CN219480080U - Fetal heart monitor - Google Patents

Abstract

The utility model relates to the technical field of fetal heart monitoring, in particular to a fetal heart monitor, which comprises a probe, a winding assembly and a protection assembly, wherein the protection assembly comprises a protection pad, a spring, a support frame, a protection cover, a guide rail, a sliding block and a protection cover. When the probe is stored in the protective cover, the spring is compressed firstly, so that the protective pad moves towards the direction close to the supporting frame, the probe is placed in the protective pad, then the spring is loosened, the spring drives the protective pad to move towards the direction far away from the supporting frame, so that the protective pad fixes probes of different sizes, the sliding block is placed in the guide rail, the protective cover is arranged outside the protective cover to seal the protective cover, and the situation that the probe is damaged when the probe is directly exposed in the external environment and is carelessly impacted is avoided.

Description

Fetal heart monitor

Technical Field

The utility model relates to the technical field of fetal heart monitoring, in particular to a fetal heart monitor.

Background

Fetal heart monitoring is the most commonly used monitoring means in obstetrical clinics, and fetal heart monitors are used in the prior art to monitor fetal conditions in the abdomen of pregnant women.

The existing fetal heart monitor needs to lift the clothes of the pregnant woman during detection to expose the abdomen outside, and then the detection equipment which is not heated is attached to the abdomen, so that the abdomen of the pregnant woman is easy to catch cold, and therefore the temperature controller is arranged to enable the heated air to be sprayed out from the spray pipe so as to ensure proper body temperature of the abdomen during detection.

The probe of the fetal heart monitor is not stored and protected after being used and is directly exposed in the external environment, so that the probe is easy to damage when being impacted carelessly.

Disclosure of Invention

The utility model aims to provide a fetal heart monitor, which solves the technical problem that a probe of the fetal heart monitor is directly exposed in the external environment without storage protection after the use is completed, so that the probe is easy to damage when being impacted carelessly.

In order to achieve the above purpose, the utility model provides a fetal heart monitor, which comprises a probe and a rolling component, wherein the rolling component is used for rolling the probe and also comprises a protection component; the protection assembly comprises a protection pad, a spring, a support frame, a protection cover, a guide rail, a sliding block and a protection cover, wherein the protection pad is connected with the probe and is positioned on the outer side of the probe, the spring is fixedly connected with the protection pad and is positioned on one side of the protection pad far away from the probe, the support frame is fixedly connected with the spring and is positioned on one side of the spring far away from the protection pad, the protection cover is fixedly connected with the support frame and is positioned on the outer side of the support frame, the guide rail is fixedly connected with the protection cover and is positioned on the outer side of the protection cover, the sliding block is in sliding connection with the guide rail and is positioned on one side of the guide rail far away from the protection cover, and the protection cover is fixedly connected with the sliding block and is positioned on one side of the sliding block far away from the guide rail.

The winding assembly comprises a connecting wire, a winding rod and a separation plate, wherein the connecting wire is connected with the probe and is positioned at one side of the probe far away from the protection pad; the winding rod is in sliding connection with the connecting wire and is positioned at the inner side of the connecting wire; the division plate is rotationally connected with the winding rod and is positioned at one side of the winding rod far away from the connecting line.

The winding assembly comprises a shell and a handle, wherein the shell is fixedly connected with the partition plate, is connected with the connecting wire and is positioned at one side of the protective cover away from the protective cover; the handle is fixedly connected with the shell and is positioned on the upper surface of the shell.

The winding assembly further comprises a rotating plate and a handle, wherein the rotating plate is fixedly connected with the winding rod and is positioned at one side of the winding rod far away from the separation plate; the handle is fixedly connected with the rotating plate and is positioned at one side of the rotating plate far away from the winding rod.

The fetal heart monitor further comprises a control assembly, wherein the control assembly is used for controlling the probe.

The control assembly further comprises an operation button and a controller, wherein the operation button is fixedly connected with the shell and is positioned on the outer side of the shell; the controller is connected with the operation button, fixedly connected with the shell and positioned at the inner side of the shell.

The control assembly further comprises a display screen and an alarm, wherein the display screen is connected with the controller, fixedly connected with the shell and positioned on one side of the shell, which is close to the operation button; the alarm is connected with the controller, fixedly connected with the shell and positioned at the inner side of the shell.

