CN113436515A - First-aid training model capable of simulating bleeding and hemostasis - Google Patents

Abstract

The invention relates to the technical field of emergency training models, in particular to an emergency training model capable of simulating bleeding and hemostasis. It includes that the model settles the device and installs the inside hemorrhage device of device is settled to the model, the device of bleeding is including taking out the blood pump, it is connected with out the blood vessel to take out blood pump one end side, it has the model to go out blood vessel one end side-mounting, the model with go out and be connected with the device of giving blood between the blood vessel, it has adjusting device to go out blood vessel side-mounting, adjusting device includes a pair of second pivot, two be connected with the fender dish between the second pivot, two second pivot side all is connected with the carousel. According to the invention, through the arranged adjusting device, when the bleeding is simulated, the rotary disc is rotated to adjust the size of the section of the pipeline of the baffle disc, through which blood flows in the bleeding pipe, so that the amount of the blood flowing into the model from the bleeding pipe can be adjusted, different bleeding amounts can be simulated, and the simulation effect is improved.

Description

First-aid training model capable of simulating bleeding and hemostasis

Technical Field

The invention relates to the technical field of emergency training models, in particular to an emergency training model capable of simulating bleeding and hemostasis.

Background

With the continuous progress of the times, the modern medical level is improved day by day, the paying behind every medical staff is not left, the successful rescue of every patient is the result of continuous practice behind the medical staff, nowadays, the first-aid training is that every medical staff must learn, need use the first-aid training model when carrying out the first-aid training, this is the most important one among them can simulate the hemostatic first-aid training model of bleeding, the present first-aid training model that can simulate bleeding hemostasis can mostly only simulate the bleeding condition of a condition, the simulation effect is comparatively limited, can not accomplish the simulation effect of multiple bleeding position and bleeding volume, and human body structure is complicated, this model can not reach the simulation requirement.

Disclosure of Invention

The invention aims to provide a first-aid training model capable of simulating bleeding and hemostasis to solve the problems in the background technology.

In order to achieve the above object, there is provided a training model for emergency treatment capable of simulating hemostasis by bleeding, comprising a model placing device and a bleeding device installed inside the model placing device, wherein the model placing device comprises a model box, the inside of the model box is a hollow structure, and the bleeding device at least comprises:

the blood pump is characterized in that a block-shaped supporting device is mounted at the bottom end of the blood pump, the blood pump is mounted at the inner end of the model box, a blood pumping pipe is connected to the side face of one end of the blood pump, the other end of the blood pumping pipe is connected with a liquid box, and the other end of the blood pump is connected with a blood outlet pipe;

the model comprises a model sleeve, and a model block is arranged in the model sleeve;

the blood supply device comprises a blood supply pipe, the blood supply pipe is connected to the top end of the blood outlet pipe, the blood supply pipe is communicated with the blood outlet pipe, a telescopic pipe is installed at the top end of the blood supply pipe, the telescopic pipe is connected with the blood supply pipe in a lifting manner, and a connecting pipe is installed on the side face of the top end of the telescopic pipe;

a plurality of connecting columns are mounted on the die sleeve, and the connecting columns are mounted at the bottom end of the die sleeve;

adjusting device, adjusting device includes a pair of second pivot, the second pivot with the cooperation of pegging graft in the mold box side, two be connected with between the second pivot and keep off the dish, keep off the dish with the second pivot is rotated and is connected, keep off the dish and install inside the hemorrhage pipe, keep off dish cross-sectional dimension with go out the inside cross-sectional dimension of blood vessel and keep identical, two keep off the dish side and all install the carousel, the carousel with keep off the dish and rotate and connect.

As a further improvement of the technical scheme, a pair of ventilation grooves are formed in the side faces of the two ends of the model box, fan blades are arranged inside the ventilation grooves, fixing rods are connected between the fan blades and the ventilation grooves, and power sources are arranged in the fan blades.

