CN217550650U - Respiratory anesthetic tube cleaning load frame - Google Patents

Abstract

The utility model belongs to medical instrument cleaning and disinfecting field discloses a breathe anesthesia pipe and wash load frame, it includes the body frame body, the body frame body is provided with the chassis, main raceway and rack, main raceway rotationally sets up on the chassis and can put through outside water delivery port, the intercommunication is provided with the shower on the main raceway, a plurality of first holes that spray have been seted up to the pipe wall of shower, the rack sets up along first horizontal direction slope, the higher one end of rack is provided with the perfusion pipe with main raceway intercommunication, perfusion pipe intercommunication is provided with a plurality of branch pipes that cup joint, still be provided with on the rack a plurality of and cup joint the joint portion of branch pipe one-to-one, when the installation breathes anesthesia pipe, the tip cover of breathing anesthesia pipe is located cup joints on the branch pipe, the body joint of breathing anesthesia pipe is in the joint portion that corresponds. The utility model provides a breathe anesthesia pipe and wash load frame, it is convenient to load, can reliably fix breathing anesthesia pipe, the effectual dead angle of wasing of having avoided to can improve drying efficiency.

Description

Respiratory anesthetic tube cleaning load frame

Technical Field

The utility model relates to the field of cleaning and disinfecting medical instruments, in particular to a cleaning load frame for a respiratory anesthetic tube.

Background

The respiratory anesthetic tube is an important medical apparatus in the medical field, and can provide oxygen or anesthetic gas required by a patient, and the cleanness of the respiratory anesthetic tube is related to the safety of the patient. At present, the anesthetic breathing tube is usually cleaned by cleaning equipment such as ultrasonic cleaning and spray cleaning, and if the anesthetic breathing tube is cleaned by the cleaning equipment, a cleaning rack matched with the cleaning equipment is required to be equipped for placing the anesthetic breathing tube.

A respiratory anesthetic tube cleaning load frame in the prior art is usually horizontally loaded or spirally loaded upwards, and is not beneficial to discharging residual water in a respiratory anesthetic tube after the respiratory anesthetic tube is washed, so that the drying process is slow; in addition, the anesthesia respiratory tube is often directly placed on the supporting structure on the cleaning frame and is not reliably and effectively fixed to the anesthesia respiratory tube body, so that the anesthesia respiratory tube can move or even overlap the tube body in the cleaning process, dead angles are formed on the overlapping part of the tube body, and incomplete cleaning is caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a breathe anesthesia pipe and wash load frame can reliably fix and breathe anesthesia pipe to further optimize the cleaning performance who breathes anesthesia pipe.

To achieve the purpose, the utility model adopts the following technical proposal:

a cleaning load frame for a respiratory anesthetic tube comprises a main frame body, wherein the main frame body is sequentially provided with a chassis, a main water conveying pipe and a placing frame from bottom to top; wherein, the first and the second end of the pipe are connected with each other,

the main water delivery pipe is rotatably arranged on the chassis and can be communicated with an external water delivery port, a spray pipe is communicated with the main water delivery pipe, a plurality of first spray holes are formed in the pipe wall of the spray pipe, and the spray pipe and the main water delivery pipe can synchronously rotate;

the rack sets up along first horizontal direction slope, the higher one end of rack be provided with the perfusion pipe of main raceway intercommunication, the pipe wall intercommunication of perfusion pipe is provided with a plurality of branch pipes that cup joint, still be provided with on the rack a plurality of with cup joint the joint portion of branch pipe one-to-one, when the installation respiratory anesthesia pipe, the tip cover of respiratory anesthesia pipe is located cup joint on the branch pipe, the body joint of respiratory anesthesia pipe in corresponding in joint portion.

Optionally, a plurality of second spraying holes are formed in the pipe wall of the sleeving branch pipe.

Optionally, an end portion of a lower end of the placing rack is downward in an arc shape along the first horizontal direction.

Optionally, the clamping portion is provided with a plurality of clamping grooves at intervals along the first horizontal direction, and when the respiratory anesthetic tube is installed, the tube body of the respiratory anesthetic tube is arranged in the corresponding clamping grooves in a penetrating mode and clamped.

Optionally, the main frame body is provided with two retaining portions on two sides of the end portion of the lower end of the placing frame, and a plurality of retaining rods are arranged between the two retaining portions.

