CN218870487U - Bronchofiberscope storage device - Google Patents

Abstract

The utility model relates to a bronchofiberscope storage device, including containing box body, flip and adsorption apparatus structure, adsorption apparatus structure includes urceolus, mounting bracket, fan, exhaust pipe and valve member. The utility model discloses when accomodating bronchofiberscope, place bronchofiberscope in the storage box body, through flip will storage box body is sealed, then will urceolus and anesthesia platform contact, fan work is in order to pass through the air in the urceolus the exhaust pipe is taken out, makes the urceolus produces the negative pressure and adsorbs on anesthesia bench, passes through at last the valve component will the exhaust pipe is sealed, the fan can stop work, has solved storage box body and has received the problem that the external force collision lost after dropping from anesthesia bench easily.

Description

Bronchofiberscope storage device

Technical Field

The utility model relates to a bronchofiberscope storage device.

Background

During clinical examination or operation, the bronchofiberscope is usually placed on an anesthesia table, and due to the structural characteristics of heavy head and light feet of the bronchofiberscope, the bronchofiberscope is very easy to be brought to the position below the anesthesia table to cause damage.

At present, prior art (CN 215079697U) discloses a bronchofiberscope storage device, including the storage box body that is equipped with front opening and under shed, and the flip that articulates with the storage box body, the front opening and the under shed of the closed storage box body of flip, be equipped with first storage chamber and second storage chamber in the storage box body, first storage chamber and second storage chamber communicate with each other, and be equipped with reel portion in the second storage chamber, the up end of storage box body is seted up the socket that runs through from top to bottom, it places in the storage box body to be equipped with the bronchofiberscope, the bronchofiberscope includes bronchofiberscope main part and fiber tube, bronchofiberscope main part inserted frame is at the socket of storage box body, bronchofiberscope main part is located first storage chamber, the fiber tube is rolled up on reel portion, the fiber tube is rolled up and is placed in the second storage chamber. It is protected.

By adopting the mode, the containing box body is placed on the anesthesia table, the friction force between the containing box body and the anesthesia table is small, and the containing box body is lost after being collided by external force and easily falls off from the anesthesia table.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bronchofiberscope storage device aims at solving storage box body and receives the problem that the back lost drops from the anesthesia bench easily of external force collision.

In order to achieve the purpose, the utility model provides a bronchofiberscope storage device, which comprises a storage box body, a flip cover and an adsorption mechanism, wherein the adsorption mechanism comprises an outer barrel, a mounting frame, a fan, an exhaust pipe and a valve component; flip set up in one side of containing box body, urceolus fixed connection in flip keeps away from one side of containing box body, mounting bracket fixed connection in the urceolus inside wall, fan fixed connection in the mounting bracket inside wall, the exhaust pipe runs through the urceolus, the valve member set up in the exhaust pipe inside wall.

The valve component comprises a ball body and a rotating rod, the ball body is arranged on the inner side wall of the exhaust pipe, and the rotating rod is fixedly connected with the ball body, is rotatably connected with the exhaust pipe and penetrates through the exhaust pipe.

The valve component also comprises a rotating handle which is fixedly connected with one side of the rotating rod far away from the ball body.

Wherein, adsorption element still includes the sucking disc, sucking disc fixed connection in the urceolus is kept away from flip's one side.

Wherein, adsorption equipment still includes the filter screen, filter screen fixed connection in the urceolus inside wall.

The utility model discloses a bronchofiberscope storage device when accomodating the bronchofiberscope, place the bronchofiberscope in the storage box body, through flip will storage box body is sealed, then will urceolus and anesthesia platform contact, fan work, will air in the urceolus warp the exhaust pipe is taken out, makes the urceolus produces the negative pressure and adsorbs on anesthesia platform, passes through at last the valve component will the exhaust pipe is sealed, the fan can stop work, has solved storage box body and has received the problem that the external force collision lost after dropping from anesthesia platform easily.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of a bronchofiberscope storage device according to a first embodiment of the present invention.

