CN217658251U - Medical rescue vest with modularized rescue pocket for search and rescue of astronaut - Google Patents

Abstract

The utility model relates to a medical rescue technical field specifically is a astronaut searches for ands rescue and uses medical rescue vest with modularization rescue pocket. The rescue waistcoat comprises a left front waistcoat, a right front waistcoat and a back; the left front waistcoat comprises a matrix, a memory emulsion layer and nylon fiber cloth, and the proportion of the matrix, the memory emulsion layer and the nylon fiber cloth is 3-6; the conductive fiber, the metal liquid pipe and the resistor form an anti-static protective layer; the modularized rescue pockets are arranged on the left front waistcoat and the right front waistcoat respectively, each modularized rescue pocket comprises a main diagnosis rescue pocket, a cooperative treatment rescue pocket, a treatment rescue pocket and a monitoring rescue pocket, and the main diagnosis rescue pocket and the cooperative treatment rescue pocket have the same structure and comprise a bag body and an elastic belt; the treatment rescue pocket and the monitoring rescue pocket have the same structure and comprise a bag body, an elastic belt and a buffer device, wherein the inner cavity of the bag body is divided into a plurality of module cavities by the elastic belt. The utility model discloses a categorised assembly goods and materials of modularization has solved the difficult problem that the rescue equipment degree of difficulty is big of taking, has improved the high efficiency of astronaut's search and rescue treatment flow operation.

Description

Medical rescue vest with modularized rescue pocket for search and rescue of astronaut

Technical Field

The utility model relates to an astronaut searches for ands rescue, rescue vest technical field, concretely relates to astronaut searches for ands rescue with medical rescue vest with modularization rescue pocket.

Background

The Gansu spring aerospace launch site desert Gobi bears the long-term high-density aerospace launch tasks, the five to eleven manned aerospace launch tasks and the duty support tasks of the manned aerospace secondary landfields, the duty mission is expanded along with the construction starting of space station engineering, the duty support tasks of the main landfield and the rear hospital are transferred, and the 6 months from 1 month to 2021 month in 2019 are actively explored.

In the prior art, aerospace launch mission rescue support places are all in relatively fixed areas such as a launch station tower, a filling test plant and the like, the ground is flat and direct, personnel can easily carry out rescue, and carrying rescue equipment adopts an army medical backpack, a hygienist backpack and a medical service rescue box. The manned space launching task launching system ensures that a search and rescue place in a waiting section is in a Gobi desert around 4 kilometers near a launching station, a ground vehicle-mounted rescue system is generally started, a spaceman rescue vehicle is used for searching and rescuing, road conditions are bumpy, partial areas of vehicles cannot pass through, and rescuers need to carry forward to rescue.

In the prior art, the landing field system has large pre-point ranges of emergency return and normal return in on-orbit operation for a long time, the landing points are generally in open deserts, gobi beaches, grass lakes, saline-alkali lands, reed lands and the like, the airborne helicopter is mainly used for searching and rescuing, the ground vehicle-mounted rescue is used as an auxiliary, and the helicopters and astronauts can not directly descend under partial conditions, so that rescuers are required to carry the system to go ahead for rescuing. Particularly, the helicopter has high speed of reaching the pre-pointing, and some landforms, deserts, reed fields and the like can not directly descend and only need rescue personnel to ask for the ground for rescue when hovering in the air. The problems put higher requirements on carrying rescue equipment, and the military medical backpack, the hygienist backpack and the medical service and rescue box are large in size, large in material, heavy in weight and high in carrying difficulty for women of nursing staff; furthermore, in the prior art, the astronaut search and rescue medical group is not assembled before rescue, and the carried medical materials are mixed, so that time and labor are wasted, and the time is delayed.

Moreover, the landing field of the astronaut is dry all the year round, the traditional waistcoat of the search and rescue medical staff is greatly influenced by static electricity, and various circuit detection devices and carried medical devices returned to the cabin by the astronaut can be adversely influenced in the rescue process; moreover, the waistcoat of the tooling in the prior art has larger volume and cannot be suitable for hot and hot weather and running conditions when spacemen land for search and rescue; the vest material carrying of the tool in the prior art cannot achieve accurate medical material modules, scientific material and post collocation, reasonable rescue division, easy and tidy installation, busy and untidy treatment, and further cannot achieve scientific and efficient treatment process operation.

SUMMERY OF THE UTILITY MODEL

The utility model provides a medical rescue vest for search and rescue of astronaut with modularization rescue pocket to solve the above-mentioned technical problem who takes the line rescue equipment degree of difficulty big, categorised rescue apparatus unreasonable, can't accomplish reasonable efficient treatment flow operation of existence.

The utility model discloses a medical rescue vest for astronaut search and rescue with modularization rescue pocket adopts following technical scheme:

a medical rescue vest with a modularized rescue pocket for search and rescue of astronauts comprises a rescue vest, wherein a light-resistant agent protective layer is further arranged on the outer side of the rescue vest, the rescue vest comprises a left front vest, a right front vest and a back, which are symmetrically arranged, and the height of the back is half of that of the left front vest; the tops of the left front waistcoat and the right front waistcoat are connected through a neck strap, so that neck adjustment of different wearing persons can be realized; the top ends of the left front waistcoat and the right front waistcoat cross the shoulder parts and are connected with the back through two symmetrically arranged adjusting straps to realize the height adjustment of different wearers; anti-skid wear-resistant pads are arranged at the positions of the left front waistcoat and the right front waistcoat corresponding to the shoulders;

the left front vest comprises a substrate, a memory emulsion layer arranged outside the substrate and nylon fiber cloth arranged outside the memory emulsion layer, and the thickness ratio of the three is (3-6); the nylon fiber cloth comprises conductive fibers and nylon fibers which are distributed in a warp-weft staggered manner; the conductive fiber forms an antistatic protective layer; the side surface of the left front waistcoat is connected with the back through a connecting rope arranged by staggered perforating leads, and the tightness adjustment is realized through a pressing buckle arranged on the connecting rope; the right front waistcoat and the left front waistcoat have the same structure;