Optionally, a plurality of draw-in grooves have all been seted up along length direction to the fender supporting part, the both ends of pin respectively with correspond the end draw-in groove looks joint.

Optionally, a first fixing sleeve is arranged on the chassis, a second fixing sleeve is arranged over the first fixing sleeve on the main frame body, a first end of the main water pipe penetrates through the first fixing sleeve and is rotatably connected to the first fixing sleeve, and a second end of the main water pipe is inserted into the second fixing sleeve and is rotatably connected to the second fixing sleeve.

Optionally, the inner wall of the first fixing sleeve and the outer peripheral wall of the main water pipe penetrating through the first fixing sleeve can form a first water conveying space, a first water conveying hole for communicating the first water conveying space is formed in the main water pipe, a plurality of injection pipes communicated with the first water conveying space are vertically arranged on the chassis, and a plurality of third spraying holes are formed in the pipe wall of each injection pipe.

Optionally, a second water conveying space can be formed by the inner wall of the second fixing sleeve and the outer peripheral wall of the main water conveying pipe sleeved in the second fixing sleeve, a second water conveying hole used for communicating the second water conveying space is formed in the main water conveying pipe, and the flow filling pipe is communicated with the second water conveying space.

Optionally, a support layer plate is further arranged between the chassis and the spray pipe of the main frame body, and the support layer plate is used for supporting an external medical basket.

Has the beneficial effects that:

the utility model provides a respiratory anesthesia pipe washs load frame, when the installation respiratory anesthesia pipe, locate the first end cover of respiratory anesthesia pipe and cup joint the branch pipe on to the body joint that will breathe anesthesia pipe is in the joint portion that corresponds, thereby can make respiratory anesthesia pipe fix on the rack neatly, reliably, steadily. When the intaking of main raceway and outside water delivery port switch-on, wash water in proper order through main raceway, the perfusion pipe, cup joint the lumen intracavity of branch pipe instillation to the anesthesia of breathing pipe, wash and wash to the lumen inner wall to the anesthesia of breathing pipe, the shower sprays the surface to the anesthesia of breathing pipe through first spraying hole simultaneously, when the shower sprays, rotary motion can be done with main raceway under the drive of rivers to the shower, in order to carry out comprehensive three-dimensional washout to the surface of breathing anesthesia pipe, guarantee the cleaning performance. In addition, the rack sets up along first horizontal direction slope, installs the anesthesia pipe of breathing on the rack and also together is in the tilt state, and after the washing is accomplished, the intraductal residual water of anesthesia of breathing can effectively discharge under the action of gravity, can accelerate the drying, improves drying efficiency.

Drawings

FIG. 1 is a schematic structural view of a respiratory anesthetic tube cleaning load frame according to the present invention;

fig. 2 is a partially enlarged schematic view of the present invention at a in fig. 1;

FIG. 3 is a schematic structural view of the anesthetic tube cleaning load frame of the present invention for mounting the anesthetic tube;

fig. 4 is a side sectional view of the anesthesia respirator tube mounted on the anesthesia respirator tube cleaning load frame of the present invention.

In the figure:

110. a chassis; 111. a first fixing sleeve; 112. a second fixing sleeve; 120. a main water delivery pipe; 121. a shower pipe; 1211. a first spray hole; 122. a first water delivery hole; 123. a second water delivery hole; 124. a third water delivery hole; 125. a side sleeve; 1251. a fourth spray hole; 130. placing a rack; 131. an irrigation pipe; 132. sleeving a branch pipe; 1321. a second spray hole; 133. a clamping groove; 140. a support stop portion; 141. a stop lever; 142. a card slot; 150. an injection pipe; 1501. a third spray hole; 161. a first pivot pipe; 1611. a first pivot branch pipe; 162. a second pivot pipe; 170. supporting the laminate; 180. a roller; 190. an induction block; 200. a respiratory anesthetic tube.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to be limiting.

