is connected with a gear f4-16, the rotating column k4-15 is connected with the square frame plate 4-17, the support plate 4-18 is connected with the mounting plate l4-19, the support plate 4-18 is connected with the rotating column l4-21 through a bearing, the mounting plate l4-19 is connected with the mounting plate d1-4, the mounting plate l4-19 is connected with the concave plate 1-13, the airing box 4-22 is connected with the middle plate 1-9, the equipment can convey the dried surgical clothes into the airing box, after the surgical clothes are dried, the pushing wheel 4-4 is pushed to enable the helical gear f4-1 to be meshed with the helical gear e3-5, the motor 2-1 rotates to drive the motor shaft 2-2 to rotate, the motor shaft 2-2 rotates to drive the helical gear a2-4 to rotate, the helical gear a2-4 rotates to drive the helical gear d3-1 to rotate, the helical gear d3-1 rotates to drive the rotating column d3-2 to rotate, the rotating column d3-2 rotates to drive the rotating column e3-4 to rotate through the belt a3-3, the rotating column e3-4 rotates to drive the helical gear e3-5 to rotate, the helical gear e3-5 rotates to drive the helical gear f4-1 to rotate, the helical gear f4-1 rotates to drive the rotating column h4-2 to rotate, the rotating column h4-2 rotates to drive the rotating column i4-5 to rotate through the belt c4-3, the rotating column i4-5 rotates to drive the rotating wheel disc 4-6 to rotate, the rotating wheel disc 4-6 rotates to drive the cylindrical pin 4-7 to rotate, the cylindrical pin 4-7 rotates to drive the perforated fan-shaped teeth 4-10 to rotate, the perforated fan-shaped teeth 4-10 rotates to drive the long rack plate 4-14 to move forwards, the long rack plates 4-14 move forwards to push the square frame plates 4-17 to move forwards, the square frame plates 4-17 move forwards to drive the gears f4-16 to move forwards, the gears f4-16 move forwards to be meshed with the short rack plates 4-11, the gears f4-16 move forwards continuously to be driven by the short rack plates 4-11 to rotate, the gears f4-16 rotate to drive the water filtering plates 4-20 to open relative to the square frame plates 4-17, and the surgical suit can fall into the clothes drying box 4-22.

The working principle of the device is as follows: the device can clean the surgical gown, when the surgical gown is put into the cleaning tank 2-19, the long strip plate 2-18 is pulled downwards to enable the gear d2-14 to be meshed with the gear e2-16, the gear a2-3 is meshed with the gear e2-16, at the moment, the motor 2-1 rotates forwards for a period of time and rotates backwards for a period of time, the motor 2-1 rotates to drive the motor shaft 2-2 to rotate, the motor shaft 2-2 rotates to drive the gear a2-3 to rotate, the gear a2-3 rotates to drive the gear e2-16 to rotate, the gear e2-16 rotates to drive the keyed rotating column 2-13 to rotate, the keyed rotating column 2-13 rotates to drive the externally threaded rotating column 2-12 to rotate, the externally threaded rotating column 2-12 rotates to drive the cleaning tank 2-19 to rotate, and the externally threaded rotating column 2-12 rotates through the gear c2-10 and, the device can convey the washed surgical gown into the drying oven, when the surgical gown is washed for a period of time, the long strip plates 2-18 are pulled upwards to enable the gear a2-3 to be meshed with the gear b2-5, at the moment, the motor 2-1 rotates to drive the motor shaft 2-2 to rotate, the motor shaft 2-2 rotates to drive the gear a2-3 to rotate, the gear a2-3 rotates to drive the gear b2-5 to rotate, the gear b2-5 rotates to drive the rotary column a2-6 to rotate, the rotary column a2-6 rotates to drive the helical gear b2-7 to rotate, the helical gear b2-7 rotates to drive the helical gear c2-8 to rotate, the helical gear c2-8 rotates to drive the rotary column b2-9 to rotate, the rotary column b2-9 rotates to drive the gear c2-10 to rotate, the gear c2-10 rotates to drive the external thread rotary column, the external thread rotating column 2-12 moves upwards to drive the cleaning tank 2-19 to move upwards, when the cleaning tank 2-19 is jacked to the inclined plate 1-10, the cleaning tank 2-19 