modular rescue pockets are arranged on the left front waistcoat and the right front waistcoat, and the modular rescue pockets and the rescue waistcoats are fastened through a connecting structure and the multipoint position of the waistcoat is adjusted; the modularized rescue pocket comprises a main-diagnosis rescue pocket, a assistant-treatment rescue pocket, a treatment rescue pocket and a monitoring rescue pocket, wherein the main-diagnosis rescue pocket comprises a bag body, a plurality of elastic belts which are arranged in the bag body and vertically distributed, and a buffer device which is arranged in the bag body and used for protecting the buffering and shock absorption of medical equipment, and the inner cavity of the bag body is divided into at least two module cavities used for containing rescue instruments by the plurality of elastic belts; the portable equipment can be classified, fastened and installed, and the assistant treatment rescue pocket, the monitoring rescue pocket and the main diagnosis rescue pocket have the same structure.

Preferably, the main diagnosis and rescue pocket comprises a wound detection and hemostasis pocket for clamping and embedding a wound detection and hemostasis tool and a communication finger-connecting pocket for clamping and embedding a Beidou navigation and positioning terminal and an air-ground same-frequency interphone; the inner wall of the main-diagnosis rescue pocket is also provided with a Beidou navigation positioning terminal, and the assistant treatment rescue pocket comprises a first-aid bandaging pocket for classifying and mounting first-aid bandage articles and a first-aid fixing pocket for classifying and mounting rescue splints; the treatment rescue pocket comprises an emergency transfusion pocket for installing an emergency transfusion tool and an emergency medicine pocket for installing an emergency medicine box and an injector; the monitoring rescue pocket comprises a first-aid monitoring pocket for classifying and installing rescue monitoring equipment and a first-aid oxygen pocket for classifying and installing oxygen supply equipment.

Further preferably, the connection structure comprises a hanging strap arranged on the rescue vest and a lead strap arranged on the modular rescue pocket; the hanging belts are four-by-three array groups which are uniformly distributed in the transverse direction and are distributed at equal intervals in the vertical direction, so that the positions of different wearing persons can be adjusted, two ends of each hanging belt are sewn and fixed with the rescue waistcoat, and a gap of 4 cm is reserved between the middle part of each hanging belt and the rescue waistcoat; the two lead belts are symmetrically arranged, one end of one lead belt is fixedly connected with the upper part of the modular rescue pocket, the other end of the lead belt penetrates through the two corresponding hanging belts which are distributed up and down and are adjacent to each other to be fixedly connected with the fastening device arranged at the lower part of the modular rescue pocket, one end of the other lead belt is fixedly connected with the lower part of the modular rescue pocket, and the other end of the lead belt penetrates through the two corresponding hanging belts which are distributed up and down and are adjacent to each other to be fixedly connected with the fastening device arranged at the upper part of the modular rescue pocket; the connecting structure further comprises a powerful magnet female block fixedly installed on one side, corresponding to the rescue vest, of the modularized rescue pocket and a powerful magnet sub-block movably arranged on the inner side wall of the rescue vest, the powerful magnet sub-block and the powerful magnet female block are installed in a matched mode, and the fastening device is any one of a hook, a snap fastener, an elastic latch and a backpack buckle.

Preferably, the buffer device comprises a rubber block arranged in the bag body, and the rubber block is of a rectangular frame structure and does not interfere with the elastic belt; a sponge plate which is matched with the classified medical equipment structure is also arranged in the module cavity; the top end of the rubber block is provided with a rubber cover plate, the bottom of the rubber block is provided with a rubber bottom plate, the bottom of the bag body is provided with a hard plastic bottom plate and a plurality of pressure springs which are arranged on the hard plastic bottom plate and are uniformly distributed, and the rubber bottom plate is horizontally placed on the pressure springs in an initial state; and the rubber cover plate is connected and fastened with the rubber block through a buckle, the upper end of the modularized rescue pocket is fastened with the outer side surface of the bag body through a magic tape, and double fastening effects are achieved.

Preferably, the inner side walls of the modularized rescue pocket are coated with a high-molecular polyurethane coating waterproof layer, and the bag body of the modularized rescue pocket is mainly made of a hydrophobic chemical combination material and nylon fibers in a mixing mode.

Preferably, the nape area includes the fixed band and sets up the telescopic band in the fixed band both sides, and the fixed band transversely extends and distributes, the telescopic band of fixed band both sides is connected fixedly with left front vest and right front vest respectively, and the length ratio of telescopic band and fixed band is 1.

Preferably, the adjusting straps comprise adjusting straps and connecting straps arranged at two ends of the adjusting straps, the upper ends of the adjusting straps are fixedly connected with the left front waistcoat through the upper connecting straps, and the lower ends of the adjusting straps are connected with the back through elastic buckles connected with the lower connecting straps to realize height adjustment; the adjusting straps of the right front waistcoat and the adjusting straps of the left front waistcoat have the same structure; the front of left front vest and right front vest is connected through a plurality of elasticity buckles of vertical interval distribution, and the thin size personnel's of the different fat body of being convenient for dress is adjusted, and under the state of finishing of dressing, leaves the clearance between the front of left front vest and right front vest for the health heat dissipation.

Further preferably, all be provided with a plurality of bleeder vents of evenly distributed on the inside wall of left front vest, right front vest and back, and all be provided with the elasticity boundary belt between the trailing flank bottom of left front vest, right front vest and the back, realize different waistline size personnel's the guarantee of dressing.

As a preferable technical scheme, the substrate is made of an ultra-light material with certain plasticity.

