CN211609706U - Endoscope host machine with built-in suction pump - Google Patents

Abstract

The utility model provides an endoscope host computer of built-in suction pump locates endoscope technical field, and it includes quick-witted case, still including locating quick-witted incasement and the suction pump that is connected with quick-witted case, the connecting pipe that one end and suction pump are connected locates the connecting pipe free end and is used for the joint that is connected with the sewage box. With attracting the pump integration in the host computer for when the field, for example field hospital, perhaps outdoor medical field of building temporarily, the connector on the accessible sewage box and external pipeline high-speed joint attract the pump and form a whole with the host computer, portable and quick travel.

Description

Endoscope host machine with built-in suction pump

Technical Field

The utility model relates to the technical field of medical endoscopes, in particular to an endoscope host machine with a suction pump arranged therein.

Background

The medical endoscope is commonly used in places such as medical places, water for flushing a part to be detected is injected into a human body according to needs in the process of examining a patient so as to collect clearer images, blood is often generated after the part to be detected is sampled, the blood needs to be sucked out through a suction pump in order to not influence the detection effect, and at present, the suction pump and an endoscope host are separately arranged in a fixed examination place of a hospital so as to meet the examination requirements of the endoscope; however, if the endoscope main unit and the suction pump are used in the field or other emergency rescue places and need to be moved at any time, the endoscope main unit and the suction pump which are separately arranged are difficult to carry, and are inconvenient to use.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an endoscope host machine with a built-in suction pump.

In order to achieve the above object, the utility model adopts the following technical scheme: the endoscope host machine with the built-in suction pump comprises a case, the suction pump, a connecting pipe and a joint, wherein the suction pump is arranged in the case and connected with the case, one end of the connecting pipe is connected with the suction pump, and the joint is arranged at the free end of the connecting pipe and used for being connected with a sewage box. With attracting the pump integration in the host computer for when the field, for example field hospital, perhaps outdoor medical field of building temporarily, the connector on the accessible sewage box and external pipeline high-speed joint attract the pump and form a whole with the host computer, portable and quick travel.

Preferably, the sewage box is located outside one end of the case, a through hole for the free end of the connecting pipe to pass through is formed in an end plate of the end of the case, and the joint is located outside the case.

Preferably, a damping bracket fixedly arranged on the chassis bottom plate is further arranged in the chassis, and the suction pump is connected with the chassis bottom plate and is positioned in the damping bracket.

Preferably, the shock absorption support comprises a door-shaped stand frame, an inner side stand frame and an upper transverse plate for connecting the door-shaped stand frame and the inner side stand frame, and the door-shaped stand frame, the inner side stand frame and the upper transverse plate are integrally formed.

One end of the suction pump is positioned in the door-shaped vertical frame, and the other end of the suction pump is positioned in the inner side vertical frame.

The door-shaped vertical frame comprises two first vertical plates which are parallel to each other, and a first transverse plate, wherein two ends of the first transverse plate are fixedly connected with the upper ends of the two first vertical plates respectively; and the outer surfaces of the lower ends of the two first vertical plates are respectively provided with a first connecting plate which is vertical to the first vertical plates and is fixedly connected with the chassis bottom plate.

The two ends of the first baffle are respectively fixedly connected with the outer side surfaces of the two first vertical plates, and the first baffle is vertical to the two first vertical plates; the first baffle is positioned outside one end part of the suction pump.

The first vertical plate, the first transverse plate, the first connecting plate and the first baffle are integrally formed.

Preferably, the inner side vertical frame is formed by integrally molding a second bottom plate, two second vertical plates vertically arranged on the second bottom plate and an upper arc-shaped plate.

The two ends of the second baffle are vertically connected with the outer side surfaces of the two second vertical plates, and the second baffle and the inner vertical frame are integrally formed; the second baffle is positioned at the outer side of the other end part of the suction pump.

The joints of the second bottom plate and the lower ends of the two second vertical plates extend outwards respectively to form two second connecting plates, and the second connecting plates are fixedly connected with the chassis bottom plate.

The suction pump is characterized by also comprising four damping connecting columns made of flexible materials, wherein the damping connecting columns are respectively and vertically connected with a suction pump bottom plate and a case bottom plate of the suction pump; the bottom plate of the suction pump is not contacted with the bottom plate of the case.

The shock absorption connecting column is formed by integrally molding a lower cone, a lower connecting column, a supporting column, an upper connecting column, an upper cone and an upper column body; the supporting columns are positioned between the lower connecting columns and the upper connecting columns, and the diameters of the supporting columns are larger than those of the lower connecting columns and the upper connecting columns; the diameter of one end of the lower cone body connected with the lower connecting column is larger than that of the lower connecting column; the diameter of the end of the upper cone body connected with the upper connecting column is larger than that of the upper connecting column.

