CN115024925A

CN115024925A - Pediatric clinical medicine is with infant isolating device

Info

Publication number: CN115024925A
Application number: CN202210664995.6A
Authority: CN
Inventors: 任丹
Original assignee: Dazhou Vocational And Technical College
Current assignee: Dazhou Vocational And Technical College
Priority date: 2022-06-14
Filing date: 2022-06-14
Publication date: 2022-09-09
Anticipated expiration: 2042-06-14
Also published as: CN115024925B

Abstract

The invention discloses an infant isolation device for pediatrics, which relates to the technical field of infant isolation and comprises an isolation box and a protective cover, wherein the bottom end of the protective cover covers an opening in the upper end of the isolation box, the side wall of the protective cover is clamped with the side wall of a semicircular baffle, a plurality of external holes are formed in the side wall of the semicircular baffle, one end, located inside the protective cover, of a tower-shaped hollow rubber cover is connected with medical rubber gloves, two ends of a supporting box are rotatably arranged inside the isolation box through pin shafts, a rectangular supporting frame is slidably arranged at the upper end of the supporting box, a detachable protective pad is arranged on a supporting plate, and a guide hole capable of slidably guiding out the rectangular supporting frame is formed in the outer wall of the isolation box. When the infant isolation box is cleaned, an infant does not need to be taken out of the isolation box, the protective pad can be directly pulled out of the box, on one hand, cleaning time is short, on the other hand, the infant is ensured to be positioned in the isolation box in the whole process, the infant is not infected by the external environment, and the requirements of normal isolation and nursing of the infant are met.

Description

Pediatric clinical medicine is with infant isolating device

Technical Field

The invention relates to the technical field of infant isolation, in particular to an infant isolation device for pediatric clinical medicine.

Background

The pediatric clinical medicine is a professional comprehensive medical department which is set for various clinical symptoms of children and infants, has strong specialty, after the newborn is born, the newly born newborn is weak in physique due to congenital or other reasons, the resistance of the newborn is far lower than that of adults, the newborn needs to be placed in an isolation protection box for taking care of, the existing isolation protection box for the infants does not have the dismounting function, the infants are easy to get out of bed and full of milk, and the like, if the isolation box is not cleaned or replaced in time, on one hand, the discomfort of the infants is caused, on the other hand, bacteria are easy to breed, the health of the infants is not facilitated, but when the inside of the isolation box is cleaned, the infants need to be taken out of the isolation box, the cleaning needs to consume several minutes, the external environment cannot meet the normal isolation and nursing requirements of the infants, so the infant isolation device for the pediatric clinical medicine is designed, in order to solve the above problems.

Disclosure of Invention

The invention aims to provide an infant isolation device for pediatric clinical medicine, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an infant isolating device for pediatrics medicine, including shielded box and protective cover, shielded box and protective cover are semi-circular structure, the protective cover is transparent toughened glass lid, upper end one side vertical fixation of shielded box is equipped with semi-circular baffle, the bottom lid of protective cover closes at shielded box upper end opening, the lateral wall and the semi-circular baffle lateral wall block of protective cover, and the semi-circular baffle lateral wall is equipped with the semi-circular rubber pad with the laminating of protective cover inner wall, close the bottom lid of protective cover at shielded box upper end opening, the lateral wall of protective cover constitutes and external isolated isolation place relatively with semi-circular baffle lateral wall block simultaneously, use as infant's medical treatment isolation place.

The semicircular baffle lateral wall has been seted up a plurality of and has been connect the hole outward, and the oxygen that needs when being convenient for keep apart the infant and the detection part of health monitoring instrument run through leading-in isolation box through external hole in, ensure to satisfy the normal demand that the infant kept apart.

Two handle holes have been seted up to the protective cover outer wall, and the handle hole internal fixation is equipped with tower type cavity rubber cover, and the tower type cavity rubber cover is located the inside one end of protective cover and is connected with medical rubber gloves, and two medical rubber gloves are convenient for medical personnel's hand and insert to carry out normal medical treatment and life nursing to the infant who is located the isolation place.

