CN201091770Y - Grip strength structure - Google Patents

Abstract

The utility model relates to a holding power structure, comprising a first component, a second component, a sensor and a buffering part; wherein, the second component is corresponding to the first component; the buffering part is arranged between the first component and the second component, therefore, a preset spacing is formed between the first component and the second component, leading the holding power structure to carry on reciprocation under the stress according to the preset spacing by the elasticity of the buffering part; the sensor is connected with the buffering part to cause the sensor to carry on the pressure sensing to the buffering part which is elastically deformed under the stress. The user of the holding power structure can carry on holding power rehabilitation and strengthen myodynamia by the reciprocation displacement of the first component and the second component. The holding power structure can avoid data error caused by the strength subduction during the transmitting process, can avoid lateral deformation of the buffering part so as to maintain smooth of the displacement, can prolong the service life and can change the displacement stroke length pressed on the first component and the second component.

Description

The grip structure

Technical field

The utility model relates to a kind of grip structure, and a kind of grip structure that provides grip rehabilitation and grip to measure simultaneously is provided especially.

Background technology

See also shown in Figure 1, this grip structure 10 comprises one first and holds part 11, one second and hold part 12 and a sensor 13 and a display 14, this sensor 13 is assembled in this and first holds part 11 and this second and hold between the part 12, and this display 14 is made electrically connect with this sensor 13;

Further analyze above-mentioned existing structure, first of this grip structure 10 is held part 11 and second and is held part 12 stressed times, directly compress this sensor 13, make this sensor 13 direct stressed generation voltage change, see through this display 14 and carry out digitlization demonstration grip value, this first holds part 11, one second holds and can't provide the elastic displacement stroke to change between a part 12 and the sensor 13, therefore this grip structure 10 is only made the grip value and is measured demonstration, and can't provide finger rehabilitation or grip training, not only reduce the additional utility of grip structure 10, and then reduce consumer's desire to purchase, reduce economic benefit;

See also shown in Figure 2, this grip structure 20 comprises one first and holds part 21, one second and hold part 22, a torque spring 23, a sensor 24 and a display 25, this first is held part 21 and mutually should second holds part 22 and have a specific range, these torque spring 23 2 ends are fixedly arranged in this respectively and first hold part 21 and second hold on the part 22 with this, this sensor 24 is arranged on this torque spring 23, and this display 25 is made electrically connect with this sensor 24;

Further analyze above-mentioned existing structure, first of this grip structure 20 is held part 21 and second and is held part 22 stressed times, this sensor 24 is only to stressed and sensing is made on torque spring 23 surfaces strain, and can't directly measure the stressed grip value of torque spring 23, transmittance process will produce strength and subdue and cause data error, and can't provide medical personnel's precise information to arrange grip rehabilitation course of treatment really, and then delay sufferer rehabilitation speed and quality at the injured degree of different sufferers;

In view of this, the utility model designer is through in detail thinking, designed with for many years experience, through inquiring into and study sampling test in many ways and repeatedly revising improvement, develops a kind of grip structure finally.

The utility model content

The purpose of this utility model provides a kind of grip structure, promptly a kind of grip structure that provides grip rehabilitation and grip to measure simultaneously, and this structure also can be avoided data error, allows medical personnel grasp the suitable rehabilitation of sufferer grip data placement course of treatment really.

In order to realize purpose of the present invention, a kind of grip structure is provided, this grip structure comprises one first member, one second member, a sensor and a bolster, and wherein this second member mutually should first member; This bolster is arranged between this first member and this second member, constitutes a default spacing between this first member and this second member, makes this grip structure carry out shift reciprocately in the stressed elasticity that sees through bolster according to default spacing down; This sensor is connected with this bolster, makes this sensor to stressed and bolster strain is made pressure-sensing;

The beneficial effects of the utility model are:

One, the bolster elastic force that is provided with between first member of this grip structure and second member see through carries out shift reciprocately, makes the user to carry out the grip rehabilitation and to strengthen muscular strength through first member and this second member shift reciprocately.

