CN112845303A

CN112845303A - Medical cleaning machine in many cabins

Info

Publication number: CN112845303A
Application number: CN202011640012.2A
Authority: CN
Inventors: 张婧; 曾方华; 张聪; 韦红娟; 常相辉; 刘霞
Original assignee: Laoken Medical Technology Co Ltd
Current assignee: Laoken Medical Technology Co Ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-28

Abstract

The invention relates to the technical field of medical cleaning and disinfecting equipment, in particular to a multi-cabin medical cleaning machine which comprises a machine body and a cleaning frame, wherein a cleaning cabin, an ultrasonic cabin, a disinfecting cabin and a drying cabin are sequentially arranged in the machine body from left to right, the left end and the right end of the machine body are respectively provided with a transmission module, the transmission modules are used for transporting the cleaning frame, the cleaning cabin, the ultrasonic cabin, the disinfecting cabin and the drying cabin are respectively provided with a roller assembly, and the roller assemblies are used for controlling the movement of the cleaning frame. According to the invention, the roller assemblies are respectively arranged in the transmission module, the cleaning cabin, the ultrasonic cabin, the disinfection cabin and the drying cabin, so that the cleaning frame is arranged between the cabins, the cabins and the transmission module are automatically and quickly transferred, and the cabin and the transmission module are matched with the in-place detection unit, so that the automatic operation of the cleaning, ultrasonic, disinfection and drying processes of medical instruments is realized, and the cleaning and disinfection convenience and the cleaning and disinfection efficiency of the medical instruments are effectively improved.

Description

Medical cleaning machine in many cabins

Technical Field

The invention relates to the technical field of medical cleaning and disinfecting equipment, in particular to a multi-cabin medical cleaning machine.

Background

In the prior art, for medical instruments which need to be reused or sterilized, a cleaning machine is generally used for cleaning. In the existing medical cleaning device, for example, a medical surgical instrument high-efficiency cleaning device disclosed in chinese patent publication No. CN111789685A, includes a cleaning box, the cleaning device utilizes a height-adjusting mechanism to adjust the height position of a support screw rod in the cleaning box until a linkage toothed ring is engaged with a driving toothed ring, at this time, a driving motor can be utilized to drive a cleaning net cylinder to rotate, and a spoiler assembly is utilized to enable the cleaning liquid in an inner cavity at the lower part of the cleaning box to fully clean the surgical instrument in the cleaning net cylinder, after cleaning, the height-adjusting mechanism is utilized to lift the cleaning net cylinder with the surgical instrument therein to an inner cavity at the upper part of the cleaning box, then the cleaning liquid is lifted to be sprayed out through a nozzle by a circulating pump which is started, further cleaning the instrument suspended in the inner cavity at the upper part of the cleaning box, after the cleaning is completed, through the arrangement of an air inlet part and an air exhaust part, the instruments suspended in the inner cavity of the upper part of the cleaning box can be conveniently dried; however, the processes of cleaning, disinfecting, drying and the like of the high-efficiency cleaning device for the medical surgical instruments can only be respectively and sequentially carried out, so that the cleaning and disinfecting efficiency of the medical instruments is reduced.

Therefore, the multi-cabin medical cleaning machine is simple in structure and convenient to use, and can effectively improve the cleaning and disinfecting convenience and cleaning and disinfecting efficiency of medical instruments.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a multi-cabin medical cleaning machine, wherein roller assemblies are respectively arranged in a transmission module, a cleaning cabin, an ultrasonic cabin, a disinfection cabin and a drying cabin, so that a cleaning frame is arranged between the cabins, the cabins and the transmission module are automatically and quickly transferred, and the automatic operation of the cleaning, ultrasonic, disinfection and drying processes of medical instruments is realized by matching with an in-place detection unit, and the cleaning and disinfection convenience and the cleaning and disinfection efficiency of the medical instruments are effectively improved.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a medical cleaning machine in many cabins, includes organism and wash rack, wash cabin, supersound cabin, disinfection cabin and dry cabin have set gradually from the left hand right side in the organism, and both ends are provided with the hatch door subassembly respectively about washing cabin, supersound cabin, disinfection cabin and dry cabin, the hatch door subassembly is used for the switching cabin, and both ends are provided with transmission module respectively about the organism, transmission module is used for transporting the wash rack, wash cabin, supersound cabin, disinfection cabin and dry cabin and be provided with wheel components respectively in the cabin, wheel components is used for controlling the wash rack and removes in the cabin and between the cabin.

Further, the transmission module comprises a frame body, the top of the frame body is provided with a transmission groove, the side part of the transmission groove is provided with a roller assembly, the roller assembly comprises a roller driving device, a linkage rod and two rows of transmission mechanisms, the transmission mechanisms are symmetrically arranged on two sides of the transmission groove, each transmission mechanism comprises a rolling wheel, a transmission rotating shaft and a first transmission piece, the rolling wheels are arranged on the inner sides of the transmission groove, one end of each transmission rotating shaft penetrates through the transmission groove and is connected with the rolling wheels, the first transmission pieces are arranged at the other ends of the transmission rotating shafts, the first transmission pieces are arranged on the outer sides of the transmission groove, the two ends of the linkage rod are respectively provided with second transmission pieces, the second transmission pieces are connected with the first transmission pieces through third transmission pieces, and the roller driving device is used for controlling the linkage.

Furthermore, the side walls of the two sides of the inner side of the transmission groove are provided with limiting guide pieces, and the limiting guide pieces are arranged above the rolling wheels.

Furthermore, the side wall of the cleaning rack is provided with an induction piece, the side walls of the transmission groove, the cleaning cabin, the ultrasonic cabin, the disinfection cabin and the drying cabin are respectively provided with an in-place detection unit matched with the induction piece, and the in-place detection unit is used for detecting the position of the cleaning rack.