rotates through the rotating shaft 2-17 to dump the surgical gown into the pressure drying barrel 3-16, the equipment can dry the cleaned surgical gown, when the surgical gown is dumped into the pressure drying barrel 3-16, the motor 2-1 rotates to drive the motor shaft 2-2 to rotate, the motor shaft 2-2 rotates to drive the bevel gear a2-4 to rotate, the bevel gear a2-4 rotates to drive the bevel gear d3-1 to rotate, the bevel gear d3-1 rotates to drive the rotating column d3-2 to rotate, the rotating column d3-2 rotates to drive the rotating column e3-4 to rotate through the belt a3-3, the rotary column e3-4 rotates to drive the rotary column g3-21 to rotate through the belt b3-6, the rotary column g3-21 rotates to drive the wheel disc 3-7 to rotate, the wheel disc 3-7 rotates to drive the sector teeth 3-10 to rotate through the connecting rod 3-9, the sector teeth 3-10 rotate to drive the toothed drums 3-13 to move up and down, the toothed drums 3-13 move up and down to drive the sliding columns 3-14 to slide up and down in the mounting plate a1-1 and the circular cover plate 3-15, the sliding columns 3-14 slide up and down to drive the clothes press disc 3-20 to move up and down, the surgical gown in the clothes press drum 3-16 is pressed, the extruded water filter plate 4-20 flows into the water receiving tank 3-18, the equipment can discharge the extruded water into the sewage tank for disinfection, when the extruded water flows into the water receiving tank 3-18, water can discharge sewage into a disinfection box consisting of a mounting plate d1-4, a mounting plate e1-5, a mounting plate f1-6 and a mounting plate i1-12 through a drain pipe 3-19 to disinfect the sewage, the equipment can convey the press-dried surgical suit into a clothes airing box, after the surgical suit is pressed dry, a push wheel 4-4 is pushed to enable a helical gear f4-1 to be meshed with a helical gear e3-5, at the moment, a motor 2-1 rotates, a motor shaft 2-1 rotates to drive a motor shaft 2-2 to rotate, a helical gear a2-4 rotates through the rotation of the motor shaft 2-2, a helical gear a2-4 rotates to drive a helical gear d3-1 to rotate, a d3-1 rotates to drive a rotating column d3-2 to rotate, a rotating column d3-2 rotates to drive a rotating column e3-4 to rotate through a belt a3-3, the rotation of a rotating column e3-4 drives a helical gear e3-5 to rotate, the rotation of the helical gear e3-5 drives a helical gear f4-1 to rotate, the rotation of the helical gear f4-1 drives a rotating column h4-2 to rotate, the rotation of the rotating column h4-2 drives a rotating column i4-5 to rotate through a belt c4-3, the rotation of a rotating column i4-5 drives a rotating wheel disc 4-6 to rotate, the rotation of the rotating wheel disc 4-6 drives a cylindrical pin 4-7 to rotate, the rotation of the cylindrical pin 4-7 drives a perforated fan-shaped tooth 4-10 to rotate, the rotation of the perforated fan-shaped tooth 4-10 drives a long rack plate 4-14 to move forwards, the long rack plate 4-14 moves forwards to push a square frame plate 4-17 to move forwards, the forward of a square plate 4-17 drives a gear f4-16 to move forwards, the forward gear f4-16 can be meshed with a short rack, the gear f4-16 is driven to rotate by the short rack plate 4-11 when moving forward continuously, and the gear f4-16 drives the water filtering plate 4-20 to open relative to the square frame plate 4-17, so that the surgical gown falls into the clothes drying box 4-22.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a hospital's internal medicine surgical gown washs and presses dry equipment, is including installing housing structure (1), surgical gown wiper mechanism (2), and surgical gown presses dry mechanism (3), conveys surgical gown mechanism (4), its characterized in that: the installation shell mechanism (1) is connected with the surgical suit cleaning mechanism (2), the surgical suit cleaning mechanism (2) is connected with the surgical suit press-drying mechanism (3), the surgical suit press-drying mechanism (3) is connected with the surgical suit conveying mechanism (4), and the surgical suit conveying mechanism (4) is connected with the installation shell mechanism (1).