The lower connecting column is arranged in the through hole of the chassis bottom plate in a penetrating manner, the upper connecting column is arranged in the through hole of the suction pump bottom plate in a penetrating manner, and the supporting column is positioned between the suction pump bottom plate and the chassis bottom plate; the thickness of the bottom plate of the machine box is smaller than the height of the lower connecting column, and the thickness of the bottom plate of the suction pump is smaller than the height of the upper connecting column.

The upper cone body is positioned above the suction pump bottom plate, and the lower cone body is positioned outside the chassis bottom plate.

The suction pump is further provided with a drain pipe, and the free end of the drain pipe penetrates through the bottom plate of the case and then is positioned outside the case.

The sewage box is provided with a quick connector which is connected with a pipeline for extracting waste liquid in a human body.

The joint comprises an outer cylinder fixedly connected with the free end of the connecting pipe and a hollow plug-in joint which is arranged in the outer cylinder and is coaxial with the outer cylinder; the sewage box is provided with an inserting cylinder which is detachably connected with the hollow inserting connector, and the inserting cylinder is communicated with the inside of the sewage box; after the hollow plug is combined with the plug cylinder, the plug cylinder is positioned in the outer cylinder body.

The beneficial technical effects are as follows: the suction pump is integrated in the case, is used in the field, such as a field hospital or an outdoor temporarily-built medical place, and can be quickly connected with a pipeline for extracting waste liquid in a human body through a quick connector on the sewage box; meanwhile, the suction pump is fixed in the case by adopting the damping bracket and the damping connecting column, so that vibration and noise generated when the suction pump works can be eliminated, and the influence of the built-in suction pump on the host is reduced; compare with the mode that current host computer and suction pump components of a whole that can function independently set up, the utility model discloses a suction pump forms a whole with the host computer, portable and quick travel, convenient to use.

Drawings

FIG. 1 is a schematic perspective view of the main body of the present invention with the upper cover removed;

FIG. 2 is a front view of the suction pump of the present invention in an assembled state;

fig. 3 is a first perspective view of the suction pump of the present invention in an assembled state;

fig. 4 is a second perspective view of the suction pump of the present invention in an assembled state;

fig. 5 is a first exploded view of the structure of the present invention connected to a suction pump;

fig. 6 is a second exploded view of the structure of the present invention connected to a suction pump;

FIG. 7 is a partial exploded view of the present invention;

FIG. 8 is a perspective view of the shock absorbing connecting column of the present invention;

FIG. 9 is a schematic view of the connection between the connection pipe and the sewage box of the present invention;

FIG. 10 is a cross-sectional view A-A of FIG. 9;

fig. 11 is a partially enlarged view of fig. 10.

Detailed Description

In order to make the technical field better understand the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and embodiments.

As shown in fig. 1 to 8, the endoscope host with a built-in suction pump of the present embodiment includes a case 1, a suction pump 3 disposed in the case 1 and connected to the case, a connection tube 4 having one end connected to the suction pump, and a connector 6 disposed at a free end of the connection tube and connected to a sewage box 5.

When the endoscope works, water is injected into a human body as required to wash an endoscope lens or a part to be detected, waste liquid polluted by body fluid or blood can be generated in the process, the sewage box is arranged to collect the waste liquid, and the sewage box is taken down and discarded after being filled with the waste liquid.

In this embodiment, the sewage box 5 is located outside one end of the housing 1, a through hole 101a for passing the free end of the connection pipe 4 is provided in an end plate 101 at the end of the housing 1, and the joint 6 is located outside the housing 1. Here, the sewage box may be detachably connected to the housing, or may be directly disposed outside the end of the housing 1 and connected to the suction pump through the connection pipe 4. Certainly, the sewage box 5 can also be arranged in the case, and the sewage box 5 is fixed by adopting a common buckle connection mode, for example, a buckle connection structure of a notebook battery and a notebook is adopted.

In order to limit and fix the suction pump 3, a shock absorption bracket fixedly arranged on the chassis base plate 102 is further arranged in the chassis 1, and the suction pump 3 is connected with the chassis base plate 102 and is positioned in the shock absorption bracket.

In this embodiment, the shock absorbing bracket includes a door-shaped stand 7, an inner stand 8 and an upper cross plate 9 for connecting the two, and the door-shaped stand 7, the inner stand 8 and the upper cross plate 9 are integrally formed.

One end of the suction pump 3 is positioned in the door-shaped stand frame, and the other end is positioned in the inner side stand frame.