According to the fetal heart monitor, when the probe is stored in the protective cover, the spring is compressed firstly, so that the protective pad moves towards the direction close to the supporting frame, the probe is placed in the protective pad, the spring is loosened, the spring drives the protective pad to move towards the direction far away from the supporting frame due to the self-recovery function of the spring, the probe with different sizes is fixed on the inner side of the protective pad by the protective pad, the situation that the probe is damaged due to shaking of the probe when the probe is stored under the impact force is avoided, the sliding block vertically slides in the vertical sliding groove of the guide rail after being aligned with the vertical sliding groove of the guide rail, the protective cover is arranged on the outer side of the protective cover to seal the protective cover, and the situation that the probe is damaged due to careless impact of the probe in the external environment is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

Fig. 2 is a schematic view showing the connection of the handle to the rotating plate according to the first embodiment of the present utility model.

Fig. 3 is a schematic diagram showing the connection of the spring and the support frame according to the first embodiment of the present utility model.

Fig. 4 is a schematic overall structure of a second embodiment of the present utility model.

Fig. 5 is a sectional view taken along a winding rod of a second embodiment of the present utility model.

In the figure: 101-probe, 102-winding component, 103-protection component, 104-protection pad, 105-spring, 106-support frame, 107-protection cover, 108-guide rail, 109-slider, 110-protection cover, 111-connecting wire, 112-winding rod, 113-division board, 114-shell, 115-handle, 116-rotating board, 117-handle, 201-control component, 202-operation button, 203-controller, 204-display screen, 205-alarm.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

First embodiment:

referring to fig. 1 to 3, fig. 1 is a schematic overall structure of a fetal heart monitor, fig. 2 is a schematic connection of a handle 117 and a rotating plate 116, and fig. 3 is a schematic connection of a spring 105 and a supporting frame 106, the utility model provides a fetal heart monitor, which comprises a probe 101, a winding assembly 102 and a protection assembly 103, wherein the protection assembly 103 comprises a protection pad 104, a spring 105, a supporting frame 106, a protection cover 107, a guide rail 108, a sliding block 109 and a protection cover 110, and the winding assembly 102 comprises a connecting wire 111, a winding rod 112, a partition plate 113, a housing 114, a handle 115, a rotating plate 116 and a handle 117.

In this embodiment, the protection component 103 is located outside the probe 101 so as to protect the probe 101, and the winding component 102 is located on a side of the probe 101 away from the protection cover 110 so as to wind up the wire harness of the probe 101.

The protection pad 104 is connected with the probe 101 and is located at the outer side of the probe 101, the spring 105 is fixedly connected with the protection pad 104 and is located at the side of the protection pad 104 away from the probe 101, the support frame 106 is fixedly connected with the spring 105 and is located at the side of the spring 105 away from the protection pad 104, the protection cover 107 is fixedly connected with the support frame 106 and is located at the outer side of the support frame 106, the guide rail 108 is fixedly connected with the protection cover 107 and is located at the outer side of the protection cover 107, the slider 109 is slidably connected with the guide rail 108 and is located at the side of the guide rail 108 away from the protection cover 107, the protection cover 110 is fixedly connected with the slider 109 and is located at the side of the slider 109 away from the guide rail 108, the protection pad 104 is made of flexible soft material, so that the protection pad 104 can support the probe 101 without causing abrasion of the probe 101, the protection cover 105 is provided with a protector, when the spring 105 is located at the outer side of the support frame 106, the spring 105 is prevented from being broken, the spring 105 can not being compressed by the support frame 105, the spring 105 can not being mounted on the support frame 105, the support frame 105 is prevented from being damaged due to the vibration, the spring 105 is gradually, the vibration pad 105 can be prevented from being compressed, the vibration of the support frame 105 is prevented from being mounted on the side of the support frame, and the support frame is gradually, the pad is prevented from being damaged due to the vibration of the spring 105, the sliding block 109 is matched with the vertical sliding groove of the guide rail 108, so that the sliding block 109 can vertically slide in the vertical sliding groove of the guide rail 108, so that the protective cover 110 moves up and down on the protective cover 107, and the protective cover 110 can be removed from the protective cover 107 to expose the elements in the protective cover 107 to operate the elements in the protective cover 107.