The isolation box is internally provided with a supporting mechanism which is used as a supporting piece for the infant in an isolation place consisting of the isolation box and the protective cover, so that the infant can lie on the isolation box conveniently.

The support mechanism comprises a support box with a semicircular structure and a rectangular support frame, two ends of the support box are rotatably arranged in the isolation box through pin shafts, the outer wall of the support box is rotatably attached to the inner wall of the isolation box, the rectangular support frame is slidably arranged at the upper end of the support box, a support plate is fixedly arranged at the bottom end in the rectangular support frame, a detachable protective cushion is arranged on the support plate, when the interior of the isolation box is cleaned, medical workers insert two hands into two medical rubber gloves and lift up infants with bare hands, the support box rotates around the pin shafts, a guide hole capable of slidably guiding out the rectangular support frame is formed in the outer wall of the isolation box, when the rectangular support frame provided with the protective cushion is opposite to the guide hole, the rectangular support frame is in an inclined state, the isolation box can be quickly slid out, a new protective cushion is replaced, the isolation box is plugged into the isolation box through the guide hole and is placed on the support box again, the support box is reversely rotated so that the rectangular support frame provided with the protective cushion is in a horizontal state, need not to embrace the infant from the shielded box and go out, can directly take out the protection pad from the shielded box, clear up weak point consuming time on the one hand, ensure on the other hand that the infant is whole all in the shielded box, can not receive external environment's infection on the other hand, satisfy infant's normal isolation nursing demand.

In further embodiment, the fixed two T type sliders that are equipped with of one end that semicircular baffle was kept away from to the upper end of shielded box, the T type guide way with T type slider slip joint is seted up to the bottom of protective cover, and the protective cover utilizes T type guide way along the T type slider horizontal slip on the shielded box, is convenient for open and closed shielded box, can avoid the protective cover lid to close protective cover edgewise landing after the shielded box upper end simultaneously.

In a further embodiment, a door-type handle is fixedly arranged on the outer wall of the protective cover.

In further embodiment, four corners of the outer wall of the isolation box are perpendicularly and fixedly provided with supporting legs, and the bottom ends of the supporting legs are rotatably provided with brake universal wheels.

In a further embodiment, inverted T-shaped gaps are formed in two sides of the upper end of the supporting box, inverted T-shaped sliders are fixedly arranged on two sides of the bottom end of the rectangular supporting frame, the inverted T-shaped sliders are in sliding clamping connection with the inverted T-shaped gaps, and when the rectangular supporting frame is in an inclined state, the inverted T-shaped sliders slide along the inverted T-shaped gaps to slide out of the guide hole quickly.

In a further embodiment, two circular arc-shaped notches are formed in one side of the upper end of the rectangular supporting frame, when the rectangular supporting frame slides out of the guide hole together with the protective pad, the protective pad can be tilted upwards by medical personnel from the circular arc-shaped notches, and the protective pad can be conveniently and quickly taken out and replaced from the rectangular supporting frame.

In further embodiment, the round pin axle of supporting box wherein one end rotates and extends to the outside of shielded cell, and the fixed driving lever that is equipped with of the radial lateral wall of round pin axle, the tip of driving lever articulates there is the jib, and articulated department is equipped with the torsional spring, the bottom of jib is equipped with the footboard through the connecting rod is fixed, medical personnel steps on the footboard with the foot, through the jib linkage, use the round pin axle to overturn as the center with the driving lever, the synchronous rotation of round pin axle, can drive supporting box at the inside upset of shielded cell, so that the rectangle carriage just to the roll-off with the delivery port, improve the efficiency of changing the protection pad.

In a further embodiment, the outer wall of the semicircular baffle plate is fixedly provided with an external mechanism which is in butt joint with the external hole, and the external mechanism is used for externally connecting an oxygen tube to meet the isolation requirement of the infant.

