阅读说明：本技术 一种用于实施心脏负荷试验的医用运动平板 (medical exercise flat plate for implementing heart load test ) 是由 董晓晶 吴英乐 于 2019-09-12 设计创作，主要内容包括：本发明涉及心内科诊断辅助器材领域,具体的说是一种用于实施心脏负荷试验的医用运动平板。包括水平底座和滑动设置在水平底座上的行走台,水平底座的前端设置有多级台阶,水平底座的后端设置有用于控制行走台沿水平底座滑动的驱动机构,可通过驱动机构将行走台的前端滑动至不同的台阶上以调节行走台的坡度；驱动机构包括固定在水平底座后端位置的蜗杆减速机、连接在蜗杆减速机输出轴上的滚珠丝杠以及配合安装在滚珠丝杠上的丝母,丝母的底部滑动设置在水平底座上,丝母的顶部设有轴套且轴套套装于后滚轮的轮轴上。本发明的坡度调整连续且精确,以便于受试者通过标准运动方案真实反映受试者心脏状况。(The invention relates to the field of diagnosis auxiliary equipment for cardiology department, in particular to a medical exercise flat plate for implementing a heart load test. The walking platform comprises a horizontal base and a walking platform arranged on the horizontal base in a sliding manner, wherein the front end of the horizontal base is provided with a plurality of steps, the rear end of the horizontal base is provided with a driving mechanism for controlling the walking platform to slide along the horizontal base, and the front end of the walking platform can be slid onto different steps through the driving mechanism to adjust the gradient of the walking platform; the driving mechanism comprises a worm speed reducer fixed at the rear end of the horizontal base, a ball screw connected to an output shaft of the worm speed reducer and a nut installed on the ball screw in a matching mode, the bottom of the nut is arranged on the horizontal base in a sliding mode, and the top of the nut is provided with a shaft sleeve sleeved on a wheel shaft of the rear roller. The slope adjustment of the present invention is continuous and accurate so that the subject can truly reflect the heart condition of the subject through a standard exercise regimen.)

1. A medical exercise platform for conducting a cardiac stress test, comprising: the walking platform comprises a horizontal base (2) and a walking platform (5) arranged on the horizontal base (2) in a sliding manner, wherein the front end of the horizontal base (2) is provided with a plurality of steps (3), the rear end of the horizontal base (2) is provided with a driving mechanism (1) used for controlling the walking platform (5) to slide along the horizontal base (2), and the front end of the walking platform (5) can be slid onto different steps (3) through the driving mechanism (1) so as to adjust the gradient of the walking platform (5);

The rear end of the walking table (5) is provided with a rear roller (6) which is used for being matched with the horizontal base (2) to roll, the front end of the walking table (5) is provided with a front roller (4) which is used for being matched with the horizontal base (2) or the steps (3) to roll, and slopes (302) for the front rollers (4) to roll and match are arranged between the table tops (301) of the two adjacent steps (3);

The driving mechanism (1) comprises a worm speed reducer (102) fixed at the rear end of the horizontal base (2), a ball screw (103) connected to an output shaft of the worm speed reducer (102), and a nut (105) installed on the ball screw (103) in a matched mode, the bottom of the nut (105) is arranged on the horizontal base (2) in a sliding mode, a shaft sleeve (107) is arranged at the top of the nut (105), the shaft sleeve (107) is sleeved on a wheel shaft (7) of the rear roller (6), a torque sensor (108) and a hand wheel (101) are sequentially connected onto an input shaft of the worm speed reducer (102), the torque sensor (108) is connected with a display, and the torque value of the input shaft of the worm speed reducer (102) in the process of adjusting the gradient of the walking table (5) through rotating the hand wheel (101) can be displayed by the display.

2. A medical exercise platform for performing cardiac stress testing according to claim 1, wherein: spacing groove (9) have all been seted up along circumference on the rim of rear roller (6) and preceding gyro wheel (4), correspond on horizontal base (2) to be equipped with and supply spacing guide rail (8) that spacing groove (9) cooperation is spacing, and on spacing guide rail (8) extended to step (3).

3. a medical exercise platform for performing cardiac stress testing according to claim 1, wherein: the inclination angles of all the slopes (302) in the multi-step (3) are the same.

4. A medical exercise platform for performing cardiac stress testing according to claim 1, wherein: the connecting parts of the slopes (302) and the two adjacent table tops (301) are both in a smooth arc shape, and the width of each table top (301) is more than 1.5 times of the diameter of the roller wheel.

5. A medical exercise platform for performing cardiac stress testing according to claim 1, wherein: the base is provided with a shaft seat (104) for the ball screw (103) to rotate and match with one end of the worm speed reducer (102).