Further, a first cleaning pure water inlet pipe, a cleaning cold water inlet pipe, a first cleaning exhaust pipe and a first preheating water tank are arranged at the top of the cleaning cabin, a second cleaning pure water inlet pipe is arranged on the first preheating water tank, the first preheating water tank is communicated with the cleaning cabin through a preheating water pipe, an upper spraying assembly is arranged at the top of the cleaning cabin, a lower spraying assembly is arranged at the bottom of the cleaning cabin, a second preheating water tank is arranged at the bottom of the cleaning cabin, the cleaning cabin comprises a cleaning pipeline, the cleaning pipeline comprises a cleaning return pipe, a circulating cleaning main pipe, a first circulating cleaning branch pipe, a second circulating cleaning branch pipe and a cleaning liquid discharge pipe, the top of the cleaning return pipe is communicated with the bottom of the second preheating water tank, the bottom of the cleaning return pipe is respectively communicated with one end of the cleaning liquid discharge pipe and the circulating cleaning main pipe, and the other end of the circulating cleaning main pipe is respectively communicated with, The branch pipe intercommunication is washd in the second circulation, and the main pipe is washd in the circulation through first circulation and branch pipe and spray assembly intercommunication down, and the main pipe is washd in the circulation through the second circulation and branch pipe and spray assembly intercommunication on, and the circulation is washd and is provided with the circulation scavenging pump in the main pipe.

Furthermore, a cleaning one-way valve is arranged on the first circulation cleaning branch pipe.

Furthermore, heating units are respectively arranged in the first preheating water tank and the second preheating water tank.

Furthermore, a liquid level detection unit and a temperature detection unit are arranged on the side wall of the first preheating water tank.

Furthermore, a liquid level detection unit and a temperature detection unit are arranged on the side wall of the second preheating water tank.

Furthermore, control valves are respectively arranged on the first cleaning pure water inlet pipe, the cleaning cold water inlet pipe, the second cleaning pure water inlet pipe, the preheating water pipe, the cleaning liquid discharge pipe and the first cleaning exhaust pipe.

Further, a second cleaning exhaust pipe is arranged at the top of the first preheating water tank.

Further, the roller components include roller driving device, gangbar and two rows of drive mechanism in the washing cabin, the drive mechanism symmetry sets up on the both sides lateral wall in washing cabin, and drive mechanism includes roll wheel, transmission pivot and first transmission piece, the roll wheel sets up the inboard in washing cabin, transmission pivot one end is passed and is washd the cabin and be connected with the roll wheel, first transmission piece sets up the other end in the transmission pivot, and first transmission piece sets up the outside in washing cabin, the both ends of gangbar are provided with the second driving medium respectively, the second driving medium passes through the third driving medium and is connected with the first driving medium, roller driving device is used for controlling the gangbar and rotates. Preferably, the side walls of the two sides of the washing cabin are provided with limiting guide pieces, and the limiting guide pieces are arranged above the rolling wheels.

Further, the structure of the disinfection cabin and the structure of the cleaning cabin are the same.

Furthermore, a preparation area and a working area are arranged in a cabin of the ultrasonic cabin, the preparation area is arranged above the working area, the preparation area corresponds to an entrance and an exit at the left end and the right end of the cabin, a lifting frame is arranged in the cabin, the ultrasonic cabin comprises a lifting traction mechanism, the lifting traction mechanism comprises a traction driving device, an installation part and at least one lifting traction rope, one end of the lifting traction rope penetrates through the cabin and is connected with the lifting frame, the other end of the lifting traction rope is guided by a pulley assembly and then is connected with the installation part, the traction driving device is used for controlling the installation part to reciprocate, and the lifting frame is used for placing a cleaning frame; the side wall of the working area is provided with an ultrasonic generator, the top of the cabin is provided with an ultrasonic pure water inlet pipe and an ultrasonic cold water inlet pipe respectively, and the bottom of the cabin is provided with an ultrasonic liquid discharge pipe.

Furthermore, control valves are respectively arranged on the ultrasonic pure water inlet pipe, the ultrasonic cold water inlet pipe and the ultrasonic liquid discharge pipe.

Further, be provided with high liquid level detecting element and low liquid level detecting element on the lateral wall of workspace, high liquid level detecting element is located the top of low liquid level detecting element. Furthermore, an ultrasonic temperature detection unit is further arranged on the side wall of the working area.

Further, an ultrasonic heating unit is arranged in the working area. Preferably, the ultrasonic heating unit is a steam heating unit.

Furthermore, an ultrasonic exhaust pipe is arranged at the top of the ultrasonic cabin, and a control valve is arranged on the ultrasonic exhaust pipe.

Further, lift drive mechanism includes traction drive device, installed part and four lift haulage ropes, lift haulage rope one end passes the cabin to be connected with the crane, four lift haulage ropes are close to four angles of crane with the link of crane, and the other end of lift haulage rope passes through loose pulley assembly guide back, is connected with the installed part, traction drive device is used for controlling installed part reciprocating motion.

Further, the pulley assembly is arranged on the top outside the ultrasonic cabin.

Furthermore, a pulley fixing frame is arranged at the top of the cabin of the ultrasonic cabin, a plurality of first guide pulleys and a second guide pulley are fixedly mounted on the pulley fixing frame, the lifting traction rope is guided backwards by the first guide pulleys, respectively collected to the second guide pulleys, guided backwards by the second guide pulleys and connected with the mounting piece, and the second guide pulley is located above the mounting piece.

Further, the crane includes end net, sets up the breast board in end net both sides, and the wheel components in the supersound under-deck includes a plurality of transmission assembly, transmission assembly includes the transfer line, and the both ends symmetry cover of transfer line is equipped with roll wheel and first lift driving spare, the wheel that rolls is close to the inboard that the breast board set up at the breast board, first lift driving spare is close to the outside that the breast board set up at the breast board, ultrasonic cleaning system still includes transmission drive arrangement, transmission drive arrangement passes through the second lift driving spare and is connected with first lift driving spare, and transmission drive arrangement is used for controlling the roll wheel synchronous rotation on transfer line and the transfer line.

Further, the drying cabin comprises a drying pipeline, the drying pipeline comprises a first fan, a second fan, an air inlet pipe, a first drying and heating unit, a second drying and heating unit, a circulating drying main pipe, a main drying pipe and at least one auxiliary drying pipe, the main drying pipe and the auxiliary drying pipe are respectively arranged at the bottom of the drying cabin, the air inlet pipe is communicated with the inlet end of the first drying and heating unit, the outlet end of the first drying and heating unit is respectively communicated with the main drying pipe and the auxiliary drying pipe, the first fan is arranged on the air inlet pipe, the auxiliary drying pipe is communicated with the cabin, a first air injection assembly is arranged at the bottom of the cabin, the main drying pipe is communicated with the first air injection assembly, air equalizing chambers are arranged on the side walls of the two sides in the cabin, a plurality of air equalizing holes are uniformly arranged on the side wall of the air equalizing chambers close to the drying rack, one end of the circulating main pipe is communicated with, the other end of the circulation main pipe is communicated with the air equalizing chamber through a circulation branch pipe, and the second fan and the second drying and heating unit are respectively arranged on the circulation drying main pipe.