The utility model has the advantages that:

1. the utility model discloses a set up three split type vest and constitute the structure, especially, adopt the back of fritter structure, and connect left front vest and right front vest through setting up adjustable neck area, the uncomfortable difficult problem of neck when having solved different size medical personnel and dressing, and realize the connection of two front vests and backs through adjusting the braces, the high demand of dressing of different height size medical personnel is adjusted, this wearing equipment's practicality has been improved, the unable unified difficult problem of all medical personnel of being suitable for of traditional frock vest has been solved, further position department that corresponds the shoulder at left front vest and right front vest sets up anti-skidding wear pad, this wearing equipment's travelling comfort has been improved, and it is connected through the connection rope of crisscross perforation lead wire to set up between left front vest side and the back, and realize the elasticity regulation through the buckle of pressing on connecting the rope, the problem of wearing clothes under the unique hot summer-heat environment of having solved different thin medical personnel's waistlines regulation and dressing under the spaceman landing field is comfortable, the comfortable degree of the rescue of the suit of the comfortable degree of the rescue of the improvement is improved.

2. The utility model realizes the wearing comfort and the heat dissipation and ventilation property of the vest body structure under the special structure by arranging the left front vest comprising the inner base body, the memory emulsion layer of the middle layer and the nylon fiber cloth at the outermost side and arranging the ventilation holes at the inner side of the vest; the matrix is made of an ultra-light material with certain plasticity, and practices prove that the thickness proportion of the matrix to the matrix is further set to be 3-6.2; conductive fibers and nylon fibers which are distributed in a warp-weft staggered manner are arranged in the nylon fiber cloth, the conductive fibers form an anti-static protective layer, and specifically, the wire fibers are of a first layer of static absorption protective structure; the influence of static electricity on the human body and medical rescue equipment is avoided.

3. The utility model discloses a set up modularization rescue pocket to divide into the main diagnosis rescue pocket that main doctor carried with modularization rescue pocket, the cooperation rescue pocket that cooperation doctor carried, the treatment rescue pocket that treatment nurse carried and the monitoring rescue pocket that monitoring nurse carried, realized fixed role post, module distribution material, solve personnel's division of labor, the indefinite problem of material distribution, and then improved the high efficiency and the security of medical treatment search and rescue frontier rescue; the personnel are organized and configured according to the medical service support manpower, and each group of personnel is organized and configured for two medical services and two medical services, because the number of the astronaut service support objects is fixed, the rescue post and the function are scientifically and reasonably assigned for division of labor on the basis of accurate and quantitative distribution of materials, the rescue post, the rescue station and the module rescue pocket are clearly assigned at the front of the manned medical service support treatment, and the treatment work is efficient, reasonable and ordered.

4. The utility model divides the inner cavity of the bag body of the modularized rescue pocket into at least two module cavities for holding rescue instruments by arranging a plurality of elastic belts; the wound detection hemostasis tool required for carrying is embedded and installed in the wound detection hemostasis pocket of the main diagnosis rescue pocket through an elastic belt; and particularly, the first-aid treatment and rescue pocket is divided into a first-aid binding pocket and a first-aid fixing pocket; the treatment and rescue pockets are divided into first-aid transfusion pockets and first-aid medicine pockets; the monitoring and rescuing pockets are divided into an emergency monitoring pocket and an emergency oxygen pocket; the front edge of the rescue personnel is carried, all materials are quantitatively backed up and are respectively loaded in rescue module pockets of corresponding categories, the front surfaces of the modularized rescue pockets are adhered with marks of corresponding pocket names through magic tapes, then the modularized rescue pockets are fixed on the left side and the right side of a waistcoat to be carried through fastening devices, different medical personnel can carry out proper position adjustment according to body types, the load carried by two shoulders of two hands is reasonably liberated, the problems that the people are carried with more materials, large materials, heavy materials and the like when the people are carried with light weight, carried with rope, run and the like in quick passing are solved, the extension and treatment front edge of the rescue materials is realized, where people arrive in a cabin, and the problem that the materials are accurately loaded and rescued on the spot is solved.

5. The utility model discloses a have the communication of big dipper navigation positioning terminal and unite and indicate the pocket at the main doctor's of mainly consulting the doctor, be convenient for the main doctor of consulting to take the team to move ahead with aerial machine, the vehicle-mounted three-dimensional joint search and rescue system of ground unites indicates (location communication) search and rescue astronauts, and support hospital real time communication astronaut's state of an illness and institute with the rear and receive and prepare etc. it lands to be convenient for medical personnel accurate efficient to reach the astronaut, solved the search problem of the gobi beach of 4 kilometers left and right sides near the astronaut landing, shortened search and rescue time; through setting up buffer, to the protection of the medicine liquid medicine etc. that monitoring devices (hardware) and the monitoring rescue pocket that the monitoring nurse carried are carried for the treatment rescue that the treatment nurse carried, solved and carried medical supplies and rocked easy broken problem by a wide margin, improved the security of this rescue vest.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

FIG. 1 is a front view of a medical rescue vest with a modular rescue pocket for search and rescue of astronauts according to the present invention;

FIG. 2 is a rear view of a medical rescue vest with a modular rescue pocket for search and rescue of astronauts according to the present invention;

FIG. 3 is a cross-sectional view of the left front vest of the medical rescue vest with the modular rescue pocket for the search and rescue of astronauts according to the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 3;

FIG. 5 is an enlarged view of the portion B of FIG. 3;

FIG. 6 is a schematic view of a nylon fiber cloth of a medical rescue vest with a modularized rescue pocket for search and rescue of astronauts;

FIG. 7 is a perspective view of a modular rescue pocket of a medical rescue vest for search and rescue of astronauts with the modular rescue pocket of the present invention;

FIG. 8 is a top view of FIG. 7;

FIG. 9 is a cross-sectional view of the structure of FIG. 8 taken along line C-C;

FIG. 10 is an enlarged view of the structure of the portion D in FIG. 9;

FIG. 11 is a first view showing a first usage state of a medical rescue vest with a modular rescue pocket for search and rescue of astronauts;

FIG. 12 is a second view showing the use status of the medical rescue vest with the modular rescue pocket for search and rescue of astronauts;

fig. 13 the utility model discloses a medical rescue vest for search and rescue of astronaut with modularization rescue pocket use state diagram three

Fig. 14 is a fourth usage state diagram of the medical rescue vest with the modularized rescue pocket for searching and rescuing astronauts.

