CN113288306A - Automatic change hemostasis pressing device - Google Patents

Abstract

The invention relates to an automatic hemostasis pressing device which comprises a support module, a transmission module, an arm pressing module and an arm supporting module, wherein the support module comprises a base and an annular track frame, the annular track frame is vertically arranged on the base, the arm pressing module and the arm supporting module are respectively arranged at the top and the bottom of the annular track frame and can vertically extend and retract in the annular track frame, the transmission module comprises two transmission units symmetrically arranged at two sides of the annular track frame, each transmission unit comprises a sliding block, a first connecting rod and a second connecting rod, the sliding block is arranged on a track of the annular track frame, two ends of the first connecting rod are respectively rotatably connected with the sliding block and the arm pressing module, and two ends of the second connecting rod are respectively connected with the arm supporting module. Compared with the prior art, the hemostatic compression device can realize compression locking through a pure mechanical structure, hemostasis compression is performed, a patient only needs to place an arm, and the operation is quick and convenient.

Description

Automatic change hemostasis pressing device

Technical Field

The invention relates to a medical auxiliary instrument, in particular to an automatic hemostasis pressing device.

Background

In medical practice, phlebotomy is a conventional operation of nursing work, bleeding and plaque formation at a puncture point are caused by improper pressing after phlebotomy and needle drawing, many people consider that phlebotomy is an operation which does not need technology, work negligence, carelessness and low responsibility are caused, pain and plaque formation are caused by improper needle drawing of a patient, the patient is also unpleasant psychologically and is not full of nursing work, dispute is easily caused, and nursing quality is affected. Inadequate compression time and improper placement can cause bleeding. Generally, partial pressing is required for 3-5 minutes after the needle is pulled out, but most nurses carry out pressing for patients or family members after the needle is pulled out, the pressing time is not described, whether the pressed part is correct is not checked, and the cotton swab is prone to skin deviation and bleeding in the pressing process. After the venipuncture is finished, standardization and convenience of needle eye pressing are urgently needed to be realized through an automatic mode, the working pressure of medical workers is reduced, and meanwhile, the situations of bleeding of patients and the like are avoided, so that secondary medical injuries are encountered. In recent years, with the gradual maturity of automatic needle inserting robot technology, the accuracy of the needle inserting process is greatly improved, the needle inserting time is also shortened, but the hemostasis of the needle eye after the needle inserting is still completed manually, the hemostasis is pressed by depending on more experience of nurses and the matching degree of patients, and particularly for old people or patients with inconvenient actions, various difficulties are often caused by the pressing hemostasis.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an automatic hemostasis pressing device, which realizes automatic hemostasis pressing after the vein robot puncture.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides an automatic change hemostasis press device, includes that support module, transmission module, arm press module and arm support module, the support module includes base and annular track frame, and the vertical setting of annular track frame is on the base, the module is pressed to the arm and the arm support module sets up respectively in annular track frame top and bottom to all can stretch out and draw back from top to bottom in annular track frame, transmission module includes that two symmetries set up the transmission unit in annular track frame both sides, and every transmission unit includes sliding block, first connecting rod and second connecting rod, the sliding block sets up on the track of annular track frame, the both ends of first connecting rod are rotated respectively and are connected the sliding block and the module is pressed to the arm, sliding block and arm support module are connected respectively to the both ends of second connecting rod.

Further, the arm support module includes reset spring and arm support frame, the bottom of circular orbit frame is equipped with the mounting groove, insert in the mounting groove the bottom of arm support frame, reset spring is located the mounting groove of arm support frame lower extreme, the arm support frame rotates connects two second connecting rods.

Further, the arm support module further comprises an arm supporting plate which is arranged at the uppermost end of the arm supporting frame.

Further, the arm pressing module comprises an arm pressing frame, the lowermost end of the arm pressing frame is a pressing portion, a through hole groove is formed in the top of the annular track frame, the top end of the arm pressing frame penetrates through the through hole groove, and the arm pressing frame is rotatably connected with the first connecting rods in two modes.

Furthermore, the pressing part is sleeved with a disposable gauze sleeve.

Further, the module is pressed to the arm includes pressing means, installs in the bottom that the module was pressed to the arm, and this pressing means is including pressing push rod, first motor and ultrasonic sensor, first motor drives through gear structure and presses the push rod and reciprocate, the bottom of pressing the push rod is the sucking disc, ultrasonic sensor installs and is used for detecting whether below arm is in the settlement distance in one side of pressing the push rod.