As a further improvement of the technical scheme, a plurality of lifting devices are installed inside the mold box, each lifting device comprises a connecting block, the side face of each connecting block is fixedly connected with the side face of the inner end of the mold box, the side face of each connecting block is connected with a first rotating shaft, a rotating plate is installed on the side face of the other end of each first rotating shaft, each rotating plate is rotatably connected with the corresponding connecting block through the corresponding first rotating shaft, each rotating plate is installed at the bottom end of the corresponding connecting column, a pair of slideways is arranged on the side face of the bottom end of each rotating plate, a sliding rod is connected between the slideways in a sliding mode, and a hydraulic rod is installed at the bottom end of each sliding rod.

As a further improvement of the technical scheme, the top end of the model box is provided with a revolving door device, the revolving door device comprises a pair of door shafts, the two door shafts are respectively arranged at the left side and the right side of the top end of the model box, door plates are arranged on the side surfaces of the two door shafts, the door plates are rotatably connected with the door shafts, the two door plates are oppositely arranged, one door plate is provided with an insertion plate on the side surface, the other door plate is provided with an insertion groove on the side surface, and the insertion groove is in insertion fit with the insertion plate.

As a further improvement of the technical scheme, the model box bottom end is installed and is prevented hydrops device, prevent that hydrops device is including oozing the board, ooze board cross sectional dimension with model box bottom end cross sectional dimension keeps identical, it is provided with a plurality of round holes to ooze the board top, it installs the liquid flow box to ooze the board bottom, the liquid flow is provided with a plurality of discharge holes through box inside side bottom.

As a further improvement of the technical scheme, a wedge-shaped plate is arranged in the liquid flowing box, the section size of the wedge-shaped plate is kept identical with that of the bottom end of the liquid flowing box, and the wedge-shaped plate is of a triangular plate-shaped structure with one high end and one low end.

As a further improvement of the technical scheme, a collecting device is installed at a position, close to the bottom end, of the outer side of the mold box, the collecting device comprises a collecting box, the collecting box is attached to the side face of the mold box, the collecting device is of a hollow structure, a plurality of guide grooves are formed in the edge position of the inner side of one end of the collecting box, so that the collecting box can collect blood materials of a human body and pour out the blood materials, a plurality of inflow holes are formed in the bottom end of the outer side of the collecting box, collecting pipes are arranged in the inflow holes, and the other ends of the collecting pipes are communicated with the inflow holes.

As a further improvement of the technical scheme, the side face of the top end of the collecting box is provided with a pair of sticking rings, each sticking ring is of an annular structure, a screw rod is installed in each sticking ring, and each sticking ring is in threaded connection with the side face of the model box through the screw rod.

As a further improvement of the technical scheme, a filter plate is arranged on the inner side of the collecting box, the cross section size of the filter plate is matched with the cross section size of the inner part of the collecting box, and a plurality of small holes are formed in the side face of the filter plate.

As a further improvement of the technical scheme, a plurality of bleeding heads are arranged on the side surface of the connecting pipe and extend into the model block.

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

1. in this can simulate hemostatic first aid training model of bleeding, through the adjusting device who sets up, rotate the carousel, make it adjust to keep off the dish at its intraductal pipeline cross sectional dimension of flowing through blood that goes out to adjustable play blood vessel flows through the inside blood volume of model, can simulate out different bleeding volume, improves simulation effect.

2. In this can simulate hemostatic first aid training model of bleeding, through the revolving door device that sets up, make its mold box can freely open and close, carry out the closure protection after convenient to use accomplishes, avoid exposing inner structure for a long time, lead to its impaired.

3. In this but among simulation bleeding hemostasis's first aid training model, through the wedge plate that sets up, when carrying out concrete use, human blood material flows through infiltration board inflow liquid and flows through in the box, and human blood material will flow through the wedge plate this moment, because there is the difference in height in the wedge plate, makes its human blood material will flow into wedge plate low end position, easily collects its human blood material.

4. In this can simulate hemostatic first aid training model of bleeding, through the collection device who sets up, can further collect its liquid flow through the inside human blood material of box, prevent that its liquid flow from overflowing the inside human blood material of overstocking of box, lead to appearing the liquid and spill over.

