CN112386299A - Intracardiac branch of academic or vocational study hemostasis compressor - Google Patents

Abstract

A hemostasis compressor for cardiology comprises a bottom plate, a support piece, a first mounting plate, a telescopic device and a control box; the two ends of the supporting piece are respectively connected with the bottom plate and the first mounting plate; the first mounting plate is provided with a moving assembly for driving the telescopic device to move; the control box is connected with the supporting piece, and a circuit board is arranged in the control box; the circuit board is provided with a current regulating module and a main controller; the main controller is electrically connected with the current adjusting module and is connected with the telescopic device in a control mode; the telescopic end of the telescopic device is provided with a rotating part; the intelligent pressing head is also included; the rotatory end of rotating part is connected to intelligence press head, and intelligence press head electric connection current regulation module, intelligence press head are used for waiting to press the pressure of position in order to guarantee to wait to press the position pressing force size unchangeable to the patient according to the size adjustment of its electric current of flowing through to the patient. The invention has simple operation and convenient use, can ensure that the pressing force of the part to be pressed of the patient is not changed, and improves the pressing effect on the affected part of the patient.

Description

Intracardiac branch of academic or vocational study hemostasis compressor

Technical Field

The invention relates to the technical field of a compressor, in particular to a hemostasis compressor for cardiology department.

Background

The cardiology department, namely the cardiovascular department, is a clinical department set by major internal medicine of all levels of hospitals for diagnosing and treating cardiovascular diseases, and the treated diseases comprise angina, hypertension, sudden death, arrhythmia, heart failure, premature beat, arrhythmia, myocardial infarction, cardiomyopathy, myocarditis, acute myocardial infarction and other cardiovascular diseases; after the patient is subjected to operation treatment in the cardiology department, the wound needs to be subjected to compression hemostasis, so that excessive blood loss caused by a large amount of arterial blood flowing out of the wound is avoided, and the health and even life safety of the patient are affected; when the patient is pressed, medical staff are required to accurately press the surgical part of the patient for at least 20-30 minutes, labor intensity of the medical staff is greatly increased by manual pressing, the pressing force of the patient can not be guaranteed to be always the pressing force of the patient part in the long-time pressing process, secondary injury can be caused to the patient if the patient is excessively pressed, bleeding can not be stopped at the surgical part of the patient if the patient is not sufficiently pressed, the patient is not helped, and pain of the patient is increased.

Disclosure of Invention

Objects of the invention

In order to solve the technical problems in the background art, the invention provides a hemostasis compressor for cardiology department, which is simple to operate and convenient to use, can ensure that the pressing force of the part to be pressed of a patient is not changed, and improves the pressing effect on the affected part of the patient.

(II) technical scheme

In order to solve the problems, the invention provides a hemostasis compressor for cardiology department, which comprises a bottom plate, a support piece, a first mounting plate, a telescopic device and a control box, wherein the bottom plate is provided with a first mounting plate; the two ends of the supporting piece are respectively connected with the bottom plate and the first mounting plate; the first mounting plate is provided with a moving assembly for driving the telescopic device to move along the length direction of the first mounting plate; the control box is connected with the supporting piece, and a circuit board is arranged in the control box; the circuit board is provided with a current regulating module and a main controller; the main controller is electrically connected with the current adjusting module and is connected with the telescopic device in a control mode; the telescopic end of the telescopic device is provided with a rotating part; it is characterized by also comprising an intelligent pressing head;

the rotatory end of rotating part is connected to intelligence press head, and intelligence press head electric connection current regulation module, intelligence press head are used for waiting to press the pressure of position in order to guarantee to wait to press the position pressing force size unchangeable to the patient according to the size adjustment of its electric current of flowing through to the patient.