Fig. 2 is a sectional view of a bronchofiberscope housing apparatus according to a first embodiment of the present invention.

Fig. 3 is a sectional view of a bronchofiberscope housing apparatus according to a second embodiment of the present invention.

101-containing box body, 102-flip cover, 103-adsorption mechanism, 104-outer cylinder, 105-mounting rack, 106-blower, 107-exhaust pipe, 108-valve component, 109-sphere, 110-rotating rod, 111-rotating handle, 112-suction cup and 201-filter screen.

Detailed Description

The first embodiment of the present application is:

referring to fig. 1-2, fig. 1 is a schematic structural view of a bronchofiberscope accommodating device. Fig. 2 is a sectional view of a bronchofiberscope housing apparatus.

The utility model provides a bronchofiberscope storage device, including containing box body 101, flip 102 and adsorption mechanism 103, adsorption mechanism 103 includes urceolus 104, mounting bracket 105, fan 106, exhaust pipe 107, valve member 108 and sucking disc 112, and valve member 108 includes spheroid 109, bull stick 110 and turning handle 111. The problem that the storage box body 101 is lost after falling off from the anesthesia table easily due to external force collision is solved through the scheme, and it can be understood that the scheme can be used in a scene of storing the bronchofiberscope and can also be used for solving the problem that the adsorption effect is influenced because the adsorption range of the outer cylinder 104 on the anesthesia table is small.

For the present embodiment, the lid 102 is disposed on one side of the storage box 101, the outer barrel 104 is fixedly connected to one side of the lid 102 away from the storage box 101, the mounting frame 105 is fixedly connected to an inner side wall of the outer barrel 104, the fan 106 is fixedly connected to an inner side wall of the mounting frame 105, the exhaust duct 107 penetrates through the outer barrel 104, and the valve assembly 108 is disposed on an inner side wall of the exhaust duct 107. When the bronchofiberscope is stored, the bronchofiberscope is placed in the storage box body 101, concretely, a first storage cavity and a second storage cavity are arranged in the storage box body 101, the first storage cavity is communicated with the second storage cavity, a reel portion is arranged in the second storage cavity, a vertically-penetrating socket is formed in the upper end face of the storage box body, the bronchofiberscope is stored in the storage box body and comprises a bronchofiberscope main body and a fiber tube, the bronchofiberscope main body is inserted and erected at the socket of the storage box body, the bronchofiberscope main body is locally located in the first storage cavity, the fiber tube is wound on the reel portion, the fiber tube is wound and stored in the second storage cavity, the front opening and the lower opening of the storage box body 101 are sealed through the turnover cover 102, then the outer tube 104 is in contact with an anesthesia table, the fan 106 works, air in the outer tube 104 is drawn out through the exhaust tube 107, the outer tube 104 is enabled to generate negative pressure to be adsorbed on the anesthesia table, friction force with the anesthesia table is increased, finally the outer tube 107 is sealed through the valve assembly 108, the fan 106 can stop working, and the problem that the storage box body 101 easily collides with the anesthesia table is solved.

Wherein, the sphere 109 is arranged on the inner side wall of the exhaust duct 107, and the rotating rod 110 is fixedly connected with the sphere 109, rotatably connected with the exhaust duct 107, and penetrates through the exhaust duct 107. The rotating rod 110 rotates the sphere 109, so that when the through hole of the sphere 109 is overlapped with the exhaust duct 107, the air can flow into or out of the outer cylinder 104, and when the through hole of the sphere 109 is staggered with the exhaust duct 107, the exhaust duct 107 is in a closed state.

The rotating handle 111 is fixedly connected to a side of the rotating rod 110 away from the sphere 109. The rotary handle 111 increases the contact area between the rotary rod 110 and the hand, and improves the force application effect on the rotary rod 110. When the flip cover 102 is taken down from the anesthesia table, the rotating rod 110 is rotated by holding the rotating handle 11, so that the rotating rod 110 drives the sphere 109 to rotate until the through hole of the sphere 109 coincides with the exhaust pipe 107, air can enter the outer cylinder 104 through the through hole of the sphere 109, when the pressure in the outer cylinder 104 is equal to the external pressure, the outer cylinder 104 is not adsorbed on the anesthesia table, and at this time, the outer cylinder 104 can be taken down from the anesthesia table.