They are two years old, this sensor directly or indirectly contacts down with this bolster, make this bolster strain of this sensor sensing, make the stressed generation voltage change of this sensor and then convert the grip power to and show, avoid transmittance process will produce strength and subdue and cause data error, allow medical personnel grasp the suitable rehabilitation of sufferer grip data placement course of treatment really.

Its three, this grip structure can be established a guide member in addition, auxiliary this bolster is avoided the bolster lateral deformation steadily in shift reciprocately, keeps the fluency of displacement.

Its four, this grip structure can be established a fixed cover in addition, protects this first member and this guide member excessive friction to slow down wearing and tearing, and then increases the service life.

Its five, this grip structure can be established an external member in addition, this external member length changes the displacement stroke length that change is pressed on this first member and this second member.

Description of drawings

Fig. 1 is the floor map of one of prior art.

Fig. 2 is two a floor map of prior art.

Fig. 3 is a floor map one of the present utility model.

Fig. 4 is a floor map two of the present utility model.

Fig. 5 is a floor map three of the present utility model.

Fig. 6 is a floor map four of the present utility model.

Grip structure 10

First holds part 11 second holds part 12

Sensor 13 displays 14

Grip structure 20

First holds part 21 second holds part 22

Torque spring 23 sensors 24

Display 25

Grip structure 30

First member, 31 stoppers 311

Spacing space 312 open-works 313

Fixed cover 314

Second member, 32 stoppers 321

Section 322

Sensor 33 fixed parts 331

Pressure-sensitive portion 332

Guide member 34 set screws 341

Bolster 35 displays 36

Grip structure 40

First member, 41 pivot portions 411

Stopper 412 perforation 413

Second member, 42 pivot portions 421

Stopper 422 sections 423

Sensor 43 fixed parts 431

Pressure-sensitive portion 432

Guide member 44 catch 441

Bolster 45 displays 46

Grip structure 50

First member, 51 stoppers 511

Section 512

Second member, 52 pivot portions 521

Stopper 522

Sensor 53 fixed parts 531

Pressure-sensitive portion 532

Guide member 54 bolsters 55

Display 56

Grip structure 60

First member, 61 accommodation spaces 611

Catch 612

Second member, 62 catch 621

Sensor 63 bolsters 64

Display 65

The specific embodiment

The technology that relevant the utility model adopted, means and other effect are now lifted a preferred embodiment, and cooperate diagram to be described in detail as follows.

Please consult Fig. 3 simultaneously to shown in Figure 6, the utility model grip structure 30 comprises one first member 31, one second member 32, a sensor 33 and a bolster 35; This first member 31 mutually should second member 32; This bolster 35 is arranged between this first member 31 and this second member 32, make this bolster 35 that a default spacing of formation between this first member 31 and this second member 32 is provided, make this grip structure 30 carry out shift reciprocately in the stressed elasticity that sees through bolster 35 according to default spacing down; This sensor 33 connects with this bolster 35, makes 33 pairs of this sensors stressed and bolster 35 strain is made pressure-sensing; Via above-mentioned A, B, C and four kinds of utilizations of the D said structure of providing, A, B and C are direct organization, and D is indirect structure, implements the aspect explanation;