Drawings

FIG. 1 is a schematic view of the entire structure of embodiment 1;

FIG. 2 is a schematic view of the structure of a mold setting apparatus according to example 1;

FIG. 3 is a disassembled view of the structure of the lift device of embodiment 1;

FIG. 4 is a structural exploded view of the swing door apparatus according to embodiment 1;

FIG. 5 is a structural exploded view of a liquid accumulation preventing device in accordance with embodiment 1;

FIG. 6 is a disassembled view of the collecting apparatus of embodiment 1;

FIG. 7 is a schematic view showing the structure of the bleeding device according to example 1;

FIG. 8 is an exploded view of the model structure of example 1;

FIG. 9 is a schematic view of the structure of the blood administration apparatus according to embodiment 1;

fig. 10 is a schematic structural view of an adjusting device in embodiment 1.

The various reference numbers in the figures mean:

10. a model placement device;

110. a model box; 111. a ventilation slot; 112. a fan blade;

120. a lifting device; 121. connecting blocks; 122. a first rotating shaft; 123. rotating the plate; 124. a slideway; 125. a slide bar; 126. a hydraulic lever;

130. a swing door device; 131. a door shaft; 132. a door panel; 133. a plugboard; 134. inserting grooves;

140. a liquid accumulation prevention device; 141. a penetration plate; 142. flowing the liquid through the cartridge; 143. an outflow hole; 144. a wedge plate;

150. a collection device; 151. a collection box; 152. a lead-out slot; 153. an inflow hole; 154. a collection pipe; 155. sticking a ring; 156. a screw; 157. a filter plate;

20. a bleeding device;

210. a blood pump is pumped; 211. drawing a blood vessel; 212. discharging blood vessels;

220. a model; 221. a model sleeve; 222. a model block;

230. a blood administration device; 231. administering the blood vessel; 232. a telescopic pipe; 233. a connecting pipe; 234. bleeding heads;

240. connecting columns;

250. an adjustment device; 251. a second rotating shaft; 252. a catch tray; 253. a turntable.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings 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 of the 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.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1 to 10, the present embodiment provides a training model for emergency treatment capable of simulating bleeding hemostasis, including a model placing device 10 and a bleeding device 20 installed inside the model placing device 10, wherein the model placing device 10 includes a model box 110, the interior of the model box 110 is a hollow structure, and the bleeding device 20 at least includes:

the blood pump 210 is provided with a block-shaped supporting device at the bottom end of the blood pump 210, the blood pump 210 is arranged at the inner end of the model box 110, one side surface of one end of the blood pump 210 is connected with a blood pumping pipe 211, the other end of the blood pumping pipe 211 is connected with a liquid box, and the other end of the blood pump 210 is connected with a blood outlet pipe 212;

the model 220 comprises a model sleeve 221, the model sleeve 221 is preferably made of cotton materials, the liquid infiltration capacity is high, a model block 222 is installed inside the model sleeve 221, the model block 222 is preferably made of silica gel materials and is close to the human flesh, different human organs such as the hip and the chest can be simulated by the model 220, different bleeding effects of a user are provided according to different bleeding parts, how different bleeding effects at different positions are provided for the user can be dealt with, and the simulation effect is further improved;

the blood supply device 230 comprises a blood supply pipe 231, the blood supply pipe 231 is connected to the top end of the blood outlet pipe 212, the blood supply pipe 231 is communicated with the blood outlet pipe 212, the top end of the blood supply pipe 231 is provided with an extension pipe 232, the extension pipe 232 is connected with the blood supply pipe 231 in a lifting manner, and the side face of the top end of the extension pipe 232 is provided with a connecting pipe 233;

a plurality of connecting columns 240 are arranged, and the connecting columns 240 are arranged at the bottom ends of the model sleeves 221;

the adjusting device 250 comprises a pair of second rotating shafts 251, the second rotating shafts 251 are in plug fit with the side surfaces of the model box 110, a blocking disc 252 is connected between the two second rotating shafts 251, the blocking disc 252 is rotatably connected with the second rotating shafts 251, the blocking disc 252 is installed inside the blood outlet pipe 212, the cross section size of the blocking disc 252 is matched with the cross section size inside the blood outlet pipe 212, rotary discs 253 are installed on the side surfaces of the two blocking discs 252, and the rotary discs 253 are rotatably connected with the blocking disc 252.