In the figure: 1-rescue waistcoat, 11-left front waistcoat, 111-base body, 112-memory emulsion layer, 113-nylon fiber cloth, 114-conductive fiber, 115-nylon fiber, 12-right front waistcoat, 13-back, 14-neckband, 141-fixing band, 142-telescopic band, 15-adjusting back band, 151-adjusting band, 152-connecting band, 153-elastic buckle, 16-antiskid wear pad, 17-connecting rope, 18-pressing buckle, 19-air vent, 2-modular rescue pocket, 21-main rescue pocket, 211-wound-inspection hemostasis pocket, 212-communication finger pocket, 22-cooperative rescue pocket, 221-first-aid pocket, 222-first-aid fixing pocket, 23-treatment pocket, 231-first-emergency infusion, 232-medicine pocket, 24-monitoring rescue pocket, 241-first-aid monitoring pocket, 242-oxygen pocket, 25-coating waterproof layer, 3-bag body, 4-elastic band, 5-module cavity, 6-buffer device, 61-rubber block, 62-cover plate, 62-rubber cover plate, 63-rubber cover plate, 65-hard rubber cover plate, 81-elastic plate, 81-magnet-strong magnet-elastic band-base plate, 85-elastic band, 21-magnet-plastic-elastic band, 21-communication belt, 2-auxiliary band, and strong magnet-plastic bag.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The utility model discloses an astronaut searches for ands rescue with medical rescue vest with modularization rescue pocket embodiment, as shown in fig. 1 to 14:

the utility model provides a astronaut searches for ands rescue with medical rescue vest with modularization rescue pocket, includes rescue vest 1, and still is equipped with light-fast agent protective layer in the outside of rescue vest 1, adopts polymer light-fast agent material spraying to be used for preventing the vest from fading in the outside of vest, weakens the strong amazing influence of illumination in northwest arid area, and then improves the life of rescue vest. The rescue vest 1 comprises three parts, namely a left front vest 11, a right front vest 12 and a back 13 which are symmetrically arranged, and the height of the back 13 is half of that of the left front vest 11. As shown in fig. 2, the right front vest 12 has a structure with a high front part and a high rear part, and the rear part of the right front vest 12 corresponding to the rear part 13 has a height identical to that of the rear part 13, and the left front vest 11 and the right front vest 12 have the same structure. Through setting up three split type vest component structure, especially adopt the back of fritter structure, solved medical personnel and carried the uncomfortable problem of dress under the peculiar dry and hot environment of astronaut landing field.

Adopt wearing area of contact still less, under the firm prerequisite of guaranteeing to dress, guaranteed good thermal diffusivity. The tops of the left front vest 11 and the right front vest 12 are connected through a neck strap 14, so that neck adjustment of different wearers can be realized. The neck strap 14 includes a fixing strap 141 and an expansion strap 142 disposed on both sides of the fixing strap 141, the expansion strap 142 on both sides of the fixing strap 141 is connected and fixed with the left front vest 11 and the right front vest 12, and the length ratio of the expansion strap 142 to the fixing strap 141 is 1. The problem of the uncomfortable difficult problem of neck when having solved different size medical personnel and dressing, the medical personnel neck friction injured problem that traditional frock vest size can't be adjusted and cause has specifically been solved.

The top ends of the left front waistcoat 11 and the right front waistcoat 12 cross the shoulders and are connected with the back 13 through two symmetrically arranged adjusting straps 15 to realize the height adjustment of different wearers; by arranging the structure of the small back 13 and adjusting the connection of the back strap 15. Liberation the large tracts of land contact extrusion of medical personnel back, under the prerequisite of guaranteeing to stabilize, improved travelling comfort and thermal diffusivity. The adjusting straps 15 comprise adjusting straps 151 and connecting straps 152 arranged at two ends of the adjusting straps 151, the adjusting straps 151 are elastic straps, the upper ends of the adjusting straps 15 are fixedly connected with the left front waistcoat 11 through the upper connecting straps 152, and the lower ends of the adjusting straps 15 are connected with the back 13 through elastic buckles 153 connected with the lower connecting straps 152 to realize height adjustment.

The adjusting straps 15 of the right front vest 12 are of the same construction as the adjusting straps 15 of the left front vest 11. The front of left front vest 11 and right front vest 12 is connected through a plurality of elasticity buckles 153 of vertical interval distribution, and under the state of finishing of wearing, leaves the clearance between the front of left front vest 11 and right front vest 12 for human heat dissipation. Anti-skid wear-resistant pads 16 are also arranged at the positions of the left front waistcoat 11 and the right front waistcoat 12 corresponding to the shoulders. A plurality of air holes 19 which are uniformly distributed are formed in the inner side walls of the left front waistcoat 11, the right front waistcoat 12 and the back 13, and the air holes 19 are formed in the inner side of the waistcoat. Realized wearing travelling comfort and the heat dissipation gas permeability of vest body structure under the special construction, and all be provided with elastic protection area 7 between the trailing flank bottom of left front vest 11, right front vest 12 and back 13, realized different size waistline personnel's wearing guarantee.