The external mechanism comprises an external connection pipe, one end of the external connection pipe is fixedly connected with the external connection hole, the external connection pipe is provided with a T-shaped hole communicated with the external connection hole, a T-shaped sealing block is arranged in the T-shaped hole of the external connection pipe in a sliding mode, when the external connection oxygen pipe is needed, the end portion of the oxygen pipe is inserted into the T-shaped hole of the external connection pipe in a rotating mode through a connector, the T-shaped sealing block can be jacked up along the T-shaped hole, in addition, a gap of 0.5-1cm is formed between the outer wall of the T-shaped sealing block and the inner wall of the T-shaped hole, when the T-shaped sealing block is jacked up, oxygen circulation is facilitated by utilizing the gap of 0.5-1cm between the T-shaped sealing block and the T-shaped hole, the oxygen enters the isolation box through the external connection hole, and is used for infants to breathe.

In further embodiment, two symmetric distribution's rectangle breach is seted up to the inner wall in T type hole, the inside one end slope of rectangle breach is equipped with the stainless steel plectrum, the T type has been seted up to the tip lateral wall of T type seal piece and has been stirred the groove, stainless steel plectrum tip extends to the T type and stirs the inslot, and it has the gliding piece of stirring of inslot portion to articulate to have to stir along the T type, when oxygen hose end connection's connector inserted T type is downthehole, can push into two symmetric distribution's stainless steel plectrum inside the rectangle breach that corresponds, the inside in-process of rectangle breach that corresponds is pushed into to the stainless steel plectrum, the piece of stirring of stainless steel plectrum tip can stir inslot portion along the T type and slide, in the rectangle breach is pushed into completely to the stainless steel plectrum, T type seal piece can be pushed up along the downthehole quilt of T type, the circulation of the oxygen of being convenient for like this.

Meanwhile, the outer wall of the connector connected with the end part of the oxygen tube is clamped by rebound potential energy generated by bending when the stainless steel shifting piece is completely pushed into the rectangular notch, so that the stability of inserting the connector connected with the end part of the oxygen tube into the T-shaped hole is enhanced, and the connector is prevented from falling off randomly.

Preferably, the isolation method based on the infant isolation device for pediatric clinical medicine comprises the following steps:

a1, closing the bottom end of the protective cover on the upper end opening of the isolation box, and simultaneously clamping the side wall of the protective cover and the side wall of the semicircular baffle to form an isolation place which is relatively isolated from the external connection, wherein the isolation place is used as an infant medical isolation place;

a2, when clearing up the isolation box inside, medical personnel's both hands insert in two medical rubber gloves, and bare-handed support infant, use the round pin axle to rotate as the center with the supporting box, just right with the delivery port when the rectangle carriage of installing the protection pad, the rectangle carriage is in the state of slope, can the isolation box of roll-off fast, the protection pad of renewing simultaneously, and fill in the isolation box and place on the supporting box through the delivery port once more, the reversal supporting box makes the rectangle carriage of installing the protection pad be in the horizontality, need not to embrace the infant from the isolation box, can directly take out the protection pad from the isolation box, clear up weak point consuming time on the one hand, ensure in addition that the infant is whole all in the isolation box on the one hand, can not receive external environment's infection, satisfy infant's normal isolation nursing demand.

Compared with the prior art, the invention has the beneficial effects that:

the invention relates to an infant isolation device for pediatric clinical medicine, wherein the bottom end of a protective cover is covered on an upper end opening of an isolation box, the side wall of the protective cover is clamped with the side wall of a semicircular baffle plate to form an isolation place which is relatively isolated from external connection, an infant lies on a medical disposable protective pad, oxygen required by the infant during isolation and a detection part of a health monitoring instrument can be conveniently led into the isolation box through an external connection hole, the normal requirement of the infant for isolation can be met, when the interior of the isolation box is cleaned, medical workers insert two hands into two medical rubber gloves and lift the infant by bare hands, a support box rotates by taking a pin shaft as a center until a rectangular support frame provided with the protective pad is opposite to an outlet hole, the rectangular support frame can quickly slide out of the isolation box, a new protective pad can be replaced, and the isolation box is plugged into the isolation box through the outlet hole and placed on the support box again, the rectangle support frame that the reversal supporting box made installing the protection pad is in the horizontality, need not to embrace the infant out from the shielded box, can directly take the protection pad out from the shielded box, clears up weak point consuming time on the one hand, ensures in addition on the one hand that the infant is whole all to be in the shielded box, can not receive external environment's infection, satisfies infant's normal isolation nursing demand.

Drawings

FIG. 1 is an exploded view of the main structure of the present invention;

FIG. 2 is a schematic view of the structure of the isolation box of the present invention;

FIG. 3 is a schematic view of the support box structure of the present invention;

FIG. 4 is an exploded view of the rectangular support frame and protective cushion structure of the present invention;

FIG. 5 is a cross-sectional view of the external mechanism of the present invention;

FIG. 6 is a cross-sectional view of a seal block construction of the present invention;

fig. 7 is a sectional view of a protective cover structure of the present invention.

In the figure: 1. an isolation box; 11. supporting legs; 12. braking the universal wheel; 13. a T-shaped slider; 14. a semicircular baffle; 15. a semicircular rubber pad; 16. an outer connecting hole; 17. a lead-out hole; 2. a protective cover; 21. a tower-shaped hollow rubber cover; 22. a door-shaped handle; 23. a T-shaped guide groove; 24. medical rubber gloves; 3. a support mechanism; 31. a rectangular support frame; 32. a protective pad; 33. a pin shaft; 34. a deflector rod; 35. a boom; 36. a pedal; 37. a support box; 38. inverting the T-shaped notch; 39. a support plate; 310. an inverted T-shaped slider; 4. an external connection mechanism; 41. connecting the outer pipe; 42. a rectangular notch; 43. a T-shaped sealing block; 44. a stainless steel plectrum; 45. and (4) a shifting block.

Detailed Description

The following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, 2, 4 and 7, the embodiment provides an infant isolation device for pediatric clinical medicine, which includes an isolation box 1 and a protection cover 2, wherein a semicircular baffle 14 is vertically fixed on one side of an upper end of the isolation box 1, a bottom end of the protection cover 2 covers an upper opening of the isolation box 1, a side wall of the protection cover 2 is fastened with a side wall of the semicircular baffle 14, a bottom end of the protection cover 2 covers the upper opening of the isolation box 1, and a side wall of the protection cover 2 is fastened with a side wall of the semicircular baffle 14 to form an isolation place relatively isolated from an external connection, so as to be used as an infant medical isolation place.

The lateral wall of the semicircular baffle plate 14 is provided with a plurality of external connection holes 16, oxygen required when the infant is isolated and detection components of the health monitoring instrument can penetrate through the external connection holes 16 and be guided into the isolation box 1, and the normal requirement for isolation of the infant can be met.

Two handle holes have been seted up to protective cover 2 outer wall, and the handle hole internal fixation is equipped with tower type cavity rubber cover 21, and the one end that tower type cavity rubber cover 21 is located protective cover 2 inside is connected with medical rubber gloves 24, and two medical rubber gloves 24 are convenient for medical personnel's hand and are inserted to carry out normal medical treatment and life nursing to the infant that is located the isolation place.

Through set up tower type hollow rubber cover 21 in the handle hole, tower type hollow rubber cover 21 has the elasticity and can be crooked according to the deep direction of medical personnel hand, and the medical personnel of being convenient for go deep into anywhere in keeping apart the place to in turn over or other actions to the infant, satisfy the normal use demand.

The protective cover 2 is made of transparent toughened glass, so that medical staff can observe the state of the infant visually through the protective cover 2 without opening the protective cover 2, and the state of the infant can be mastered conveniently in time.