Preferably, the intelligent pressing head comprises a second mounting plate, a pressing plate, a pressure sensor, a plurality of groups of sliding rods, a plurality of groups of springs, a plurality of groups of mounting cylinders and a plurality of groups of electrified electromagnets;

the second mounting plate is connected with the rotating end of the rotating part, and a plurality of groups of first through holes are uniformly formed in the second mounting plate;

one end of the pressing plate is provided with a groove for mounting a pressure sensor, and the end surface of the pressing plate is provided with an elastic piece; the elastic piece is connected with the pressure sensor; the pressure sensor is in communication connection with the master controller;

one end of each of the multiple groups of mounting cylinders is connected with the pressing plate, and the other end of each of the multiple groups of mounting cylinders is provided with multiple groups of second through holes;

one end of each of the plurality of groups of sliding rods sequentially penetrates through the plurality of groups of first through holes and the plurality of groups of second through holes and extends into the plurality of groups of mounting cylinders, and a plurality of groups of limiting plates are arranged on the plurality of groups of sliding rods between the second mounting plate and the pressing plate; the springs are respectively sleeved outside the sliding rods, and two ends of the springs are respectively connected with the second mounting plate and the limiting plates; the end surfaces of the multiple groups of sliding rods positioned in the multiple groups of mounting cylinders are provided with multiple groups of movable iron cores;

the multiple groups of electrified electromagnets are respectively installed in the multiple groups of installation cylinders, the multiple groups of electrified electromagnets are respectively located on one side away from the multiple groups of second through holes, the multiple groups of electrified electromagnets are electrically connected with the current adjusting module, and in the electrified state of the multiple groups of electrified electromagnets, the multiple groups of electrified electromagnets are respectively connected with the multiple groups of movable iron cores through magnetic adsorption so as to drive the multiple groups of movable iron cores and the multiple groups of sliding rods to move towards one side of the multiple groups of electrified.

Preferably, each group of first through holes and each group of second through holes are internally provided with a guide sleeve; the guide sleeves are respectively sleeved on the outer sides of the slide rods in an interference manner.

Preferably, the multiple groups of mounting cylinders are respectively connected with the pressing plate in a threaded fit manner; the end faces of the pressing plates, which are far away from the multiple groups of mounting cylinders, are set to be inwards concave curved surfaces.

Preferably, the rotating part comprises a third mounting plate, two groups of fixing plates, a connecting piece, a driving device and a rotating shaft;

one end of the third mounting plate is connected with the telescopic end of the telescopic device; two ends of the rotating shaft are respectively and rotatably connected with two groups of fixing plates; the two groups of fixed plates are connected with the other end of the third mounting plate; the rotating shaft is in transmission connection with a driving device; the driving device is connected with the fixed plate and is in control connection with the main controller;

the rotation axis is connected to the one end of connecting piece, and intelligent press head is connected to the other end of connecting piece, and the axis of connecting piece is perpendicular with the axis of rotation axis.

Preferably, the device also comprises two groups of adjusting parts and two groups of limiting parts;

the two groups of adjusting parts are distributed side by side and symmetrically distributed by taking the rotating shaft as a center, one ends of the two groups of adjusting parts are connected with the third mounting plate, and the other ends of the two groups of adjusting parts are respectively connected with two groups of limiting parts; the two groups of limiting parts are in communication connection with the main controller, and the two groups of limiting parts are positioned on a path of the connecting piece which rotates circumferentially by taking the connecting part with the rotating shaft as a center.

Preferably, the angle formed by the connecting lines of the two groups of limiting parts and the connecting part of the rotating shaft is 180 degrees.

Preferably, the moving assembly comprises a threaded rod, a sliding piece and a hand wheel; wherein, the first mounting plate is provided with a strip-shaped hole;

the threaded rod is positioned in the strip-shaped hole, two ends of the threaded rod are respectively rotatably connected with the inner wall of the strip-shaped hole, and the threaded rod penetrates through the strip-shaped hole and is connected with the hand wheel;

the slider is connected with the telescopic device, the slider is connected with the threaded rod in a threaded manner, and the slider is connected with the inner wall of the strip-shaped hole in a sliding manner.

