CN2585624Y - Pulsometer emitter - Google Patents

Abstract

The utility model relates to a pulsometer emitter and the producing process of the pulsometer emitter. The pulsometer emitter is used for transmitting a heartbeat signal to a pulsometer, so that the information of a heart and a lung can be displayed for the operation of a user. The utility model comprises an appliance main body which is provided with a signal transmitter for transmitting a heartbeat signal, an insulated chest belt, a connecting shaft which is positioned between the insulated chest belt and the appliance main body to bear the pulling force between the appliance main body and the insulated chest belt and a conductive chest belt which is arranged on the insulated chest belt for contacting one chest of the user, and the heartbeat signal is detected and then is conveyed to the signal transmitter.

Description

The pulsometer emitter

(1) technical field

The relevant a kind of pulsometer emitter of this utility model.

(2) background technology

General pulsometer emitter can be divided into two kinds of single-piece and three combination types, in order to detect the voltage of millivolt (milli-volt) at skin surface, and wish to get how know its cardio-pulmonary function when moving when a user, promptly learn by the detection of this pulsometer emitter.See also Fig. 1, as seen a pulsometer emitter 10, it comprises an apparatus body 11, and respectively be provided with two draw-in grooves 12 in and arranged on left and right sides, to connect two trips 14 on the two conduction pectoral girdles 13 (the conduction pectoral girdle in not shown left side), the pectoral girdle 13 that will conduct electricity again combines with an insulation pectoral girdle 15, promptly is able to by the clasp 16 on the insulation pectoral girdle 15, pulsometer emitter 10 is fixed on the chest of a user, to detect a heart beating signal of this user.

Yet because conduction pectoral girdle 13 is a kind of plastic cement or rubber that conductive materials is arranged that mixes, so cause its tensile strength greatly to reduce, and bear the height pulling force of 11 of insulation pectoral girdle 15 and apparatus bodies by conduction pectoral girdle 13, the as easy as rolling off a log situation that causes trip 14 that fracture is arranged takes place, and such practice all too is undesirable.

For finding the solution certainly the problems referred to above, will make the conduction pectoral girdle do not needed to bear again the height pulling force between insulation pectoral girdle and apparatus body, and then obtain a kind of pulsometer emitter bear this apparatus body and the pulling force between the pectoral girdle that insulate that significantly promotes, except the problem points of the easy fracture of the trip that effectively overcomes this conduction pectoral girdle, also can make that significantly prolonged the service life of conduction pectoral girdle.

(3) utility model content

Main purpose of the present utility model provides a kind of pulsometer emitter, can utilize to be installed in the linking of one on apparatus body axle, to bear the height pulling force between this insulation pectoral girdle and the apparatus body.

A purpose more of the present utility model provides a kind of pulsometer emitter, the first axle body and conduction pectoral girdle together can be sent in the device for injection moulding, to form this insulation pectoral girdle.

Another purpose of the present utility model provides a kind of pulsometer emitter, can use first spring to connect first screw on this conduction pectoral girdle and be connected axle, with the heartbeat signal that transmits a user to apparatus body.

Of the present utility model time a purpose provides a kind of pulsometer emitter, and an axis hole that can be used on the insulation pectoral girdle is inserted in this linking axle, so that this insulation pectoral girdle is done a spinning movement.

According to this utility model pulsometer emitter on the one hand, be used to launch heart beating signal to a pulsometer, for user utilization, it comprises: an apparatus body is equiped with a signal projector, to launch this heartbeat signal to show a cardiopulmonary information; One insulation breast band; One is connected axle, is to be positioned between this insulation pectoral girdle and this apparatus body, to bear the pulling force between this apparatus body and this insulation pectoral girdle, and one the conduction pectoral girdle, it is arranged on this insulation pectoral girdle, in order to contact a chest of this user, detecting this heartbeat signal, and deliver to this signal projector.

The preferably, the linking axle of this structure is to be a circular shaft, allowing relatively this apparatus body rotation of this insulation pectoral girdle, and this conduction pectoral girdle by this linking spool to transmit this heartbeat signal to this signal projector.

The preferably, the linking axle of this structure is to be a square shaft, and this conduction pectoral girdle has a boss, and be provided with a signal transmission hole in this boss, in order to transmit this heartbeat signal.

Certainly, this structure can also have one first spring and first screw, lay respectively on this linking axle and this signal transmission hole, and this first spring is locked on this conduction pectoral girdle by this first screw, to transmit this heartbeat signal to this linking spool.

Certainly, this structure can also have one second spring and second screw, lay respectively at this linking axle and upward reach in this apparatus body, and this second spring is to be enclosed on this linking axle, to transmit this heartbeat signal to this apparatus body.

The preferably, the apparatus body of this structure has a loam cake and lower cover, and this loam cake and lower cover also have a rigid bearing and auxiliary bearing (Bearing) respectively, in order to fix this linking axle.