When the model sleeve 221 is used specifically, the blood pumping pump 210 pumps a simulated human blood material through the blood pumping pipe 211, the human blood material flows into the blood feeding pipe 231, the extension pipe 232 and the connecting pipe 233 sequentially through the blood outlet pipe 212 and finally enters the model block 222, the human blood material flows into the model block 222, and then the human blood material seeps out of the outer end of the model block 222 through liquid diffusion, so that the outer side of the model sleeve 221 seeps out, at the moment, the turntable 253 is slowly rotated to drive the second rotating shaft 251 to rotate, so that the size of the cross section of the baffle disc 252 in the blood outlet pipe 212 is changed, the flow rate of the human blood material flowing through the blood outlet pipe 212 is changed, the inflow rate of the human blood material flowing into the model block 222 is changed, the bleeding amount can be changed, and a user can perform hemostasis treatment by simulating different bleeding amounts, so as to obtain hemostasis methods with different bleeding amounts, and improve the simulation effect.

In addition, a pair of ventilation grooves 111 are formed in the side faces of two ends of the model box 110, fan blades 112 are mounted inside the ventilation grooves 111, fixing rods are connected between the fan blades 112 and the ventilation grooves 111, a power supply is arranged in the fan blades 112, when the model box 110 is used in a specific mode, human blood materials are easily contaminated on the side faces of the model box 110 after the model box 110 is used, long-term use can cause peculiar smell to appear inside the model box 110, at the moment, the fan blades 112 rotate to enable the inside of the model box 110 to be communicated with external air, air circulation is improved, internal air pollution is avoided, and the using effect of the model box is affected.

Furthermore, a plurality of lifting devices 120 are installed inside the model box 110, each lifting device 120 comprises a connecting block 121, the side surface of each connecting block 121 is fixedly connected with the side surface of the inner end of the model box 110, the side surface of each connecting block 121 is connected with a first rotating shaft 122, a rotating plate 123 is installed on the side surface of the other end of each first rotating shaft 122, each rotating plate 123 is rotatably connected with the corresponding connecting block 121 through the corresponding first rotating shaft 122, each rotating plate 123 is installed at the bottom end of a corresponding connecting column 240, a pair of slideways 124 are arranged on the side surface of the bottom end of each rotating plate 123, a sliding rod 125 is slidably connected between the two slideways 124, and a hydraulic rod 126 is installed at the bottom end of each sliding rod 125. When the simulation is performed specifically, the hydraulic rod 126 drives the sliding rod 125 to move up, so that the sliding rod 125 slides between the two sliding ways 124, and the rotating plate 123 is driven to rotate upwards through the first rotating shaft 122, so as to drive the connecting column 240 to move upwards, so that the model 220 moves upwards, and the simulation is facilitated for a user.

Still further, a revolving door device 130 is installed at the top end of the model box 110, the revolving door device 130 includes a pair of door shafts 131, the two door shafts 131 are respectively installed at the left and right sides of the top end of the model box 110, door plates 132 are installed at the side surfaces of the two door shafts 131, the door plates 132 are rotatably connected with the door shafts 131, the two door plates 132 are installed oppositely, one door plate 132 is provided with a plug-in board 133 at the side surface, the other door plate 132 is provided with a plug-in groove 134 at the side surface, and the plug-in groove 134 is in plug-in fit with the plug-in board 133. Through the arrangement of the revolving door device 130, the model box 110 can be freely opened and closed, so that the closed protection can be conveniently carried out after the use is finished, and the damage to the internal structure caused by long-term exposure can be avoided.

Specifically, the bottom end of the model box 110 is provided with the liquid accumulation preventing device 140, the liquid accumulation preventing device 140 comprises a penetration plate 141, the cross-sectional dimension of the penetration plate 141 is matched with the cross-sectional dimension of the bottom end of the model box 110, the top end of the penetration plate 141 is provided with a plurality of circular holes, the bottom end of the penetration plate 141 is provided with a liquid flowing box 142, and the bottom end of the side surface inside the liquid flowing box 142 is provided with a plurality of outflow holes 143. When specific use is, when carrying out the simulation and realizing, human blood material oozes the back through model cover 221, and the user does not in time stanch it, very easily leads to human blood material to drip into model case 110 bottom, and human blood material accessible infiltration board 141 flows into liquid and flows through inside the box 142 and collect the processing for the first time this moment, avoids appearing the liquid and deposits, leads to the later stage to be difficult to the clearance.

