CN219963671U - Anesthesia pipeline locating rack - Google Patents

Abstract

The utility model discloses an anesthetic line locating rack, comprising: the telescopic device comprises a base and a telescopic rod, wherein the top of the base is connected with the telescopic rod, the top of the telescopic rod is connected with a rotating rod, and the side face of the rotating rod is connected with a hanging plate. This anesthesia pipeline locating rack can pull the rubber band when the locating piece slides, can produce deformation through self material when the rubber band is pulled, can produce tightening force when deformation, when the pipeline is pressed to the fixed block top, the locating piece can reset through Pi Jin tensioning force, can remove the pipeline side and extrude the location when the rubber band resets, can slide through rotary tank and rotary tank when the stripper plate removes, can drive the friction pad and remove when the stripper plate slides, can extrude the location when the friction pad removes the rotary tank side, can drive the dwang and fix a position when the friction pad fixes a position, can drive the pipeline and rotate appointed angular position when the dwang fixes a position.

Description

Anesthesia pipeline locating rack

Technical Field

The utility model relates to the technical field of anesthesia, in particular to an anesthesia pipeline positioning frame.

Background

The anesthesia is the reversible function inhibition of the central nervous system or peripheral nervous system generated by medicines or other methods, the main effect of the inhibition is to enable the pain of an anesthetized person to be lost, so that the anesthetized person is easier to realize traumatic treatment such as operation and the like, the anesthesia device is provided with a pipeline, a positioning frame is needed to tie the pipeline when the anesthesia device is used, the pipeline positioning frame is a frame for fixing the pipeline to prevent the pipeline from being scattered, the pipeline is movable, the pipeline positioning frame is fixed, and certain defects exist in the use process of the existing pipeline positioning frame, such as;

anesthesia is divided into local anesthesia and general anesthesia, local anesthesia is generally used except for serious patients, equipment such as an electrocardiogram is generally used when general anesthesia is performed, pipelines connected by the equipment are generally placed on one side, the pipelines are not only easy to distinguish and fall off, but also easy to be pressed and folded off due to factors such as pulling force and gravity in operation, anesthesia operation and observation are affected, reasonable classification is needed by using a locating rack, most of traditional pipelines are fixed through magic tapes or buckles, two hands are generally needed to operate, the magic tapes can fall down, infection of patients can be caused, and the use is troublesome.

Disclosure of Invention

The utility model provides the following technical scheme: the utility model aims to provide an anesthetic line locating rack, which solves the problems that the anesthetic line locating rack in the market provided by the background art has a plurality of defects, the inconvenient locating rack can be used for locating a pipeline rapidly, and the inconvenient locating rack can be used for adjusting the direction according to the position of the pipeline.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an anesthesia line locator rack, comprising: a base and a telescopic rod;

the base top is connected with the telescopic link, the telescopic link top is connected with the dwang, the dwang side is connected with the link plate.

Preferably, the rotating rod is further provided with a rotating groove, a sliding block, a bidirectional threaded rod, a squeezing plate, a friction pad, a rotating block, a bearing and a rotating groove;

the rotary groove is formed in the bottom of the rotary rod in a penetrating mode, and a sliding block is connected inside the rotary groove in a sliding mode.

Preferably, the sliding block and the inside of the rotary groove are connected with a bidirectional threaded rod in a penetrating and rotating mode.

Preferably, the bottom of the sliding block is fixed with an extrusion plate, and the side surface of the extrusion plate is connected with a friction pad.

Preferably, a rotating block is fixed at the bottom of the rotating rod, and a bearing is connected to the bottom of the rotating block.

Preferably, the telescopic rod top is provided with a rotary groove, and the rotary block, the bearing and the extrusion plate are rotationally connected in the rotary groove.

Preferably, the hanging plate is further provided with a fixed block, a guide groove, a positioning block and a rubber band;

the hanging plate is characterized in that a fixing block is fixed on the side face of the hanging plate, and a guide groove is formed in the top of the fixing block.

Preferably, the guide groove is internally connected with a positioning block in a sliding manner, and a rubber band is connected between the positioning block and the guide groove.

Compared with the prior art, the utility model has the beneficial effects that: this anesthesia pipeline locating rack can pull the rubber band when the locating piece slides, can produce deformation through self material when the rubber band is pulled, can produce tightening force when deformation, when the pipeline is pressed to the fixed block top, the locating piece can reset through Pi Jin tensioning force, can remove the pipeline side and extrude the location when the rubber band resets, can slide through rotary tank and rotary tank when the stripper plate removes, can drive the friction pad and remove when the stripper plate slides, can extrude the location when the friction pad removes the rotary tank side, can drive the dwang and fix a position when the friction pad fixes a position, can drive the pipeline and rotate appointed angular position when the dwang fixes a position.

