CN1672638A - Parts space regulating mechanism and ultrasonic diagnosing apparatus - Google Patents

Abstract

Provided is a cost-saving adjusting mechanism for a distance between two units, which is simple in structure, comprises a few parts, and allows a user to simply adjust them at a predetermined distance, and an ultrasonic diagnostic equipment with using it.The adjusting mechanism is characterized in that it comprises a first cylindrical body connected with a first unit, a second cylindrical body connected with a second unit to be outwardly or inwardly inserted to the first cylindrical body, a slant guiding part provided on the first cylindrical body to be tilted against a central axis of the first cylindrical body at a predetermined angle, a plurality of supporting members engaged with the slant guiding part to be a base point of a rotary movement in the central axial direction of the first cylindrical body, and a plurality of fitting holes to fit the supporting members to the second cylindrical body.

Description

Parts space regulating mechanism and diagnostic ultrasound equipment

Technical field

The present invention relates to the parts space regulating mechanism at the interval between 2 parts that scalable can be dynamically connected mutually and adopt the diagnostic ultrasound equipment of this mechanism.

Background technology

According to prior art, in the constructed object that constitutes by 2 parts, each parts are movable mutually, the movable up and down mechanism of another parts adopts one of them parts (body) relatively is such structure, the elastomer that is arranged on the rack pinion of above-mentioned one of them components interior or spring etc. to be accommodated in above-mentioned one of them parts and slidably above-mentioned another parts below encourage.Particularly at above-mentioned relatively body, have in the movable up and down constructed object of another parts of suitable weight, the structure (for example patent documentation 1) by above-mentioned another parts of supporting such as fastening spring or air springs has been proposed.

Patent documentation 1 Japanese kokai publication hei 5-253223 communique (paragraph (0009)-(0018), Fig. 2)

Summary of the invention

But in the technology of patent documentation 1 record, for supporting as the operation panel of above-mentioned another parts and monitor and make it movable up and down, and fastening spring or air spring are arranged on the body of above-mentioned one of them parts, therefore complicated operation in manufacture process, cause effective rate of utilization low, components number is many, causes cost to improve.

In addition, when the change height dimension, owing to adopt fastening spring or air spring as the operation panel of above-mentioned another parts of supporting and the structure of monitor, therefore whenever as the Level Change of the operation panel of above-mentioned another parts and monitor the time, active force below it can not change equably along with elastic force, also comparatively complicated in the manufacturing process, have no idea for this situation, therefore exist height adjustment mechanism simple in structure, that can carry out the height dimension fine setting is simply carried out room for improvement.Particularly disclosed this height adjustment mechanism is used under the situation of diagnostic ultrasound equipment in patent documentation 1, not only needing to have can be corresponding to patient's the bed or the height dimension of chair, the diagnostic ultrasound equipment of the height adjustment mechanism of the height dimension of operation panel and monitor being regulated to the various inspection environment such as mobile use in ward district, and the height adjustment mechanism that needs a kind of various physique that be not limited to the user (tester) that preestablishes the operation undertaker of this diagnostic ultrasound equipment and use diagnostic ultrasound equipment relatively also can regulate the height dimension of operation panel and monitor simply.

The present invention makes at the problem of above-mentioned existence just, its objective is provides a kind of such parts space regulating mechanism, in the parts space regulating mechanism of regulating 2 parts spaces, user can carry out simple adjustment to predetermined space, it is simple in structure, components number is few and cost reduces, and the present invention also provides the diagnostic ultrasound equipment that adopts this mechanism.

For addressing the above problem, the parts space regulating mechanism of the invention of technical scheme 1 record, it is characterized by and have periphery at least a portion and form circular-arc, first object that is connected with first parts, extrapolation or in insert in this first object, second object that is connected with second parts, be arranged on the circular-arc part of above-mentioned first object, the above-mentioned extrapolation of above-mentioned relatively first object or interior direction interpolation have the inclined lead part of predetermined inclination, cooperate with this inclined lead part, form at least 1 supporting member of the mobile basic point of rotation of the above-mentioned extrapolation of above-mentioned first object or interior direction interpolation, be used for this supporting member is installed at least 1 installing hole on above-mentioned second object.

For addressing the above problem, the parts space regulating mechanism of the invention of technical scheme 8 records, it is characterized by and have first cylinder that is connected with first parts, extrapolation or in insert in this first cylinder, second cylinder that is connected with second parts, be arranged at above-mentioned first cylinder, the central shaft of above-mentioned relatively first cylinder has the inclined lead part of predetermined inclination, cooperate with this inclined lead part, form a plurality of supporting members of the mobile basic point of rotation of the central axis direction of above-mentioned first cylinder, be used for this support member is installed in a plurality of installing holes on above-mentioned the 2nd cylinder.

