CN108742662A - A kind of rehabilitation gripe dynamometer - Google Patents

Abstract

A kind of rehabilitation gripe dynamometer, including gripe dynamometer ontology and the face-piece body for being fastened on its table；Shell inner surface has the force column of protrusion；Gripe dynamometer ontology includes：Master control borad is located above charging oralia；Lower section setting battery, the pressure sensor of master control borad；The top of master control borad, if the first LED display lamps；Force column leans with pressure sensor；Master control borad is electrically connected with battery, pressure sensor, charging interface, the first LED display lamps respectively；The oblate vibrations motor of high speed is located at by battery, and is electrically connected with master control borad.Its advantage is that：It is corrected for the microcontroller that is forced through of the extremely weak crowd's acquisition of grip, minimum stress can be accurately identified, gripe dynamometer ontology is when in use without apparent mechanical deformation.Master control borad can provide grip data transmission to cloud server, doctor to corresponding grip rehabilitation guide accordingly；Shell meets ergonomic design, and is easy to hold equipped with lacing hole, and it is strong and weak that guide-lighting band intuitively can understand grip by the form of light.

Description

A kind of rehabilitation gripe dynamometer

Technical field

The invention belongs to rehabilitation medical instrument technical fields, and in particular to a kind of rehabilitation gripe dynamometer.

Background technology

Gripe dynamometer is common in the fields such as grip exercise and rehabilitation training, passes through elastic material（Rubber, silica gel etc.）Or spring Etc. mechanical structures realize its function.Such product with dynamics instruction can show grasping number according to usage scenario difference, It can show grasping dynamics, generally be remembered by holding grip and obtain number and dynamics number after handle makes it generate apparent mechanical deformation According to.The user that grip is remarkably decreased, such as apoplexy sufferer, it is difficult to the gripe dynamometer with mechanical structure of holding with a firm grip；Elastic material class Rehabilitation gripe dynamometer（Pressure relief ball）Convenient for grasping, but faint grip can not be indicated to understand recovery extent.Therefore, Such sufferer can not the effective rehabilitation training of the already present gripe dynamometer equipment progress of normal use in initial stages of restoration.

Invention content

The technical problem to be solved by the present invention is to：Overcome the deficiencies of the prior art and provide one kind easily grasping, high-precision, height The rehabilitation gripe dynamometer of sensitivity causes the grip rehabilitation training for the sufferer that grip is remarkably decreased for the diseases such as apoplexy or wound And restore.

The technical solution adopted by the present invention to solve the technical problems is：A kind of rehabilitation gripe dynamometer, including a shell, one Gripe dynamometer ontology, it is characterised in that：The shell includes left and right shell, and the left and right shell is fastened on the gripe dynamometer ontology Surface；The force column of protrusion is both provided on the inner surface of the left and right shell；The gripe dynamometer ontology includes a master control Plate, a charging oralia, the master control borad are arranged above the charging oralia；An electricity is also set up below the master control borad Pond, a pressure sensor；A charging interface is set on the charging oralia；The top of the master control borad is provided with the first LED Display lamp；The force column leans with the pressure sensor；The master control borad respectively with the battery, the pressure sensing Device, the charging interface, the first LED display lamps are electrically connected；The charging interface can be by the master control borad Power management chip charges to the battery；Further include the oblate vibrations motor of a high speed, the oblate vibrations motor setting of high speed It is electrically connected by the battery, and with the master control borad.

Preferably, the gripe dynamometer ontology further includes a bottom plate；The bottom plate is arranged below the charging oralia, institute Battery, the pressure sensor, the charging interface is stated to be arranged between the master control borad and the bottom plate.

Preferably, the bottom centre position of the bottom plate, is vertically arranged with the 2nd LED display lamps；2nd LED is shown Lamp is electrically connected with the master control borad.

Preferably, the pressure sensor is diaphragm pressure sensor.

Preferably, a hard rubber pad is provided between the force column and the diaphragm pressure sensor.

Preferably, the first LED display lamps are several, and longitudinal group is in a row, is set to the upper of the master control borad Surface middle part, the engaging portion of the left and right shell；A guide-lighting band, the leaded light band are provided with above the first LED display lamps It is covered in above the first LED display lamps；The 2nd LED display lamps are several, and longitudinal group is in a row, is set to institute In the middle part of the lower surface for stating bottom plate, the engaging portion of the left and right shell；The leaded light band is covered in the 2nd LED display lamps Lower section.

Preferably, the force column is symmetricly set on the inner surface of the left and right shell.