The preferably, the insulation pectoral girdle of this structure is to have an axis hole, to insert this linking axle in this axis hole.

Certainly, the insulation pectoral girdle of this structure can have one 180 ° the anglec of rotation on this apparatus body, to obtain a pliability of this pulsometer emitter.

According to this utility model pulsometer emitter on the other hand, be used to launch heart beating signal to a pulsometer, for user utilization, it comprises: an apparatus body is equiped with a signal projector, to launch this heartbeat signal to show a cardiopulmonary information; One insulation breast band; One is connected mechanism, be to be independent of this apparatus body and this insulation pectoral girdle, and be positioned between this insulation pectoral girdle and this apparatus body, being connected this insulation pectoral girdle and this apparatus body, and bear the pulling force between this apparatus body and this insulation pectoral girdle, and a conduction pectoral girdle, it is arranged on this insulation pectoral girdle, in order to contacting a chest of this user, detecting this heartbeat signal, and deliver to this signal projector.

Certainly, the linking mechanism of this structure can be a circular shaft, to allow this apparatus body rotation relatively of this insulation pectoral girdle.

The manufacture process of pulsometer emitter of the present utility model comprises: a device for injection moulding is provided, one conduction pectoral girdle is provided, one the first axle body is provided, this the first axle body and this conduction pectoral girdle are sent in this device for injection moulding, inject a moulding material to this device for injection moulding, to form an insulation pectoral girdle, remove this first axle body, one apparatus body is provided, one the second axle body is provided, place former this first axle body space, in order to connect this insulation pectoral girdle and this apparatus body, to form a pulsometer emitter.

The preferably, this processing procedure also comprises and utilizes an impulse force bearing, to bear the impulsive contact force of this device for injection moulding when carrying out interlock.

The preferably, the first axle body of this processing procedure has one and is inserted in the position, to be inserted in this impulse force bearing.

Certainly, the impulse force bearing of this processing procedure is to remove in the lump with this first axle body after forming this insulation pectoral girdle.

Certainly, this processing procedure can also have one first spring and first screw, lay respectively on this first axle body and this conduction pectoral girdle, and this first spring is locked on this conduction pectoral girdle by this first screw, to transmit a heart beating signal to this second axle body.

The preferably, first screw of this processing procedure also utilizes a pad (Washer), to obtain the effect of the uniform force application of this first spring of locking when this conduction pectoral girdle.

The preferably, first spring of this processing procedure is an axis hole that is positioned at this insulation pectoral girdle, and this first and second axis body all has a flange, to replace this first spring in this axis hole.

Certainly, the insulation pectoral girdle of this processing procedure is a sidepiece that can place this apparatus body, is beneficial to this second axle body and runs through this apparatus body and insulation pectoral girdle.

Certainly, the apparatus body of this processing procedure can also have an on-slip sheet, and it is installed in the groove of this apparatus body, to prevent the slippage of this second axle body.

The preferably, the apparatus body of this processing procedure has a loam cake and lower cover, and this loam cake and lower cover also have a rigid bearing and auxiliary bearing respectively, in order to fix this second axle body.

This utility model is via the explanation of above-mentioned conception, can find out the pulsometer emitter that is used, really can utilize and be installed in the linking of one on apparatus body axle, to bear the height pulling force between this insulation pectoral girdle and the apparatus body, and be inserted in this linkings spool with being used in the axis hole of insulation on the pectoral girdle, so that this insulation pectoral girdle is made the characteristic of a spinning movement.

Understand the purpose of this utility model, characteristics and advantage for clearer, preferred embodiment of the present utility model is elaborated below in conjunction with accompanying drawing.

(4) description of drawings

Fig. 1 is the schematic perspective view of a pulsometer emitter of prior art;

Fig. 2 is the perspective exploded view of the preferred embodiment of pulsometer emitter of the present utility model;

Fig. 3 is the conduction pectoral girdle and the schematic perspective view that is connected axle among Fig. 2;

Fig. 4 is the action sketch map of pulsometer emitter after assembling is finished of Fig. 2;

Fig. 5 is the perspective exploded view of the another preferred embodiment of pulsometer emitter of the present utility model;

Fig. 6 be pulsometer emitter of the present utility model processing procedure preferred embodiment the first axle body and the conduction pectoral girdle the exploded perspective sketch map;

Fig. 7 is the first axle body of Fig. 6 and the combination schematic perspective view of conduction pectoral girdle;

Fig. 8 is the schematic perspective view that the bag of this utility model processing procedure shoots away into the insulation pectoral girdle;

Fig. 9 is the apparatus body of this utility model processing procedure and the exploded perspective sketch map of insulation pectoral girdle; And

Figure 10 is the exploded perspective sketch map of the loam cake of the second axle body of this utility model processing procedure and apparatus body.