1. When the locating rack is used, the anesthetic tube or other tubes are moved to the side face of the hanging plate to be pressed, the inclined face can be extruded when the pipeline is pressed to the top of the locating block, the locating block can slide through the guide groove when being extruded, the rubber band can be pulled when being slid, the rubber band can deform through the self material when being pulled, tightening force can be generated when the rubber band is deformed, when the pipeline is pressed to the top of the fixing block, the locating block can be reset through the Pi Jin tightening force, the pipeline can be moved to the side face of the pipeline to be extruded and located when the rubber band is reset, and the locating rack is convenient for locating the pipeline quickly;

2. the locating rack is in the use period, because the shelf material is heavier, can pull the dwang when the pipeline needs the change direction, can drive the dwang and rotate when the dwang pulls, can rotate through constant head tank and bearing when the dwang rotates, can drive stripper plate and link plate and rotate when the dwang rotates, rotate two-way threaded rod when the link plate rotates to the assigned position, can rotate through the constant head tank when two-way threaded rod rotates, can drive the sliding block and carry out the screw thread slip when the sliding block screw thread slides, can drive the stripper plate and remove when the sliding block slides, can carry out the slip through constant head tank and constant head tank when the stripper plate moves, can drive the friction pad and remove when the stripper plate slides, can carry out extrusion location when the friction pad moves to the constant head tank side, can drive the dwang and fix a position when the friction pad fixes a position, can drive the pipeline and rotate to the assigned angular position when the dwang, the convenient locating rack can be according to pipeline position adjustment direction.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 3 is a schematic side view of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of the portion A of the present utility model;

fig. 5 is an enlarged view of the structure of the portion B of the present utility model.

In the figure: 1. a base; 2. a telescopic rod; 3. a rotating lever; 301. a rotary groove; 302. a sliding block; 303. a two-way threaded rod; 304. an extrusion plate; 305. a friction pad; 306. a rotating block; 307. a bearing; 308. a rotating groove; 4. a hanging plate; 401. a fixed block; 402. a guide groove; 403. a positioning block; 404. and (5) rubber bands.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: an anesthesia line locator rack, comprising: a base 1 and a telescopic rod 2;

the top of the base 1 is connected with a telescopic rod 2, the top of the telescopic rod 2 is connected with a rotating rod 3, and the side surface of the rotating rod 3 is connected with a hanging plate 4.

The rotating rod 3 is further provided with a rotating groove 301, a sliding block 302, a bidirectional threaded rod 303, a squeezing plate 304, a friction pad 305, a rotating block 306, a bearing 307 and a rotating groove 308, the rotating groove 301 is formed in the bottom of the rotating rod 3 in a penetrating mode, the sliding block 302 is connected inside the rotating groove 301 in a sliding mode, the sliding block 302 can slide through the rotating groove 301 when in threaded sliding, and the squeezing plate 304 can be driven to move when the sliding block 302 slides.

The sliding block 302 is connected with a bidirectional threaded rod 303 in a penetrating and rotating mode inside the rotating groove 301, the bidirectional threaded rod 303 can rotate through the rotating groove 301 when rotating, and the sliding block 302 can be driven to slide in a threaded mode when the bidirectional threaded rod 303 rotates.

The bottom of the sliding block 302 is fixed with the extrusion plate 304, the side surface of the extrusion plate 304 is connected with the friction pad 305, the extrusion plate 304 can slide through the rotary groove 301 and the rotary groove 308 when moving, and the extrusion plate 304 can drive the friction pad 305 to move when sliding.

The rotating block 306 is fixed at the bottom of the rotating rod 3, the bearing 307 is connected at the bottom of the rotating block 306, the rotating block 306 can be driven to rotate when the rotating rod 3 is pulled, and the rotating block 306 can rotate through the rotating groove 308 and the bearing 307 when rotating.

The telescopic link 2 top has been seted up the rotary slot 308, and the inside rotation of rotary slot 308 is connected with turning block 306, bearing 307 and stripper plate 304, can drive stripper plate 304 and link plate 4 and rotate when the swivelling lever 3 rotates.