Preferably, the device also comprises two groups of sliding blocks; wherein, the supporting pieces are provided with two groups; the bottom plate is provided with two groups, and two groups of sliding chutes are arranged on the bottom plate side by side; the two groups of sliding chutes are provided with openings on the same end surface of the bottom plate;

the two sets of sliding blocks are respectively connected with the two sets of supporting pieces, and in a use state, the two sets of sliding blocks are respectively provided with two sets of openings which are inserted into the two sets of sliding grooves in a sliding manner.

The invention also provides a use method of the hemostasis compressor for the cardiology department, which comprises the following specific steps:

s1, placing the bottom plate on the sickbed, installing the supporting piece and the bottom plate in a matched mode, and sliding the supporting piece to a proper position on the bottom plate;

s2, moving the telescopic device by using the moving assembly;

s3, controlling the extension of the telescopic device to drive the intelligent pressing head to move towards the hospital bed;

s4, adjusting the inclination angle of the intelligent pressing head by using the rotating part so that the pressing end of the intelligent pressing head faces to a position to be pressed by a patient;

s5, the intelligent pressing head is electrified and operated, and the movable assembly is driven to drive the intelligent pressing head to extrude the part to be pressed of the patient;

s6, the intelligent pressing head is ensured to keep the pressure of the part to be pressed of the patient unchanged by intelligently adjusting the current of the intelligent pressing head.

The technical scheme of the invention has the following beneficial technical effects:

in the invention, the bottom plate is placed on a sickbed, and the movable assembly is used for moving the telescopic device; the extension of the telescopic device is controlled to drive the intelligent pressing head to move towards the sickbed; the inclination angle of the intelligent pressing head is adjusted by using the rotating part, so that the pressing end of the intelligent pressing head faces to a position to be pressed by a patient; the intelligent pressing head is electrified to operate and drives the moving assembly to drive the intelligent pressing head to extrude the position to be pressed of the patient; the current of the intelligent pressing head is intelligently adjusted to ensure that the pressure of the intelligent pressing head on the position to be pressed of the patient is kept unchanged so as to press the affected part of the patient;

according to the intelligent pressing head, the electric property of the current flowing through the plurality of groups of electrified electromagnets is adjusted to drive the pressing plate to press the body of the patient by detecting the size change of the pressing force of the pressing plate and the to-be-pressed part of the patient, so that the pressing force of the pressing plate when the pressing plate presses the patient is unchanged, the pressing effect on the affected part of the patient is improved, and the treatment efficiency on the patient is ensured.

Drawings

Fig. 1 is a schematic perspective view of a hemostasis compressor for cardiology department according to the present invention.

Fig. 2 is a partially enlarged structural schematic diagram of a portion a of the hemostasis compressor for cardiology department according to the present invention.

Fig. 3 is a schematic structural view of an intelligent pressing head in the hemostasis compressor for cardiology department according to the present invention.

Fig. 4 is a schematic structural view of a rotating portion of the hemostasis compressor for cardiology department according to the present invention.

Fig. 5 is a schematic block diagram of a hemostasis compressor for cardiology department according to the present invention.

Reference numerals: 1. a base plate; 2. a chute; 3. a support member; 4. a first mounting plate; 5. a strip-shaped hole; 6. a threaded rod; 7. a slider; 8. a hand wheel; 9. a telescoping device; 10. a control box; 11. a rotating part; 111. a third mounting plate; 112. a fixing plate; 113. a connecting member; 114. a drive device; 115. an adjustment section; 116. a limiting member; 117. a rotating shaft; 12. an intelligent pressing head; 121. a second mounting plate; 122. a pressing plate; 123. an elastic member; 124. a pressure sensor; 125. a slide bar; 126. a spring; 127. a limiting plate; 128. mounting the cylinder; 129. energizing an electromagnet; 130. a movable iron core; 13. a master controller; 14. and a current regulation module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example 1