6. A medical exercise platform for performing cardiac stress testing according to claim 1, wherein: the lower part of the screw nut (105) is provided with a dovetail-shaped sliding block (106), and the horizontal base (2) is correspondingly provided with a slideway for the sliding fit of the sliding block (106).

Technical Field

The invention relates to the field of diagnosis auxiliary equipment for cardiology department, in particular to a medical exercise flat plate for implementing a heart load test.

Background

In the diagnosis of coronary heart disease, the most involved is the search for accurate and effective indirect determination methods to study the maximum oxygen uptake. The indirect measurement method is a method for calculating the maximum oxygen uptake by means of heart rate and other easily-measured physiological parameters according to the fact that the oxygen consumption of a human body is closely related to the finished power and the heart rate during exercise. The Bruce protocol is the most widely accepted indirect measurement method, and when a subject walks on a motion plate, the belt speed and the gradient of a walking table are increased every three minutes, so that the heart load of the subject is increased. In the test process, the heart rate of a subject is recorded by an electrocardiograph in the whole process, and the maximum oxygen uptake is obtained to assist the diagnosis of the coronary heart disease.

The existing sport flat plate is mostly formed by transforming a running machine, and the belt speed of the walking platform can be adjusted by a speed regulating motor. While the adjustment of the slope of the walking board is often difficult to strictly match the cardiac load augmentation protocol. This is because the slope adjustment function of traditional treadmill usually relies on locating pin and a plurality of locating hole to realize, inserts in order to adjust the height of certain one end of walking platform through the locating pin in the locating hole of difference, and then accomplishes the slope and adjusts. The adjustment process is complicated, and usually needs the subject to take the next bench to perform, so that the heart stress test has poor continuity.

disclosure of Invention

The invention aims to provide a medical exercise flat plate for implementing a heart load test, the gradient adjustment of which is continuous and accurate, so that a testee can truly reflect the heart condition of the testee through a standard exercise scheme.

in order to solve the technical problems, the invention adopts the technical scheme that: a medical exercise flat plate for implementing a heart load test comprises a horizontal base and a walking table arranged on the horizontal base in a sliding mode, wherein the front end of the horizontal base is provided with a plurality of steps, the rear end of the horizontal base is provided with a driving mechanism used for controlling the walking table to slide along the horizontal base, and the front end of the walking table can be slid onto different steps through the driving mechanism to adjust the gradient of the walking table;

The rear end of the walking table is provided with a rear roller matched with the horizontal base to roll, the front end of the walking table is provided with a front roller matched with the horizontal base or the steps to roll, and slopes for the front rollers to roll and match are arranged between the table tops of two adjacent steps;

The driving mechanism comprises a worm speed reducer fixed at the rear end of the horizontal base, a ball screw connected to an output shaft of the worm speed reducer and a nut installed on the ball screw in a matched mode, the bottom of the nut is arranged on the horizontal base in a sliding mode, a shaft sleeve is arranged at the top of the nut and sleeved on a wheel shaft of the rear roller, a torque sensor and a hand wheel are sequentially connected onto an input shaft of the worm speed reducer, the torque sensor is connected with a display, and the display can display the change of the torque value of the input shaft of the worm speed reducer in the process of adjusting the gradient of the walking table through rotating the hand wheel.

preferably, the limiting grooves are formed in the rims of the rear idler wheel and the front idler wheel along the circumferential direction, the limiting guide rails for limiting groove matching limiting are correspondingly arranged on the horizontal base, and the limiting guide rails extend to the steps.

Preferably, all slopes in the multistage step have the same inclination angle.

Preferably, the shape of the joint of the slope and the two adjacent table tops is smooth circular arc, and the width of each table top is more than 1.5 times of the diameter of the roller wheel.

Preferably, a shaft seat which is used for enabling one end of the ball screw far away from the worm speed reducer to be in running fit is arranged on the base.

Preferably, the lower part of the screw is provided with a dovetail-shaped sliding block, and the horizontal base is correspondingly provided with a slideway for the sliding fit of the sliding block.

Advantageous effects

The walking platform is arranged on the horizontal base in a sliding mode through the front idler wheel and the rear idler wheel. The front end of the horizontal base is provided with a plurality of steps. Under the condition that the distance between the front roller and the rear roller of the walking table is fixed, when the rear roller is positioned on the horizontal base and the front roller is positioned on the table top of a certain step, the walking table can form a specific gradient. The method is convenient for production enterprises to produce and manufacture according to the gradient of the walking table in the heart load test scheme, and is also convenient for accurately adjusting the gradient of the walking table in the application process so as to accurately implement the heart load test scheme.

