CN205459945U - It constructs to feed esophagus fixed knot - Google Patents

Abstract

The utility model relates to an it constructs to feed esophagus fixed knot, the body of feeding the esophagus stretches into human interior one end and for stretching into the end, is equipped with an annular setting element in stretching into the end, make to feed the end that stretches into of esophagus and retaining the in -process in human stomach or duodenum, press from both sides with hemostatic clamp through the endoscope technique and establish setting element and stomach or duodenum inner wall, will feed the stretching into in the end is fixed in stomach or duodenum really of esophagus, prevent that this end that stretches into of feeding the esophagus from having the circumstances about shifting of sliding to take place.

Description

Tube feeding fixed structure

Technical field

This utility model is related to a kind of tube feeding fixed structure, refer in particular to a kind of energy be really fixed in human stomach or duodenum by the inserting end of tube feeding with hemostatic clamp by endoscope technology, it is to avoid the tube feeding fixed structure of the inserting end sliding transfer of tube feeding.

Background technology

When sufferer have dysphagia, stupor, mouth neck portion disease or operation etc. cannot voluntarily via oral area feed factor time, if the gastrointestinal function of sufferer is normal, just feeding enteral feeding tube can be carried out via the help of medical personnel or family members, to help sufferer health to obtain institute's calorific requirement and nutrition.

The most common tube feeding, it it is a long elastic body, it is inserted into stomach through esophagus by the nostril of patient, even when patient's stomach digestion is the best, more can tube feeding be inserted at duodenum through stomach, the most so-called feeding enteral feeding tube is that from nasal cavity, tube feeding is inserted gastric, and diet is processed into liquid state, again liquid diet is inputted tube feeding, spoon meat is made to flow at stomach or duodenum via nasal cavity under the guiding of tube feeding, reach the purpose of feed, to allow patient absorb the heat needed for acquisition and nutrition.

Owing to tube feeding belongs to invasive medical device, and the operation that tube feeding is inserted gastric by the nasal cavity of human body is also being had the risk that potential impact is healthy, therefore, after tube feeding being installed in human body, if it is inessential, generally will not take out, to avoid follow-up again plugging and puzzlement in sanitized.Simply, tube feeding, when stretching to stomach or the duodenum of patient, there is no any fixed structure, therefore the situation of sliding transfer the most all it may happen that.

Additionally, the body of tube feeding is in time being stretched in patient's stomach or duodenum by nostril, owing to human internal organs has the narrowest region, as: nasopharynx, cardia, pyloric cap etc., the region that the body of this tube feeding can be the narrowest with human internal organs is made to produce bigger compressing, and therefore feel uncomfortable, even produce repressive mucosa injury, use quite inconvenience.

Furthermore, after tube feeding enters human body, just certain position of its tip cannot be learnt by external world's sensing, and the situation often having tube feeding to be not up to pre-position in inside of human body winding or tip occurs, food i.e. can be allowed to pour in other organs of human body if now carrying out filling food action, causing other state of an illness such as inflammation to produce.

Nowadays, the design people is i.e. to develop this utility model in view of said circumstances, it is provided that a kind of new-type tube feeding fixed structure.

Utility model content

This utility model one purpose, it is to provide a kind of tube feeding fixed structure, inserting end at tube feeding body sets keeper, with by endoscope technology with the stomach of hemostatic clamp sandwiched keeper and human body or duodenum inwall, the inserting end of tube feeding is positioned in stomach or the duodenum of human body, and sliding transfer the most easily.

Its two purpose of this utility model, it is to provide a kind of tube feeding fixed structure, tube feeding is made to be formed with at least one section of protection department in body inserting end in the region (such as: nasopharynx, cardia, pyloric cap etc.) that corresponding human internal organs is the narrowest, to reduce the sense of discomfort of patient, and the damage of compressing mucosa is greatly reduced.

Its three purpose of this utility model, it is to provide a kind of tube feeding fixed structure, inserting end in tube feeding body sets the photosensitive detecting part of metal, so that during tube feeding is inserted into inside of human body, can demonstrate that the photosensitive detecting part of metal positions really by the irradiation of X-ray machine to put, tube feeding is inserted in really pre-position, in addition the inside of the photosensitive detecting part of metal is provided with balancing weight, can ensure that tip is kept hang by gravitational impact, be beneficial to the process carrying out that tube feeding is inserted into inside of human body.

Above-mentioned the purpose of this utility model and effect, be to be reached by following concrete technological means:

A kind of tube feeding fixed structure, it is inserting end that the body of one tube feeding stretches into the one end in human body, being provided with a ring-type keeper in described inserting end, the end of described inserting end is formed with tip, and the periphery of the described inserting end of neighbouring described tip offers more than one through hole；Described keeper is fixed between described tip, or described tip and described through hole, or between the most described through hole.

Tube feeding fixed structure as above, wherein, described tip is round end shape or flat-head shape.