The hanging plate 4 is further provided with a fixed block 401, a guide groove 402, a positioning block 403 and a rubber band 404, the fixed block 401 is fixed on the side face of the hanging plate 4, the rubber band 404 of the guide groove 402 is arranged at the top of the fixed block 401, deformation can be generated through self materials when the rubber band 404 is pulled, tightening force can be generated when the pipeline is pressed to the top of the fixed block 401, and the positioning block 403 can be reset through the tightening force of the rubber band 404.

The inside sliding connection of guide slot 402 has locating piece 403, is connected with rubber band 404 between locating piece 403 and the guide slot 402, can slide through guide slot 402 when locating piece 403 receives the extrusion, can pull rubber band 404 when locating piece 403 slides.

Working principle: when the anesthesia pipeline positioning frame is used, firstly, the anesthesia pipe or other pipes are moved to the side face of the hanging plate 4 to be pressed when the positioning frame is used, the inclined face can be pressed when the pipe is pressed to the top of the positioning block 403, the positioning block 403 can slide through the guide groove 402 when being pressed, the rubber band 404 can be pulled when the positioning block 403 slides, the rubber band 404 can deform through self materials when being pulled, tightening force can be generated when the deformation, when the pipe is pressed to the top of the fixed block 401, the positioning block 403 can reset through the tension force of the rubber band 404, the pipe can be moved to the side face of the pipe to be pressed and positioned when the rubber band 404 resets, the positioning frame can rapidly position the pipe, during the use of the positioning frame, the rotating frame rod 3 can be pulled when the pipe needs to be changed direction due to heavy materials, the rotating block 306 can be driven to rotate when the rotating rod 3 is pulled, the rotating block 306 can rotate through the rotating groove 308 and the bearing 307 when rotating, the extruding plate 304 and the hanging plate 4 can be driven to rotate when the rotating rod 3 rotates, the bidirectional threaded rod 303 can rotate through the rotating groove 301 when the hanging plate 4 rotates to a designated position, the sliding block 302 can be driven to slide in a threaded manner when the bidirectional threaded rod 303 rotates, the extruding plate 304 can be driven to move when the sliding block 302 slides in a threaded manner through the rotating groove 301, the extruding plate 304 can be driven to move when the extruding plate 304 moves through the rotating groove 301 and the rotating groove 308, the friction pad 305 can be driven to move when the extruding plate 304 slides, the extruding positioning can be carried out when the friction pad 305 moves to the side surface of the rotating groove 308, the rotating rod 3 can be driven to position when the friction pad 305 is positioned, the rotation rod 3 can drive the pipeline to rotate to a designated angle position during positioning, and the positioning frame can adjust the direction according to the position of the pipeline, which is not described in detail in the present specification, and belongs to the prior art known to those skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. An anesthesia line locator rack, comprising: the telescopic device is characterized by comprising a base (1) and a telescopic rod (2);

the telescopic support is characterized in that the top of the base (1) is connected with a telescopic rod (2), the top of the telescopic rod (2) is connected with a rotating rod (3), the side face of the rotating rod (3) is connected with a hanging plate (4), the hanging plate (4) is further provided with a fixed block (401), a guide groove (402), a positioning block (403) and a rubber band (404), and the side face of the hanging plate (4) is fixed with the fixed block (401);

guide grooves (402) are formed in the tops of the fixed blocks (401), positioning blocks (403) are connected inside the guide grooves (402) in a sliding mode, and rubber bands (404) are connected between the positioning blocks (403) and the guide grooves (402).

2. An anesthesia line positioner according to claim 1, wherein: the rotating rod (3) is further provided with a rotating groove (301), a sliding block (302), a bidirectional threaded rod (303), a squeeze plate (304), a friction pad (305), a rotating block (306), a bearing (307) and a rotating groove (308);

the bottom of the rotating rod (3) is provided with a rotating groove (301) in a penetrating mode, and a sliding block (302) is connected inside the rotating groove (301) in a sliding mode.

3. An anesthesia line locator according to claim 2, wherein: the sliding block (302) and the inside of the rotary groove (301) are penetrated and rotatably connected with a bidirectional threaded rod (303).

4. An anesthesia line locator according to claim 2, wherein: the bottom of the sliding block (302) is fixedly provided with a squeeze plate (304), and the side surface of the squeeze plate (304) is connected with a friction pad (305).

5. An anesthesia line positioner according to claim 1, wherein: a rotating block (306) is fixed at the bottom of the rotating rod (3), and a bearing (307) is connected to the bottom of the rotating block (306).

6. An anesthesia line positioner according to claim 1, wherein: the top of the telescopic rod (2) is provided with a rotating groove (308), and a rotating block (306), a bearing (307) and a squeeze plate (304) are rotatably connected in the rotating groove (308).