The driving mechanism comprises a worm speed reducer, and a worm wheel in the worm speed reducer drives a lead screw to rotate, so that a nut arranged on the horizontal base in a sliding mode pushes the traveling platform to slide through a shaft sleeve. In the process of adjusting the gradient of the walking platform, the rear end of the walking platform rotates by taking the wheel shaft of the rear roller as the center. The shaft sleeve can automatically adapt to the rotation of the rear end of the walking platform, has a simple structure, is easy to realize, and simultaneously meets the requirements of pushing and pulling the walking platform to move forwards or backwards so as to meet the requirements of adjusting the slope of the walking platform to increase or decrease.

The moment amplification effect of the worm speed reducer enables a testee not to walk down to a walking platform in the gradient adjustment process, and the implementation continuity of the experimental scheme is maintained. And due to the self-locking effect of the worm speed reducer, the worm speed reducer can stably support the walking platform and a subject on the walking platform, maintain each specific gradient in the test process and be beneficial to the accurate implementation of a test scheme.

a worm input shaft of the worm speed reducer is connected with a hand wheel through a torque sensor. When the lead screw is driven to rotate by rotating the hand wheel, the front roller of the driving walking platform climbs the slope of the step, and the force required to be paid is increased. And once the front roller crosses the slope and falls on the table-board, the force for rotating the hand wheel can be greatly reduced instantly, and when the hand wheel is continuously rotated to enable the front roller to roll along the table-board, the force required to be paid out keeps stable. Through the law, medical personnel are lieing in walking the platform rear side and adjust walking the platform slope in-process, can need not observe the position of preceding gyro wheel on the step, only need continuously to rotate the hand wheel, in case the numerical value that torque sensor shows reduces the back in the twinkling of an eye, can judge that preceding gyro wheel has fallen on the mesa of step. Thus, the hand wheel is stopped immediately, and the increase of the gradient of the walking platform by a plurality of steps is completed. In the preferred embodiment of the invention, the width of the step surface is more than 1.5 times of the wheel diameter of the front roller, and the technical effects are as follows: after the current gyro wheel falls on the mesa, even there is the inertia of hand wheel pivoted or medical staff to rotate the inertia of hand wheel and make the walking platform continue to advance, also have sufficient mesa distance to supply the buffering that inertia gos forward, avoid the preceding gyro wheel directly to roll on the slope of next step, influence the accuracy of slope regulation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a sectional view taken along line A-A in FIG. 1;

FIG. 3 is a schematic structural diagram of a worm reducer portion in the present invention;

FIG. 4 is a schematic view of the walking platform of FIG. 1 adjusted to a maximum grade;

The labels in the figure are: 1. the device comprises a driving mechanism, 101, a hand wheel, 102, a worm speed reducer, 103, a ball screw, 104, a shaft seat, 105, a nut, 106, a sliding block, 107, a shaft sleeve, 108, a torque sensor, 2, a horizontal base, 3, a step, 301, a table top, 302, a slope, 4, a front roller, 5, a walking table, 6, a rear roller, 7, a wheel shaft, 8, a limiting guide rail, 9 and a limiting groove.

Detailed Description

as shown in fig. 1, the medical exercise flat plate for carrying out the heart load test comprises a horizontal base 2 and a walking platform 5 which is arranged on the horizontal base 2 in a sliding mode. Horizontal base 2 and walking platform 5 are the rectangle, are equipped with preceding gyro wheel 4 respectively in the both sides of walking platform 5 front end, are equipped with back gyro wheel 6 respectively in the both sides of walking platform 5 rear end, make walking platform 5 accessible front and back gyro wheel 6 slide along the length direction of horizontal base 2. In fig. 1, the right end of the horizontal base 2 is provided with a plurality of steps 3, the left end of the horizontal base 2 is provided with the driving mechanism 1, and the driving mechanism 1 can push the walking table 5 to slide towards the right end of the horizontal base 2, so that the front roller 4 rolls on the table surface 301 of the steps 3 to adjust the gradient of the walking table 5. The walking platform 5 is similar to the running platform of the prior art running machine, and the speed is adjusted by a speed adjusting motor, which is not described herein. All seted up spacing groove 9 along circumference on the rim of rear idler wheel 6 and preceding gyro wheel 4, correspond to be equipped with on horizontal base 2 and supply spacing groove 9 to cooperate spacing stop rail 8, and stop rail 8 extends to on the step 3.