The embodiment provides a respiratory anesthetic tube cleaning load frame, as shown in fig. 1 to 4, the respiratory anesthetic tube cleaning load frame includes a main frame body, the main frame body is sequentially provided with a chassis 110, a main water pipe 120 and a placement frame 130 from bottom to top, wherein the main water pipe 120 is rotatably disposed on the chassis 110 and can be connected with an external water delivery port, a shower 121 is disposed on the main water pipe 130 in a communicating manner, a plurality of first shower holes 1211 are disposed on a pipe wall of the shower 121, the shower 121 and the main water pipe 120 can rotate synchronously, the placement frame 130 is disposed along a first horizontal direction in an inclined manner, a perfusion pipe 131 communicated with the main water pipe 120 is disposed at a higher end of the placement frame 130, a plurality of sleeving branch pipes 132 are disposed on a pipe wall of the perfusion pipe 131 in a communicating manner, the placement frame 130) is further provided with a plurality of clamping portions corresponding to the sleeving branch pipes 132 one by one to one, when the respiratory anesthetic tube 200 is installed, an end portion of the respiratory anesthetic tube 200 is sleeved on the sleeving branch pipe 132, and a pipe body of the respiratory anesthetic tube 200 is clamped to the corresponding clamping portion.

In this embodiment, when the anesthetic breathing tube 200 is installed, the first end of the anesthetic breathing tube 200 is sleeved on the sleeving branch tube 132, and the tube body of the anesthetic breathing tube 200 is clamped on the corresponding clamping portion, so that the anesthetic breathing tube 200 can be reliably and stably fixed on the placing frame 130. When the water inlet end of the main water pipe 120 is connected to the external water delivery port, the cleaning water at the external water delivery port is sequentially infused into the lumen of the anesthesia respiratory pipe 200 through the main water pipe 120, the perfusion pipe 131 and the sleeve branch pipe 132 to wash and clean the inner wall of the lumen of the anesthesia respiratory pipe 200, meanwhile, the shower pipe 121 sprays water to the outer surface of the anesthesia respiratory pipe 200 through the first spraying holes 1211, and the shower pipe 121 and the main water pipe 120 are driven by water flow to rotate and perform comprehensive three-dimensional washing and cleaning on the outer surface of the anesthesia respiratory pipe 200 while spraying, so that the cleaning effect is ensured. In addition, rack 130 sets up along first horizontal direction slope, installs the anesthesia of breathing pipe 200 on rack 130 and also together is in the tilt state, and after the washing is accomplished, the residual water in the anesthesia of breathing pipe 200 can be effectively discharged under the action of gravity, can accelerate the drying, improves drying efficiency.

In this embodiment, the main frame body is provided with a sensing block 190, and the sensing block 190 can be connected with an external cleaning device in a communication manner. In this embodiment, the external water delivery port is disposed on the external cleaning device, after the anesthetic breathing tube 200 is mounted on the placement frame 130, the anesthetic breathing tube cleaning load frame is integrally placed in the external cleaning device, the external cleaning device will start to detect the sensing block 190 after being placed in place, after the sensing block 190 is detected, the anesthetic breathing tube cleaning load frame is loaded into the external cleaning device, the main water delivery pipe 120 of the anesthetic breathing tube cleaning load frame is in butt joint communication with the external water delivery port on the external cleaning device, a cleaning signal is sent to the control system at this time, the external cleaning device starts to work, the external water delivery port delivers water to the main water delivery pipe 120, and thus cleaning work can be reliably performed.

The specific process of the communication principle between the sensing block 190 and the external cleaning device is the prior art, and will not be described herein.

In this embodiment, the plurality of the sleeved branch pipes 132 are arranged at intervals along a second horizontal direction, and the second horizontal direction is perpendicular to the first horizontal direction. In the present embodiment, when the anesthetic breathing tube 200 is attached, the anesthetic breathing tube 200 extends along the longitudinal direction of the placement frame 130.

Further, the lower one end tip of rack 130 is circular-arc setting downwards along first horizontal direction, so set up, when installation anesthesia pipe 200 is breathed in the installation, can make anesthesia pipe 200 keep away from the one end of cup jointing branch pipe 132 and further receive the flagging setting of gravity, further guarantee after the washing that the residual water in anesthesia pipe 200 can effectively discharge for drying efficiency.

Further, the main frame body is provided with support portions 140 at two sides of the lower end portion of the placing frame 130, and a plurality of stop levers 141 are arranged between the two support portions 140. Through setting up pin 141, when installing anesthesia breathing pipe 200 on rack 130, pin 141 can block and support the pressure to anesthesia breathing pipe 200 one end of keeping away from the bell and spigot branch pipe from outside to inside, guarantees that anesthesia breathing pipe 200 keeps away from the one end of bell and spigot branch pipe 132 and can effectively droop, avoids anesthesia breathing pipe 200 to keep away from the one end perk of bell and spigot branch pipe 132 and leads to the residual water to discharge not smoothly.