(5) specific embodiment

See also Fig. 2, demonstrate a kind of structure of pulsometer emitter 20, be to be used to launch a heart beating signal (being pulse signal) to a pulsometer (not shown), use for a user to show a cardiopulmonary information, it comprises an apparatus body 21, be equiped with a signal projector 22, to launch this heartbeat signal, two insulation pectoral girdles 23, two are connected axle 24, be to be positioned at 21 of insulation pectoral girdle 23 and apparatus bodies, bearing a pulling force of apparatus body 21 and 23 of the pectoral girdles of insulating, and two conduct electricity pectoral girdles 25, it is arranged on the insulation pectoral girdle 23, be in order to contacting a chest of this user, detecting this heartbeat signal, and deliver to signal projector 22.

The linking axle 24 of this structure is to be a circular shaft 24, allowing 23 relative apparatus bodies 21 rotations of insulation pectoral girdle, and a conduction pectoral girdle 25 and by being connected spools 24 to transmit this heartbeat signal to signal projector 22.See also Fig. 3, conduction pectoral girdle 25 has a boss 30, and is provided with a signal transmission hole 31 in boss 30, in order to transmit this heartbeat signal.This structure can also have one first spring 32 and first screw 33, lay respectively to be connected on axle 24 and the signal transmission hole 31, and first spring 32 is locked on the conduction pectoral girdle 25 by first screw 33, to transmit this heartbeat signal to being connected on the axle 24.This structure can also have one second spring 34 and second screw 26 (seeing Fig. 2 for details), lay respectively to be connected on the axle 24 to reach in the apparatus body 21, and second spring 34 is to be enclosed in to be connected on the axle 24, to transmit this heartbeat signal to apparatus body 21.

The apparatus body 21 of this structure has a loam cake 27 and lower cover 28, and loam cake 27 and lower cover 28 also have a rigid bearing 271 and auxiliary bearing (Bearing) 281 respectively, in order to the fixing axle 24 that is connected.The pectoral girdle 23 that insulate again is axis holes 29 that have as shown in Figure 2, is connected axle 24 in axis hole 29 to insert.Insulation pectoral girdle 23 has one 180 ° the anglec of rotation (direction of arrow as shown in Figure 4 on apparatus body 21, can up/down respectively do the rotation of 90 degree), to obtain a pliability of pulsometer emitter 20, the pectoral girdle 15 that insulate like that of trip 14 joining techniques among Fig. 1 can't not rotate fully for another example.Be connected axle 24 square shaft 50 that can also change into as shown in Figure 5 as for the circle among Fig. 2, and need not first spring 32, promptly the footpath row is inserted in the square opening 52 of a conduction pectoral girdle 51.

Again according to the viewpoint of a major technique, this utility model is a kind of structure of pulsometer emitter 20, be used to launch heart beating signal to a pulsometer, supply the utilization of a user to show a cardiopulmonary information, it comprises an apparatus body 21, be equiped with a signal projector 22, to launch this heartbeat signal, two insulation pectoral girdles 23, two are connected mechanism's (can be to be connected axle 24), are to be independent of apparatus body 21 and insulation pectoral girdle 23, and be positioned at 21 of this insulation pectoral girdle 23 and apparatus bodies, being connected insulation pectoral girdle 23 and apparatus body 21, and bear a pulling force of apparatus body 21 and 23 of insulation pectoral girdles, and two conduct electricity pectoral girdles 25, it is arranged on the insulation pectoral girdle 23, in order to contacting a chest of this user, detecting this heartbeat signal, and deliver to signal projector 22.Certainly, this linking mechanism of the structure of this moment can be a circular shaft 24, to allow 23 relative apparatus body 21 rotations of insulation pectoral girdle.

The manufacture process of pulsometer emitter of the present utility model comprises provides a device for injection moulding (not shown), two conduction pectoral girdles 25, two the first axle bodies 60 as shown in Figure 6 are provided, the first axle body 60 and conduction pectoral girdle 25 (detail drawing 7) are sent in this device for injection moulding, inject a moulding material to this device for injection moulding, to form an insulation pectoral girdle 23 as shown in Figure 8, remove the first axle body 60, one apparatus body 21 (detail drawing 9) is provided, one the second axle body 24 is provided, place former the first axle body 60 spaces, in order to connect insulation pectoral girdle 23 and apparatus body 21, to form a pulsometer emitter 20 as shown in Figure 2.