Further, a drying one-way valve is arranged on the main drying pipe. Further, an exhaust pipe is arranged at the top of the cabin. And the exhaust pipe is provided with a control valve.

Further, still be provided with air cleaner on the intake pipe, first fan sets up between air cleaner and first heating unit. The first drying and heating unit is a PTC drying heater.

Furthermore, the outlet end of the first drying and heating unit and the circulating drying main pipe are respectively provided with a temperature detection unit.

Further, wheel components include roller drive, gangbar and two rows of drive mechanism in the drying cabin, the drive mechanism symmetry sets up on the both sides lateral wall in drying cabin, and drive mechanism includes roll wheel, transmission pivot and first transmission piece, the roll wheel sets up the inboard in drying cabin, drying cabin is passed to transmission pivot one end and is connected with the roll wheel, first transmission piece sets up the other end in the transmission pivot, and first transmission piece sets up the outside in drying cabin, the both ends of gangbar are provided with the second driving medium respectively, the second driving medium is connected with first transmission piece through the third driving medium, roller drive is used for controlling the gangbar and rotates. Preferably, the side walls of the two sides of the drying cabin are provided with limiting guide pieces, and the limiting guide pieces are arranged above the rolling wheels.

The invention has the beneficial effects that: according to the multi-cabin medical cleaning machine, the roller assemblies are respectively arranged in the transmission module, the cleaning cabin, the ultrasonic cabin, the disinfection cabin and the drying cabin, so that the cleaning frame is arranged between the cabins, the cabins and the transmission module are automatically and quickly transferred, and the automatic operation of the cleaning, ultrasonic, disinfection and drying processes of medical instruments is realized by matching with the in-place detection unit, and the cleaning and disinfection convenience and the cleaning and disinfection efficiency of the medical instruments are effectively improved.

Drawings

FIG. 1 is a schematic structural view of a multi-chamber medical cleaning machine according to the present invention;

FIG. 2 is a schematic view of the structure of the cleaning tank of the present invention;

FIG. 3 is a piping diagram of the cleaning tank of the present invention;

FIG. 4 is a schematic structural view of an ultrasound pod of the present invention;

FIG. 5 is a piping diagram of an ultrasound pod of the present invention;

FIG. 6 is a schematic view of the connection structure of the ultrasonic cabin lifting traction mechanism and the lifting frame of the invention;

FIG. 7 is a schematic view of the structure of the drying chamber of the present invention;

FIG. 8 is a piping diagram of the drying chamber of the present invention;

FIG. 9 is a schematic structural diagram of a gas equalizing chamber of the drying chamber of the present invention;

FIG. 10 is a schematic structural diagram of a transmission module according to the present invention;

FIG. 11 is a front view of a transmission module of the present invention;

FIG. 12 is a cross-sectional view taken along line B-B of FIG. 11 in accordance with the present invention;

in the figure, 1, cleaning the cabin; 2. an ultrasonic cabin; 3. a disinfection cabin; 4. a drying chamber; 5. a transmission module; 6. a cleaning frame;

101. a first cleaning pure water inlet pipe; 102. cleaning a cold water inlet pipe; 103. a first cleaning exhaust pipe; 104. a first preheating water tank; 105. a second cleaning pure water inlet pipe; 106. an upper spray assembly; 107. a lower spray assembly; 108. a second preheating water tank; 109. cleaning a return pipe; 110. circularly cleaning the main pipe; 111. a first circulation cleaning branch pipe; 112. cleaning the branch pipe in a second circulation manner; 113. cleaning a liquid discharge pipe; 114. cleaning the circulating pump; 115. cleaning the one-way valve; 116. a second cleaning exhaust pipe; 117. a heating unit; 118. a pre-heating water pipe;

201. a preparation area; 202. a working area; 203. a lifting frame; 2031. a bottom net; 2032. a breast board; 2033. a transmission rod; 2034. a rolling wheel; 2035. a first lifting transmission member; 204. a traction drive; 205. a mounting member; 206. lifting the traction rope; 207. a pulley fixing frame; 208. a first guide pulley; 209. a second guide pulley; 210. an ultrasonic generator; 211. an ultrasonic pure water inlet pipe; 212. an ultrasonic cold water inlet pipe; 213. an ultrasonic drain pipe; 214. a high liquid level detection unit; 215. a low liquid level detection unit; 216. an ultrasonic temperature detection unit; 217. an ultrasonic heating unit; 218. an exhaust pipe; 219. an overflow pipe;

401. a first fan; 402. a second fan; 403. an air inlet pipe; 404. a first drying and heating unit; 405. a second drying and heating unit; 406. circulating and drying the main pipe; 407. a main drying pipe; 408. a secondary drying duct; 409. a first gas injection assembly; 410. a gas homogenizing chamber; 411. a one-way valve; 412. circularly drying the branch pipe; 413. drying the exhaust pipe; 414. an air filter; 415. a temperature detection unit; 416. air homogenizing holes;

501. a frame body; 502. a transmission slot; 503. a roller driving device; 504. a linkage rod; 505. a rolling wheel; 506. a transmission rotating shaft; 507. a first transmission member; 508. a second transmission member; 509. a support; 510. and a limiting guide piece.

Detailed Description

The technical solutions of the present invention are further described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.

As shown in fig. 1-12, a medical cleaning machine in many cabins, including organism and wash rack 6, wash cabin 1, supersound cabin 2, disinfection cabin 3 and dry cabin 4 have set gradually from the left hand right side in the organism, both ends are provided with the hatch door subassembly respectively about wash cabin 1, supersound cabin 2, disinfection cabin 3 and dry cabin 4, the hatch door subassembly is used for the switching cabin, and both ends are provided with transmission module 5 respectively about the organism, transmission module 5 is used for transporting wash rack 6, be provided with wheel components in wash cabin 1, supersound cabin 2, disinfection cabin 3 and the dry cabin 4 respectively, wheel components are used for controlling wash rack 6 and move in the cabin and between the cabin.