2. The hospital medical surgical gown washing and drying apparatus according to claim 1, wherein: the mounting shell mechanism (1) comprises a mounting plate a (1-1), a mounting plate b (1-2), a mounting plate c (1-3), a mounting plate d (1-4), a mounting plate e (1-5), a mounting plate f (1-6), a mounting plate g (1-7), a mounting plate h (1-8), a middle layer plate (1-9), an inclined plate (1-10), a baffle plate (1-11), a mounting plate i (1-12), a concave plate (1-13), a mounting plate j (1-14), a mounting plate k (1-15), a bottom plate (1-16) and a mounting long plate (1-17), wherein the mounting plate a (1-1) is connected with the middle layer plate (1-9), the mounting plate a (1-1) is connected with the concave plate (1-13), the mounting plate b (1-2) is connected with the mounting plate c (1-3), the mounting plate b (1-2) is connected with the mounting plate d (1-4), the mounting plate b (1-2) is connected with the mounting plate f (1-6), the mounting plate b (1-2) is connected with the middle layer plate (1-9), the mounting plate b (1-2) is connected with the concave plate (1-13), the mounting plate b (1-2) is connected with the bottom plate (1-16), the mounting plate c (1-3) is connected with the middle layer plate (1-9), the mounting plate c (1-3) is connected with the mounting plate i (1-12), the mounting plate c (1-3) is connected with the bottom plate (1-16), the mounting plate d (1-4) is connected with the mounting plate e (1-5), the mounting plate d (1-4) is connected with the middle layer plate (1-9), the mounting plate d (1-4) is connected with the mounting plate i (1-12), the mounting plate e (1-5) is connected with the mounting plate f (1-6), the mounting plate e (1-5) is connected with the middle layer plate (1-9), the mounting plate f (1-6) is connected with the mounting plate i (1-12), the mounting plate f (1-6) is connected with the bottom plate (1-16), the mounting plate g (1-7) is connected with the middle layer plate (1-9), the mounting plate g (1-7) is connected with the bottom plate (1-16), the mounting plate h (1-8) is connected with the middle layer plate (1-9), the mounting plate h (1-8) is connected with the mounting plate j (1-14), the mounting plate h (1-8) is connected with the mounting plate k (1-15), the mounting plate h (1-8) is connected with the base plate (1-16), the middle layer plate (1-9) is connected with the mounting plate i (1-12), the middle layer plate (1-9) is connected with the concave plate (1-13), the middle layer plate (1-9) is connected with the mounting long plate (1-17), the inclined plate (1-10) is connected with the baffle plate (1-11), the inclined plate (1-10) is connected with the concave plate (1-13), the baffle plate (1-11) is connected with the concave plate (1-13), the mounting plate i (1-12) is connected with the concave plate (1-13), and the mounting plate i (1-12) is connected with the base plate (1-16).