The number of the steps 3 in the embodiment is seven levels, and the steps correspond to seven gradients in the Bruce scheme. The slopes 302 are arranged between the table tops 301 of two adjacent steps 3, so that the front roller 4 can roll to the table top 301 of the next step 3 through the slopes 302, and the two ends of the slopes 302 are smoothly processed as much as possible, thereby avoiding the jerking feeling generated when the front roller 4 rolls. As shown in fig. 1, when the front roller 4 is located on the first step 3, the slope of the traveling table 5 is 10 °, and when it is located on the second step 3, the slope of the traveling table 5 is 12 °. And the rest can be done in the same way until the gradient reaches the maximum 22 degrees when the front roller 4 falls on the seventh step 3 in the state shown in fig. 4. When used in an improved Bruce program for the elderly, a six-level step 3 may be provided. When the front roller 4 is positioned on the horizontal base 2 as shown in fig. 1, the slope of the walking board 5 is naturally 0 °. The step 3 part can be taken as the module alone and can be dismantled the right-hand member of connecting in horizontal base 2, when implementing different heart load test schemes, the installation corresponding step 3 module can.

As shown in fig. 2, the drive mechanism 1 of the present invention mainly includes a worm speed reducer 102, a ball screw 103, and a nut 105. The worm reducer 102 is fixedly connected to the right end of the horizontal base 2, and the worm gear output shaft of the worm reducer is distributed along the horizontal direction and points to the step 3. The left end of the ball screw 103 is coaxially connected to the worm wheel output shaft through a coupler, and the right end of the ball screw is installed in a shaft seat 104 fixed in the middle of the horizontal base 2 in a rotating fit mode so as to keep the stability of the structure in the transmission process. The screw nut 105 is arranged on the ball screw 103 in a matching way, the lower end of the screw nut is provided with a dovetail-shaped sliding block 106 which can flexibly slide in a dovetail-shaped slideway arranged on the horizontal base 2; the upper end of the rear roller is provided with a shaft sleeve 107, and the shaft sleeve 107 is sleeved on the wheel shaft 7 between the two rear rollers 6. Through the above mechanism, when the worm gear reducer controls the ball screw 103 to rotate, the nut 105 slides horizontally along the slideway, so that the walking table 5 is pushed by the shaft sleeve 107 to move right to the position of the step 3 for slope adjustment. And when the nut 105 pushes the walking platform 5 to move right to the step 3 to adjust the gradient, and the left end of the walking platform 5 rotates around the wheel shaft 7, the shaft sleeve 107 moving along the horizontal direction can be used for the wheel shaft 7 to rotate freely, so that the nut 105 is automatically adapted to the rotation of the left end of the walking platform 5.

The input part of the worm reducer 102 is shown in fig. 3, and a torque sensor 108 and a hand wheel 101 are connected to the worm input shaft in sequence. The handwheel 101 is used for providing power input of the worm reducer 102 so as to drive the ball screw 103 to rotate by rotating the handwheel 101. The torque sensor 108 is connected with a display, and the display can display the torque value change of the input shaft of the worm speed reducer 102 in the process of adjusting the gradient of the walking table 5 by rotating the hand wheel 101, so that the medical staff can judge the relative position (on the table board 301 or the slope 302) of the front roller 4 on the step 3.

Specifically, when the lead screw is driven to rotate by rotating the hand wheel 101, so as to drive the front roller 4 of the walking board 5 to climb along the slope 302, the force required to be exerted by rotating the hand wheel 101 is continuously increased. Once the front roller 4 falls on the table 301 over the slope 302, the force for rotating the hand wheel 101 is reduced instantly, and the force to be exerted is kept stable when the hand wheel 101 is continuously rotated to roll the front roller 4 along the table 301. Through the law, medical personnel are lieing in 5 rear sides of walking platform and adjust 5 slope in-process of walking platform, can need not observe preceding gyro wheel 4 position on step 3, only need to continue to rotate hand wheel 101, in case the numerical value that torque sensor 108 shows reduces the back in the twinkling of an eye, can judge preceding gyro wheel 4 and fall on the mesa 301 of step 3, single-stage slope regulation has been accomplished to form the signal that provides the stop rotation hand wheel 101 for medical personnel.

In a preferred embodiment of the present invention, the width of the table top 301 is 1.5 times or more the diameter of the front roller 4. After the front roller 4 falls on the table-board 301, even if inertia of the hand wheel 101 or inertia of the medical staff rotating the hand wheel 101 exists to enable the walking table 5 to continue to advance, enough distance of the table-board 301 is provided for inertia to advance and buffer, and the problem that the front roller 4 directly rolls on the slope 302 of the next step 3 to affect the accuracy of slope adjustment is avoided.