As shown in fig. 1-5, the hemostasis compressor for cardiology department provided by the invention comprises a base plate 1, a support member 3, a first mounting plate 4, a telescopic device 9 and a control box 10; two ends of the supporting piece 3 are respectively connected with the bottom plate 1 and the first mounting plate 4; the first mounting plate 4 is provided with a moving assembly for driving the telescopic device 9 to move along the length direction of the first mounting plate 4; the control box 10 is connected with the support piece 3, a key module and a display screen are arranged on the control box 10, a circuit board is arranged in the control box 10, and a socket for electrically connecting an external power supply through a lead is arranged on the control box 10;

the circuit board is provided with a current regulating module 14 and a main controller 13; the main controller 13 is electrically connected with the current adjusting module 14, the key module and the display screen, and the main controller 13 controls and is connected with the telescopic device 9; the telescopic end of the telescopic device 9 is provided with a rotating part 11, and the telescopic device 9 is selected from but not limited to an electric telescopic rod;

it is characterized by also comprising an intelligent pressing head 12;

the intelligence press head 12 is connected the rotation end of rotating part 11, and intelligence press head 12 electric connection current regulation module 14, and intelligence press head 12 is used for treating the pressure of pressing the position to the patient according to the size adjustment of its electric current of flowing through in order to guarantee to treat to press the position pressing force size unchangeable to the patient.

In one embodiment of the invention, when in use, the base plate 1 is placed on a sickbed, and the moving assembly is used for moving the telescopic device 9; the extension of the telescopic device 9 is controlled to drive the intelligent pressing head 12 to move towards the hospital bed; adjusting the inclination angle of the intelligent pressing head 12 by using the rotating part so that the pressing end of the intelligent pressing head 12 faces to a position to be pressed by a patient; the intelligent pressing head 12 is electrified to operate, and drives the moving assembly to drive the intelligent pressing head 12 to extrude with the part to be pressed of the patient; the electric current size through intelligent adjustment intelligence press head 12 guarantees that intelligence press head 12 treats the pressure of pressing the department and remains unchanged to the patient to press to patient's affected part.

In an alternative embodiment, the intelligent pressing head 12 includes a second mounting plate 121, a pressing plate 122, a pressure sensor 124, a plurality of sets of sliding bars 125, a plurality of sets of springs 126, a plurality of sets of mounting cylinders 128, and a plurality of sets of energized electromagnets 129;

the second mounting plate 121 is connected with the rotating end of the rotating part 11, and a plurality of groups of first through holes are uniformly formed in the second mounting plate 121;

one end of the pressing plate 122 is provided with a groove for mounting the pressure sensor 124, and the end surface of the pressing plate 122 is provided with an elastic piece 123; the elastic member 123 is connected with the pressure sensor 124; pressure sensor 124 is in communication connection with master controller 13;

one end of each of the plurality of sets of mounting cylinders 128 is connected to the pressing plate 122, and the other end of each of the plurality of sets of mounting cylinders 128 is provided with a plurality of sets of second through holes;

one end of each of the plurality of sets of sliding rods 125 sequentially passes through the plurality of sets of first through holes and the plurality of sets of second through holes and extends into the plurality of sets of mounting cylinders 128, and a plurality of sets of limiting plates 127 are arranged on the plurality of sets of sliding rods 125 between the second mounting plate 121 and the pressing plate 122; the multiple groups of springs 126 are respectively sleeved outside the multiple groups of sliding rods 125, and two ends of the multiple groups of springs 126 are respectively connected with the second mounting plate 121 and the multiple groups of limiting plates 127; the end surfaces of the multiple groups of sliding rods 125 positioned in the multiple groups of mounting cylinders 128 are provided with multiple groups of movable iron cores 130;