The isolation box 1 is internally provided with a supporting mechanism 3, and the supporting mechanism 3 is used as a supporting piece for the infant in an isolation place formed by the isolation box 1 and the protective cover 2, so that the infant can lie on the isolation box conveniently.

Supporting mechanism 3 includes semicircular structure's supporting box 37 and rectangle carriage 31, and supporting box 37 both ends are rotated through round pin axle 33 and are set up inside isolation box 1, and supporting box 37 outer wall rotates the laminating with isolation box 1 inner wall, all sets up isolation box 1 and protective cover 2 into semicircular structure, is convenient for supporting box 37 and uses both ends round pin axle 33 to overturn as the center in isolation box 1.

Rectangle carriage 31 slides and sets up in supporting box 37 upper end, and the inside bottom mounting of rectangle carriage 31 is equipped with layer board 39, is equipped with detachable protection pad 32 on the layer board 39, and protection pad 32 is put into rectangle carriage 31, and supports protection pad 32 with layer board 39, avoids dropping, and protection pad 32 is disposable medical protection pad, as the aseptic support piece with infant direct contact, satisfies the comfort level demand when infant keeps apart to lie.

Naturally, the rectangular support frame 31 with the protection pad 32 is arranged at the upper end of the support box 37 and is in a horizontal state, so that the requirement of normal lying of the infant is met.

When the inside of the isolation box 1 is cleaned, the medical staff inserts both hands into the two medical rubber gloves 24 and holds up the infant with bare hands, the supporting box 37 rotates around the pin shaft 33, the outer wall of the isolation box 1 is provided with the guide-out hole 17 capable of sliding out the rectangular supporting frame 31, when the rectangular supporting frame 31 provided with the protective pad 32 is opposite to the guide-out hole 17, the rectangular supporting frame 31 is in an inclined state, the infant can quickly slide out of the isolation box 1, meanwhile, a new protective pad 32 is replaced, the infant is plugged into the isolation box 1 through the guide-out hole 17 and placed on the supporting box 37, the supporting box 37 is reversed to enable the rectangular supporting frame 31 provided with the protective pad 32 to be in a horizontal state, the infant does not need to be taken out of the isolation box 1, the protective pad 32 can be directly drawn out of the isolation box 1, on one hand, short time is consumed for cleaning, on the other hand, the whole course of the infant is ensured to be in the isolation box 1, can not be infected by the external environment, and meets the normal isolation and nursing requirements of infants.

Example two

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 7, a further improvement is made on the basis of embodiment 1:

the side wall of the semicircular baffle plate 14 is provided with a semicircular rubber pad 15 attached to the inner wall of the protective cover 2, the sealing performance of the side wall of the protective cover 2 when being clamped with the side wall of the semicircular baffle plate 14 is enhanced through the semicircular rubber pad 15, and the isolation space is prevented from being communicated with the outside air.

The fixed two T type sliders 13 that are equipped with of one end that semicircular baffle 14 was kept away from to the upper end of shielded box 1, T type guide way 23 with T type slider 13 slip joint is seted up to the bottom of protective cover 2, protective cover 2 utilizes T type guide way 23 along T type slider 13 horizontal slip on shielded box 1, be convenient for open and closed shielded box 1, protective cover 2 edgewise landing after can avoiding protective cover 2 lid to close on shielded box 1 simultaneously.

In addition, a door-shaped handle 22 is fixedly arranged on the outer wall of the protective cover 2, and the door-shaped handle 22 is held by bare hands, so that the protective cover 2 can be conveniently slid along the distribution direction of the T-shaped guide groove 23.

Four equal vertical fixation in corner of outer wall of shielded cell 1 are equipped with supporting leg 11, and the bottom of supporting leg 11 is rotated and is equipped with brake universal wheel 12, soaks the shielded cell 1 through supporting leg 11 to adopt brake universal wheel 12 to remove overall structure according to removing the demand.