This processing procedure also comprises and utilizes two impulse force bearings 61,62 (detail drawing 6), to bear the impulsive contact force of this device for injection moulding when carrying out interlock.The first axle body 60 has one and is inserted in position 63,64, to be inserted in the impulse force bearing 61,62.The impulse force bearing 61,62 of this processing procedure can remove with the first axle body 60 after bag is penetrated the insulation pectoral girdle 23 that forms Fig. 8 in the lump.This processing procedure can also have one first spring 32 and first screw 33 (detail drawing 6), lay respectively on the first axle body 60 and conduction pectoral girdle 23 of Fig. 7 (when the first axle body 60 in insulation after pectoral girdle 23 finishes, its position is the second axle body 24 and replaces), and first spring 32 is locked on the conduction pectoral girdle 25, to transmit a heart beating signal to the second axle body 24 by first screw 33.

First screw 33 of this processing procedure also utilizes two pads 65,66, to obtain the effect of the uniform force application of locking first spring 32 when conducting electricity pectoral girdle 25.First spring 32 is axis holes 29 that are positioned at insulation pectoral girdle 23, and first and second axis body 60,24 all has a flange 67,90, to replace first spring 32 in axis hole 29.Insulation pectoral girdle 23 is sidepieces 91 that can place apparatus body 21, and what be beneficial to the second axle body 24 runs through apparatus body 21 and the pectoral girdle 23 that insulate.Apparatus body 21 can also have an on-slip sheet 100, and it is installed in the groove 101 of loam cake 27 of apparatus body 21, to prevent the slippage of the second axle body 24.As for the loam cake and the lower cover 27,28 of apparatus body 21, as the aforementioned shown in Fig. 2.

In sum, this utility model really can by a kind of pulsometer emitter and processing procedure thereof, and obtain a kind of linking of one on apparatus body axle that is installed in, to bear the height pulling force between this insulation pectoral girdle and the apparatus body with the design of a novelty.And the mode of being used of the first axle body and conduction pectoral girdle together being sent into device for injection moulding is enough to successfully form the insulation pectoral girdle with an axis hole, and extremely is fit to industrial production.

Claims (10)

1. a pulsometer emitter is used to launch heart beating signal to a pulsometer,, it is characterized in that for user utilization to show a cardiopulmonary information, comprising:

One apparatus body is equiped with a signal projector, to launch this heartbeat signal;

One insulation breast band;

One is connected axle, is to be positioned between this insulation pectoral girdle and this apparatus body, to bear the pulling force between this apparatus body and this insulation pectoral girdle; And

One conduction pectoral girdle, it is arranged on this insulation pectoral girdle, in order to contacting a chest of this user, detecting this heartbeat signal, and delivers to this signal projector.

2. pulsometer emitter as claimed in claim 1 is characterized in that, this linking axle is to be a circular shaft, allowing this apparatus body rotation relatively of this insulation pectoral girdle, and this conduction pectoral girdle by this linking spool to transmit this heartbeat signal to this signal projector.

3. pulsometer emitter as claimed in claim 1 is characterized in that, this linking axle is to be a square shaft, and this conduction pectoral girdle has a boss, and is provided with a signal transmission hole in this boss, in order to transmit this heartbeat signal.

4. pulsometer emitter as claimed in claim 3, it is characterized in that also having one first spring and first screw, lay respectively on this linking axle and this signal transmission hole, and this first spring is locked on this conduction pectoral girdle by this first screw, to transmit this heartbeat signal to this linking axle.

5. pulsometer emitter as claimed in claim 4, it is characterized in that also having one second spring and second screw, lay respectively at this linking axle and upward reach in this apparatus body, and this second spring is to be enclosed on this linking axle, to transmit this heartbeat signal to this apparatus body.

6. pulsometer emitter as claimed in claim 1 is characterized in that this apparatus body has a loam cake and lower cover, and this loam cake and lower cover also have a rigid bearing and auxiliary bearing respectively, in order to fix this linking axle.

7. pulsometer emitter as claimed in claim 1 is characterized in that, this insulation pectoral girdle has an axis hole, to insert this linking axle in this axis hole.

8. pulsometer emitter as claimed in claim 1 is characterized in that, this insulation pectoral girdle has one 180 ° the anglec of rotation on this apparatus body, to obtain a pliability of this pulsometer emitter.

9. a pulsometer emitter is used to launch heart beating signal to a pulsometer,, it is characterized in that for the utilization of a user to show a cardiopulmonary information, comprising:

One apparatus body is equiped with a signal projector, to launch this heartbeat signal;

One insulation breast band;

One is connected mechanism, is to be independent of this apparatus body and this insulation pectoral girdle, and is positioned between this insulation pectoral girdle and this apparatus body, being connected this insulation pectoral girdle and this apparatus body, and bears the pulling force between this apparatus body and this insulation pectoral girdle; And

One conduction pectoral girdle, it is arranged on this insulation pectoral girdle, in order to contacting a chest of this user, detecting this heartbeat signal, and delivers to this signal projector.

10. pulsometer emitter as claimed in claim 9 is characterized in that, this linking mechanism is a circular shaft, to be permitted this apparatus body rotation relatively of this insulation pectoral girdle.

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