For addressing the above problem, the parts space regulating mechanism of the invention of technical scheme 9 records, it is characterized by and have: first cylinder that is connected with first parts, extrapolation or in insert in this first cylinder, second cylinder that is connected with second parts, be arranged at described first cylinder, the central shaft of described relatively first cylinder has the inclined lead part of predetermined inclination, cooperate with this inclined lead part, form described first cylinder central axis direction the mobile basic point of rotation first and second supporting members and be arranged on described second cylinder, be used to install first and second installing holes of first and second supporting members; Be installed at described first supporting member under the state of described first installing hole described first supporting member made described first cylinder rotation as basic point after, described second supporting member is inserted in described second installing hole the mobile basic point of new rotation as described first cylinder, make described first cylinder rotation with described second supporting member as basic point, regulate the interval of described first and second parts thus.

For addressing the above problem, the parts space regulating mechanism of the invention of technical scheme 15 records, it is characterized by and have: first cylinder that is connected with first parts, extrapolation or in insert in this first cylinder, second cylinder that is connected with second parts, be arranged on the guide portion on above-mentioned first cylinder, described guide portion is formed on the groove that is roughly the ㄑ font that starting point and terminal point are set on the direction with the central axes of above-mentioned first cylinder, cooperate with this guide portion, as the supporting member of the mobile basic point of rotation of the central axis direction of above-mentioned first cylinder, and be arranged on above-mentioned second cylinder, be used to install the installing hole of above-mentioned supporting member.

For addressing the above problem, the diagnostic ultrasound equipment of the invention of technical scheme 17 records, it has: first parts, second parts, first cylinder that is connected with above-mentioned first parts, be connected in described second parts, extrapolation or in insert in second cylinder of this first cylinder, it is characterized by, the central shaft that relative this first cylinder is set on above-mentioned first cylinder has the inclined lead part of predetermined inclination, on above-mentioned second cylinder, be provided with and cooperate with this inclined lead part, as a plurality of supporting members of the mobile basic point of rotation of the central axis direction of above-mentioned first cylinder be used for this supporting member is installed in a plurality of installing holes on above-mentioned second cylinder.

For addressing the above problem, the diagnostic ultrasound equipment of the invention of technical scheme 18 records, it has: first parts, second parts, first cylinder that is connected with above-mentioned first parts, be connected in described second parts, extrapolation or in be inserted in second cylinder on this first cylinder, it is characterized by, the central shaft that above-mentioned relatively first cylinder is set on above-mentioned first cylinder has the inclined lead part of predetermined inclination, on above-mentioned second cylinder, be provided with and cooperate with this inclined lead part, first and second supporting members as the mobile basic point of rotation of the central axis direction of above-mentioned first cylinder, with first and second installing holes that are used to install this first and second supporting member, be installed at above-mentioned first supporting member under the state of above-mentioned first installing hole above-mentioned first supporting member made above-mentioned first cylinder rotation as basic point after, above-mentioned second supporting member is inserted in above-mentioned second installing hole the mobile basic point of new rotation as above-mentioned first cylinder, above-mentioned second supporting member is made above-mentioned first cylinder rotation as basic point, regulate the interval of above-mentioned first and second parts thus.

For addressing the above problem, the diagnostic ultrasound equipment of the invention of technical scheme 24 records, it has: first parts, second parts, first cylinder that is connected with above-mentioned first parts, with be connected in described second parts, extrapolation or in insert in second cylinder of this first cylinder, it is characterized by, on above-mentioned first cylinder, guide portion is set, this guide portion is formed on the groove that the roughly ㄑ font of starting point and terminal point is set on the direction with the central axes of above-mentioned first cylinder, on above-mentioned second cylinder, be provided with and cooperate with this inclined lead part, as the supporting member of the mobile basic point of rotation of the central axis direction of above-mentioned first cylinder, and the installing hole that is used to install this supporting member.

According to the present invention, owing to rotate the inclined lead part that supporting member is set respectively and cooperates on first cylinder that moves at second cylinder and relative to second cylinder with this supporting member, therefore by making relative second cylinder rotation of first cylinder, the relative position of above-mentioned first cylinder of scalable and above-mentioned second cylinder, that is the interval of first parts and second parts.By adopting this simple structure, realize that cost reduces.

Description of drawings

Fig. 1 is the side view of the formation of first form of implementation of the diagnostic ultrasound equipment of expression employing parts space regulating mechanism of the present invention.

Fig. 2 is an axonometric drawing, the formation of first form of implementation of its expression parts space regulating mechanism of the present invention.