Meanwhile, the suction cup 112 is fixedly connected to a side of the outer tub 104 away from the lid 102. The suction cup 112 increases the suction range of the outer cylinder 104, thereby increasing the effect of suction on the anesthesia table. The sucking disc 112 is the rubber material, can carry out corresponding deformation according to the surface of anesthesia platform, improves the effect of adsorbing on anesthesia bench, and when sucking disc 112 adsorbs on anesthesia bench, because the material is soft, can not cause the damage to anesthesia bench.

When accomodating the bronchofiberscope, place the bronchofiberscope in storage box body 101, it is sealed with storage box body 101 through flip 102, then with urceolus 104 and anesthesia platform contact, fan 106 work, take out the air in the urceolus 104 through exhaust pipe 107, make urceolus 104 produce the negative pressure and adsorb at the anesthesia bench, rotate bull stick 110 through turning handle 111 at last, make through-hole and exhaust pipe 107 stagger on bull stick 110 drive spheroid 109, seal exhaust pipe 107, fan 106 can the stop work, the problem of losing after storage box body 101 receives the external force collision to drop from the anesthesia bench easily has been solved.

When the flip cover 102 is taken down from the anesthesia table, the rotating rod 110 is rotated by holding the rotating handle 11, so that the rotating rod 110 drives the sphere 109 to rotate until the through hole of the sphere 109 coincides with the exhaust pipe 107, air can enter the outer cylinder 104 through the through hole of the sphere 109, when the pressure in the outer cylinder 104 is equal to the external pressure, the outer cylinder 104 is not adsorbed on the anesthesia table, and at the moment, the suction cup 112 on the outer cylinder 104 can be taken down from the anesthesia table. The sucking disc 112 is the rubber material, can carry out corresponding deformation according to the surface of anesthesia platform, improves the effect of adsorbing on anesthesia bench, and when sucking disc 112 adsorbs on anesthesia bench, because the material is soft, can not cause the damage to anesthesia bench.

The second embodiment of the present application is:

referring to fig. 3, fig. 3 is a cross-sectional view of a bronchofiberscope storage device according to a first embodiment.

The suction mechanism 103 of the bronchofiberscope housing apparatus of the present embodiment further includes a filter 201.

For the present embodiment, the filter screen 201 is fixedly connected to the inner sidewall of the outer cylinder 104. The filter 201 is used to filter the air entering the exhaust duct 107.

When the air in the outer cylinder 104 is pumped out, the air flows out of the exhaust duct 107 after being filtered by the filter screen 201, so that the exhaust duct 107 is prevented from being blocked by impurities in the air.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims (5)

1. A bronchofiberscope storage device comprises a storage box body and a flip cover, wherein the flip cover is arranged on one side of the storage box body;

urceolus fixed connection in flip keeps away from storage box body's one side, mounting bracket fixed connection in the urceolus inside wall, fan fixed connection in the mounting bracket inside wall, the exhaust pipe runs through the urceolus, the valve component set up in the exhaust pipe inside wall.

2. The bronchofiberscope storage apparatus according to claim 1, wherein the valve assembly comprises a ball and a rotating rod, the ball is disposed on an inner sidewall of the exhaust duct, and the rotating rod is fixedly connected with the ball, rotatably connected with the exhaust duct, and penetrates through the exhaust duct.

3. The bronchofiberscope housing apparatus of claim 2, wherein the valve assembly further comprises a stem fixedly attached to a side of the stem remote from the ball.

4. The bronchofiberscope housing apparatus according to claim 3, wherein the suction mechanism further comprises a suction cup fixedly connected to a side of the outer cylinder away from the flip.

5. The bronchofiberscope housing apparatus according to claim 1, wherein the suction mechanism further comprises a filter screen fixedly attached to an inner sidewall of the outer cylinder.

Images