Furthermore, a pressure sensor is arranged between the pressing push rod and the sucker.

Further, the module is pressed to the arm still includes tourniquet replacement unit, and this tourniquet replacement unit includes band pulley and second motor, the pivot of band pulley is connected to the second motor, the tourniquet twines on the band pulley, be equipped with an export groove towards pressing the push rod on the tourniquet replacement unit, export groove is passed to the one end of tourniquet, the tourniquet is formed by the connection of the tourniquet of taking the protection film.

Further, the sliding block of the transmission module is positioned in the upper semicircle of the annular track frame.

Further, the base is in a hollow triangular shape.

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

1. the invention designs an automatic pressing device consisting of a support module, a transmission module, an arm pressing module and an arm supporting module, wherein the support module comprises an annular track frame, and the transmission module consists of a connecting rod and a sliding block; in the use, the patient only needs place the arm and fall down naturally on the arm support module, arm gravity can promote arm support module downstream, connecting rod length is through reasonable collocation, when promoting arm support module decline gradually through arm gravity, the module is pressed to the arm of top produces than arm support module decline by a wide margin under the pulling of connecting rod, the realization is to the pressing of arm, can realize pressing the locking through pure mechanical structure promptly, press stanch, and the patient only need place the arm can, the operation is swift convenient.

2. The arm pressing module can further comprise a pressing mechanism, and an additional motor and a pressing push rod are arranged. When the arm pressing module is descended and still has a distance from one end of the arm to the arm, pushing and pressing in a two-section mode are achieved by pressing the push rod; the structure can ensure that the stroke of the push rod is lower, thereby being beneficial to the miniaturization of the structure and realizing the working stability and the sensitivity. Meanwhile, the arm pressing module can be provided with an ultrasonic sensor, a pressure sensor and the like, so that software-controlled automatic operation is realized.

3. The arm pressing module can also comprise a tourniquet replacing unit, so that the automatic supply of the tourniquet is realized; according to the invention, the blood stopping belt is sucked up by the sucker of the arm pressing module to press and attach the needle head, so that the operation actions of medical workers are reduced, the complicated disinfection process is avoided, and the health and safety of the medical workers and patients are ensured.

Drawings

Fig. 1 is a schematic structural diagram of the first embodiment.

Fig. 2 is a schematic structural diagram of a transmission module.

FIG. 3 is a schematic cross-sectional view of the first embodiment.

Fig. 4 is a schematic diagram of the operation process of the first embodiment.

Fig. 5 is a schematic structural diagram of the second embodiment.

Fig. 6 is a schematic structural view of a pressing mechanism according to a second embodiment.

Fig. 7 is a schematic structural diagram of a tourniquet replacement unit in the third embodiment.

Reference numerals: 1. the tourniquet comprises a support module, 11, an annular track frame, 111, a mounting groove, 112, a through hole groove, 12, a base, 2, a transmission module, 21, a sliding block, 22, a first connecting rod, 23, a second connecting rod, 3, an arm pressing module, 31, an arm pressing frame, 32, a pressing mechanism, 321, a pressing push rod, 322, a first motor, 33, a tourniquet replacing unit, 331, a second motor, 332, a belt wheel, 333, an outlet groove, 4, an arm supporting module, 41, a reset spring, 42, an arm supporting frame, 43, an arm supporting plate, 5 and a tourniquet.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

Example one

As shown in fig. 1 to 3, the present embodiment provides an automatic hemostasis pressing device, which includes a support module 1, a transmission module 2, an arm pressing module 3, and an arm supporting module 4.

The support module 1 comprises a base 12 and an annular track frame 11, wherein the annular track frame 11 is vertically arranged on the base 12, and a cavity is formed inside the annular track frame 11 to form a track; the base 12 is in a hollow triangular shape, and the interior of the base is divided into two parts, so that the material cost is reduced, the bearing structure is optimized, the integrity of the device is improved, and the appearance is more attractive.