Specifically, the transmission module 5 comprises a frame 501, a transmission groove 502 is arranged at the top of the frame 501, the side of the conveying groove 502 is provided with a roller assembly, the roller assembly comprises a roller driving device 503, a linkage rod 504 and two rows of transmission mechanisms, the transmission mechanisms are symmetrically arranged at two sides of the transmission groove 502, the transmission mechanisms comprise rolling wheels 505, transmission rotating shafts 506 and first transmission pieces 507, the rolling wheel 505 is arranged at the inner side of the transmission slot 502, one end of the transmission rotating shaft 506 passes through the transmission slot 502 to be connected with the rolling wheel 505, the first transmission piece 507 is arranged at the other end of the transmission rotating shaft 506, the first transmission piece 507 is arranged at the outer side of the transmission groove 502, two ends of the linkage rod 504 are respectively provided with a second transmission piece 508, the second transmission piece 508 is connected with the first transmission piece 507 through a third transmission piece, and the roller driving device 503 is used for controlling the linkage rod 504 to rotate.

Specifically, the side walls of both sides of the inner side of the transfer groove 502 are provided with limit guides 510, and the limit guides 510 are disposed above the rolling wheels 505.

Specifically, a support is arranged on the frame body 501, and the linkage rod 504 is mounted on the frame body 501 through the support. When the cleaning frame 6 needs to be pushed into the cabin of the multi-cabin medical cleaning machine, the cleaning frame 6 is pushed onto the transmission module 5, the cleaning frame 6 is pushed onto the rolling wheels 505 in the transmission groove 502, when the cleaning frame 6 is contacted with the rolling wheels 505, the roller driving device 503 is controlled to work, the roller driving device 503 drives the linkage rod 504 to rotate, and the second transmission pieces 508 at the two ends of the linkage rod 504 are connected with the first transmission piece 507 through the third transmission pieces, so that the linkage rod 504 drives the rolling wheels 505 at the two sides of the transmission groove 502 to synchronously rotate, the rotating rolling wheels 505 exert assistance on the cleaning frame 6, the cleaning frame 6 is pushed to move forwards, and the cleaning frame 6 is automatically and completely pushed into the transmission groove 502; then, when the cleaning frame 6 on the transmission module 5 needs to be sent into the multi-cabin medical cleaning machine, the roller driving device 503 is controlled to work again to drive the rolling wheels 505 to rotate again, the cleaning frame 6 in the transmission groove 502 is continuously pushed to the cleaning cabin 1 of the roller medical cleaning machine, the cleaning frame 6 is automatically pushed into the cleaning cabin 1 cabin of the multi-cabin medical cleaning machine, and the use convenience of the equipment and the cleaning efficiency of the medical cleaning machine are effectively improved. Preferably, the roller assemblies on the associated cabin or transport module 5 are operated simultaneously as the wash rack 6 is moved between the cabin and the cabin or between the cabin and the transport module 5.

Specifically, the side wall of the cleaning frame 6 is provided with an induction part, the side walls of the transmission groove 502, the cleaning cabin 1, the ultrasonic cabin 2, the disinfection cabin 3 and the drying cabin 4 are respectively provided with an in-place detection unit matched with the induction part, and the in-place detection unit is used for detecting the position of the cleaning frame 6. Whether the cleaning frame 6 moves in place between the cabin and the transmission module 5 or not and whether the cabin and the cabin move in place or not is detected by matching the in-place detection unit and the induction part, and after the in-place detection unit detects that the cleaning frame 6 moves in place, the relevant cabin or the roller components on the transmission module 5 automatically stop working. Preferably, the in-place detection unit is a hall switch.

Specifically, a first cleaning pure water inlet pipe 101, a cleaning cold water inlet pipe 102, a first cleaning exhaust pipe 103 and a first preheating water tank 104 are arranged at the top of the cleaning cabin 1, a second cleaning pure water inlet pipe 105 is arranged on the first preheating water tank 104, the first preheating water tank 104 is communicated with the cleaning cabin 1 through a preheating water pipe 118, an upper spraying assembly 106 is arranged at the top of the cleaning cabin 1, a lower spraying assembly 107 is arranged at the bottom of the cleaning cabin, a second preheating water tank 108 is arranged at the bottom of the cleaning cabin, the cleaning cabin 1 comprises a cleaning pipeline, the cleaning pipeline comprises a cleaning return pipe 109, a circulating cleaning main pipe 110, a first circulating cleaning branch pipe 111, a second circulating cleaning branch pipe 112 and a cleaning liquid discharge pipe 113, the top of the cleaning return pipe 109 is communicated with the bottom of the second preheating water tank 108, and the bottom of the cleaning return pipe 109 is respectively communicated with the cleaning liquid discharge pipe 113, One end of the main circulating cleaning pipe 110 is communicated, the other end of the main circulating cleaning pipe 110 is respectively communicated with the first circulating cleaning branch pipe 111 and the second circulating cleaning branch pipe 112, the main circulating cleaning pipe 110 is communicated with the lower spray assembly 107 through the first circulating cleaning branch pipe 111, the main circulating cleaning pipe 110 is communicated with the upper spray assembly 106 through the second circulating cleaning branch pipe 112, and the main circulating cleaning pipe 110 is provided with a cleaning circulating pump 114. In the working process of the cleaning cabin 1, firstly, pure water is injected into the first preheating water tank 104 through the second cleaning pure water inlet pipe 105, then the heating unit 117 is started to heat the pure water in the first preheating water tank 104, after the pure water is heated to a preset temperature, the preheating water in the first preheating water tank 104 is added into the cabin of the cleaning cabin 1 through the preheating water pipe 118, then the cleaning circulating pump 114 is started to work, the preheating water in the cabin of the cleaning cabin 1 is introduced into the upper spraying component 106 and the lower spraying component 107, and the medical instruments on the cleaning rack 6 are subjected to pre-circulating cleaning treatment through the upper spraying component 106 and the lower spraying component 107; then, the preheated water is discharged through a cleaning liquid discharge pipe 113, then pure water is injected into the cabin through a first cleaning pure water inlet pipe 101, an auxiliary agent can be selectively injected into the cabin, the auxiliary agent and the pure water are collected and mixed in a second preheated water tank 108, a heating unit 117 in the second preheated water tank 108 is started to work at the same time, cleaning liquid is heated to a preset temperature, a cleaning circulating pump 114 is started to work, the medical equipment is cleaned in a circulating mode through circulating spraying of the cleaning liquid, meanwhile, the heating unit 117 in the second preheated water tank 108 can be controlled to work continuously in the circulating cleaning process, the cleaning liquid is guaranteed to be at the optimal working temperature, and the cleaning effect and the cleaning efficiency are improved; after the circulation cleaning is completed, the cleaning liquid is discharged through the cleaning liquid discharge pipe 113, then the cold water is injected into the cleaning cabin 1 cabin through the cleaning cold water inlet pipe 102, the cleaning circulating pump 114 is started, the cleaning cabin 1 is circularly rinsed, on the basis of ensuring that the medical equipment is efficiently cleaned, the use amount of the pure water is effectively saved, and the cleaning cost is reduced.