Fig. 3 is the axonometric drawing and the sectional view of the A-stage example of expression parts space regulating mechanism of the present invention when operating in first form of implementation.

Fig. 4 is the axonometric drawing and the sectional view of first stateful example of expression parts space regulating mechanism of the present invention when operating in first form of implementation.

Fig. 5 is the axonometric drawing and the sectional view of second stateful example of expression parts space regulating mechanism of the present invention when operating in first form of implementation.

Fig. 6 is the axonometric drawing and the sectional view of the third state example of expression parts space regulating mechanism of the present invention when operating in first form of implementation.

Fig. 7 is the axonometric drawing and the sectional view of four stateful example of expression parts space regulating mechanism of the present invention when operating in first form of implementation.

Fig. 8 is a sectional view, the modified example of first cylindrical structure in its expression parts space regulating mechanism first form of implementation of the present invention.

Fig. 9 is a sectional view, the modified example of first cylindrical structure in its expression parts space regulating mechanism first form of implementation of the present invention.

Figure 10 is a sectional view, another modified example of first cylindrical structure in its expression parts space regulating mechanism first form of implementation of the present invention.

Figure 11 is an axonometric drawing, the formation in its expression parts space regulating mechanism second form of implementation of the present invention.

Figure 12 is the axonometric drawing of the A-stage example of expression parts space regulating mechanism of the present invention when operating in second form of implementation.

Figure 13 is the axonometric drawing of the intermediateness example of expression parts space regulating mechanism of the present invention when operating in second form of implementation.

Figure 14 is the axonometric drawing of the high position stateful example of expression parts space regulating mechanism of the present invention when operating in second form of implementation.

Figure 15 is an axonometric drawing, and it has represented the structure of first cylinder of parts space regulating mechanism of the present invention in the 3rd form of implementation.

Figure 16 is an axonometric drawing, the modified example of first cylindrical structure in its expression parts space regulating mechanism first form of implementation of the present invention.

Figure 17 is an axonometric drawing, the modified example of first cylindrical structure in its expression parts space regulating mechanism the 3rd form of implementation of the present invention.

Figure 18 is axonometric drawing and top view, the modified example of first and second objects in its expression parts space regulating mechanism of the present invention.

The specific embodiment

Followingly form of implementation of the present invention is described with reference to accompanying drawing.

(first form of implementation)

Fig. 1 is a side view, and it has represented to adopt the formation of first form of implementation of the diagnostic ultrasound equipment of parts space regulating mechanism of the present invention.As shown in Figure 1, adopt the diagnostic ultrasound equipment of parts space regulating mechanism of the present invention to be connected to form by first parts 1 and second parts 2.First parts 1 possess for example monitor 12 and operation panel 13.Second parts for example possess body part 20.On body part 20, has movably caster of the diagnostic ultrasound equipment of making.First parts 1 are connected with second cylinder 21 by first cylinder 11 with second parts 2.Parts space regulating mechanism of the present invention is the mechanism that links to each other with second cylinder 21 with first cylinder 11, win by sliding and rotary manipulation, can making between first cylinder 11 and second cylinder 21 parts 1 and second parts 2 move on approaching mutually direction or the direction that deviates from mutually.The knee-action of corresponding first cylinder 11 of explanation and second cylinder 21 carries out the structure of altitude mixture control to first parts 1 and second parts 2 in this form of implementation.

Fig. 2 has represented first form of implementation of parts space regulating mechanism of the present invention, is the partial enlarged drawing of Fig. 1 parts space regulating mechanism.As shown in Figure 2, an end face (upper surface) is set at first cylinder 11 on first parts 1, and its other end (lower surface) relative Cylindorical rod is to the inclined-plane (hereinafter referred to as inclined lead part) that is formed slopely substantially flush.This inclined lead part can be described as the shape that the face by the rotating shaft predetermined oblique angle of relative first cylinder blocks the bottom of existing drum.

On the other hand, be provided with second cylinder 21 of second parts 2 at an end face (lower surface), its other end (upper surface) is formed with the peristome of interpolation first cylinder 11.Edge part place at second cylinder 21 is provided with a plurality of installing holes, is used for mounting support member 23, the rotation basic point that this member 23 supports first cylinder 11 of interpolations and forms first cylinder 11.In this form of implementation, as an example of installing hole, the through hole 22 that runs through the outer peripheral face of second cylinder 21 is formed with a plurality of, is used to embed supporting member 23.In addition, in this form of implementation, installing hole then is not particularly limited for the form that runs through second cylinder 21 as through hole 22 as long as be the supporting structure that supporting member 23 can be entrenched at least on the above-mentioned inclined lead part.In addition, at the medial surface of first cylinder, 11 relative second cylinders 21, along up and down slidably on the direction, in opposite directions position is provided with a plurality of through holes 22 mutually.In addition, in order to carry out multiple altitude mixture control as required, pre-standby through hole 22 can be set also.