Tube feeding fixed structure as above, wherein, described keeper is one-body molded with described tip.

Tube feeding fixed structure as above, wherein, described inserting end is formed with at least one section of protection department, the nasopharynx of described protection department correspondence human body, cardia, bulboduodenal at least one position.

Tube feeding fixed structure as above, wherein, described protection department is the depression directly formed on described inserting end tube wall.

Tube feeding fixed structure as above, wherein, described recess is coated with overcoat further, the external diameter of the external diameter of described overcoat described recess the most recessed with described inserting end is equal, the tube wall surface of described overcoat described recess the most recessed with described inserting end is a concordant shape, or the maximum outside diameter of described overcoat is more than the external diameter of the most recessed described recess of described inserting end, described overcoat is convex shape, or the minimum outer diameter of described overcoat is less than the external diameter of the most recessed described recess of described inserting end, described overcoat is in a concave shape.

Tube feeding fixed structure as above, wherein, the tip of described inserting end is formed with the photosensitive detecting part of metal that can show in X-ray machine irradiates, and the inside of the photosensitive detecting part of described metal is provided with balancing weight.

Tube feeding fixed structure as above, wherein, the sheathed tip outer rim being coated on described inserting end of the photosensitive detecting part of described metal.

Tube feeding fixed structure as above, wherein, the photosensitive detecting part of described metal is shaped in the tip outer rim of described inserting end, or connects the tip outer rim taking shape in described inserting end.

Tube feeding fixed structure as above, wherein, described inserting end is provided with the metal photosensitive auxiliary detecting part that can show in X-ray machine irradiates.

This utility model sets keeper at the inserting end of tube feeding body, with by endoscope technology with the stomach of hemostatic clamp sandwiched keeper and human body or duodenum inwall, the inserting end of tube feeding is positioned in stomach or the duodenum of human body, and sliding transfer the most easily；Make tube feeding be formed with at least one section of protection department in body inserting end in the region (such as: nasopharynx, cardia, pyloric cap etc.) that corresponding human internal organs is the narrowest simultaneously, to reduce the sense of discomfort of patient, and the damage of compressing mucosa is greatly reduced；And set the photosensitive detecting part of metal, so that during tube feeding is inserted into inside of human body, demonstrating that the photosensitive detecting part of metal positions really by the irradiation of X-ray machine and put, tube feeding is inserted in really pre-position in the inserting end of tube feeding body.

Accompanying drawing explanation

The following drawings is only intended to, in schematically illustrating this utility model and explaining, not limit scope of the present utility model.Wherein,

Fig. 1: this utility model tube feeding overall structure schematic perspective view；

Fig. 2: the first embodiment assembled sectional view of this utility model tube feeding fixed structure；

Second embodiment assembled sectional view of Fig. 3: this utility model tube feeding fixed structure；

Fig. 4: the 3rd embodiment assembled sectional view of this utility model tube feeding fixed structure；

Fig. 5: the 4th embodiment assembled sectional view of this utility model tube feeding fixed structure；

Fig. 6: the 5th embodiment assembled sectional view of this utility model tube feeding fixed structure；

Fig. 7: the sixth embodiment assembled sectional view of this utility model tube feeding fixed structure；

Fig. 8: the 7th embodiment assembled sectional view of this utility model tube feeding fixed structure.

Drawing reference numeral illustrates:

1 body 11 inserting end

111 tip 112 through holes

12 keeper 13 protection departments

131 depressed part 14 overcoats

15 metal photosensitive detecting part 151 metal photosensitive auxiliary detecting parts

152 balancing weights

Detailed description of the invention

Have more completely by the technology contents making this utility model be used, purpose and effect of reaching thereof and clearly disclose, describing detailed description of the invention of the present utility model in detail in conjunction with accompanying drawing:

Refer to shown in Fig. 1, Fig. 2.

Tube feeding of the present utility model includes a body 1, one end of body 1 is to stretch into the inserting end 11 in human body, the end of inserting end 11 forms tip 111, and this tip 111 is in round end shape or flat-head shape, and the peripheral region in neighbouring tip 111 offers more than one through hole 112；It is provided with keeper 12 in the form of a ring in tip 111.

Wherein, Fig. 2 discloses between leading edge and the through hole 112 that keeper 12 is located in tip 111, and Fig. 3, Fig. 4, Fig. 5 disclose and be located between arbitrary two through hole 112, or are directly shaped at the tip 111 of body 1 inserting end 11 (refer to Fig. 6).

Thus, body 1 with tip 111 by nostril insert via esophagus to stomach, even to duodenum time, can utilize endoscope technology, by hemostatic clamp, with stomach or duodenum inwall, the keeper 12 set by body 1 tip 111 is given sandwiched, the inserting end 11 of tube feeding is positively located in stomach or duodenum, it is to avoid produce the situation of sliding transfer.