Inverted T-shaped notches 38 are formed in two sides of the upper end of the supporting box 37, inverted T-shaped sliders 310 are fixedly arranged on two sides of the bottom end of the rectangular supporting frame 31, the inverted T-shaped sliders 310 are connected with the inverted T-shaped notches 38 in a sliding and clamping mode, and after the rectangular supporting frame 31 is in an inclined state, the inverted T-shaped sliders 310 slide along the inverted T-shaped notches 38 so as to slide out of the guide holes 17 quickly.

When the rectangular support frame 31 is in a horizontal state, the inverted T-shaped slider 310 is in sliding clamping connection with the inverted T-shaped notch 38, the end part of the inverted T-shaped slider 310 abuts against the inner wall of the isolation box 31, and the shaking feeling of the rectangular support frame 31 sliding on the support box 37 in a reciprocating mode can be avoided.

Two circular arc-shaped notches are formed in one side of the upper end of the rectangular supporting frame 31, when the rectangular supporting frame 31 slides out of the guide hole 17 together with the protective pad 32, medical personnel can tilt the protective pad 32 upwards from the circular arc-shaped notches, and the protective pad 32 can be conveniently and quickly taken out of the rectangular supporting frame 31 for replacement.

EXAMPLE III

Referring to fig. 1 and fig. 3, a further improvement is made on the basis of embodiment 2:

in order to turn the supporting box 37 inside the isolation box 1 conveniently, a pin shaft 33 at one end of the supporting box 37 rotates and extends to the outer side of the isolation box 1, a shift lever 34 is fixedly arranged on the radial side wall of the pin shaft 33, a hanging rod 35 is hinged to the end portion of the shift lever 34, a torsion spring is arranged at the hinged position, a pedal 36 is fixedly arranged at the bottom end of the hanging rod 35 through a connecting rod, when medical workers insert two hands into the two medical rubber gloves 24 and lift an infant with bare hands, the medical workers pedal 36 with feet step on the pedal 36, the shift lever 34 is turned over by taking the pin shaft 33 as the center through linkage of the hanging rod 35, the pin shaft 33 rotates synchronously, the supporting box 37 can be driven to turn inside the isolation box 1, so that the rectangular supporting frame 31 and the guide hole 17 can slide out just face to face, and the efficiency of replacing the protecting pad 32 is improved.

Example four

Please refer to fig. 1, fig. 5 and fig. 6, which are further improved based on embodiment 1:

in order to meet more use requirements, an external mechanism 4 in butt joint with an external connection hole 16 is fixedly arranged on the outer wall of the semicircular baffle plate 14, and the external mechanism 4 is used for externally connecting an oxygen tube, so that the isolation requirements of infants are met.

The external mechanism 4 comprises an external connection pipe 41, one end of the external connection pipe 41 is fixedly connected with the external connection hole 16, the external connection pipe 41 is provided with a T-shaped hole communicated with the external connection hole 16, a T-shaped sealing block 43 is arranged inside the T-shaped hole of the external connection pipe 41 in a sliding mode, when an external oxygen pipe is needed, the end of the oxygen pipe is inserted into the T-shaped hole of the external connection pipe 41 through a connector in a rotating mode, the T-shaped sealing block 43 can be jacked up along the T-shaped hole, in addition, a gap of 0.5-1cm is formed between the outer wall of the T-shaped sealing block 43 and the inner wall of the T-shaped hole, when the T-shaped sealing block 43 is jacked up, oxygen circulation is facilitated by utilizing the gap of 0.5-1cm between the T-shaped sealing block 43 and the T-shaped hole, the oxygen flows into the isolation box 1 through the external connection hole 16, and the infant breathes.