So set up, solved the unable unified difficult problem of all medical personnel of being suitable for of traditional frock vest, further set up anti-skidding wear pad 16 in the position department that left front vest 11 and right front vest 12 correspond the shoulder, improved this wearing equipment's travelling comfort. And the side surface of the left front waistcoat 11 is connected with the back 13 through a connecting rope 17 with staggered perforating leads, and the tightness adjustment is realized through a pressing buckle 18 arranged on the connecting rope 17. The problem of different fat and thin size medical personnel's waistline regulation and carry under the special hot and hot summer heat environment of astronaut landing field and dress uncomfortable is solved, also solved the problem that the astronaut search and rescue medical team treatment frontier barrier-free extension, people dress in the prior art are not unified simultaneously, improved the comfortable degree and the medical rescue value of this wearing equipment.

As shown in fig. 3-6: the left front vest 11 comprises a base body 111, a memory emulsion layer 112 arranged outside the base body 111 and nylon fiber cloth 113 arranged outside the memory emulsion layer 112, and the thickness ratio of the base body to the latex layer is 3-6. The base 111 is made of an ultra-light material with certain plasticity, and the nylon fiber cloth 113 comprises conductive fibers 114 and nylon fibers 115 which are distributed in a warp-weft staggered manner inside. The conductive fibers 114 form an antistatic protective layer. The side surface of the left front vest 11 is connected with the back 13 through a connecting rope 17 which is arranged by staggered perforation leads. And the tightness adjustment is realized by a pressing buckle 18 arranged on the connecting rope 17. The right front vest 12 and the left front vest 11 are identical in structure. The influence of static electricity on the human body and medical rescue equipment is avoided.

In this embodiment, the base 111 is made of an ultra-light material with certain shaping property, and the thickness ratio of the base to the base is further set to be 3-6. The rescue vest 1 is prevented from crumpling and collapsing, and good appearance shaping performance is kept. The nylon fiber cloth 113 is internally provided with conductive fibers 114 and nylon fibers 115 which are distributed in a warp-weft staggered manner.

In this embodiment, as shown in fig. 7-10: the modularized rescue pockets 2 are arranged on the left front waistcoat 11 and the right front waistcoat 12, and the position adjustment of different users can be realized. The inner side wall of the modularized rescue pocket 2 and the outer side of the rescue vest 1 are coated with a high-molecular polyurethane coating waterproof layer 25, and the bag body 3 of the modularized rescue pocket 2 is mainly made of a hydrophobic chemical compound material and nylon fibers 115 in a mixed mode. The modular rescue pocket 2 comprises a main-visit rescue pocket 21, a cooperative rescue pocket 22, a treatment rescue pocket 23 and a monitoring rescue pocket 24, the main-visit rescue pocket 21 comprising a pocket body 3, a plurality of elastic bands 4 disposed within the pocket body 3 and distributed vertically, and a buffer device 6 disposed within the pocket body 3 and used for protecting medical equipment. The plurality of elastic belts 4 divide the inner cavity of the bag body 3 into at least two module cavities 5 for containing rescue instruments; the structures of the assistant rescue pocket 22, the treatment rescue pocket 23, and the monitoring rescue pocket 24 are the same as those of the main diagnosis rescue pocket 21.

In this embodiment, as shown in fig. 11: the main-diagnosis rescue pocket 21 comprises a wound detection hemostasis pocket 211 for clamping and mounting a wound detection hemostasis tool and a communication finger-connecting pocket 212 for clamping and mounting a Beidou navigation positioning terminal and an air-ground same-frequency interphone. The communication finger-connecting pocket can be arranged at the right hand side position of the front of the vest, namely the left side in fig. 11, and also can be arranged at the upper part of the right side of the front and positioned at the positions of the lower part of the shoulder and the upper right chest, so that the communication equipment can be conveniently taken out; the system is convenient for the main doctor to move forward with a team, and the main doctor can search and rescue astronauts in association with an airborne and ground vehicle-mounted three-dimensional combined search and rescue system (positioning communication), and can communicate the conditions of the astronauts in real time with a rear support hospital and receive preparation for rescue and treatment in the hospital.

Meanwhile, medical staff can accurately and efficiently arrive at the landing destination of the astronaut, the problem of searching for the Gobi desert in a range of about 4 kilometers near the landing of the astronaut is solved, and the search and rescue time is shortened. As shown in fig. 12: the coordinate care pocket 22 includes a first aid dressing pocket 221 for sorting and installing first aid bandage articles and a first aid fixing pocket 222 for sorting and installing a rescue splint. As shown in fig. 13: the treatment rescue pocket 23 includes an emergency transfusion pocket 231 for mounting an emergency transfusion kit and an emergency medicine pocket 232 for mounting an emergency medicine cassette and a syringe. As shown in fig. 14: the monitoring rescue pocket 24 includes a rescue monitoring pocket 241 for classified installation of rescue monitoring equipment and a rescue oxygen pocket 242 for classified installation of oxygen supply equipment; the treatment and rescue pocket 23 includes an emergency transfusion pocket 231 and an emergency medicine pocket 232.

In the present embodiment, the modular rescue pockets 2 are provided, and the modular rescue pockets 2 are divided into a main treatment rescue pocket 21 carried by a main treatment physician, a cooperative treatment rescue pocket 22 carried by a cooperative treatment physician, a treatment rescue pocket 23 carried by a treatment nurse, and a monitoring rescue pocket 24 carried by a monitoring nurse. The role fixing station and module distribution materials are realized, the problems of labor division of personnel and unclear material distribution are solved, and the efficiency and the safety of treatment at the front of medical search and rescue are further improved. The method is characterized in that the personnel are organized and configured according to medical service support manpower, and each group of the personnel can carry out two medical services and two medical services, because the number of the personnel to be ensured by the astronauts is fixed, rescue posts and division of functions are scientifically and reasonably determined on the basis of accurate quantitative distribution of materials, and particularly, a main doctor carrying relevant medical equipment stands at the right position of the head of the astronauts to manage and use a breathing machine.