The arm pressing module 3 and the arm supporting module 4 are respectively arranged at the top and the bottom of the annular track frame 11 and can be stretched up and down in the annular track frame 11. Specifically, the arm support module 4 includes an arm rest 43, a return spring 41, and an arm support bracket 42. The bottom of the circular track frame 11 is provided with a mounting groove 111, the bottom end of the arm support frame 42 is inserted into the mounting groove 111, and the return spring 41 is located in the mounting groove 111 at the lower end of the arm support frame 42. Therefore, the arm support bracket 42 can extend up and down in the mounting groove 111, and the return spring 41 can support the arm support bracket. Arm supporting plate 43 sets up the top at arm support frame 42, and the top surface of arm supporting plate 43 is the arc for place patient's arm. The arm pressing module 3 includes an arm pressing frame 31, and the lowermost end of the arm pressing frame 31 is a pressing portion. The top of the circular track frame 11 is provided with two semicircular through-hole slots 112, and the top end of the arm pressing frame 31 penetrates through the through-hole slots 112. The middle of the arm pressing frame 31 is provided with a limiting part for limiting the upward movement distance.

The transmission module 2 comprises two transmission units symmetrically arranged at two sides of the circular track frame 11. Each transmission unit includes a slide block 21, a first link 22, and a second link 23. The slide block 21 is provided on the track of the endless track frame 11 and is located in the upper semicircle of the endless track frame 11. The two ends of the first link 22 are respectively connected with the sliding block 21 and the arm pressing frame 31 in a rotating manner, and the two ends of the second link 23 are respectively connected with the sliding block 21 and the arm supporting frame 42 in a rotating manner. The length of each connecting rod is reasonably matched, the arm supporting frame 42 is pushed to gradually descend through the gravity of the arm, and meanwhile, the arm pressing frame 31 above the connecting rods is pulled to descend more greatly than the arm supporting frame 42, so that the arm can be pressed. When in use, the pressing part is sleeved with a disposable gauze sleeve, which is convenient for replacing in time.

The working process and principle of the embodiment are as follows: the patient firstly passes the arm through the annular track frame 11 and is positioned between the arm pressing module 3 and the arm supporting module 4, the arm is straightened and does not contact with the arm pressing module and the arm supporting module, and the venipuncture robot finishes puncture and blood drawing. The patient then moves the arm back slightly and naturally drops onto the arm rest 43 with the needle inserted below the arm compression module 3. Under the action of the gravity of the arm, the arm support bracket 42 moves downward, and the arm pressing bracket 31 is driven to move downward by the connecting rod and the sliding block 21. As shown in fig. 4, in the process of moving down the sliding block 21, the distance between the two first links 22 is increased, so that the first links 22 drive the arm pressing frame 31 to move down, and the distance that the arm pressing frame 31 moves down is greater than the distance that the arm supporting frame 42 moves down, thereby achieving rapid pressing hemostasis for the arms. The hemostatic press can be ensured only by keeping the arm of the user, the other hand of the user is not needed to press, and the hemostatic press is very convenient for the old or the handicapped.

Example two

The basic structure of this embodiment is the same as that of the first embodiment, and the difference is that: the arm pressing module 3 includes a pressing mechanism 32 mounted on the bottom of the arm pressing module 3, as shown in fig. 5 and 6. The pressing mechanism 32 includes a pressing push rod 321, a first motor 322, and an ultrasonic sensor. The first motor 322 drives the pressing push rod 321 to move up and down through a gear structure, and the bottom end of the pressing push rod 321 is a suction cup 321a which adopts the existing vacuum suction cup. The ultrasonic sensor is installed at the side of the push rod 321 for detecting whether the lower arm is within a set distance.

The working process and principle of the embodiment are as follows: when in use, a hemostatic patch is sucked under the suction cup 321 a. When the arm pressing module 3 descends, the ultrasonic sensor responds and starts monitoring. When the ultrasonic sensor detects that a certain distance is reached to the arm of the human body, the first motor 322 starts to work, the pressing push rod 321 is driven to downwards push the two-section type hemostatic patch, and the hemostatic patch is attached to the acupuncture point. A pressure sensor is also arranged between the pressing push rod 321 and the suction cup 321a, when the set pressure is reached, the first motor 322 is controlled to rotate reversely, and the suction cup 321a is closed, so that the tourniquet 5 is pressed at the puncture to keep the hemostasis pressing. This structure and transmission module 2 cooperate each other, can be so that the stroke of pressing push rod 321 is lower, be favorable to the miniaturization of structure and realize job stabilization nature and sensitivity.