The door-shaped vertical frame 7 comprises two first vertical plates 701 which are parallel to each other, and first transverse plates 702 of which the two ends are fixedly connected with the upper ends of the two first vertical plates respectively; the outer surfaces of the lower ends of the two first vertical plates are respectively provided with a first connecting plate 703 which is perpendicular to the first vertical plates and is fixedly connected with the first vertical plates, and the first connecting plates 703 are fixedly connected with the bottom plate of the case. With this configuration, the suction pump 3 is restricted by the two first vertical plates 701 on both sides of the end portion provided in the gate bracket 7, and the end portion of the suction pump 3 is prevented from coming off the gate bracket.

In order to prevent one end part of the suction pump 3 arranged in the door-shaped support 7 from being separated from the door-shaped support 7 along the axial direction of the suction pump 3, the suction pump further comprises a first baffle plate 704, wherein two ends of the first baffle plate are respectively fixedly connected with the outer side surfaces of the two first vertical plates 701, and the first baffle plate is perpendicular to the two first vertical plates 701; the first baffle 704 is located outside one end of the suction pump 3. The inner wall of the first baffle 704 is in contact with or not in contact with the suction pump 3.

For convenience of processing, the first vertical plate 701, the first horizontal plate 702, the first connecting plate 703 and the first baffle 704 are integrally formed.

The inner vertical frame 8 for placing the other end of the suction pump 3 is formed by integrally molding a second bottom plate 801, two second vertical plates 802 vertically arranged on the second bottom plate and an upper arc plate 803.

In order to prevent one end part of the suction pump 3 arranged in the inner vertical frame 8 from being separated from the inner vertical frame 8 along the axial direction of the suction pump 3, the suction pump further comprises a second baffle 804, two ends of the second baffle are vertically connected with the outer side surfaces of the two second vertical plates 802, and the second baffle 804 and the inner vertical frame 8 are integrally formed; the second baffle 804 is located outside the other end of the suction pump 3.

The joints of the second bottom plate 801 and the lower ends of the two second vertical plates 802 extend outward to form two second connecting plates 805, and the second connecting plates 805 are fixedly connected with the chassis bottom plate 102.

As can be seen from the above description, the damping bracket is not directly connected to the suction pump 3, and only the two first vertical plates 701 and the second vertical plates 802 limit the side surfaces of the two end portions of the suction pump 3, and the first baffle 704 and the second baffle 804 limit the two end portions of the suction pump 3 in the axial direction.

In order to realize the connection between the suction pump 3 and the chassis base plate 102, the vacuum cleaner further comprises four shock absorption connecting columns 10 made of flexible materials, wherein the shock absorption connecting columns 10 are respectively and vertically connected with the suction pump base plate 301 of the suction pump 3 and the chassis base plate 102; the suction pump base plate 301 is not in contact with the casing base plate 102.

In this embodiment, the shock absorbing connecting column 10 is formed by integrally molding a lower cone 1001, a lower connecting column 1002, a supporting column 1003, an upper connecting column 1004, an upper cone 1005 and an upper column 1006; the supporting column 1003 is positioned between the lower connecting column 1002 and the upper connecting column 1004, and the diameter of the supporting column 1003 is larger than that of the lower connecting column 1002 and that of the upper connecting column 1004; the diameter of one end of the lower cone 1001 connected with the lower connecting column 1002 is larger than that of the lower connecting column 1002; the diameter of the end of the upper cone 1005 that connects to the upper connecting post 1004 is larger than the diameter of the upper connecting post 1004. Thus, an annular groove is formed between the inferior vertebral body 1001 and the support column 1003, and an annular groove is also formed between the support column 1003 and the superior vertebral body 1005.

The lower connecting column 1002 is arranged in a through hole of the chassis bottom plate 102 in a penetrating manner, the upper connecting column 1004 is arranged in a through hole of the suction pump bottom plate 301 in a penetrating manner, and the supporting column 1003 is positioned between the suction pump bottom plate 301 and the chassis bottom plate 102; therefore, the suction pump 3 can be arranged on the case bottom plate 102 in a suspension mode through the damping connecting column 10, when the suction pump 3 works, generated vibration is transmitted to the damping connecting column 10 to be buffered until the vibration disappears, noise is prevented from being generated, and the influence on the main machine caused by the fact that the suction pump 3 is arranged in the main machine case 1 is eliminated. The thickness of the chassis base plate 102 is smaller than the height of the lower connecting column 1002, and the thickness of the suction pump base plate 301 is smaller than the height of the upper connecting column 1004.