Preferably, the force column is four, and correspondingly, the diaphragm pressure sensor is four, is both symmetrically set It sets and corresponds.

Preferably, a lacing hole is arranged in the surface of shell.

Preferably, the charging interface is pierced by the surface of shell and the one end positioned at the gripe dynamometer ontology.

Compared with prior art, the beneficial effects of the invention are as follows：The present invention is thin using 4 for the extremely weak crowd of grip Membrane pressure sensor carries out grip acquisition, is corrected to the microcontroller that is forced through of acquisition, can accurately identify minimum stress （Precision is higher than 0.05N, and error is less than 5%）.Gripe dynamometer ontology is when in use without apparent mechanical deformation.It is built-in wireless on master control borad Chip, grip data transmission to cloud server, doctor can be the difference in the Rehabilitation period by comparing by it Stage provides corresponding grip rehabilitation guide；The shell of the present invention uses the form Design for meeting ergonomic demands, and is furnished with Lacing hole is easy to hold, and prevents unexpected fall off；Gripe dynamometer ontology is tiled configuration, and intermediate region is guide-lighting band, and user uses When can intuitively pass through the form of light, and to understand grip strong and weak.

Description of the drawings

Fig. 1 is the structure sectional view of the present invention；

Fig. 2 is the dimensional structure diagram of the present invention opened after shell；

Fig. 3 is the dimensional structure diagram of the gripe dynamometer ontology of the present invention.

In figure label for：

1, shell；11, force column；2, gripe dynamometer ontology；21, master control borad；22, charging oralia；221, charging interface；

23, battery；24, diaphragm pressure sensor；25, the first LED display lamps；26, the oblate vibrations motor of high speed；27, bottom plate； 28, lacing hole；29, hard rubber pad；30, guide-lighting band.

Specific implementation mode

Embodiment below in conjunction with the accompanying drawings is described further the present invention：

Embodiment one

As shown in Figure 1, 2, 3, a kind of rehabilitation gripe dynamometer, including shell 1, gripe dynamometer ontology 2, shell 1 include left and right shell, Left and right shell is fastened on the surface of gripe dynamometer ontology 2；Two stress of protrusion are respectively arranged on the inner surface of left and right shell Column 11；Gripe dynamometer ontology 2 includes master control borad 21, charging oralia 22, the oblate vibrations motor 26 of high speed, and the setting of master control borad 21 is being filled The top of electrical interface plate 22；The lower section of master control borad 21 also sets up 23, four diaphragm pressure sensors 24 of battery；Charging oralia 22 Upper setting charging interface 221；The top of master control borad 21 is provided with the first LED display lamps 25；On the inner surface of left and right shell altogether There are four force column 11, four force columns 11 correspond to the and lean with four diaphragm pressure sensors 24 respectively, force column 11 and Hard rubber pad 29 is both provided between diaphragm pressure sensor 24；Master control borad 21 respectively with battery 23, diaphragm pressure sensor 24, Charging interface 221, the first LED display lamps 25 are electrically connected；Charging interface 221 can pass through the power management core in master control borad 21 Piece charges to battery 23, and charging interface 221 is pierced by the surface of shell 1 and the one end positioned at gripe dynamometer ontology 2；The oblate shake of high speed Dynamic motor 26 is arranged on the side of battery 23, and is electrically connected with master control borad 21；

Gripe dynamometer ontology 2 further includes bottom plate 27；Bottom plate 27 is arranged in the lower section of charging oralia 22, battery 23, pressure sensor 24, charging oralia 22, charging interface 221 are arranged between master control borad 21 and bottom plate 27；The bottom centre position of bottom plate 27 is indulged To being provided with the 2nd LED display lamps；2nd LED display lamps are electrically connected with master control borad 21；First LED display lamps 25 are several It is a, and longitudinal group is in a row, is set to the upper surface middle part of master control borad 21, the engaging portion of left and right shell；First LED display lamps The 25 guide-lighting band 30 of top setting, guide-lighting band 30 are covered in the top of the first LED display lamps 25；2nd LED display lamps are several It is a, and longitudinal group is in a row, is set in the middle part of the lower surface of bottom plate 27, the engaging portion of left and right shell；Guide-lighting band 30 is covered in The lower section of two LED display lamps；Lacing hole 28 is arranged in the surface of shell 1, is conveniently carried for piece rope of bolt.