Specifically, the first circulation cleaning branch pipe 111 is provided with a cleaning check valve 115.

Specifically, heating units 117 are respectively disposed in the first preheating water tank 104 and the second preheating water tank 108.

Specifically, a liquid level detection unit and a temperature detection unit are arranged on the side wall of the first preheating water tank 104.

Specifically, a liquid level detection unit and a temperature detection unit are arranged on the side wall of the second preheating water tank 108.

Specifically, the first cleaning pure water inlet pipe 101, the cleaning cold water inlet pipe 102, the second cleaning pure water inlet pipe 105, the preheating water pipe 118, the cleaning drain pipe 113, and the first cleaning exhaust pipe 103 are respectively provided with a control valve.

Specifically, a second cleaning exhaust pipe 116 is disposed at the top of the first preheating water tank 104.

Specifically, roller components in the cleaning cabin 1 include a roller driving device 503, a linkage rod 504 and two rows of transmission mechanisms, the transmission mechanisms are symmetrically arranged on the side walls of two sides of a cabin of the cleaning cabin 1, each transmission mechanism includes a rolling wheel 505, a transmission rotating shaft 506 and a first transmission piece 507, the rolling wheels 505 are arranged on the inner side of the cabin of the cleaning cabin 1, one end of the transmission rotating shaft 506 penetrates through the cabin of the cleaning cabin 1 and is connected with the rolling wheels 505, the first transmission piece 507 is arranged at the other end of the transmission rotating shaft 506, the first transmission piece 507 is arranged on the outer side of the cabin of the cleaning cabin 1, two ends of the linkage rod 504 are respectively provided with a second transmission piece 508, the second transmission pieces 508 are connected with the first transmission pieces 507 through third transmission pieces, and the roller driving device 503 is used for controlling the linkage rod 504 to rotate. Preferably, limiting guides 510 are arranged on two side walls of the cabin of the cleaning cabin 1, and the limiting guides 510 are arranged above the rolling wheels 505.

In particular, the disinfection chamber 3 and the cleaning chamber 1 are identical in structure.

Specifically, a preparation area 201 and a working area 202 are arranged in a cabin of the ultrasonic cabin 2, the preparation area 201 is arranged above the working area 202, the preparation area 201 corresponds to an entrance and an exit at the left end and the right end of the cabin, a lifting frame 203 is arranged in the cabin of the ultrasonic cabin 2, the ultrasonic cabin comprises a lifting traction mechanism, the lifting traction mechanism comprises a traction driving device 204, a mounting piece 205 and at least one lifting traction rope 206, one end of the lifting traction rope 206 penetrates through the cabin of the ultrasonic cabin 2 and is connected with the lifting frame 203, the other end of the lifting traction rope 206 is guided by a pulley assembly and then is connected with the mounting piece 205, the traction driving device 204 is used for controlling the mounting piece 205 to reciprocate, and the lifting frame 203 is used for placing the cleaning frame 6; an ultrasonic generator 210 is arranged on the side wall of the working area 202, an ultrasonic pure water inlet pipe 211 and an ultrasonic cold water inlet pipe 212 are respectively arranged at the top of the cabin of the ultrasonic cabin 2, and an ultrasonic liquid discharge pipe 213 is arranged at the bottom of the cabin of the ultrasonic cabin 2. During the working process of the ultrasonic cabin 2, pure water can be introduced into the cabin of the ultrasonic cabin 2 in advance to be gathered in the working area 202, the ultrasonic heating unit 217 is started to heat the pure water in the working area 202 to a preset temperature, the cabin of the ultrasonic cabin 2 is closed after the cleaning rack 6 is moved to the lifting frame 203 and is moved in place, the traction driving device 204 is started to work to push the installation piece 205 to move up stably, the lifting frame 203 and the cleaning rack 6 on the lifting frame 203 are moved into the working area 202 stably under the influence of gravity, the ultrasonic generator 210 is started to work after the cleaning rack 6 is completely lowered into the working area 202, the medical equipment on the cleaning rack 6 is cleaned ultrasonically, after the ultrasonic cleaning is completed, the traction driving device 204 is started to work again to lift the lifting frame 203 upwards, the cleaning rack 6 is lifted to correspond to the inlet and outlet of the cabin of the ultrasonic cabin 2, and then the cleaning rack 6 can be cleaned from the inlet and outlet of the cabin of the ultrasonic cabin 2 through the roller component in And the medical instrument is moved out, so that the medical instrument is automatically and quickly cleaned.

Preferably, the traction drive 204 is a traction drive 204 with a stroke detection function.

Specifically, the ultrasonic pure water inlet pipe 211, the ultrasonic cold water inlet pipe 212 and the ultrasonic drain pipe 213 are respectively provided with a control valve.

Specifically, a high liquid level detection unit 214 and a low liquid level detection unit 215 are disposed on a side wall of the working area 202, and the high liquid level detection unit 214 is located above the low liquid level detection unit 215. Further, an ultrasonic temperature detection unit 216 is disposed on a sidewall of the working area 202.

Specifically, an ultrasonic heating unit 217 is disposed in the working area 202. Preferably, the ultrasonic heating unit 217 is a steam heating unit.