the groups of the electrified electromagnets 129 are respectively installed in the groups of the installation cylinders 128, the groups of the electrified electromagnets 129 are respectively located at one side away from the groups of the second through holes, the groups of the electrified electromagnets 129 are all electrically connected with the current adjusting module 14, and the groups of the electrified electromagnets 129 are respectively in magnetic adsorption connection with the groups of the movable iron cores 130 to drive the groups of the movable iron cores 130 and the groups of the sliding rods 125 to move towards one side of the groups of the electrified electromagnets 129 when the groups of the electrified electromagnets 129 are in an electrified state;

in one embodiment of the present invention, when in use, the plurality of groups of electromagnets 129 are electrically powered and magnetic, the plurality of groups of electromagnets 129 are respectively magnetically attached to the plurality of groups of movable iron cores 130 to drive the plurality of groups of movable iron cores 130 and the plurality of groups of sliding rods 125 to move toward one side of the plurality of groups of electromagnets 129, and the plurality of groups of springs 126 are stretched; the distance between the second mounting plate 121 and the pressing plate 122 is increased, so that the pressing plate 122 presses the affected part of the affected part; when the body of the patient shifts or breathes, so that the pressure between the part to be pressed of the patient and the pressing plate 122 changes, the pressure sensor 124 monitors the pressure and sends a pressure signal obtained by monitoring to the master controller 13; the main controller 13 intelligently controls the current regulation module 14 to control the current flowing through the plurality of groups of electrified electromagnets 129, and further adjust the distance between the installation plate 121 and the pressing plate 122, so as to ensure that the pressing plate 122 keeps the pressure of the pressing part of the patient unchanged, so as to avoid the pressing effect on the patient caused by the fact that the pressing force of the pressing part of the patient is too large, or the pressing effect on the patient is reduced due to the reduction of the pressure force, and the patient is not helped.

In an optional embodiment, each group of first through holes and each group of second through holes are internally provided with a guide sleeve; the multiple groups of guide sleeves are respectively sleeved outside the multiple groups of slide bars 125 in an interference fit manner, so that the up-and-down movement stability of the multiple groups of slide bars 125 is improved.

In an alternative embodiment, the plurality of sets of mounting cylinders 128 are respectively connected with the pressing plate 122 in a threaded fit manner, so that the pressing plate 122 can be conveniently disassembled and replaced; the end surface of the pressing plate 122 far away from the multiple sets of mounting cylinders 128 is provided with an inwardly concave curved surface, so that the pressing plate 122 can be better pressed with the body of a patient.

In an alternative embodiment, the rotating portion 11 includes a third mounting plate 111, two sets of fixing plates 112, a connecting member 113, a driving device 114, and a rotating shaft 117;

one end of the third mounting plate 111 is connected with the telescopic end of the telescopic device 9; two ends of the rotating shaft 117 are respectively connected with the two groups of fixing plates 112 in a rotating manner; the two groups of fixing plates 112 are connected with the other end of the third mounting plate 111; the rotating shaft 117 is in transmission connection with the driving device 114; the driving device 114 is connected with the fixing plate 112, the driving device 114 is in control connection with the main controller 13, and the driving device 114 adopts a variable frequency motor;

one end of the connecting piece 113 is connected with the rotating shaft 117, the other end of the connecting piece 113 is connected with the intelligent pressing head 12, and the central axis of the connecting piece 113 is vertical to the central axis of the rotating shaft 117;

the driving device 114 drives the rotating shaft 117 to rotate, so as to drive the connecting member 113 and the intelligent pressing head 12 to rotate, so as to adjust the inclination angle of the intelligent pressing head 12.