The connecting wire 111 is connected with the probe 101 and is positioned at one side of the probe 101 away from the protection pad 104; the winding rod 112 is slidably connected to the connection line 111 and is located inside the connection line 111; the separation plate 113 is rotatably connected to the winding rod 112 and is located at a side of the winding rod 112 away from the connection line 111, the connection line 111 is electrically connected to the probe 101, and the winding rod 112 is rotated at the separation plate 113, so that the connection line 111 may be wound around the winding rod 112 by one turn.

Meanwhile, the housing 114 is fixedly connected with the partition plate 113, is connected with the connecting wire 111, and is located at a side of the protective cover 107 away from the protective cover 110; the handle 115 with casing 114 fixed connection, and be located the upper surface of casing 114, the inside hollow structure that is of casing 114, division board 113 fixed mounting is in the casing 114, thereby make division board 113 can with the casing 114 separates into left and right sides two parts, winding pole 112 is located the right half of casing 114, handle 115 fixed mounting is in on the casing 114, hold handle 115 and lift handle 115, thereby make casing 114 can be lifted, and then be convenient for carry the child heart monitor.

In addition, the rotating plate 116 is fixedly connected with the winding rod 112 and is positioned at one side of the winding rod 112 away from the partition plate 113; the handle 117 is fixedly connected with the rotating plate 116, and is located at one side of the rotating plate 116 away from the winding rod 112, and the handle 117 is provided with anti-slip patterns, so that the friction force between the palm and the handle 117 can be increased when the handle 117 is held, a user can hold the handle 117 to operate conveniently, hold the handle 117 and rotate the handle 117, so that the rotating plate 116 rotates, and the winding rod 112 rotates on the separation plate 113.

When the fetal heart monitor of the embodiment is used, the protective cover 110 is lifted up, so that the sliding block 109 vertically slides in the guide rail 108, the protective cover 110 moves up and down on the protective cover 107, the protective cover 110 can be removed from the protective cover 107, the handle 117 is rotated forward, the handle 117 drives the rotating plate 116 to rotate forward, the winding rod 112 rotates forward on the separating plate 113, the wire harness wound on the winding rod 112 by the connecting wire 111 can be released by the forward rotation of the winding rod 112, and the probe 101 can extend out of the protective cover 107 for use. During storage, the handle 117 is reversely rotated, so that the handle 117 drives the rotating plate 116 to reversely rotate, and further the winding rod 112 reversely rotates on the partition plate 113, the winding rod 112 reversely rotates, so that the connecting wire 111 can be wound and wound on the winding rod 112, the probe 101 can be stored in the protective cover 107, the spring 105 is firstly compressed, the protective pad 104 moves towards the direction close to the supporting frame 106, the probe 101 is placed in the protective pad 104, the spring 105 is loosened, the spring 105 drives the protective pad 104 to move towards the direction far away from the supporting frame 106 due to the self-recovery function, and therefore the protective pad 104 is enabled to fix the probe 101 with different sizes on the inner side of the protective pad 104, the situation that the probe 101 is damaged due to shaking of the probe 101 when the probe 101 is stored with impact force is avoided, and then the slide block 108 is placed in the protective cover 108 in the guide way, the slide block is aligned with the guide way, and the slide block 108 is easily damaged, and the probe 101 is prevented from being directly mounted on the outer side of the protective cover 107 due to the fact that the slide block 108 is easily damaged, and the probe 101 is not directly mounted on the slide block 107.

Second embodiment:

referring to fig. 4 and 5, fig. 4 is a schematic structural view of a control assembly 201 of the fetal heart monitor according to the second embodiment, and fig. 5 is a sectional view taken along a winding rod 112, where the fetal heart monitor further includes the control assembly 201, and the control assembly 201 includes an operation button 202, a controller 203, a display 204, and an alarm 205.

In this embodiment, the control assembly 201 is located on a side of the housing 114 remote from the protective cover 107, so that the control assembly 201 can be operated to monitor the condition of the inner tube of the pregnant woman.