Specifically, an ultrasonic exhaust pipe 218 is arranged at the top of the cabin of the ultrasonic cabin 2, and a control valve is arranged on the ultrasonic exhaust pipe 218.

Specifically, the lifting traction mechanism comprises a traction driving device 204, a mounting piece 205 and four lifting traction ropes 206, one end of each lifting traction rope 206 penetrates through the cabin of the ultrasonic cabin 2 and is connected with the lifting frame 203, the connecting ends of the four lifting traction ropes 206 and the lifting frame 203 are close to four corners of the lifting frame 203, the other end of each lifting traction rope 206 is guided by a pulley assembly and then is connected with the mounting piece 205, and the traction driving device 204 is used for controlling the mounting piece 205 to reciprocate.

Specifically, the pulley assembly is arranged on the top outside the ultrasonic cabin 2.

Specifically, a pulley fixing frame 207 is arranged at the top of the cabin of the ultrasonic cabin 2, a plurality of first guide pulleys 208 and a second guide pulley 209 are fixedly mounted on the pulley fixing frame 207, the lifting traction rope 206 is drawn and guided by the first guide pulleys 208, collected to the second guide pulleys 209, and drawn and guided by the second guide pulleys 209, and then connected with the mounting member 205, and the second guide pulley 209 is located above the mounting member 205.

Specifically, the lifting frame 203 includes a bottom net 2031 and balustrades 2032 disposed at two sides of the bottom net 2031, the roller assemblies in the ultrasonic cabin 2 include a plurality of transmission assemblies, each transmission assembly includes a transmission rod 2033, two ends of the transmission rod 2033 are symmetrically sleeved with a rolling wheel 2034 and a first lifting transmission member 2035, the rolling wheel 2034 is disposed at the inner side of the balustrade 2032 near the balustrade 2032, the first lifting transmission member 2035 is disposed at the outer side of the balustrade 2032 near the balustrade 2032, the ultrasonic cleaning system further includes a transmission driving device, the transmission driving device is connected with the first lifting transmission member 2035 through a second lifting transmission member, and the transmission driving device is used for controlling the transmission rod 2033 and the rolling wheel 2034 on the transmission rod 2033 to rotate synchronously.

Specifically, the drying cabin 4 includes a drying pipeline, the drying pipeline includes a first fan 401, a second fan 402, an air inlet pipe 403, a first drying and heating unit 404, a second drying and heating unit 405, a main circulating and drying pipe 406, a main drying pipe 407, and at least one auxiliary drying pipe 408, the main drying pipe 407 and the auxiliary drying pipe 408 are respectively disposed at the bottom of the cabin of the drying cabin 4, the air inlet pipe 403 is communicated with an inlet end of the first drying and heating unit 404, an outlet end of the first drying and heating unit 404 is respectively communicated with the main drying pipe 407 and the auxiliary drying pipe 408, the first fan 401 is disposed on the air inlet pipe 403, the auxiliary drying pipe 408 is communicated with the cabin of the drying cabin 4, a first air injection assembly 409 is disposed at the bottom of the cabin of the drying cabin 4, the main drying pipe 407 is communicated with the first air injection assembly 409, and air equalizing chambers 410 are disposed on two side walls in the cabin of the drying cabin 4, a plurality of air equalizing holes 416 are uniformly formed in the side wall, close to the cleaning frame 6, of the air equalizing chamber 410, one end of the main circulating drying pipe 406 is communicated with the cabin of the drying cabin 4, the other end of the main circulating drying pipe 406 is communicated with the air equalizing chamber 410 through a main circulating drying branch pipe 412, and the second fan 402 and the second drying and heating unit 405 are respectively arranged on the main circulating drying pipe 406. In the working process of the drying cabin 4, after the frame 6 to be cleaned is moved into the cabin of the drying cabin 4 and is in place, the first fan 401 is started to work, the first fan 401 is used for introducing air in the environment into the air inlet pipe 403, the air is firstly filtered through the air filter 414, then the air is dried and heated to a preset temperature through the first drying and heating unit 404 to form dry air, then, a part of the dry air enters the first air injection component 409 through the main drying pipe 407, the other part of the dry air enters the cabin of the drying cabin 4 through the auxiliary drying pipe 408, the dry air entering the first air injection component 409 directly performs rotary air injection drying on the medical instruments on the frame 6 from bottom to top through the air injection rod of the first air injection component 409, and then the dry air after drying the medical instruments is collected into the cabin of the drying cabin 4; for the dry air in the cabin of the drying cabin 4, under the guidance of the second fan 402, after the supplementary heating of the second drying and heating unit 405, the air is continuously and circularly introduced into the air equalizing chamber 410, and is uniformly sprayed out from four corners of the cleaning frame 6 through the air equalizing holes 416 and blown to the medical instruments, so that the medical instruments on the cleaning frame 6 are dried in an all-round manner, and the drying efficiency and the drying effect of the equipment on the medical instruments are effectively improved.

Specifically, a drying check valve 411 is disposed on the main drying pipe 407. Further, a drying exhaust pipe 413 is arranged at the top of the cabin of the drying cabin 4. A control valve is arranged on the drying exhaust pipe 413.

Specifically, an air filter 414 is further disposed on the air inlet pipe 403, and the first fan 401 is disposed between the air filter 414 and the first drying and heating unit 404. The first dry heating unit 404 is a PTC dry heater.

Specifically, the outlet end of the first drying and heating unit 404 and the circulating drying main pipe 406 are respectively provided with a temperature detection unit 415.

Specifically, the roller assembly in the drying cabin 4 comprises a roller driving device 503, a linkage rod 504 and two rows of transmission mechanisms, the transmission mechanisms are symmetrically arranged on the side walls of two sides of the cabin of the drying cabin 4, each transmission mechanism comprises a rolling wheel 505, a transmission rotating shaft 506 and a first transmission piece 507, the rolling wheels 505 are arranged on the inner side of the cabin of the drying cabin 4, one end of each transmission rotating shaft 506 penetrates through the cabin of the drying cabin 4 to be connected with the rolling wheel 505, the first transmission piece 507 is arranged at the other end of the transmission rotating shaft 506, the first transmission piece 507 is arranged on the outer side of the cabin of the drying cabin 4, two ends of the linkage rod 504 are respectively provided with a second transmission piece 508, the second transmission pieces 508 are connected with the first transmission pieces 507 through third transmission pieces, and the roller driving device 503 is used for controlling the linkage rod. Preferably, limiting guides 510 are disposed on two side walls of the cabin of the drying cabin 4, and the limiting guides 510 are disposed above the rolling wheels 505.