In an alternative embodiment, two sets of adjusting portions 115 and two sets of limiting members 116 are further included;

the two groups of adjusting parts 115 are distributed side by side and symmetrically distributed by taking the rotating shaft 117 as a center, one ends of the two groups of adjusting parts 115 are connected with the third mounting plate 111, and the other ends of the two groups of adjusting parts 115 are respectively connected with two groups of limiting parts 116; the two sets of limiting parts 116 are both in communication connection with the main controller 13, the two sets of limiting parts 116 are positioned on a path of the connecting piece 113 which rotates circumferentially with the connecting position of the connecting piece and the rotating shaft 117 as the center, and the limiting parts 116 are selected from pressure sensors;

the length of the adjustment portion 115 is adjustable; the two sets of limiting members 116 are arranged to limit the rotation range of the connecting member 113, and the driving device 114 is intelligently controlled to stop, so as to avoid damage to the equipment caused by continuous operation of the driving device 114.

In an alternative embodiment, the angle formed by the connecting lines of the two sets of limiting members 116 and the connecting portions of the connecting members 113 and the rotating shaft 117 is 180 degrees.

In an alternative embodiment, the movement assembly comprises a threaded rod 6, a slider 7 and a handwheel 8; wherein, the first mounting plate 4 is provided with a strip-shaped hole 5;

the threaded rod 6 is positioned in the strip-shaped hole 5, two ends of the threaded rod 6 are respectively rotatably connected with the inner wall of the strip-shaped hole 5, and the threaded rod 6 penetrates through the strip-shaped hole 5 and is connected with a hand wheel 8;

slider 7 connects telescoping device 9, and slider 7 threaded connection threaded rod 6, slider 7 sliding connection bar hole 5's inner wall.

In an optional embodiment, the device further comprises two groups of sliding blocks; wherein, two groups of the supporting pieces 3 are arranged; the bottom plate 1 is provided with two groups, and the bottom plate 1 is provided with two groups of sliding chutes 2 in parallel; the two groups of chutes 2 are provided with openings on the same end surface of the bottom plate 1;

the two groups of sliding blocks are respectively connected with the two groups of supporting pieces 3, in a use state, the two groups of sliding blocks are respectively provided with two groups of openings which are inserted into the two groups of sliding grooves 2 in a sliding manner, in addition, a fastening component for limiting the sliding of the sliding blocks in the sliding grooves 2 is also arranged on the bottom plate 1, and the fastening component is the prior art and is not described in detail;

support piece 3 and bottom plate 1 sliding connection, and then make things convenient for support piece 3 to slide on bottom plate 1 to with intelligent press head 12 remove to the patient and treat the top of pressing the department, bottom plate 1 chooses for use but not limited to install in advance on sick bed or operating table through the bolt, perhaps produces sick bed or operating table supporting with this device.

Example 2

The invention also provides a use method of the hemostasis compressor for the cardiology department, which comprises the following specific steps:

s1, placing the base plate 1 on a hospital bed, installing the supporting piece 3 and the base plate 1 in a matching way, and sliding the supporting piece 3 on the base plate 1 to a proper position;

s2, moving the telescopic device 9 by using the moving assembly;

s3, controlling the extension of the telescopic device 9 to drive the intelligent pressing head 12 to move towards the hospital bed;

s4, adjusting the inclination angle of the intelligent pressing head 12 by using the rotating part so that the pressing end of the intelligent pressing head 12 faces the part to be pressed by the patient;

s5, the intelligent pressing head 12 is powered on to operate, and the movable assembly is driven to drive the intelligent pressing head 12 to extrude the part to be pressed of the patient;

s6, the intelligent pressing head 12 is ensured to keep the pressure of the to-be-pressed part of the patient unchanged by intelligently adjusting the current of the intelligent pressing head 12.