In addition, a wedge plate 144 is installed inside the liquid flowing box 142, the sectional dimension of the wedge plate 144 is consistent with that of the bottom end of the liquid flowing box 142, and the wedge plate 144 is in a triangular plate-shaped structure with one higher end and one lower end. When the blood collection box is used specifically, when human blood materials flow into the liquid flowing box 142 through the infiltration plate 141, the human blood materials flow through the wedge-shaped plate 144, and due to the height difference of the wedge-shaped plate 144, the human blood materials flow into the lower end of the wedge-shaped plate 144, so that the human blood materials are easy to collect.

Furthermore, a collecting device 150 is installed on the outer side of the model box 110 near the bottom end, the collecting device 150 includes a collecting box 151, the collecting box 151 is attached to the side surface of the model box 110, the collecting device 150 is of a hollow structure, a plurality of guide grooves 152 are arranged on the edge of the inner side of one end of the collecting box 151, so that the blood material of the human body can be collected and poured out conveniently, a plurality of inflow holes 153 are arranged on the outer bottom end of the collecting box 151, a collecting pipe 154 is arranged in the inflow holes 153, and the other end of the collecting pipe 154 is communicated with the outflow holes 143. By the collection device 150, the human blood material whose liquid flows through the interior of the box 142 can be further collected, and the phenomenon that the liquid flows through the interior of the box 142 and is full of the human blood material to cause liquid overflow is prevented.

Still further, a pair of sticking rings 155 is arranged on the side surface of the top end of the collecting box 151, the sticking rings 155 are in an annular structure, a screw 156 is arranged in the sticking rings 155, and the sticking rings 155 are in threaded connection with the side surface of the model box 110 through the screw 156. Facilitating the free disassembly of its collecting box 151.

In addition, the inner side of the collecting box 151 is provided with a filter plate 157, the cross section of the filter plate 157 is matched with the inner cross section of the collecting box 151, the side surface of the filter plate 157 is provided with a plurality of small holes, when the human blood material is poured out, the human blood material is filtered through the filter plate 157, and the human blood material is filtered by impurities stained with the human blood material.

In addition, a plurality of bleeding heads 234 are disposed on the side of the connecting tube 233, and the bleeding heads 234 extend into the mold block 222. When the multifunctional bleeding head is used specifically, the condition of simultaneous multi-position bleeding can be simulated by arranging the plurality of bleeding heads 234, so that the simulation diversity is improved.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An emergency training model capable of simulating bleeding hemostasis, comprising a model placement device (10) and a bleeding device (20) mounted inside the model placement device (10), characterized in that: the mold placement device (10) comprises a mold box (110), the interior of the mold box (110) is of a hollow structure, and the bleeding device (20) at least comprises:

the device comprises a blood pumping pump (210), a block-shaped supporting device is installed at the bottom end of the blood pumping pump (210), the blood pumping pump (210) is installed at the inner end of the model box (110), a blood pumping pipe (211) is connected to the side face of one end of the blood pumping pump (210), the other end of the blood pumping pipe (211) is connected with a liquid box, and the other end of the blood pumping pump (210) is connected with a blood outlet pipe (212);

a mold (220), the mold (220) comprising a mold sleeve (221), the mold sleeve (221) having a mold block (222) mounted therein;

the blood supply device (230) comprises a blood supply pipe (231), the blood supply pipe (231) is connected to the top end of the blood outlet pipe (212), the blood supply pipe (231) is communicated with the blood outlet pipe (212), an extension pipe (232) is installed at the top end of the blood supply pipe (231), the extension pipe (232) is connected with the blood supply pipe (231) in a lifting mode, and a connecting pipe (233) is installed on the side face of the top end of the extension pipe (232);

a plurality of connecting columns (240), wherein the connecting columns (240) are installed, and the connecting columns (240) are installed at the bottom ends of the model sleeves (221);

adjusting device (250), adjusting device (250) includes a pair of second pivot (251), second pivot (251) with model case (110) side grafting cooperation, two be connected with between second pivot (251) and keep off dish (252), keep off dish (252) with second pivot (251) rotate to be connected, keep off dish (252) and install inside going out blood vessel (212), keep off dish (252) cross sectional dimension with go out blood vessel (212) inside cross sectional dimension and keep identical, two keep off dish (252) side and all install carousel (253), carousel (253) with keep off dish (252) and rotate and be connected.