The monitoring nurse carries the monitoring equipment to be positioned at the head left position of the astronaut, and manages and uses the defibrillation monitor. The treatment nurse station with the infusion bag and the medicine bag is positioned at the right foot of the astronaut; a treating physician carries a first-aid bandaging and clamping tool to be positioned at the left foot of the astronaut, and manages and uses the aspirator; the rescue role post, the rescue station position and the module rescue pocket are clearly distributed at the front of the manned spaceflight service support rescue, and the rescue vest is pasted with the corresponding rescue personnel post. The modular rescue pocket is pasted with a corresponding pocket name, so that the modular rescue pocket is convenient to take, identify, classify, maintain and store; the treatment work is standard, efficient, reasonable and orderly.

In the embodiment, the plurality of elastic belts 4 divide the inner cavity of the bag body 3 of the modular rescue pocket 2 into at least two module cavities 5 for containing rescue instruments; manned navigation sky guards service rescue frontier medical care position role division of labour and modularization rescue pocket material configuration, specifically are:

the wound detection hemostatic pocket 211 is internally provided with wound detection hemostatic tools required by carrying in a clamping and embedding way through an elastic belt 4; the module cavity 5 of the wound-detecting hemostatic pocket 211 is internally provided with: (1) 1 stethoscope is used; (2) 1 pupil pen; (3) 1 flashlight is arranged; (4) 2 spinning tourniquets, and (5) thoracentesis suit;

the module cavity 5 of the communication finger pocket 212 is internally provided with: (1) a Beidou navigation positioning terminal; (2) a Haoneda interphone; (3) an iridium satellite phone;

the module cavity 5 of the first-aid dressing pocket 221 is internally provided with: (1) the first-aid bandaging bag is large and 1 bag; (2) the first-aid bandaging bag is small, 1 bag; (3) 1 first-aid hemostatic bandage;

the module cavity 5 of the first-aid fixing pocket 222 is internally provided with: (1) roll-type splint, 2 rolls; (2) 2 self-adhesive bandages;

the module cavity 5 of the first-aid transfusion pocket 231 is respectively provided with: (1) 3 infusion sets; (2) 3 indwelling needles; (3) 2 three-way pipes are arranged; (4) 1 tourniquet; (5) a marrow cavity puncture transfusion set 1;

the module cavity 5 of the first-aid medicine pocket 232 is internally provided with: (1) 7 emergency injury control first-aid medicines and 3 liquids; (2) 3 syringes, 5, 10 ml each; (3) gauze piece, 2 bags; (4) a sharp instrument box 1;

the module cavity 5 of the first-aid monitoring pocket 241 is internally provided with: (1) 1 wrist sphygmomanometer; (2) 1 pulse oximeter, 1; (3) one each of the pupil pen, the ball-point pen and the recording sheet;

the module cavity 5 in the emergency oxygen pocket 242 is respectively provided with: (1) two groups of oropharynx breather pipes, masks, nasal catheters and trachea cannula are respectively arranged; (2) 1 bottle is full of 10 liters of oxygen, wherein the oxygen can be arranged in a modular pocket and then hung and fixed on a waistcoat; the bag can be carried in a mode of being carried on shoulders alone after being fixed by the inner cavity of the modularized pocket.

In this embodiment, the rescue personnel forward position is taken, all goods and materials ration backup and split charging are in corresponding categorised modularization rescue pocket 2, modularization rescue pocket 2 openly glues the categorised sign of corresponding pocket name through the magic subsides, the management of being convenient for, then fix through connection structure and take in the vest left and right sides, and different medical personnel can carry out suitable adjusting position according to the size, rationally liberated both hands both shoulders carry and carry the heavy burden, solved that people adorn lightly to carry and go, cable falls, when running etc. is quick current, carry the many, big, obstacle problem such as heavy, realized rescue goods and materials extension treatment forward position, where the people of cabin whereabouts the thing goes, the accurate problem of carrying on the spot of thing dress.

In this embodiment, as shown in fig. 9-10: the buffer device 6 comprises a rubber block 61 arranged in the bag body 3, the rubber block 61 is of a rectangular frame structure, and the elastic belt is arranged in a gap space of the frame to ensure that the rubber block 61 and the elastic belt 4 are not interfered with each other; a sponge plate 62 which is matched with the structure of the classified medical equipment is arranged in the module cavity 5, and corresponding clamping grooves are arranged according to the shapes of different medical instruments or detection equipment, so that the carrying safety of medical rescue equipment, bottled liquid medicine and plastic medicine is ensured; the top of the rubber block 61 is provided with a rubber cover plate 63, the bottom of the rubber block is provided with a rubber bottom plate 64, and the bottom of the bag body 3 is provided with a hard plastic bottom plate 65 and a plurality of pressure springs 66 which are uniformly distributed on the hard plastic bottom plate 65.

In an initial state, the rubber bottom plate 64 is horizontally placed on the pressure spring 66; the rubber cover plate 63 and the rubber block 61 are connected and fastened through a buckle, the upper end of the modularized rescue pocket is the cover surface of the pocket, and the modularized rescue pocket is fastened through a magic tape or a buckle and the outer side surface of the bag body 3, so that double protection fastening is realized; through setting up buffer 6, the protection of the medicine liquid medicine etc. that monitoring rescue pocket carried to the treatment that the nurse carried and the monitoring rescue monitoring facilities (hardware) and monitoring nurse carried, it rocks easy broken problem to have solved and carry medical supplies by a wide margin, through setting up the double-deck mounting structure of pocket, and set up a plurality of pressure springs 66 in the bottom, rock the buffering for when realizing running, the rubber slab all adopts flexible rubber material to make, guarantee certain elasticity, the problem of carrying medical supplies and rocking or tumble damage by a wide margin has been solved, the security of this modularization rescue pocket has been improved.