In order to enhance the stability of the connector connected with the end of the oxygen tube inserted into the T-shaped hole, the inner wall of the T-shaped hole is provided with two rectangular notches 42 which are symmetrically distributed, one end inside the rectangular notch 42 is obliquely provided with a stainless steel shifting piece 44, the side wall of the end part of the T-shaped sealing block 43 is provided with a T-shaped shifting groove, the end part of the stainless steel shifting piece 44 extends into the T-shaped shifting groove and is hinged with a shifting block 45 which can slide along the inside of the T-shaped shifting groove, when the connector connected with the end of the oxygen tube is inserted into the T-shaped hole, the two stainless steel shifting pieces 44 which are symmetrically distributed can be pushed into the corresponding rectangular notches 42, in the process that the stainless steel shifting piece 44 is pushed into the corresponding rectangular notches 42, the shifting block 45 at the end part of the stainless steel shifting piece 44 can slide along the inside of the T-shaped shifting groove, when the stainless steel shifting piece 44 is completely pushed into the rectangular notch 42, the T-shaped sealing block 43 can be pushed up along the inside the T-shaped hole, this facilitates the circulation of oxygen.

Meanwhile, the outer wall of the connector connected with the end part of the oxygen tube is clamped by the rebound potential energy generated by bending when the stainless steel shifting piece 44 is completely pushed into the rectangular notch 42, so that the stability of inserting the connector connected with the end part of the oxygen tube into the T-shaped hole is enhanced, and the connector is prevented from falling off randomly.

And the T-shaped holes are blocked by the T-shaped sealing blocks 43 in the external connecting pipes 41 which are not connected with the oxygen pipes, so that the inside of the isolation box 1 is prevented from being greatly communicated with external air.

There is some outer connecting hole 16 to run through leading-in shielded box as the testing part of health monitoring instrument and use, does not set up external mechanism 4 to adopt the sealed seam of plugging up of packing, avoid inside and the external air mass flow of shielded box 1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a paediatrics clinical medicine is with infant isolating device, includes shielded box (1) and protective cover (2), shielded box (1) and protective cover (2) are semi-circular structure, protective cover (2) are transparent toughened glass lid, its characterized in that: a semicircular baffle (14) is vertically and fixedly arranged on one side of the upper end of the isolation box (1), the bottom end of the protective cover (2) covers an opening in the upper end of the isolation box (1), the side wall of the protective cover (2) is clamped with the side wall of the semicircular baffle (14), and a semicircular rubber pad (15) attached to the inner wall of the protective cover (2) is arranged on the side wall of the semicircular baffle (14);

the side wall of the semicircular baffle (14) is provided with a plurality of external connecting holes (16);

two operation holes are formed in the outer wall of the protective cover (2), a tower-shaped hollow rubber cover (21) is fixedly arranged in each operation hole, and one end, located inside the protective cover (2), of each tower-shaped hollow rubber cover (21) is connected with a medical rubber glove (24);

the insulation box is characterized in that a supporting mechanism (3) is arranged in the insulation box (1), the supporting mechanism (3) comprises a supporting box (37) with a semicircular structure and a rectangular supporting frame (31), two ends of the supporting box (37) are rotatably arranged in the insulation box (1) through a pin shaft (33), the outer wall of the supporting box (37) is rotatably attached to the inner wall of the insulation box (1), the rectangular supporting frame (31) is slidably arranged at the upper end of the supporting box (37), a supporting plate (39) is fixedly arranged at the bottom end in the rectangular supporting frame (31), and a detachable protective pad (32) is arranged on the supporting plate (39);

the outer wall of the isolation box (1) is provided with a guide-out hole (17) capable of guiding out the rectangular supporting frame (31) in a sliding mode.

2. The pediatric clinical medicine infant isolation device according to claim 1, wherein: the fixed two T type sliders (13) that are equipped with of one end that semicircular baffle (14) were kept away from to the upper end of shielded cell (1), T type guide way (23) with T type slider (13) slip joint are seted up to the bottom of protective cover (2).

3. The pediatric clinical medicine infant isolation device according to claim 1, wherein: the outer wall of the protective cover (2) is fixedly provided with a door-shaped handle (22).

