CN103070689A - Spine positioning point measuring instrument - Google Patents

Abstract

The invention discloses a spine positioning point measuring instrument, and aims to provide a measuring instrument which has the advantages of simple structure and low cost, and the size of the spine positioning point on an X axis, a Y axis and a Z axis can be artificially read or electronically displayed. The measuring instrument comprises a display screen, an X-axis measuring scale, a Y-axis measuring scale, a Z-axis measuring scale and a dismountable seat board, wherein the display screen is fixedly connected with the top end of the Y-axis measuring scale; the dismountable seat board is detachably connected with the bottom end of the Y-axis measuring scale; the X-axis measuring scale and the Z-axis measuring scale are in an integral structure; and a middle notch can slide on the Y-axis measuring scale.

Description

Vertebra anchor point measuring instrument

Technical field

The present invention relates to a kind of measuring instrument, in particular, the invention relates to the measuring instrument of vertebra anchor point three-dimensional dimension.

Background technology

Along with the quickening of people's rhythm of life and the continuous increase of social pressure, long-term use computer, the reasons such as abnormal sitting posture very easily cause the metamorphosis of vertebra.And the spondylopathy that the vertebra metamorphosis directly causes and derivative disease have become commonly encountered diseases and disease occurred frequently in China.At present, the vertebra morphometry mostly is anatomic measurement method, radionetric survey method, three-dimensional pick-up technology etc.The anatomic measurement method is a kind of more accurate measuring technique, but the method is more loaded down with trivial details bothersome, and type hand is larger, is not suitable for slight patient; The radionetric survey method mainly contains X, CT and MRI radionetric survey, and the method is the main method of therapeutic treatment vertebra, but cost is higher, also has carcinogenic risk under long-term ray; The three-dimensional pick-up technology is to utilize three-dimensional device scan vertebra form, shows the mode of vertebra three-dimensional configuration in computer, and this mode needs specific scanning means, and sweep time is longer, and cost is higher.

Summary of the invention

The present invention has overcome deficiency of the prior art, provides a kind of simple in structure, with low cost, can manually read or electronical display vertebra anchor point at the measuring instrument of X-axis, Y-axis, Z axis size.

In order to solve the technical problem of above-mentioned existence, the objective of the invention is to be achieved by following technical proposals.

The present invention includes display screen, X-axis dip stick, Y-axis dip stick, Z axis dip stick and detachable seat board, described display screen is fixedly connected with Y-axis dip stick top, detachable seat board and Y-axis dip stick bottom removably connect, described X-axis dip stick and Z axis dip stick are structure as a whole, and median slot can be slided at the Y-axis dip stick.

On the described display screen LED display is arranged.

In the described Z axis dip stick spring is arranged, Z axis dip stick top can be moved in the spring direction.

On the described Z axis dip stick infrared port is arranged, can penetrate Infrared.

The present invention compared with prior art, its beneficial effect is conveniently to determine the three-dimensional dimension of each anchor point of vertebra, then can directly obtain the vertebra form to three-dimensional dimension input computer software, this invention is simple in structure, with low cost, to the vertebra gauger without added influence.

Description of drawings

Fig. 1 is isometric front view of the present invention;

Fig. 2 is rear isometric view of the present invention;

Fig. 3 is display screen functions figure of the present invention;

Fig. 4 is X-axis of the present invention and Z axis dip stick functional diagram;

Fig. 5 is seat board functional diagram of the present invention;

Among the figure: display screen 1, LED display 11, battery case 12, battery cover 13, rectification button 14, X-axis dip stick 2, X-axis scale 21, notch 22, Y-axis dip stick 3, Y-axis scale 31, Z axis dip stick 4, Z axis scale 41, infrared port 42, spring 43, detachable seat board 5, detachable socket 51, seat surface 52.

The specific embodiment

Below in conjunction with accompanying drawing the present invention is conducted further description.

Such as Fig. 1, the 2nd, isometric front view of the present invention and rear isometric view the present invention includes the structures such as display screen 1, X-axis dip stick 2, Y-axis dip stick 3, Z axis dip stick 4, detachable seat board 5 as we can see from the figure.Wherein X-axis dip stick 2 is structure as a whole with Z axis dip stick 4, and the centre has notch 22 to slide at Y-axis dip stick 3.X-axis dip stick 2, Y-axis dip stick 3 and Z axis dip stick 4 are transparent plastic and make, and are conducive to manually read vertebra anchor point three-dimensional dimension.

Be display screen functions figure of the present invention such as Fig. 3, display screen 1 comprises as we can see from the figure: LED display 11, battery case 12, battery cover 13 and correct button 14 structures.Display screen 1 is fixed syndeton with Y-axis dip stick 3.Can show X, Y, Z axis accurate dimension on the LED display 11.When battery is inserted in the battery case 12, battery cover 13 covers into battery case 12 by the buckle mode, namely can be LED display 11 power supply is provided.Correct button 14 and be used for the functions such as vertebra anchor point displacement rectification, data zero clearing.

Be X-axis of the present invention and Z axis dip stick functional diagram such as Fig. 4, X-axis dip stick 2 comprises as we can see from the figure: X-axis scale 21, notch 22; Z axis dip stick 4 comprises: the structures such as Z axis scale 41, infrared port 42, spring 43.Wherein, X-axis scale 21 is convenient to manually read vertebra anchor point X axis size.Notch 22 can slide in Y-axis, is convenient to infrared port 42 in Y-axis and Z-direction location.Spring 43 is arranged in the Z axis dip stick 4, so that Z axis dip stick top can and be moved along with the vertebral curve variation, displacement can show at Z axis scale 41, also can show at LED display 11, and these data are vertebra anchor point Z axis size.Infrared port 42 can penetrate Infrared, is convenient to vertebra anchor point location, makes measurement data more accurate.

Be seat board functional diagram of the present invention such as Fig. 5, seat board comprises detachable socket 51 and seat surface 52 as we can see from the figure.Detachable socket 51 removably connects with Y-axis dip stick 3 bottoms.When seat board 5 is connected with Y-axis dip stick 3, the vertebra anchor point size when being convenient to measure human body sitting posture; When seat board 5 separates with Y-axis dip stick 3, can measure human vertebra anchor point size when lying on one's side.

Claims (4)

1. vertebra anchor point measuring instrument, comprise display screen (1), X-axis dip stick (2), Y-axis dip stick (3), Z axis dip stick (4) and detachable seat board (5), it is characterized in that: described display screen (1) is fixedly connected with Y-axis dip stick (3) top, detachable seat board (5) removably connects with Y-axis dip stick (3) bottom, described X-axis dip stick (2) is structure as a whole with Z axis dip stick (4), and median slot can be slided at Y-axis dip stick (3).

2. vertebra anchor point measuring instrument according to claim 1 is characterized in that: LED display (11) is arranged on the described display screen (1).

3. vertebra anchor point measuring instrument according to claim 1 is characterized in that: spring (41) is arranged in the described Z axis dip stick (4), and Z axis dip stick top can be moved in the spring direction.

4. vertebra measuring instrument according to claim 1 is characterized in that: infrared port (42) is arranged on the described Z axis dip stick (4), can penetrate Infrared.

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