Operation principle and the course of work of the present invention are as follows：

As shown in Figures 1 to 3, left and right shell of the invention is fixed by limit card slot and the master control borad 21 with circuit board, stress There is hard rubber pad 29 between column 11 and diaphragm pressure sensor 24, when the present invention is not by external force, force column 11, diaphragm pressure sensing Device 24, hard rubber pad 29 threes and are only kept in contact；When stress is persistently more than setting value, the present invention will be switched on, under open state, It will shutdown when stress is persistently more than setting value.The present invention hold under when without apparent deformation.

Master control borad 21, charging oralia 22, the bottom plate 27 of the present invention is connected by FPC soft arranging wires；Second on bottom plate 27 LED display lamps facilitate different hands in use, user observes dynamics state.Master control borad 21 carries the first LED display lamps 25, and With wireless chip, data will be kept in, and server end is sent to when network can be used；There are four film pressures for band on master control borad 21 Force snesor 24, when its reading close to it is identical when（Error 5%）Then it is denoted as primary grasping（It is rectified with precision for avoiding data from misreading Just）；Master control borad 21 connects the oblate vibrations motor 26 of high speed, can be shaken when grasping every time to play circulative massage effect； Charging interface 221 is carried on charging oralia 22, can be charged to battery 23 by the power management chip in master control borad 21.

The above described is only a preferred embodiment of the present invention, being not that the invention has other forms of limitations, appoint What those skilled in the art changed or be modified as possibly also with the technology contents of the disclosure above equivalent variations etc. Imitate embodiment.But it is every without departing from technical solution of the present invention content, according to the technical essence of the invention to above example institute Any simple modification, equivalent variations and the remodeling made, still fall within the protection domain of technical solution of the present invention.

Claims (10)

1. a kind of rehabilitation gripe dynamometer, including a shell, a gripe dynamometer ontology, it is characterised in that：The shell includes left and right outer Shell, the left and right shell are fastened on the surface of the gripe dynamometer ontology；It is both provided on the inner surface of the left and right shell convex The force column risen；The gripe dynamometer ontology includes a master control borad, a charging oralia, and the master control borad is arranged in the charging Above oralia；A battery, a pressure sensor are also set up below the master control borad；One charging of setting on the charging oralia Interface；The top of the master control borad is provided with the first LED display lamps；

The force column leans with the pressure sensor；The master control borad respectively with the battery, the pressure sensor, The charging interface, the first LED display lamps are electrically connected；The charging interface can pass through the power supply in the master control borad Managing chip charges to the battery；Further include the oblate vibrations motor of a high speed, the oblate vibrations motor of high speed is arranged in institute It states by battery, and is electrically connected with the master control borad.

2. rehabilitation gripe dynamometer according to claim 1, it is characterised in that：The gripe dynamometer ontology further includes a bottom plate； The bottom plate is arranged below the charging oralia, and the battery, the pressure sensor, the charging interface are arranged in institute It states between master control borad and the bottom plate.

3. rehabilitation gripe dynamometer according to claim 2, it is characterised in that：The bottom centre position of the bottom plate, it is longitudinal It is provided with the 2nd LED display lamps；The 2nd LED display lamps are electrically connected with the master control borad.

4. rehabilitation gripe dynamometer according to any one of claims 1 to 3, it is characterised in that：The pressure sensor is film Pressure sensor.

5. rehabilitation gripe dynamometer according to claim 4, it is characterised in that：The force column is sensed with the diaphragm pressure A hard rubber pad is provided between device.

6. rehabilitation gripe dynamometer according to claim 5, it is characterised in that：The first LED display lamps are several, and Longitudinal group is in a row, is set to the upper surface middle part of the master control borad, the engaging portion of the left and right shell；First LED is aobvious Show and be provided with a guide-lighting band above lamp, the leaded light band is covered in above the first LED display lamps；

The 2nd LED display lamps are several, and longitudinal group is in a row, is set in the middle part of the lower surface of the bottom plate, described The engaging portion of left and right shell；The leaded light band is covered in the lower section of the 2nd LED display lamps.

7. rehabilitation gripe dynamometer according to claim 6, it is characterised in that：The force column be symmetricly set on it is described it is left, On the inner surface of right casing.

8. rehabilitation gripe dynamometer according to claim 7, it is characterised in that：The force column is four, correspondingly, described Diaphragm pressure sensor is four, is both symmetrical arranged and corresponds.

9. rehabilitation gripe dynamometer according to claim 8, it is characterised in that：A lacing hole is arranged in the surface of shell.

10. rehabilitation gripe dynamometer according to claim 9, it is characterised in that：The charging interface is pierced by the shell table Face and the one end for being located at the gripe dynamometer ontology.