A. see also shown in Figure 3ly, this grip structure 30 comprises one first member 31, one second member 32, a sensor 33, establishes a guide member 34 and a bolster 35 in addition; These first member, 31 2 ends are moulding one stopper 311 respectively, this stopper 311 has the spacing space 312 of a hollow penetration state respectively, these spacing space 312 2 ends are moulding one open-work 313 respectively, places the fixed cover 314 of a ring-type on these spacing space 312 1 end open-works 313; This second member, 32 2 ends are moulding one stopper 321 respectively, the stopper 311 that the stopper 321 of this second member 32 respectively mutually should first member 31, and stopper 321 epireliefs of this second member 32 are set as type one section 322; This sensor 33 is beam type load measuring gauge (Beam Load Cell), these sensor 33 2 ends are moulding one fixed part 331 and a pressure-sensitive portion 332 respectively, the fixed part 331 of this sensor 33 is fixedly arranged on the section 322 of this second member 32, makes the pressure-sensitive portion 332 of this sensor 33 unsettled; This guide member 34 is a cylinder, and these guide member 34 1 ends are fixedly arranged in the pressure-sensitive portion 332 of this sensor 33, and other end activity is placed through on the fixed cover 314 of this first member 31, and the axially movable lock of this end is established a location screw 341; This bolster 35 is a spring, this bolster 35 is placed on this guide member 34, these guide member 34 auxiliary these bolsters 35 are avoided lateral deformation, this first member 31 sees through these fixed cover 314 activities and is placed through on this guide member 34, this this first member 31 of fixed cover 314 protections slows down wearing and tearing with these guide member 34 excessive frictions, make these bolster 35 1 ends be subjected to the fixed cover 314 of this first member 31 to replace spacing, this guide member 34 tops lock is established this set screw 341, makes this first member 31 be subjected to set screw 341 backstops of this guide member 34 spacing;

Other one carry be this guide member 34 adjustable lengths and then change the displacement stroke length of this first member 31 and this second member 32; Can be nested with a tubular external member (not drawn in graphic) restriction bolster 35 reciprocating strokes prior to this guide member 34 in advance in addition, and the length of this external member changes the displacement stroke length that change is pressed on this first member 31 and this second member 32; This bolster 35 can be adjusted the power size that coefficient of elasticity and then change press on this first member 31 and this second member 32; Select for use flexibly by the visual demand of above-mentioned variation user and to carry out that grip is rebuilded or muscular strength is strengthened;

B. see also shown in Figure 4ly, this grip structure 40 comprises one first member 41, one second member 42, a sensor 43, establishes a guide member 44 and a bolster 45 in addition; This first member 41 is tabular, and these first member, 41 1 ends are made as pivot portion 411, and the other end is made as stopper 412, provides moulding one perforation 413 on this stopper 412; This second member 42 is tabular, these second member, 42 1 ends are made as pivot portion 421, the other end is made as stopper 422, these stopper 422 epireliefs are set as type one section 423, the pivot portion 411 that this second member 42 sees through pivot portion 421 and this first member 41 articulates, and makes the stopper 412 that stopper 422 phases of this second member 42 should first member 41 do displacement; This sensor 43 is beam type load measuring gauge (BeamLoad Cell), these sensor 43 2 ends are moulding one fixed part 431 and a pressure-sensitive portion 432 respectively, the fixed part 431 of this sensor 43 is fixedly arranged on the section 423 of this second member 42, makes the pressure-sensitive portion 432 of this sensor 43 unsettled; This guide member 44 is a cylinder, these guide member 44 curved curved types that are set as, these guide member 44 1 ends are fixedly arranged in the pressure-sensitive portion 432 of this sensor 43, other end activity is placed through in the perforation 413 of this first member 41, and this end exposes to perforation 413 1 sides of first member 41 and moulding one catch 441 radially; This bolster 45 is a spring, these guide member 44 1 end catch 441 are under these first member, 41 backstops, this bolster 45 is placed on this guide member 44 by the other end, this end is fixedly arranged in the pressure-sensitive portion 432 of this sensor 43 again, and other establishes a display 46 provides digitlization to show with these sensor 43 electrically connects;