The diameters of the through hole arranged in the chassis bottom plate 102 and the through hole arranged in the suction pump bottom plate 301 are respectively slightly larger than the diameters of the lower connecting column 1002 and the upper connecting column 1004, but are respectively smaller than the diameter of the supporting column 1003, the diameter of one end of the lower cone 1001 connected with the lower connecting column 1002, and the diameter of one end of the upper cone 1005 connected with the upper connecting column 1004, so that the shock absorption connecting column 10 can be prevented from being separated from the chassis bottom plate 102 and the suction pump bottom plate 301.

After the shock absorption connecting column 10 is assembled with the chassis base plate 102 and the suction pump base plate 301, the upper cone 1005 is located above the suction pump base plate 301, and the lower cone 1001 is located outside the chassis base plate 102.

In the present embodiment, four shock absorption connection columns 10 are adopted, but for those skilled in the art, more than two four shock absorption connection columns 10 are adopted and installed at a suitable position of the suction pump 3, so that the suction pump 3 is in a stable state, for example, more than three shock absorption connection columns 10 are adopted, and the obtained effect is basically the same as that of the four shock absorption connection columns 10.

The suction pump 3 is further provided with a drain pipe 11, and the free end of the drain pipe 11 passes through the chassis bottom plate 102 and is located outside the chassis 1.

Suction pump 3 generally adopts the vacuum pump, it is connected with sewage box 5, after starting, to sewage box 5 evacuation, form the negative pressure in sewage box, and then make and form the pressure differential between sewage box 5 and the human inner chamber, thereby extract sewage box 5 with the waste liquid, collect the back full when the waste liquid in sewage box 5, safety switch (the liquid level switch who often adopts in the sewage box of current product promptly) in sewage box 5 became invalid, the waste liquid gets into the suction pump through the connecting pipe, need be outside standby tube discharge machine case 1 this moment, prevent that the waste liquid from getting into quick-witted case 1 and corroding the host computer, drain pipe 11 here is a stand-by tube promptly, when the waste liquid flows back to suction pump 3 in, then discharge through drain pipe 11.

The sewage box 5 is provided with a quick connector 12 connected with a pipeline for extracting waste liquid in a human body.

As shown in fig. 9-11, in order to realize the quick connection between the sewage box 5 and the host machine, so as to install and remove the sewage box, the joint 6 comprises an outer cylinder 601 fixedly connected with the free end of the connecting pipe, and a hollow plug-in connector 602 arranged in the outer cylinder 601 and coaxial with the outer cylinder 601, i.e. the outer cylinder 601 and the hollow plug-in connector 602 are coaxially arranged; the sewage box is provided with an insertion cylinder 501 which is detachably connected with the hollow insertion connector 602, and the insertion cylinder 501 is communicated with the interior of the sewage box 5; after the hollow plug is combined with the plug cylinder, the plug cylinder is positioned in the outer cylinder body. The hollow spigot 602 takes the general shape of a pagoda joint.

The suction pump 3 is integrated in the case 1, is used in field, such as field hospitals or outdoor temporarily-built medical places, and can be quickly connected with a pipeline for extracting waste liquid in a human body through the quick connector 12 on the sewage box 5; meanwhile, the suction pump is fixed in the case 1 by adopting the damping bracket and the damping connecting column 10, so that vibration and noise generated when the suction pump 3 works can be eliminated, and the influence of the built-in suction pump 3 on a host machine is reduced; compare with the mode that current host computer and 3 components of a whole that can function independently of suction pump set up, the utility model discloses a whole, portable and quick travel, convenient to use are formed with the host computer to suction pump 3.

In the above description, it should be noted that the terms "mounted," "connected," and "connected" are used in a broad sense, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection may be direct or indirect via an intermediate medium, and the connection may be internal to the two components.

Although the present invention has been described in terms of embodiments, those skilled in the art will recognize that there are numerous variations and modifications of the present invention without departing from the spirit of the invention, and it is intended that the appended claims encompass such variations and modifications without departing from the spirit of the invention.

Claims (18)

1. The endoscope host machine with the built-in suction pump comprises a case and is characterized by further comprising the suction pump, a connecting pipe and a connector, wherein the suction pump is arranged in the case and connected with the case, one end of the connecting pipe is connected with the suction pump, and the connector is arranged at the free end of the connecting pipe and used for being connected with a sewage box.

2. The main unit of an endoscope with a built-in suction pump as set forth in claim 1, wherein the sewage box is provided outside an end portion of the housing, a through hole for passing a free end of the connection pipe is provided in an end plate of the end portion of the housing, and the joint is provided outside the housing.