4. The pediatric clinical medicine infant isolation device according to claim 1, wherein: four corners of the outer wall of the isolation box (1) are perpendicularly and fixedly provided with supporting legs (11), and the bottom ends of the supporting legs (11) are rotatably provided with brake universal wheels (12).

5. The pediatric clinical medicine infant isolation device according to claim 1, wherein: inverted T-shaped gaps (38) are formed in the two sides of the upper end of the supporting box (37), inverted T-shaped sliders (310) are fixedly arranged on the two sides of the bottom end of the rectangular supporting frame (31), and the inverted T-shaped sliders (310) are connected with the inverted T-shaped gaps (38) in a sliding mode.

6. The pediatric clinical medicine infant isolation device according to claim 1, wherein: two circular arc-shaped notches are formed in one side of the upper end of the rectangular supporting frame (31).

7. The pediatric clinical medicine infant isolation device according to claim 1, wherein: the supporting box (37) is characterized in that a pin shaft (33) at one end of the supporting box (37) rotates and extends to the outer side of the isolation box (1), a shifting lever (34) is fixedly arranged on the radial side wall of the pin shaft (33), a hanging rod (35) is hinged to the end portion of the shifting lever (34), a torsion spring is arranged at the hinged position, and a pedal (36) is fixedly arranged at the bottom end of the hanging rod (35) through a connecting rod.

8. The pediatric clinical medicine infant isolation device according to claim 1, wherein: the outer wall of the semicircular baffle plate (14) is fixedly provided with an external mechanism (4) which is in butt joint with an external connecting hole (16);

the external mechanism (4) comprises an external connecting pipe (41), one end of the external connecting pipe (41) is fixedly connected with the external connecting hole (16), the external connecting pipe (41) is provided with a T-shaped hole communicated with the external connecting hole (16), and a T-shaped sealing block (43) is arranged inside the T-shaped hole of the external connecting pipe (41) in a sliding mode;

and a gap of 0.5-1cm is formed between the outer wall of the T-shaped sealing block (43) and the inner wall of the T-shaped hole.

9. The pediatric clinical medicine infant isolation device according to claim 8, wherein: two symmetric distribution's rectangle breach (42) are seted up to the inner wall in T type hole, the inside one end slope of rectangle breach (42) is equipped with stainless steel plectrum (44), the T type has been seted up to the tip lateral wall of T type sealed piece (43) and has been stirred the groove, stainless steel plectrum (44) tip extends to the T type and stirs the inslot, and articulated have can stir gliding group moving block (45) of inslot portion along the T type.

10. A method of isolating an infant isolation apparatus for pediatrics, which comprises the step of using the infant isolation apparatus for pediatrics of claim 1, comprising:

a1, closing the bottom end of the protective cover (2) to an opening at the upper end of the isolation box (1), and simultaneously clamping the side wall of the protective cover (2) and the side wall of the semicircular baffle (14) to form an isolation place which is relatively isolated from external connection, wherein the isolation place is used as an infant medical isolation place;

a2, when cleaning the inside of the isolation box (1), a medical worker inserts two hands into two medical rubber gloves (24) and holds up an infant with bare hands, the supporting box (37) rotates around a pin shaft (33), when the rectangular supporting frame (31) provided with the protective pad (32) is right opposite to the guide hole (17), the rectangular supporting frame (31) is in an inclined state, the isolation box (1) can be quickly slid out, a new protective pad (32) is replaced, the rectangular supporting frame (31) provided with the protective pad (32) is plugged into the isolation box (1) through the guide hole (17) and placed on the supporting box (37), the supporting box (37) is reversed to enable the rectangular supporting frame (31) provided with the protective pad (32) to be in a horizontal state, the infant does not need to be taken out of the isolation box (1), the protective pad (32) can be directly pulled out of the isolation box (1), on one hand, the time consumed for cleaning is short, on the other hand, the whole course of the infant is ensured to be in the isolation box (1), can not be infected by the external environment, and meets the normal isolation and nursing requirements of infants.