C. see also shown in Figure 5ly, this grip structure 50 comprises one first member 51, one second member 52, a sensor 53, establishes a guide member 54 and a bolster 55 in addition; This first member 51 has two stoppers 511 at a distance of a specific range, moulding one section 512 on this stopper 511; These second member, 52 1 ends are made as pivot portion 521, and the other end is made as stopper 522, on pivot portion 521 hub settings, one fixed pivot axi of this second member 52 (graphic do not drawn); This sensor 53 is beam type load measuring gauge (Beam Load Cell), these sensor 53 2 ends are moulding one fixed part 531 and a pressure-sensitive portion 532 respectively, the fixed part 531 of this sensor 53 axially is fixedly arranged on the stopper 522 of this second member 52, makes the pressure-sensitive portion 532 of this sensor 53 unsettled; This guide member 54 is a cylinder, and these guide member 54 curved bending are set as type, and pressure-sensitive portion 532 activities of this sensor 53 are placed through on this guide member 54; This bolster 55 is a spring, this bolster 55 is placed on this part guide member 54, and it is adjacent with the pressure-sensitive portion 532 of this sensor 53, these guide member 54 2 ends are fixedly arranged in respectively on the section 512 of this first member 51, and these bolster 55 2 ends are butted respectively on the section 512 of this first member 51, and other establishes a display 56 provides digitlization to show with this sensor 53 as electrically connect;

D. see also shown in Figure 6ly, this grip structure 60 comprises one first member 61, one second member 62, a sensor 63 and a bolster 64, and present embodiment need not use guide member; This first member 61 is a tubbiness, and this first member 61 has an accommodation space 611, and these accommodation space 611 2 ends are made as blind end and open end respectively, and these first member, 61 open end ring are established a catch 612; This second member 62 is a cylinder, these second member, 62 external diameters are less than these first member, 61 internal diameters, these second member, 62 1 end ring are established a catch 621, this second member 62 places in the accommodation space 611 that is hubbed at this first member 61, the catch 621 that the catch of this first member 61 612 mutually should second member 62; This sensor 63 is beam type load measuring gauge (BeamLoad Cell), and these sensor 63 1 ends are fixedly arranged on the default wall, and the other end is fixedly arranged on the blind end outer side surface of this first member 61; This bolster 64 is a spring, this bolster 64 is placed between this first member 61 and this second member 62, make these bolster 64 2 ends butted respectively on the catch 612 of this first member 61 with the catch 621 of second member 62 on, other establishes a display 65 provides digitlization to show with this sensor 63 as electrically connect;

The above is the correlation position of this novel each associated component of preferred embodiment and the general introduction of structure thereof.

Consult Fig. 3 to shown in Figure 6 in order to clearly demonstrate flowing mode and the effect done of the present utility model, please to cooperate again:

First member 31 of this grip structure 30 carries out relative shift reciprocately with bolster 35 elastic force that are provided with between second member 32 sees through, providing the user to see through first member 31 carries out the grip rehabilitation and strengthens muscular strength with these second member, 32 shift reciprocatelies, this sensor 33 directly or indirectly contacts down with this bolster 35, make 33 pairs of this sensors stressed and bolster 35 strain is made pressure-sensing, make these sensor 33 stressed generation voltage change and then convert the grip power to and show, allow medical personnel grasp the suitable rehabilitation of sufferer grip data placement course of treatment really, this grip structure 40,50 and 60 use above-mentioned action to implement respectively, in addition, guide member 34 auxiliary these bolsters 35 of this grip structure 30 avoid bolster 35 lateral deformations to keep the fluency of displacement steadily in shift reciprocately; This first member 31 of fixed cover 314 protection of this grip structure 30 slows down wearing and tearing with these guide member 34 excessive frictions, prolongs this first member 31 and 34 service lifes of this guide member; The length of the external member of this grip structure 30 changes the displacement stroke length that change is pressed on this first member 31 and this second member 32.

Claims (8)

1. a grip structure is characterized in that, this structure comprises;

One first member;

One second member mutually should first member;

One bolster is arranged between this first member and this second member, makes to constitute a default spacing between this first member and this second member, makes this grip structure carry out shift reciprocately in the stressed elasticity that sees through bolster according to default spacing down; And

One sensor is connected with this bolster, makes this sensor to stressed and bolster strain is made pressure-sensing.

2. grip structure according to claim 1 is characterized in that: other establishes a guide member and is placed through auxiliary displacement on this bolster.