The hemostasis compressor for cardiology department provided by one embodiment of the invention is convenient to operate and use, and can adjust the intelligent distance between the pressing plate 122 and the second mounting plate 121 through the strength of the intelligent adjustment current according to the pressure between the pressing plate 122 and the to-be-pressed part of the patient, so as to ensure that the pressing force between the pressing plate 122 and the to-be-pressed part of the patient is not changed, and ensure the pressing effect on the to-be-pressed part of the patient.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (10)

1. A hemostasis compressor for cardiology department comprises a bottom plate (1), a support piece (3), a first mounting plate (4), a telescopic device (9) and a control box (10); two ends of the supporting piece (3) are respectively connected with the bottom plate (1) and the first mounting plate (4); the first mounting plate (4) is provided with a moving assembly for driving the telescopic device (9) to move along the length direction of the first mounting plate (4); the control box (10) is connected with the support piece (3), and a circuit board is arranged in the control box (10); the circuit board is provided with a current regulation module (14) and a main controller (13); the main controller (13) is electrically connected with the current adjusting module (14), and the main controller (13) controls and is connected with the telescopic device (9); a rotating part (11) is arranged at the telescopic end of the telescopic device (9); characterized in that the utility model also comprises an intelligent pressing head (12);

the rotation end of rotating part (11) is connected to intelligence press head (12), and intelligence press head (12) electric connection current regulation module (14), and intelligence press head (12) are used for waiting to press the pressure of position in order to guarantee to wait to press the position to the patient and press the pressure size unchangeable according to the size adjustment of its electric current of flowing through to the patient.

2. The hemostasis compressor for cardiology department according to claim 1, wherein the intelligent pressing head (12) comprises a second mounting plate (121), a pressing plate (122), a pressure sensor (124), a plurality of sets of sliding rods (125), a plurality of sets of springs (126), a plurality of sets of mounting cylinders (128), and a plurality of sets of electromagnets (129);

the second mounting plate (121) is connected with the rotating end of the rotating part (11), and a plurality of groups of first through holes are uniformly formed in the second mounting plate (121);

one end of the pressing plate (122) is provided with a groove for mounting the pressure sensor (124), and the end surface of the pressing plate (122) is provided with an elastic piece (123); the elastic piece (123) is connected with the pressure sensor (124); the pressure sensor (124) is in communication connection with the master controller (13);

one end of each of the multiple groups of mounting cylinders (128) is connected with the pressing plate (122), and the other end of each of the multiple groups of mounting cylinders (128) is provided with multiple groups of second through holes;

one end of each of the plurality of groups of sliding rods (125) sequentially penetrates through the plurality of groups of first through holes and the plurality of groups of second through holes and extends into the plurality of groups of mounting cylinders (128), and a plurality of groups of limiting plates (127) are arranged on the plurality of groups of sliding rods (125) between the second mounting plate (121) and the pressing plate (122); the multiple groups of springs (126) are respectively sleeved on the outer sides of the multiple groups of sliding rods (125), and two ends of the multiple groups of springs (126) are respectively connected with the second mounting plate (121) and the multiple groups of limiting plates (127); a plurality of groups of movable iron cores (130) are arranged on the end surfaces of a plurality of groups of sliding rods (125) in a plurality of groups of mounting cylinders (128);

the multiple groups of electrified electromagnets (129) are respectively installed in the multiple groups of installation cylinders (128), the multiple groups of electrified electromagnets (129) are respectively located on one side away from the multiple groups of second through holes, the multiple groups of electrified electromagnets (129) are electrically connected with the current adjusting module (14), and in the electrified state of the multiple groups of electrified electromagnets (129), the multiple groups of electrified electromagnets (129) are respectively connected with the multiple groups of movable iron cores (130) in a magnetic adsorption mode so as to drive the multiple groups of movable iron cores (130) and the multiple groups of sliding rods (125) to move towards one side of the multiple groups of electrified electromagnets (129).

3. The hemostasis compressor for cardiology department according to claim 2, wherein a guide sleeve is disposed in each set of the first through holes and each set of the second through holes; the guide sleeves are respectively sleeved on the outer sides of the slide rods (125) in an interference manner.

4. The hemostasis compressor of claim 2, wherein the plurality of sets of mounting tubes (128) are respectively connected with the pressing plate (122) in a threaded fit manner; the end surface of the pressing plate (122) far away from the multiple groups of mounting cylinders (128) is provided with an inwards concave curved surface.