3. The endoscope host with built-in suction pump of claim 1, wherein a shock absorption bracket fixed on the chassis bottom plate is further arranged in the chassis, and the suction pump is connected with the chassis bottom plate and is positioned in the shock absorption bracket.

4. The main unit of an endoscope with a built-in suction pump as set forth in claim 3, wherein the shock-absorbing support comprises a door-shaped stand, an inner-side stand and an upper cross plate for connecting the two, and the door-shaped stand, the inner-side stand and the upper cross plate are integrally formed.

5. The main unit of an endoscope with a built-in suction pump as set forth in claim 4, wherein one end of the suction pump is positioned in the gate-type stand and the other end is positioned in the inner stand.

6. The main endoscope machine with the built-in suction pump according to claim 4 or 5, wherein the door-shaped stand comprises two first vertical plates parallel to each other, and a first transverse plate fixedly connected with the upper ends of the two first vertical plates at two ends respectively; and the outer surfaces of the lower ends of the two first vertical plates are respectively provided with a first connecting plate which is vertical to the first vertical plates and is fixedly connected with the chassis bottom plate.

7. The main endoscope unit with the built-in suction pump of claim 6, further comprising a first baffle, wherein two ends of the first baffle are respectively fixedly connected with the outer side surfaces of the two first vertical plates, and the first baffle is perpendicular to the two first vertical plates; the first baffle is positioned outside one end part of the suction pump.

8. The main unit of an endoscope with a built-in suction pump of claim 7, wherein the first vertical plate, the first horizontal plate, the first connecting plate and the first baffle plate are integrally formed.

9. The main endoscope unit with built-in suction pump according to claim 4 or 5, wherein the inner stand is formed by integrally molding a second bottom plate, two second vertical plates vertically disposed on the second bottom plate, and an upper arc-shaped plate.

10. The main endoscope unit with built-in suction pump of claim 9, further comprising a second baffle, wherein two ends of the second baffle are vertically connected to the outer side surfaces of the two second vertical plates, and the second baffle is integrally formed with the inner vertical frame; the second baffle is positioned at the outer side of the other end part of the suction pump.

11. The main unit of an endoscope with a built-in suction pump as claimed in claim 9, wherein the joints of the second bottom plate and the lower ends of the two second vertical plates extend outward to form two second connecting plates, and the second connecting plates are fixedly connected with the bottom plate of the housing.

12. The main endoscope unit with built-in suction pump of claim 1, further comprising four shock-absorbing connecting columns made of flexible material, wherein the shock-absorbing connecting columns are respectively and vertically connected with a suction pump bottom plate and a case bottom plate of the suction pump; the bottom plate of the suction pump is not contacted with the bottom plate of the case.

13. The endoscope host with built-in suction pump of claim 12, wherein the shock absorption connecting column is formed by integrally molding a lower cone, a lower connecting column, a supporting column, an upper connecting column, an upper cone and an upper column; the supporting columns are positioned between the lower connecting columns and the upper connecting columns, and the diameters of the supporting columns are larger than those of the lower connecting columns and the upper connecting columns; the diameter of one end of the lower cone body connected with the lower connecting column is larger than that of the lower connecting column; the diameter of the end of the upper cone body connected with the upper connecting column is larger than that of the upper connecting column.

14. The endoscope host with built-in suction pump of claim 13, wherein the lower connecting column is inserted into the through hole of the chassis base plate, the upper connecting column is inserted into the through hole of the suction pump base plate, and the supporting column is positioned between the suction pump base plate and the chassis base plate; the thickness of the bottom plate of the machine box is smaller than the height of the lower connecting column, and the thickness of the bottom plate of the suction pump is smaller than the height of the upper connecting column.

15. The endoscope host with built-in suction pump of claim 13, wherein the upper cone body is located above the suction pump bottom plate, and the lower cone body is located outside the chassis bottom plate.

16. The endoscope main unit with the built-in suction pump as claimed in claim 1, wherein the suction pump is further provided with a drainage pipe, and the free end of the drainage pipe passes through the bottom plate of the case and is positioned outside the case.

17. The main unit of an endoscope with a built-in suction pump as described in claim 1, wherein said sewage box is provided with a quick coupling for connecting to a tube for extracting waste liquid from a human body.

18. The main endoscope unit with built-in suction pump of claim 2, wherein the connector comprises an outer cylinder fixedly connected with the free end of the connecting tube, a hollow plug connector arranged in the outer cylinder and coaxial with the outer cylinder; the sewage box is provided with an inserting cylinder which is detachably connected with the hollow inserting connector, and the inserting cylinder is communicated with the inside of the sewage box; after the hollow plug is combined with the plug cylinder, the plug cylinder is positioned in the outer cylinder body.

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