3. grip structure according to claim 2 is characterized in that: first member, two ends of grip structure are moulding one stopper respectively, and this stopper has a spacing space respectively, and these spacing space two ends are moulding one open-work respectively; This second member, two ends are moulding one stopper respectively, the stopper that the stopper of this second member respectively mutually should first member, and the stopper epirelief of this second member is set as type one section; This sensor is the beam type load measuring gauge, and these sensor two ends are moulding one fixed part and a pressure-sensitive portion respectively, and the fixed part of this sensor is fixedly arranged on the section of this second member, makes the pressure-sensitive portion of this sensor unsettled; This guide member is a cylinder, and this guide member one end is fixedly arranged in the pressure-sensitive portion of this sensor, and other end activity is placed through on the open-work of this first member, and the axially movable lock of this end is established a location screw; This bolster is a spring, this bolster is placed on this guide member, this first member sees through the open-work activity and is placed through on this guide member, make this bolster one end be subjected to this first member to replace spacing, this guide member top lock is established this set screw, makes this first member be subjected to the set screw backstop of this guide member spacing.

4. grip structure according to claim 3 is characterized in that: this grip structure is established a ring-type fixed cover in addition, is fixedly arranged on the end open-work of this first member.

5. grip structure according to claim 3 is characterized in that: this grip structure is established a tubular external member in addition, is placed on and limits this bolster reciprocating stroke on this guide member.

6. grip structure according to claim 2 is characterized in that: first member of this grip structure is tabular, and this first member, one end is made as pivot portion, and the other end is made as stopper, provides moulding one perforation on this stopper; This second member is tabular, this second member, one end is made as pivot portion, and the other end is made as stopper, and this stopper epirelief is set as type one section, the pivot portion that this second member sees through pivot portion and this first member articulates, and makes the stopper that the stopper phase of this second member should first member do displacement; This sensor is the beam type load measuring gauge, and these sensor two ends are moulding one fixed part and a pressure-sensitive portion respectively, and the fixed part of this sensor is fixedly arranged on the section of this second member, makes the pressure-sensitive portion of this sensor unsettled; This guide member is a cylinder, and this guide member is curved curved to be set as type, and this guide member one end is fixedly arranged in the pressure-sensitive portion of this sensor, and other end activity is placed through in the perforation of this first member, and this end exposes to perforation one side of first member and moulding one catch radially; This bolster is a spring, and this guide member one end catch is under this first member backstop, and this bolster is placed on this guide member by the other end, and this end is fixedly arranged in the pressure-sensitive portion of this sensor again.

7. grip structure according to claim 2 is characterized in that: first member of this this grip structure has two stoppers at a distance of a specific range, moulding one section on this stopper; This second member, one end is made as pivot portion, and the other end is made as stopper, on pivot portion hub setting one fixed pivot axi of this second member; This sensor is the beam type load measuring gauge, and these sensor two ends are moulding one fixed part and a pressure-sensitive portion respectively, and the fixed part of this sensor axially is fixedly arranged on the stopper of this second member, makes the pressure-sensitive portion of this sensor unsettled; This guide member is a cylinder, and curved the bending of this guide member is set as type, and the pressure-sensitive portion activity of this sensor is placed through on this guide member; This bolster is a spring, and this bolster is placed on this part guide member, and adjacent with the pressure-sensitive portion of this sensor, and these guide member two ends are fixedly arranged in respectively on the section of this first member, and these bolster two ends are butted respectively on the section of this first member.

8. grip structure according to claim 2 is characterized in that: first member of this this grip structure is a tubbiness, and this first member has an accommodation space, and these accommodation space two ends are made as blind end and open end respectively, and the open end ring of this first member is established a catch; This second member is a cylinder, and this second member external diameter is less than this first member internal diameter, and this second member, one end ring is established a catch, and this second member places in the accommodation space that is hubbed at this first member, the catch that the catch of this first member mutually should second member; This sensor is the beam type load measuring gauge, and this sensor one end is fixedly arranged on the default wall, and the other end is fixedly arranged on the blind end outer side surface of this first member; This bolster is a spring, and this bolster is placed between this first member and this second member, make these bolster two ends butted respectively on the catch of this first member with the catch of second member on.

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