Both ends of each stopper rod 141 are detachably coupled to the supporting portions 140 of the corresponding ends, respectively. Specifically, the supporting portion 140 is provided with a plurality of slots 142 along the length direction, and two ends of the blocking rod 141 are respectively connected with the slots 142 at the corresponding ends in a clamping manner. In this embodiment, the blocking rod 141 can be clamped in the appropriate clamping groove 142 along the length direction of the supporting portion 140 according to actual conditions, so as to ensure that the anesthetic breathing tube 200 can be effectively blocked and pressed.

The embodiment is not limited to this, and the blocking lever 141 and the blocking portion 140 may be detachable, and the embodiment is not limited to this.

Further, referring to fig. 2, a plurality of second spraying holes 1321 are opened on the pipe wall of the sleeving branch pipe 132. Specifically, the socket branch 132 is set to be cylindrical, when the respiratory anesthetic tube 200 is installed, the end cover of the respiratory anesthetic tube 200 is arranged on the socket branch 132, water at an external water delivery port sequentially passes through the main water delivery pipe 120 and the perfusion pipe 131 and reaches the socket branch 132, except that the interior of the tube body of the respiratory anesthetic tube 200 is cleaned through the middle main pipeline of the socket branch 132, the inner tube wall of the socket of the end of the respiratory anesthetic tube 200 is sprayed through the second spraying hole 1321, effective and thorough cleaning can be performed on a blind spot area of the socket end of the respiratory anesthetic tube 200, and the cleaning effect is further guaranteed.

The sleeved branch pipe 132 and the perfusion pipe 131 are detachably connected. In this embodiment, the perfusion tube 131 is provided with communication holes 1311 corresponding to the sleeving branch tubes 132 one by one, the communication holes 1311 are provided with internal threads, the outer peripheral wall of the sleeving branch tube 132 is provided with external threads connected with the internal threads in a matching manner, and when the sleeving branch tube 132 is mounted on the perfusion tube 131, the external threads on the sleeving branch tube 132 are screwed with the internal threads on the communication holes 1311.

The embodiment is not limited thereto, and the sleeved branch tube 132 and the perfusion tube 131 may be detachable, and is not limited to this.

Further, as shown in fig. 1 and fig. 3, the fastening portion is provided with a plurality of fastening grooves 133 at intervals along the first horizontal direction, and when the anesthetic breathing tube 200 is installed, the tube body of the anesthetic breathing tube 200 is inserted into and fastened in the corresponding fastening grooves 133.

Further, referring to fig. 1 and 4, a first fixing sleeve 111 is disposed on the chassis 110, a second fixing sleeve 112 is disposed over the first fixing sleeve 111 of the main frame body, a first end of the main water pipe 120 penetrates through the first fixing sleeve 111 and is rotatably connected to the first fixing sleeve 111, and a second end of the main water pipe 120 is inserted into the second fixing sleeve 112 and is rotatably connected to the second fixing sleeve 112. In this embodiment, a bearing is disposed in the second fixing sleeve 112, a fixed end of the bearing is fixedly inserted into the second fixing sleeve 112, and a second end of the main water pipe 120 is inserted into a rotating end of the bearing.

Further, a first water conveying space can be formed by the inner wall of the first fixing sleeve 111 and the outer peripheral wall of a part of the main water conveying pipe 120 penetrating through the first fixing sleeve 111, a first water conveying hole 122 for communicating the first water conveying space is formed in the main water conveying pipe 120, a plurality of injection pipes 150 communicated with the first water conveying space are vertically arranged on the chassis 110, and a plurality of third spraying holes 1501 are formed in the pipe wall of the injection pipes 150.