In this embodiment, as shown in fig. 3: the modularized rescue pocket 2 and the rescue vest 1 are connected through a connecting structure 8 to realize the fastening of the modularized rescue pocket and the rescue vest 1 and the adjustment of the multi-point position on the vest, and the connecting structure 8 comprises a hanging belt 81 arranged on the rescue vest 1 and a lead belt 82 arranged on the modularized rescue pocket 2; the hanging belts 81 are four-by-three array groups which are uniformly distributed in the transverse direction and are uniformly distributed in the vertical direction at equal intervals, so that the positions of different wearing personnel can be adjusted, medical workers with different body types and heights can adjust according to proper requirements and comfort levels, and the uniform and tidy working appearance of the wearing clothes is ensured; two ends of the single hanging belt 81 are sewn and fixed with the rescue waistcoat 1, and a gap is reserved between the middle part of the single hanging belt and the rescue waistcoat 1; not only the fastening effect of connecting between the two is realized, but also the convenience of the position adjustment of the rescue vest for hanging and placing medical materials of the wearable device is improved.

In this embodiment, as shown in fig. 7: the two lead belts 82 are symmetrically arranged, one end of one lead belt 82 is fixedly connected with the upper part of the modularized rescue pocket 2, the other end of the lead belt passes through the two corresponding hanging belts 81 which are distributed up and down and are adjacent to each other and is fixedly connected with the fastening device 83 arranged at the lower part of the modularized rescue pocket 2, one end of the other lead belt 82 is fixedly connected with the lower part of the modularized rescue pocket 2, the other end of the lead belt passes through the two corresponding hanging belts 81 which are distributed up and down and are adjacent to each other and is fixedly connected with the fastening device 83 arranged at the upper part of the modularized rescue pocket 2, and the fastening device 83 is any one of a hook, a snap fastener, an elastic buckle and a backpack buckle; the stress uniformity of the modular pocket is ensured by arranging the connecting fixing points which are diagonally distributed from top to bottom.

In this embodiment, as shown in fig. 4: the connecting structure 8 also comprises a powerful magnet mother block 84 fixedly arranged on one side of the modularized rescue pocket 2 corresponding to the rescue vest 1 and a powerful magnet sub-block 85 movably arranged on the inner side wall of the rescue vest 1, wherein the powerful magnet sub-block 85 is matched with the powerful magnet mother block 84, and further, the connecting stability between the modularized rescue pocket and the rescue vest is greatly improved by arranging the powerful magnet mother blocks which are mutually adsorbed; because the goods and materials that modularization rescue pocket carried are more, and the gravity of modularization rescue pocket is dragged great, and at the current in-process of searching for and rescuing astronaut running, modularization rescue pocket rocks great, and the phenomenon that medical material was thrown away can appear sometimes, in this embodiment, sets up one or more powerful magnet piece and adsorbs, has alleviateed rocking of modularization rescue pocket, has further guaranteed the security of medical material or equipment.

The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a astronaut searches for ands rescue with medical rescue vest with modularization rescue pocket which characterized in that: the rescue waistcoat comprises a rescue waistcoat (1), wherein a light-resistant agent protective layer is arranged on the outer side of the rescue waistcoat (1), the rescue waistcoat (1) comprises a left front waistcoat (11), a right front waistcoat (12) and a back (13) which are symmetrically arranged, and the height of the back (13) is half of that of the left front waistcoat (11); the tops of the left front waistcoat (11) and the right front waistcoat (12) are connected through a neck belt (14) to realize the adjustment of necks of different wearers; the top ends of the left front waistcoat (11) and the right front waistcoat (12) cross the shoulders and are connected with the back (13) through two symmetrically arranged adjusting straps (15) to realize the height adjustment of different wearers;

the left front waistcoat (11) comprises a base body (111), a memory emulsion layer (112) arranged on the outer side of the base body (111) and nylon fiber cloth (113) arranged on the outer side of the memory emulsion layer (112), and the thickness ratio of the base body to the latex layer is 3-6; the nylon fiber cloth (113) comprises conductive fibers (114) and nylon fibers (115) which are distributed in a warp-weft staggered manner; the conductive fibers (114) form an antistatic protective layer; the side surface of the left front waistcoat (11) is connected with the back (13) through a connecting rope (17) which is arranged by staggered perforation leads, and the tightness adjustment is realized through a pressing buckle (18) arranged on the connecting rope (17); the right front waistcoat (12) and the left front waistcoat (11) have the same structure;

modular rescue pockets (2) are respectively arranged on the left front waistcoat (11) and the right front waistcoat (12), and the modular rescue pockets (2) and the rescue waistcoat (1) are fastened and multipoint position adjustment of the waistcoat is realized through a connecting structure (8); the modularized rescue pocket (2) comprises a main-diagnosis rescue pocket (21), a assistant-treatment rescue pocket (22), a treatment rescue pocket (23) and a monitoring rescue pocket (24), the main-diagnosis rescue pocket (21) comprises a bag body (3), a plurality of elastic belts (4) which are arranged in the bag body (3) and vertically distributed, and a buffer device (6) which is arranged in the bag body (3) and used for buffering and damping medical equipment, and the inner cavity of the bag body (3) is divided into at least two module cavities (5) used for containing rescue equipment by the elastic belts (4); the cooperative treatment rescue pocket (22), the treatment rescue pocket (23) and the monitoring rescue pocket (24) have the same structure as the main diagnosis rescue pocket (21).