Wherein, the operation button 202 is fixedly connected with the housing 114 and is located outside the housing 114; the controller 203 is connected with the operation button 202, is fixedly connected with the housing 114, and is located at the inner side of the housing 114, the model of the controller 203 is DVP20SX211T, the operation button 202 is electrically connected with the controller 203, and by operating the operation button 202, an instruction of the operation button 202 can be transmitted to the controller 203, and the controller 203 can control the probe 101 to start running.

The display 204 is connected with the controller 203, is fixedly connected with the housing 114, and is positioned at one side of the housing 114 near the operation button 202; the alarm 205 is connected with the controller 203, is fixedly connected with the housing 114, and is located at the inner side of the housing 114, the controller 203 is respectively electrically connected with the display screen 204 and the alarm 205, when the probe 101 starts to operate, the probe 101 transmits the monitored fetal heart rate, uterine contraction and other conditions to the controller 203, so that the controller 203 transmits the monitored conditions to the display screen 204 for displaying, and when the probe 101 detects abnormal conditions of the fetus, the probe 101 transmits the monitored results to the controller 203, so that the controller 203 controls the alarm 205 to send alarm sounds for alarming.

When the fetal heart monitor of the embodiment is used, the operation button 202 is operated, so that an instruction of the operation button 202 can be transmitted to the controller 203, the controller 203 can control the probe 101 to start to operate, when the probe 101 starts to operate, the probe 101 transmits the monitored fetal heart rate, uterine contraction and other conditions to the controller 203, so that the controller 203 transmits the monitored conditions to the display screen 204 for displaying, and when the probe 101 detects abnormal conditions of a fetus, the probe 101 transmits the monitoring result to the controller 203, so that the controller 203 controls the alarm 205 to send an alarm sound for alarming.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (7)

1. The fetal heart monitor comprises a probe and a rolling assembly, wherein the rolling assembly is used for rolling the probe, and is characterized by further comprising a protection assembly;

the protection assembly comprises a protection pad, a spring, a support frame, a protection cover, a guide rail, a sliding block and a protection cover, wherein the protection pad is connected with the probe and is positioned on the outer side of the probe, the spring is fixedly connected with the protection pad and is positioned on one side of the protection pad far away from the probe, the support frame is fixedly connected with the spring and is positioned on one side of the spring far away from the protection pad, the protection cover is fixedly connected with the support frame and is positioned on the outer side of the support frame, the guide rail is fixedly connected with the protection cover and is positioned on the outer side of the protection cover, the sliding block is in sliding connection with the guide rail and is positioned on one side of the guide rail far away from the protection cover, and the protection cover is fixedly connected with the sliding block and is positioned on one side of the sliding block far away from the guide rail.

2. The fetal heart monitor of claim 1 wherein the reel assembly includes a connection wire, a reel rod, and a divider plate, the connection wire being connected to the probe and located on a side of the probe remote from the guard pad; the winding rod is in sliding connection with the connecting wire and is positioned at the inner side of the connecting wire; the division plate is rotationally connected with the winding rod and is positioned at one side of the winding rod far away from the connecting line.

3. The fetal heart monitor of claim 2 wherein the wrap-up assembly includes a housing and a handle, the housing being fixedly connected to the divider and to the connection line and being located on a side of the protective cover remote from the protective cover; the handle is fixedly connected with the shell and is positioned on the upper surface of the shell.

4. The fetal heart monitor of claim 2 wherein the wrap-up assembly further comprises a rotating plate and a handle, the rotating plate being fixedly connected to the winding rod and located on a side of the winding rod remote from the separator plate; the handle is fixedly connected with the rotating plate and is positioned at one side of the rotating plate far away from the winding rod.

5. The fetal heart monitor of claim 3 further comprising a control assembly for controlling the probe.

6. The fetal heart monitor of claim 5 wherein the control assembly further comprises an operating button and a controller, the operating button being fixedly connected to the housing and located outside the housing; the controller is connected with the operation button, fixedly connected with the shell and positioned at the inner side of the shell.

7. The fetal heart monitor of claim 6 wherein the control assembly further comprises a display screen and an alarm, the display screen being coupled to the controller and fixedly coupled to the housing and positioned on a side of the housing adjacent the operating button; the alarm is connected with the controller, fixedly connected with the shell and positioned at the inner side of the shell.