In this embodiment, the ejector tube 150 is configured to enable cleaning of other external medical containers. The chassis 110 is provided with a first pivot joint pipe 161, and the first water delivery space is communicated with the injection pipe 150 through the first pivot joint pipe 161. Specifically, the first pivot joint pipe 161 has a plurality of first pivot joint branch pipes 1611 detachably disposed thereon, the first pivot joint branch pipes 1611 are disposed in communication with the first pivot joint pipe 161, and each of the first pivot joint branch pipes 1611 has a plurality of injection pipes 150 disposed thereon. When the medical container needs to be cleaned, the opening of the medical container is sleeved downwards on the injection pipe 150, when the first end of the main water pipe 120 is communicated with the external water delivery port, part of water at the external water delivery port sequentially passes through the main water pipe 120, enters the first water delivery space through the first water delivery hole 122, sequentially passes through the first water delivery space and the first pivot connection pipe 161, is delivered into the injection pipe 150, and is sprayed to the inner wall of the medical container through the third spraying holes 1501, so that the inner wall of the medical container is reliably cleaned, and meanwhile, the other part of water at the external water delivery port is sequentially delivered into the spraying pipe 121 through the main water pipe 120, and is sprayed to the outer wall of the medical container through the first spraying holes 1211 to comprehensively clean the outer wall of the medical container. In this embodiment, the injection pipe 150 is threadedly coupled to the first pivotally connected branch 1611.

Furthermore, the injection pipe 150 is further provided with a support frame for supporting the medical container, and when the opening of the medical container is downwards sleeved on the injection pipe 150, the support frame can effectively support the inverted opening end of the medical container.

The bracket is detachably connected to the injection pipe 150. In this embodiment, the hole is established to the cover, and the hole cover is established on the injection pipe 150 through the cover to the support, and the locking hole has been established to the pore wall in hole to the cover, and locking hole spiro union has the retaining member, can lock joint in injection pipe 150 after the relative locking hole of retaining member is rotatory.

In the present embodiment, the plurality of injection pipes 150 are arranged at intervals along the second horizontal direction.

In this embodiment, the washable medical container may be a medical test tube with different sizes, a medical humidification bottle, or other medical devices with similar shapes, which is not limited herein. The size of the injection tube 150 and the shape of the bracket may be adjusted according to the type of the medical container, and are not limited herein.

Further, as shown in fig. 1 and 4, a second water delivery space can be formed by the inner wall of the second fixing sleeve 112 and the outer circumferential wall of a part of the main water delivery pipe 120 sleeved in the second fixing sleeve 112, a second water delivery hole 123 for communicating the second water delivery space is opened on the main water delivery pipe 120, and the perfusion pipe 131 is communicated with the second water delivery space. The main frame body is provided with a second pivot joint pipe 162, and the second water conveying space is communicated with the perfusion pipe 131 through the second pivot joint pipe 162. Specifically, when the first end of the main water pipe 120 is connected to the external water delivery port, a part of water at the external water delivery port sequentially passes through the main water pipe 120, then enters the second water delivery space through the second water delivery hole 123, sequentially passes through the second water delivery space, the second pivoting pipe 162 and the perfusion pipe 131, then is delivered to the sleeving branch pipe 132, and is sprayed to the inner wall of the anesthesia respiratory tube 200 through the second spraying hole 1321, so that the inner wall of the anesthesia respiratory tube 200 is reliably cleaned.

Further, a side sleeve 125 is further sleeved outside the main water pipe 120, the upper end of the side sleeve 125 is fixedly connected to the first fixing sleeve 111, and the lower end of the side sleeve 125 is fixedly connected to the second fixing sleeve 112. A plurality of third water delivery holes 124 are formed on the wall of the main water delivery pipe 120, and fourth spraying holes 1251 corresponding to the third water delivery holes 124 are correspondingly formed on the wall of the side casing 125. When the main water pipe 120 rotates relative to the chassis 110, when the main water pipe 120 rotates to the position where the third water delivery hole 124 and the fourth water delivery hole 1251 generate the communication area in the axial direction, the water in the main water pipe 120 can be sprayed out through the communication area formed by the third water delivery hole 124 and the fourth water delivery hole 1251 together, so that the outer surfaces of the anesthesia respirator 200 and the external medical container can be cleaned, and the practicability is further enhanced.

In this embodiment, the main frame is further provided with a support layer plate 170 between the bottom plate 110 and the shower pipe 121, the support layer plate 170 is used for placing an apparatus basket, and other accessories to be cleaned can be loaded in the apparatus basket. Such as medical scalpels, medical tool forceps, tweezers, etc.; the instrument basket can be placed on the support laminate 170 to spray water through the first spray holes 1211 of the spray tube 121 onto the medical components to be cleaned, thereby performing thorough cleaning of the medical components.