Preferably, the first transmission member 507 and the second transmission member 508 are transmission gears respectively, the third transmission member is a transmission chain, and the second transmission member 508 drives the first transmission member 507 in the same row to synchronously rotate through the third transmission member.

When the medical cleaning device is used, a medical cleaning to be cleaned is placed on the cleaning frame 6, then the cleaning frame 6 is pushed into the transmission module 5 at the end of the cleaning cabin 1, when the cleaning frame 6 is in contact with the rolling wheels 505, the roller driving device 503 on the transmission module 5 is controlled to work, the roller driving device 503 drives the linkage rod 504 to rotate, and the second transmission pieces 508 at the two ends of the linkage rod 504 are connected with the first transmission piece 507 through the third transmission pieces, so that the linkage rod 504 drives the rolling wheels 505 at the two sides of the transmission groove 502 to synchronously rotate, and the rotating rolling wheels 505 exert assistance on the cleaning frame 6 to push the cleaning frame 6 to move forwards, and the cleaning frame 6 is automatically and completely pushed into the transmission groove 502; then, when the cleaning frame 6 on the transmission module 5 needs to be sent into the cleaning cabin 1 of the multi-cabin medical cleaning machine, the roller driving device 503 of the transmission module 5 and the cleaning cabin 1 is controlled to work again to drive the transmission module 5 and the roller 505 in the cleaning cabin 1 to rotate, the cleaning frame 6 in the transmission groove 502 is continuously pushed to the cleaning cabin 1 of the medical cleaning machine, the cleaning frame 6 is automatically pushed into the cabin of the cleaning cabin 1, and meanwhile, the in-place detection unit in the cleaning cabin 1 is used for detecting whether the cleaning frame 6 moves in place or not; then, after that,

the cleaning cabin 1 starts to clean the medical instruments on the cleaning rack 6, firstly pure water is injected into the first preheating water tank 104 through the second cleaning pure water inlet pipe 105, then the heating unit 117 is started to heat the pure water in the first preheating water tank 104, after the pure water is heated to a preset temperature, the preheating water in the first preheating water tank 104 is added into the cabin of the cleaning cabin 1 through the preheating water pipe 118, then the cleaning circulating pump 114 is started to work, the preheating water in the cabin of the cleaning cabin 1 is introduced into the upper spraying component 106 and the lower spraying component 107, and the medical instruments on the cleaning rack 6 are subjected to pre-circulation cleaning treatment through the upper spraying component 106 and the lower spraying component 107; then, the preheated water is discharged through a cleaning liquid discharge pipe 113, then pure water is injected into the cabin through a first cleaning pure water inlet pipe 101, an auxiliary agent can be selectively injected into the cabin, the auxiliary agent and the pure water are collected and mixed in a second preheated water tank 108, a heating unit 117 in the second preheated water tank 108 is started to work at the same time, cleaning liquid is heated to a preset temperature, a cleaning circulating pump 114 is started to work, the medical equipment is cleaned in a circulating mode through circulating spraying of the cleaning liquid, meanwhile, the heating unit 117 in the second preheated water tank 108 can be controlled to work continuously in the circulating cleaning process, the cleaning liquid is guaranteed to be at the optimal working temperature, and the cleaning effect and the cleaning efficiency are improved;

after the cleaning frame 6 is cleaned in the cleaning cabin 1, the cabinet doors of the cleaning cabin 1 and the ultrasonic cabin 2 are opened, the roller assemblies of the cleaning cabin 1 and the ultrasonic cabin 2 are started to work, the cleaning frame 6 is automatically moved from the cleaning cabin 1 to the ultrasonic cabin 2, and then a new cleaning frame 6 can be fed into the cleaning cabin 1, so that all the cabins work simultaneously, and the cleaning and disinfecting efficiency of medical instruments is improved; during the working process of the ultrasonic cabin 2, pure water can be introduced into the cabin of the ultrasonic cabin 2 in advance to be gathered in the working area 202, the ultrasonic heating unit 217 is started to heat the pure water in the working area 202 to a preset temperature, the cabin of the ultrasonic cabin 2 is closed after the cleaning rack 6 is moved to the lifting frame 203 and is moved in place, the traction driving device 204 is started to work to push the installation piece 205 to move up stably, the lifting frame 203 and the cleaning rack 6 on the lifting frame 203 are moved into the working area 202 stably under the influence of gravity, the ultrasonic generator 210 is started to work after the cleaning rack 6 is completely lowered into the working area 202, the medical equipment on the cleaning rack 6 is cleaned ultrasonically, after the ultrasonic cleaning is completed, the traction driving device 204 is started to work again to lift the lifting frame 203 upwards, the cleaning rack 6 is lifted to correspond to the inlet and outlet of the cabin of the ultrasonic cabin 2, and then the cleaning rack 6 can be cleaned from the inlet and outlet of the cabin of the ultrasonic cabin 2 through the roller component in The medical instrument is moved out, so that the medical instrument can be automatically and quickly cleaned;

after the cleaning frame 6 is cleaned in the ultrasonic cabin 2, the cleaning frame 6 can be automatically transferred from the ultrasonic cabin 2 to the disinfection cabin 3, the working principle of the cleaning cabin 1 can be selected, a disinfection auxiliary agent is added into pure water, and medical instruments on the cleaning frame 6 are circularly disinfected through the disinfection cabin 3;