2. The medical rescue vest with the modular rescue pocket for the search and rescue of astronauts according to claim 1, wherein: the main diagnosis rescue pocket (21) comprises a wound detection hemostasis pocket (211) used for clamping and embedding a wound detection hemostasis tool and a communication finger-connecting pocket (212) used for clamping and embedding a Beidou navigation positioning terminal and an air-ground same-frequency interphone; the assistant rescue pocket (22) comprises a first aid dressing pocket (221) for classifying and installing first aid bandage articles and a first aid fixing pocket (222) for classifying and installing rescue splints; the treatment rescue pocket (23) comprises a first-aid transfusion pocket (231) for installing a first-aid transfusion tool and a first-aid medicine pocket (232) for installing a first-aid medicine box and an injector; the monitoring rescue pocket (24) includes a rescue monitoring pocket (241) for classified installation of rescue monitoring equipment and a rescue oxygen pocket (242) for classified installation of oxygen feeding equipment.

3. The medical rescue vest with the modular rescue pocket for search and rescue of astronauts according to claim 2, characterized in that: the connecting structure (8) comprises a hanging belt (81) arranged on the rescue vest (1) and a lead belt (82) arranged on the modularized rescue pocket (2); the hanging belts (81) are four-by-three array groups which are transversely and uniformly distributed and vertically distributed at equal intervals, so that the positions of different wearing persons can be adjusted, two ends of each hanging belt (81) are fixed with the rescue waistcoat (1) in a sewing mode, and a gap is reserved between the middle of each hanging belt and the rescue waistcoat (1); the two lead belts (82) are symmetrically arranged, one end of one lead belt (82) is fixedly connected with the upper part of the modularized rescue pocket (2), the other end of the lead belt penetrates through the two corresponding hanging belts (81) which are distributed up and down and are adjacent to each other and is fixedly connected with a fastening device (83) arranged at the lower part of the modularized rescue pocket (2), one end of the other lead belt (82) is fixedly connected with the lower part of the modularized rescue pocket (2), and the other end of the lead belt penetrates through the two corresponding hanging belts (81) which are distributed up and down and are adjacent to each other and is fixedly connected with the fastening device (83) arranged at the upper part of the modularized rescue pocket (2); the connecting structure (8) also comprises a powerful magnet mother block (84) fixedly arranged on one side of the modularized rescue pocket (2) corresponding to the rescue vest (1) and a powerful magnet sub-block (85) movably arranged on the inner side wall of the rescue vest (1), and the powerful magnet sub-block (85) is matched and arranged with the powerful magnet mother block (84); the fastening device (83) is any one of a hook, a snap fastener, an elastic buckle and a backpack buckle.

4. The medical rescue vest with the modular rescue pocket for the search and rescue of astronauts according to claim 3, wherein: the buffer device (6) comprises a rubber block (61) arranged in the bag body (3), and the rubber block (61) is of a rectangular frame structure and does not interfere with the elastic belt (4); a sponge plate (62) which is matched with the structure of the classified medical equipment is also arranged in the module cavity (5); the top end of the rubber block (61) is provided with a rubber cover plate (63), the bottom of the rubber block is provided with a rubber bottom plate (64), the bottom of the bag body (3) is provided with a hard plastic bottom plate (65) and a plurality of compression springs (66) which are arranged on the hard plastic bottom plate (65) and are uniformly distributed, and in an initial state, the rubber bottom plate (64) is horizontally placed on the compression springs (66); and the rubber cover plate (63) is connected and fastened with the rubber block (61) through a buckle, and the upper end of the modularized rescue pocket (2) is fastened with the outer side surface of the pocket body (3) through a magic tape.

5. The medical rescue vest with modular rescue pocket for search and rescue of astronauts according to claim 4, characterized in that: the inner side walls of the modularized rescue pocket (2) are coated with a high-molecular polyurethane coating waterproof layer (25).

6. The medical rescue vest with the modular rescue pocket for the search and rescue of astronauts according to claim 1, wherein: the neck strap (14) comprises a fixing strap (141) and telescopic straps (142) arranged on two sides of the fixing strap (141), the telescopic straps (142) on two sides of the fixing strap (141) are respectively connected and fixed with the left front waistcoat (11) and the right front waistcoat (12), and the length ratio of the telescopic straps (142) to the fixing strap (141) is 1; the positions of the left front waistcoat (11) and the right front waistcoat (12) corresponding to the shoulders are also provided with anti-skid wear-resistant pads (16).

7. The medical rescue vest with the modular rescue pocket for the search and rescue of astronauts according to claim 1, wherein: the adjusting straps (15) comprise adjusting belts (151) and connecting belts (152) arranged at two ends of the adjusting belts (151), the upper ends of the adjusting straps (15) are fixedly connected with the left front waistcoat (11) through the upper connecting belt (152), and the lower ends of the adjusting straps (15) are connected with the back (13) through elastic buckles (153) connected with the lower connecting belt (152) to realize height adjustment; the adjusting straps (15) of the right front waistcoat (12) and the adjusting straps (15) of the left front waistcoat (11) are the same in structure and are symmetrically arranged; the front surfaces of the left front waistcoat (11) and the right front waistcoat (12) are connected through a plurality of elastic buckles (153) which are distributed at intervals vertically, and a gap is reserved between the front surfaces of the left front waistcoat (11) and the right front waistcoat (12) in the worn state.

8. The medical rescue vest with the modular rescue pocket for search and rescue of astronauts according to claim 7, characterized in that: a plurality of air holes (19) which are uniformly distributed are formed in the inner side walls of the left front waistcoat (11), the right front waistcoat (12) and the back (13), and elastic protective belts (7) are arranged between the bottom of the back side surface of the left front waistcoat (11) and the right front waistcoat (12) and the back (13).

9. The medical rescue vest with the modular rescue pocket for search and rescue of astronauts according to claim 1, characterized in that: the substrate (111) is made of an ultra-light material with certain plasticity.

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