EXAMPLE III

In this embodiment, which is a modified version of the second embodiment, the arm pressing module 3 further includes a tourniquet replacing unit 33, as shown in fig. 7. The tourniquet replacement unit 33 comprises a pulley 332 and a second motor 331. The second motor 331 is connected to a rotation shaft of the pulley 332, the tourniquet 5 is wound on the pulley 332, and the tourniquet replacement unit 33 is provided with an outlet slot 333 facing the pressing push rod 321 such that one end of the tourniquet 5 passes through the outlet slot 333. The tourniquet 5 is formed by connecting tourniquets with protective films, and the adjacent tourniquets are in virtual electrical connection. A knife edge may also be provided below the outlet slot 333. When one pressing operation is finished, the second motor 331 may drive the pulley 332 to extend the tourniquet 5 out of the exit slot 333. The suction cup 321a of the push rod 321 is pressed to start sucking the tourniquet 5, and then in the process of moving downwards, the tourniquet 5 is cut by the outlet slot 333 to form a hemostatic sheet, namely a hemostatic patch, so that the hemostatic patch is automatically replaced.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (10)

1. An automatic hemostasis pressing device is characterized by comprising a support module (1), a transmission module (2), an arm pressing module (3) and an arm supporting module (4), wherein the support module (1) comprises a base (12) and an annular track frame (11), the annular track frame (11) is vertically arranged on the base (12), the arm pressing module (3) and the arm supporting module (4) are respectively arranged at the top and the bottom of the annular track frame (11) and can vertically extend and retract in the annular track frame (11), the transmission module (2) comprises two transmission units symmetrically arranged at two sides of the annular track frame (11), each transmission unit comprises a sliding block (21), a first connecting rod (22) and a second connecting rod (23), the sliding block (21) is arranged on a track of the annular track frame (11), two ends of the first connecting rod (22) are respectively and rotatably connected with the sliding block (21) and the arm pressing module (3), and two ends of the second connecting rod (23) are respectively connected with the sliding block (21) and the arm supporting module (4).

2. The automatic hemostatic presser according to claim 1, wherein the arm support module (4) comprises a return spring (41) and an arm support frame (42), the bottom of the circular track frame (11) is provided with a mounting groove (111), the bottom end of the arm support frame (42) is inserted into the mounting groove (111), the return spring (41) is located in the mounting groove (111) at the lower end of the arm support frame (42), and the arm support frame (42) is rotatably connected with two second connecting rods (23).

3. An automated hemostat according to claim 2 wherein said arm support module (4) further comprises an arm support plate (43) mounted at the uppermost end of the arm support frame (42).

4. The automated hemostasis depressor as claimed in claim 1, wherein the arm pressing module (3) comprises an arm pressing frame (31), the lowest end of the arm pressing frame (31) is a pressing part, the top of the circular track frame (11) is provided with a through hole slot (112), the top end of the arm pressing frame (31) passes through the through hole slot (112), and the arm pressing frame (31) is rotatably connected with the two first connecting rods (22).

5. An automated hemostat according to claim 4 wherein said pressing portion is covered with a disposable gauze covering.

6. The automatic hemostasis depressor as claimed in claim 1, wherein the arm pressing module (3) comprises a pressing mechanism (32) installed at the bottom of the arm pressing module (3), the pressing mechanism (32) comprises a pressing push rod (321), a first motor (322) and an ultrasonic sensor, the first motor (322) drives the pressing push rod (321) to move up and down through a gear structure, the bottom end of the pressing push rod (321) is a suction cup, and the ultrasonic sensor is installed at one side of the pressing push rod (321) for detecting whether the lower arm is within a set distance.

7. An automated hemostat according to claim 6 wherein a pressure sensor is provided between the pressing rod (321) and the suction cup.

8. The automated hemostat according to claim 6, wherein the arm pressing module (3) further comprises a tourniquet replacement unit (33), the tourniquet replacement unit (33) comprises a pulley (332) and a second motor (331), the second motor (331) is connected to a rotating shaft of the pulley (332), the tourniquet (5) is wound around the pulley (332), the tourniquet replacement unit (33) is provided with an exit slot (333) facing the pressing rod (321), one end of the tourniquet (5) passes through the exit slot (333), and the tourniquet (5) is formed by connecting tourniquets with protective films.

9. An automated hemostat according to claim 1, wherein the sliding block (21) of the transmission module (2) is located in the upper half circle of the circular track frame (11).

10. An automated hemostat according to claim 1 wherein said base (12) is in the shape of a hollow triangle.

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