5. A cardiology hemostasis compressor according to claim 1, wherein the rotating portion (11) comprises a third mounting plate (111), two sets of fixation plates (112), a connector (113), a drive device (114) and a rotating shaft (117);

one end of the third mounting plate (111) is connected with the telescopic end of the telescopic device (9); two ends of the rotating shaft (117) are respectively connected with two groups of fixing plates (112) in a rotating way; the two groups of fixing plates (112) are connected with the other end of the third mounting plate (111); the rotating shaft (117) is in transmission connection with the driving device (114); the driving device (114) is connected with the fixing plate (112), and the driving device (114) is in control connection with the main controller (13);

the rotation axis (117) is connected to the one end of connecting piece (113), and intelligent pressing head (12) is connected to the other end of connecting piece (113), and the axis of connecting piece (113) is perpendicular with the axis of rotation axis (117).

6. A cardiology hemostasis compressor of claim 4, further comprising two sets of adjustment features (115) and two sets of stops (116);

the two groups of adjusting parts (115) are distributed side by side and symmetrically distributed by taking the rotating shaft (117) as a center, one ends of the two groups of adjusting parts (115) are connected with the third mounting plate (111), and the other ends of the two groups of adjusting parts (115) are respectively connected with two groups of limiting parts (116); the two groups of limiting parts (116) are both in communication connection with the main controller (13), and the two groups of limiting parts (116) are positioned on a path of the connecting piece (113) which rotates circumferentially by taking the connecting position of the connecting piece and the rotating shaft (117) as the center.

7. A hemostasis compressor as claimed in claim 6, wherein the two sets of position-limiting members (116) are respectively connected to the connecting member (113) and the rotation shaft (117) at an angle of 180 °.

8. A cardiology hemostasis compressor as claimed in claim 1, wherein the moving assembly includes a threaded rod (6), a slider (7) and a hand wheel (8); wherein, the first mounting plate (4) is provided with a strip-shaped hole (5);

the threaded rod (6) is positioned in the strip-shaped hole (5), two ends of the threaded rod (6) are respectively rotatably connected with the inner wall of the strip-shaped hole (5), and the threaded rod (6) penetrates through the strip-shaped hole (5) and is connected with a hand wheel (8);

slider (7) are connected telescoping device (9), slider (7) threaded connection threaded rod (6), and slider (7) sliding connection bar hole (5)'s inner wall.

9. The intracardiac hemostatic compressor according to claim 1, further comprising two sets of slides; wherein, two groups of the supporting pieces (3) are arranged; the bottom plate (1) is provided with two groups, and the bottom plate (1) is provided with two groups of sliding chutes (2) in parallel; the two groups of sliding chutes (2) are provided with openings on the same end surface of the bottom plate (1);

the two groups of sliding blocks are respectively connected with the two groups of supporting pieces (3), and in a use state, the two groups of sliding blocks are respectively provided with two groups of openings which are inserted into the two groups of sliding grooves (2) in a sliding manner.

10. A method of using a cardiology hemostasis compressor comprising any one of claims 1-9, comprising the steps of:

s1, placing the base plate (1) on a hospital bed, installing the supporting piece (3) and the base plate (1) in a matching way, and sliding the supporting piece (3) to a proper position on the base plate (1);

s2, moving the telescopic device (9) by using the moving assembly;

s3, controlling the extension of the telescopic device (9) to drive the intelligent pressing head (12) to move towards the hospital bed;

s4, adjusting the inclination angle of the intelligent pressing head (12) by using the rotating part so that the pressing end of the intelligent pressing head (12) faces the position to be pressed by the patient;

s5, the intelligent pressing head (12) is electrified to operate, and the movable assembly is driven to drive the intelligent pressing head (12) to extrude the part to be pressed of the patient;

s6, the intelligent pressing head (12) is ensured to keep the pressure of the patient to be pressed unchanged by intelligently adjusting the current of the intelligent pressing head (12).

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