3. The hospital medical surgical gown washing and drying apparatus according to claim 1, wherein: the surgical gown cleaning mechanism (2) comprises a motor (2-1), a motor shaft (2-2), a gear a (2-3), a helical gear a (2-4), a gear b (2-5), a rotating column a (2-6), a helical gear b (2-7), a helical gear c (2-8), a rotating column b (2-9), a gear c (2-10), a barrel (2-11), an external thread rotating column (2-12), a key rotating column (2-13), a gear d (2-14), a rotating column c (2-15), a gear e (2-16), a rotating shaft (2-17), a strip plate (2-18), a cleaning tank (2-19) and a limiting strip plate (2-20), wherein the motor (2-1) is connected with a base plate (1-16), the motor (2-1) is connected with the motor shaft (2-2), the motor shaft (2-2) is connected with the gear a (2-3), the motor shaft (2-2) is connected with the helical gear a (2-4), the gear a (2-3) is meshed with the gear b (2-5), the gear b (2-5) is connected with the rotating column a (2-6), the rotating column a (2-6) is connected with the bottom plate (1-16) through a bearing, the rotating column a (2-6) is connected with the helical gear b (2-7), the rotating column a (2-6) is connected with the long strip plate (2-18) through a bearing, the helical gear b (2-7) is meshed with the helical gear c (2-8), the helical gear c (2-8) is connected with the rotating column b (2-9), the rotating column b (2-9) is connected with the mounting plate g (1-7) through a bearing, the rotating column b (2-9) is connected with a gear c (2-10), the gear c (2-10) is meshed with an external thread rotating column (2-12), a drum (2-11) is connected with a middle layer plate (1-9), the external thread rotating column (2-12) is in bearing connection with the middle layer plate (1-9), the external thread rotating column (2-12) is in sliding connection with a key rotating column (2-13), the key rotating column (2-13) is in bearing connection with a bottom plate (1-16), the key rotating column (2-13) is connected with a gear d (2-14), the key rotating column (2-13) is in bearing connection with a rotating shaft (2-17), the rotating column c (2-15) is in bearing connection with the bottom plate (1-16), the rotating column c (2-15) is connected with a gear e (2-16), the rotating column c (2-15) is connected with a long strip plate (2-18) through a bearing, the rotating shaft (2-17) is connected with the cleaning groove (2-19), the long strip plate (2-18) is connected with the limiting long strip plate (2-20), and the limiting long strip plate (2-20) is connected with the bottom plate (1-16) in a sliding mode.

4. The hospital medical surgical gown washing and drying apparatus according to claim 1, wherein: the surgical gown press-drying mechanism (3) comprises a bevel gear d (3-1), a rotating column d (3-2), a belt a (3-3), a rotating column e (3-4), a bevel gear e (3-5), a belt b (3-6), a wheel disc (3-7), a round pin (3-8), a connecting rod (3-9), a fan-shaped tooth (3-10), a rotating column f (3-11), an L-shaped plate (3-12), a toothed drum (3-13), a sliding column (3-14), a round cover plate (3-15), a press-drying barrel (3-16), a fixing plate (3-17), a water receiving groove (3-18), a drain pipe (3-19), a press-clothes disc (3-20) and a rotating column g (3-21), wherein the bevel gear d (3-1) is connected with the rotating column d (3-2), a rotating column d (3-2) is in bearing connection with a mounting plate h (1-8), the rotating column d (3-2) is in friction connection with a belt a (3-3), the belt a (3-3) is in friction connection with a rotating column e (3-4), the rotating column e (3-4) is in bearing connection with the mounting plate h (1-8), the rotating column e (3-4) is connected with a helical gear e (3-5), the rotating column e (3-4) is in friction connection with a belt b (3-6), the belt b (3-6) is in friction connection with a rotating column g (3-21), a wheel disc (3-7) is connected with a round pin (3-8), the wheel disc (3-7) is connected with the rotating column g (3-21), the round pin (3-8) is in bearing connection with a connecting rod (3-9), round pins (3-8) are connected with sector-shaped teeth (3-10), the sector-shaped teeth (3-10) are connected with rotating columns f (3-11), the sector-shaped teeth (3-10) are meshed with toothed drums (3-13), the rotating columns f (3-11) are connected with L-shaped plates (3-12) through bearings, the L-shaped plates (3-12) are connected with circular cover plates (3-15), the toothed drums (3-13) are connected with sliding columns (3-14), the sliding columns (3-14) are connected with mounting plates a (1-1) in a sliding mode, the sliding columns (3-14) are connected with the circular cover plates (3-15) in a sliding mode, the sliding columns (3-14) are connected with clothes pressing discs (3-20), the circular cover plates (3-15) are connected with press drying barrels (3-16), the press drying barrels (3-16) are connected with baffle plates (1-11), the fixing plates (3-17) are connected with the mounting plates d (1-4), the fixing plates (3-17) are connected with the concave plates (1-13), the fixing plates (3-17) are connected with the water receiving tanks (3-18), the water receiving tanks (3-18) are connected and communicated with the drain pipes (3-19), the drain pipes (3-19) are connected and communicated with the mounting plates d (1-4), and the rotating columns g (3-21) are in bearing connection with the mounting plates e (1-5).