2. The emergency training model for simulative hemorrhage hemostasis according to claim 1, wherein: model case (110) both ends side all is provided with a pair of ventilation groove (111), ventilation groove (111) internally mounted has flabellum (112), flabellum (112) with be connected with the dead lever between ventilation groove (111), flabellum (112) built-in power supply.

3. The emergency training model for simulative hemorrhage hemostasis according to claim 2, wherein: model case (110) internally mounted has a plurality of devices (120) that move that rise, it includes connecting block (121) to move device (120), connecting block (121) side with model case (110) inner side fixed connection, connecting block (121) side is connected with first pivot (122), first pivot (122) other end side-mounting has commentaries on classics board (123), change board (123) with connecting block (121) pass through first pivot (122) rotate the connection, change board (123) and install spliced pole (240) bottom, commentaries on classics board (123) bottom side is provided with a pair of slide (124), two sliding connection has slide bar (125) between slide (124), hydraulic stem (126) are installed to slide bar (125) bottom.

4. The emergency training model for simulative hemorrhage hemostasis according to claim 3, wherein: the turning door device (130) is installed at the top end of the model box (110), the turning door device (130) comprises a pair of door shafts (131), the two door shafts (131) are installed on the left side and the right side of the top end of the model box (110) respectively, door plates (132) are installed on the side faces of the two door shafts (131), the door plates (132) are rotatably connected with the door shafts (131), the two door plates (132) are installed oppositely, one of the door plates (132) is provided with a plug board (133) on the side face, the other door plate (132) is provided with a plug groove (134) on the side face, and the plug groove (134) is in plug fit with the plug board (133).

5. The emergency training model for simulative hemorrhage hemostasis according to claim 4, wherein: anti-hydrops device (140) is installed to model case (110) bottom, anti-hydrops device (140) is including infiltration board (141), infiltration board (141) cross sectional dimension with model case (110) bottom cross sectional dimension keeps coincideing, infiltration board (141) top is provided with a plurality of round holes, infiltration board (141) bottom is installed liquid and is flowed through box (142), liquid flows through box (142) inside side bottom and is provided with a plurality of outflow holes (143).

6. The emergency training model for simulative hemorrhage hemostasis according to claim 5, wherein: the liquid flows through and installs wedge plate (144) in box (142), wedge plate (144) cross-sectional dimension with liquid flows through box (142) bottom cross-sectional dimension keeps identical, wedge plate (144) are the triangle plate structure that one end is high and the end is low.

7. The emergency training model for simulative hemorrhage hemostasis according to claim 5, wherein: the utility model discloses a collection device, including collection box (151), collection box (150) is installed near the bottom position in the mold box (110) outside, collection box (151) paste with mold box (110) side, collection device (150) inside is empty structure, the inboard border position of collection box (151) one end is provided with a plurality of guide-out grooves (152), is convenient for collect it and pours human blood material, collection box (151) outside bottom is provided with a plurality of inflow holes (153), be provided with collecting pipe (154) in inflow hole (153), collecting pipe (154) other end with outflow hole (143) intercommunication.

8. The emergency training model for simulative hemorrhage hemostasis according to claim 7, wherein: the side face of the top end of the collecting box (151) is provided with a pair of sticking rings (155), the sticking rings (155) are of an annular structure, a screw rod (156) is installed in the sticking rings (155), and the sticking rings (155) are in threaded connection with the side face of the model box (110) through the screw rod (156).

9. The emergency training model for simulative hemorrhage hemostasis according to claim 7, wherein: the inner side of the collecting box (151) is provided with a filter plate (157), the cross section size of the filter plate (157) is matched with the inner cross section size of the collecting box (151), and the side surface of the filter plate (157) is provided with a plurality of small holes.

10. The emergency training model for simulative hemorrhage hemostasis according to claim 1, wherein: the side surface of the connecting pipe (233) is provided with a plurality of bleeding heads (234), and the bleeding heads (234) extend into the model block (222).

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