In this embodiment, a plurality of rollers 180 are further disposed at the bottom of the chassis 110. The roller 180 has a universal rotation function, so that medical staff can flexibly move the respiratory anesthetic tube cleaning load frame conveniently.

It is to be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention. Numerous obvious variations, rearrangements and substitutions will now occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A cleaning load frame for a respiratory anesthetic tube is characterized by comprising a main frame body, wherein the main frame body is sequentially provided with a chassis (110), a main water conveying pipe (120) and a placing frame (130) from bottom to top; wherein, the first and the second end of the pipe are connected with each other,

the main water pipe (120) is rotatably arranged on the chassis (110) and can be communicated with an external water delivery port, a spray pipe (121) is communicated with the main water pipe (120), a plurality of first spray holes (1211) are formed in the pipe wall of the spray pipe (121), and the spray pipe (121) and the main water pipe (120) can rotate synchronously;

rack (130) are along first horizontal direction slope setting, the higher one end of rack (130) be provided with perfusion pipe (131) of main raceway (120) intercommunication, the pipe wall intercommunication of perfusion pipe (131) is provided with a plurality of branch pipes (132) of cup jointing, still be provided with on rack (130) a plurality of with cup joint the joint portion of branch pipe (132) one-to-one, when installation respiratory anesthesia pipe (200), the tip cover of respiratory anesthesia pipe (200) is located cup joint on branch pipe (132), the body joint of respiratory anesthesia pipe (200) in corresponding in the joint portion.

2. The anesthesia tube wash load carrier of claim 1, wherein the wall of the telescoping branch tube (132) defines a plurality of second spray holes (1321).

3. The anesthesia tube washing load carrier of claim 1, wherein the lower end of the placement frame (130) is rounded downward in the first horizontal direction.

4. The anesthesia respiratory tube cleaning load frame according to claim 1, wherein the engaging portion is provided with a plurality of engaging grooves (133) at intervals along the first horizontal direction, and when the anesthesia respiratory tube (200) is installed, a tube body of the anesthesia respiratory tube (200) is inserted and engaged in the corresponding engaging groove (133).

5. The anesthesia respiratory tube cleaning load carrier of claim 1, wherein the main frame is provided with support portions (140) at two sides of the end portion of the lower end of the placement frame (130), and a plurality of stop rods (141) are arranged between the two support portions (140).

6. The anesthesia tube cleaning load frame of claim 5, wherein the supporting portions (140) are provided with a plurality of clamping grooves (142) along the length direction, and two ends of the blocking rod (141) are respectively clamped with the clamping grooves (142) at the corresponding ends.

7. The anesthesia respiratory tube cleaning load frame of claim 1, wherein a first fixing sleeve (111) is disposed on the chassis (110), a second fixing sleeve (112) is disposed over the first fixing sleeve (111) of the main frame, a first end of the main water pipe (120) is inserted into the first fixing sleeve (111) and rotatably connected to the first fixing sleeve (111), and a second end of the main water pipe (120) is inserted into the second fixing sleeve (112) and rotatably connected to the second fixing sleeve (112).

8. The anesthesia respiratory tube cleaning load frame of claim 7, wherein a first water delivery space can be formed by the inner wall of the first fixing sleeve (111) and the outer peripheral wall of a part of the main water delivery pipe (120) penetrating through the first fixing sleeve (111), a first water delivery hole (122) for communicating the first water delivery space is formed in the main water delivery pipe (120), a plurality of injection pipes (150) communicated with the first water delivery space are vertically arranged on the base plate (110), and a plurality of third spray holes (1501) are formed in the pipe wall of the injection pipes (150).

9. The anesthesia respiratory tube cleaning load frame of claim 7, wherein a second water delivery space can be formed between the inner wall of the second fixing sleeve (112) and the outer peripheral wall of the main water delivery tube (120) sleeved in the second fixing sleeve (112), a second water delivery hole (123) for communicating the second water delivery space is opened on the main water delivery tube (120), and the perfusion tube (131) is communicated with the second water delivery space.

10. The anesthesia tube cleaning load carrier of any of claims 1-9, wherein the main frame further comprises a support deck (170) disposed between the chassis (110) and the shower (121), the support deck (170) being configured to receive an equipment basket into which additional accessories to be cleaned may be loaded.

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