5. The hospital medical surgical gown washing and drying apparatus according to claim 1, wherein: the surgical gown conveying mechanism (4) comprises a helical gear f (4-1), a rotary column h (4-2), a belt c (4-3), a push wheel (4-4), a rotary column i (4-5), a rotary wheel disc (4-6), a cylindrical pin (4-7), a fixed cylinder (4-8), a rotary column j (4-9), a perforated fan-shaped tooth (4-10), a short toothed strip plate (4-11), a fixed long strip plate (4-12), a roller (4-13), a long toothed strip plate (4-14), a rotary column k (4-15), a gear f (4-16), a square frame plate (4-17), a support plate (4-18), a mounting plate l (4-19), a water filtering plate (4-20), a rotary column l (4-21), A clothes drying box (4-22), a helical gear f (4-1) is meshed with a helical gear e (3-5), the helical gear f (4-1) is connected with a rotating column h (4-2), the rotating column h (4-2) is connected with a mounting plate j (1-14) through a bearing, the rotating column h (4-2) is connected with a mounting plate k (1-15) through a bearing, the rotating column h (4-2) is connected with a belt c (4-3) through a friction way, the rotating column h (4-2) is connected with a push wheel (4-4), the belt c (4-3) is connected with a rotating column i (4-5) through a friction way, the rotating column i (4-5) is connected with a mounting long plate (1-17) through a bearing, the rotating column i (4-5) is connected with a rotating wheel disc (4-6), the rotating wheel disc (4-6) is connected with a cylindrical pin (4-7), the cylindrical pin (4-7) is connected with the fixed cylinder (4-8), the cylindrical pin (4-7) is connected with the perforated sector gear (4-10) in a sliding way, the rotary column j (4-9) is connected with the mounting plate d (1-4) in a bearing way, the rotary column j (4-9) is connected with the concave plate (1-13) in a bearing way, the perforated sector gear (4-10) is meshed with the long rack plate (4-14), the short rack plate (4-11) is connected with the mounting plate d (1-4), the short rack plate (4-11) is connected with the concave plate (1-13), the fixed long rack plate (4-12) is connected with the mounting plate d (1-4), the fixed long rack plate (4-12) is connected with the concave plate (1-13), the fixed long rack plate (4-12) is connected with the long rack plate (4-14) in a sliding way, the roller (4-13) is connected with a rotating column l (4-21), a long rack plate (4-14) is connected with a square frame plate (4-17), a rotating column k (4-15) is connected with a gear f (4-16), the rotating column k (4-15) is connected with the square frame plate (4-17), a support plate (4-18) is connected with a mounting plate l (4-19), the support plate (4-18) is connected with the rotating column l (4-21) through a bearing, the mounting plate l (4-19) is connected with a mounting plate d (1-4), the mounting plate l (4-19) is connected with a concave plate (1-13), and a clothes box (4-22) is connected with a middle plate (1-9).