Please referring back to Fig. 1.In the region that the inserting end 11 correspondence human internal organs of body 1 is the narrowest, as: nasopharynx, cardia, pyloric cap etc. are formed with at least one section of protection department 13, and this protection department 13 directly can be formed with depressed part 131 as shown in Figure 2 on the inserting end 11 of body 1；Even can be further at depressed part 131 outer cladding overcoat 14 (such as Fig. 1), this overcoat 14 is the material that can reduce mucosa compression；Wherein, the external diameter of the external diameter depressed part the most recessed with inserting end 11 131 that Fig. 3 discloses overcoat 14 is equal, and the tube wall surface making overcoat 14 depressed part the most recessed with inserting end 11 131 is a concordant shape；Fig. 4 discloses the maximum outside diameter external diameter more than the most recessed depressed part of inserting end 11 131 of overcoat 14, makes overcoat 14 in convex shape；Fig. 5 then discloses the minimum outer diameter external diameter less than the most recessed depressed part of inserting end 11 131 of overcoat 14, makes overcoat 14 in a concave shape.

Please referring back to Fig. 1.This body 1 is further provided with the photosensitive detecting part of metal 15 at the tip 111 of inserting end 11, and on the inserting end 11 of body 1, set multiple metal photosensitive auxiliary detecting part 151, the photosensitive detecting part of this metal 15 and metal photosensitive auxiliary detecting part 151 are respectively provided with metal photoactive substance, can show in X-ray machine irradiates.Additionally, be provided with balancing weight 152 in the inside of the photosensitive detecting part of metal 15 of tip 111, by the setting of balancing weight 152, can ensure that tip 111 is kept hang by gravitational impact, be beneficial to the process carrying out that tube feeding is inserted into inside of human body.

Wherein, Fig. 7 discloses that the photosensitive detecting part of this metal 15 is sheathed is coated on tip 111 outer rim, and Fig. 8 then discloses the photosensitive detecting part of this metal 15 and forms in tip 111 outer rim, such as: be directly connected in tip 111 front end.So, stomach it is inserted into via esophagus by nostril with tip 111, even to during duodenum at body 1, just can demonstrate that the photosensitive detecting part of metal 15 auxiliary photosensitive with metal detecting part 151 positions really by the irradiation of X-ray machine to put, and the inserting end 11 of body 1 is inserted in pre-position really.

The foregoing is only the schematic detailed description of the invention of this utility model, and be not used to limit scope of the present utility model.Any those skilled in the art, the equivalent variations made on the premise of without departing from principle of the present utility model and design and amendment, protection domain of the present utility model all should be belonged to.

Claims (9)

1. a tube feeding fixed structure, it is characterized in that, it is inserting end that the body of a tube feeding stretches into the one end in human body, is provided with a ring-type keeper in described inserting end, the end of described inserting end is formed with tip, and the periphery of the described inserting end of neighbouring described tip offers more than one through hole；Described keeper is fixed between described tip, or described tip and described through hole, or between the most described through hole.

2. tube feeding fixed structure as claimed in claim 1, it is characterised in that described tip is round end shape or flat-head shape.

3. tube feeding fixed structure as claimed in claim 2, it is characterised in that described keeper is one-body molded with described tip.

4. tube feeding fixed structure as claimed in claim 3, it is characterised in that be formed with at least one section of protection department, the nasopharynx of described protection department correspondence human body, cardia, bulboduodenal at least one position on described inserting end.

5. tube feeding fixed structure as claimed in claim 4, it is characterised in that described protection department is the depression directly formed on described inserting end tube wall.

6. tube feeding fixed structure as claimed in claim 5, it is characterized in that, described recess is coated with overcoat further, the external diameter of the external diameter of described overcoat described recess the most recessed with described inserting end is equal, the tube wall surface of described overcoat described recess the most recessed with described inserting end is a concordant shape, or the maximum outside diameter of described overcoat is more than the external diameter of the most recessed described recess of described inserting end, described overcoat is convex shape, or the minimum outer diameter of described overcoat is less than the external diameter of the most recessed described recess of described inserting end, described overcoat is in a concave shape.

7. tube feeding fixed structure as claimed in claim 6, it is characterised in that described tip is formed with the photosensitive detecting part of metal that can show in X-ray machine irradiates, and the inside of the photosensitive detecting part of described metal is provided with balancing weight.

8. tube feeding fixed structure as claimed in claim 7, it is characterized in that, the photosensitive detecting part of described metal is sheathed is coated on described tip outer rim, or the photosensitive detecting part of described metal is shaped in described tip outer rim, or the connection of described metal photosensitive detecting part takes shape in described tip outer rim.

9. tube feeding fixed structure as claimed in claim 8, it is characterised in that described inserting end is provided with the metal photosensitive auxiliary detecting part that can show in X-ray machine irradiates.