after the cleaning frame 6 is sterilized in the sterilizing cabin 3, the cleaning frame 6 can be automatically transferred into the drying cabin 4 from the sterilizing cabin 3, in the working process of the drying cabin 4, after the cleaning frame 6 is moved into the cabin of the drying cabin 4 and is in place, the first fan 401 is started to work, air in the environment is introduced into the air inlet pipe 403 by the first fan 401, the air is firstly filtered by the air filter 414, then the air is dried and heated to a preset temperature by the first drying and heating unit 404 to form dry air, then, a part of the dry air enters the first air injection assembly 409 through the main drying pipe 407, the other part of the dry air enters the cabin of the drying cabin 4 through the auxiliary drying pipe 408, and the dry air entering the first air injection assembly 409 directly performs rotary air injection drying on medical instruments on the cleaning frame 6 from bottom to top through the air injection rod of the first air injection assembly 409, then, the dry air obtained after drying the medical instruments is collected into the cabin of the drying cabin 4; for the dry air in the cabin of the drying cabin 4, under the guidance of the second fan 402, after the supplementary heating by the second drying and heating unit 405, the dry air is continuously and circularly introduced into the air equalizing chamber 410, and is uniformly sprayed out from four corners of the cleaning frame 6 through the air equalizing holes 416 and blown to the medical instruments, so that the medical instruments on the cleaning frame 6 are dried in all directions, and the drying efficiency and the drying effect of the equipment on the medical instruments are effectively improved;

after the drying is finished, the roller assemblies on the drying cabin 4 and the transmission module 5 at the right end are controlled to work, and the cleaning frame 6 is automatically moved out of the drying cabin 4, so that the automatic operation of the cleaning, ultrasonic, disinfecting and drying processes of the medical instruments is realized, and the cleaning and disinfecting convenience and the cleaning and disinfecting efficiency of the medical instruments are effectively improved.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a medical cleaning machine in many cabins, a serial communication port, includes organism and wash rack, wash cabin, supersound cabin, disinfection cabin and dry cabin have set gradually from the left hand right side in the organism, and both ends are provided with the hatch door subassembly respectively about washing cabin, supersound cabin, disinfection cabin and dry cabin, the hatch door subassembly is used for the switching cabin, and both ends are provided with transmission module respectively about the organism, transmission module is used for transporting the wash rack, be provided with wheel components in washing cabin, supersound cabin, disinfection cabin and the dry cabin respectively, wheel components is used for controlling the wash rack and removes in the cabin and between the cabin.

2. The multi-chamber medical cleaning machine according to claim 1, wherein the transfer module comprises a frame, the top of the frame body is provided with a transmission groove, the side part of the transmission groove is provided with a roller assembly, the roller assembly comprises a roller driving device, a linkage rod and two rows of transmission mechanisms, the transmission mechanisms are symmetrically arranged at two sides of the transmission groove and comprise rolling wheels, transmission rotating shafts and first transmission pieces, the rolling wheel is arranged at the inner side of the transmission groove, one end of the transmission rotating shaft passes through the transmission groove and is connected with the rolling wheel, the first transmission piece is arranged at the other end of the transmission rotating shaft and is arranged at the outer side of the transmission groove, and second transmission parts are respectively arranged at two ends of the linkage rod, the second transmission parts are connected with the first transmission parts through third transmission parts, and the roller driving device is used for controlling the linkage rod to rotate.

3. The medical cleaning machine of claim 2, wherein the side walls of the inner side of the conveying groove are provided with limiting guides, and the limiting guides are arranged above the rolling wheels.

4. The multi-cabin medical cleaning machine according to claim 2, wherein a sensing piece is arranged on a side wall of the cleaning rack, and in-place detection units matched with the sensing piece are respectively arranged on side walls of the transmission tank, the cleaning cabin, the ultrasonic cabin, the disinfection cabin and the drying cabin and used for detecting the position of the cleaning rack.

5. The medical cleaning machine with multiple cabins according to claim 1, wherein the roller components in the cleaning cabin comprise a roller driving device, a linkage rod and two rows of transmission mechanisms, the transmission mechanisms are symmetrically arranged on the side walls of two sides of the cleaning cabin, each transmission mechanism comprises a rolling wheel, a transmission rotating shaft and a first transmission piece, the rolling wheels are arranged on the inner side of the cleaning cabin, one end of each transmission rotating shaft penetrates through the cleaning cabin and is connected with the rolling wheel, the first transmission piece is arranged at the other end of the transmission rotating shaft, the first transmission piece is arranged on the outer side of the cleaning cabin, second transmission pieces are respectively arranged at two ends of the linkage rod and are connected with the first transmission piece through third transmission pieces, and the roller driving device is used for controlling the linkage rod to rotate.

6. The multi-chamber medical cleaning machine as claimed in claim 5, wherein the chamber top of the cleaning chamber is provided with a first cleaning pure water inlet pipe, a cleaning cold water inlet pipe, a first cleaning exhaust pipe and a first preheating water tank, the first preheating water tank is provided with a second cleaning pure water inlet pipe, the first preheating water tank is communicated with the cleaning chamber through a preheating water pipe, the cleaning chamber top is provided with an upper spraying component, the chamber bottom is provided with a lower spraying component, the chamber bottom is provided with a second preheating water tank, the cleaning chamber comprises a cleaning pipeline, the cleaning pipeline comprises a cleaning return pipe, a circulation cleaning main pipe, a first circulation cleaning branch pipe, a second circulation cleaning branch pipe and a cleaning exhaust pipe, the cleaning return pipe top is communicated with the second preheating water tank bottom, the cleaning return pipe bottom is respectively communicated with the cleaning exhaust pipe, The one end intercommunication of being responsible for is washd in the circulation, and the other end that the circulation was washd and is responsible for washs branch pipe intercommunication with first circulation respectively, second circulation, and the main pipe is washd in the circulation washs the branch pipe and spray assembly intercommunication down through first circulation, and the main pipe is washd in the circulation passes through the second circulation and washs the branch pipe and spray assembly intercommunication on with, and the circulation is washd and is responsible for and is provided with the circulation scavenging pump.

7. The medical cleaning machine with multiple cabins according to claim 6, wherein the side walls of the cleaning cabin are provided with limiting guides, and the limiting guides are arranged above the rolling wheels.

8. The medical cleaning machine with multiple cabins according to claim 6, wherein the first circulation cleaning branch pipe is provided with a cleaning one-way valve.

9. The medical cleaning machine of claim 6, wherein a liquid level detecting unit and a temperature detecting unit are disposed on a side wall of the first preheating water tank.

10. The medical cleaning machine with multiple chambers as claimed in claim 1, wherein the sterilizing chamber and the cleaning chamber are identical in structure.