In addition, also can form relative through hole 22 at supporting member 23 plugs operation and the time is not easy to extract and the structure that stops from second cylinder 21.In addition, in this form of implementation be face that first cylinder 11 is connected with first parts 1 direction as on direction, the direction of above-mentioned inclined lead part is described as direction down.

Below the operation in parts space regulating mechanism first form of implementation of the present invention is described.Fig. 3 to Fig. 7 shows the action in parts space regulating mechanism first form of implementation of the present invention.Fig. 3 (a) is an axonometric drawing, and it has represented the A-stage example of parts space regulating mechanism of the present invention, and Fig. 3 (b) is the A-A sectional view of Fig. 3 (a).In addition, Fig. 4 (a) is an axonometric drawing, and it has represented first stateful example of parts space regulating mechanism of the present invention, and Fig. 4 (b) is the B-B sectional view of Fig. 4 (a).In addition, Fig. 5 (a) is an axonometric drawing, and it has represented second stateful example of parts space regulating mechanism of the present invention, and Fig. 5 (b) is the C-C sectional view of Fig. 5 (a).In addition, Fig. 6 (a) is an axonometric drawing, and it has represented the third state example of parts space regulating mechanism of the present invention, and Fig. 6 (b) is the D-D sectional view of Fig. 6 (a).Fig. 7 (a) is an axonometric drawing, and it has represented the 4th stateful example of parts space regulating mechanism of the present invention, and Fig. 7 (b) is the E-E sectional view of Fig. 7 (a).In addition, supporting member 23a-23h is the supporting member 23 that is embedded in the through hole 22 (having omitted its diagram at Fig. 3 in Fig. 7) that is formed at second cylinder, 21 edge part places.

Shown in Fig. 3 (a) and Fig. 3 (b), as A-stage, form in the upper surface of the upper surface of first cylinder 11 and second cylinder 21 under substantially flush the situation, the lower surface of the inclined lead part 100 of first cylinder 11 is by supporting member 23a supporting, and the upper end of inclined lead part 100 is supported by supporting member 23d.

Promptly, the interval of 22 of adjacent through holes on above-below direction, shown in this A-stage, angle of inclination according to first cylinder, 11 medium dip guide portion 100 is provided with, the bottom of the inclined lead part 100 of the cylinder 11 of winning is supported by supporting member 23a, and the upper end of inclined lead part 100 is supported by supporting member 23d.In addition, the angle of inclination of inclined lead part 100 forms certain value except the situation that this variable-angle is set, therefore the interval between the through hole adjacent on the above-below direction 22 is set at same intervals respectively.At this, when 22 of adjacent through holes be spaced apart d the time, inclined lead part 100 is set like this: to satisfy d tan θ * 2r (r: radius, the θ of second cylinder, 21 upper surfaces: the angle of inclination of inclined lead part 100).For example can make d=20mm.

And under the state that the upper end of the inclined lead part 100 of first cylinder 11 is supported by the support unit 23d that is inserted in the through hole (first through hole) 22, in the mode of watching first cylinder 11 above first cylinder 11, for example inhour is revolved and is turn 90 degrees.Like this, as shown in Figure 4, the inclined lead part 100 of first cylinder 11 not only is subjected to the supporting of supporting member 23d, also is subjected to the supporting of supporting member 23c, forms first state.At this moment, the short transverse from the first outstanding cylinder 11 of the upper surface of second cylinder 21 is of a size of d/2.In addition, first parts 1 revolve the direction that turn 90 degrees towards relative A-stage.

When first parts 1 that are arranged on first cylinder, 11 upper surfaces structurally independent with first cylinder 11, and with the Cylindorical rod of first cylinder 11 on perpendicular face when rotatable, by being revolved, first parts, 1 inhour turn 90 degrees, can make first parts 1 form identical with A-stage towards, use the position that has in height risen d/2.

In addition, under the state that the inclined lead part 100 supported member 23d and the supporting member 23c of first cylinder 11 support, with rotate on the identical direction of the direction of first cylinder 11 to first state from A-stage, further first cylinder 11 is revolved and turn 90 degrees.Like this, as shown in Figure 5, the bottom of the inclined lead part 100 of first cylinder 11 is subjected to the supporting of supporting member 23d, forms second state.At this moment, the upper end of the inclined lead part 100 of first cylinder 11 can be supported by the supporting member 23e that is inserted in the through hole (second through hole) 22, so supporting member 23e projects in second cylinder 21.

According to above operation, first cylinder 11 makes to form d from the size of outstanding first cylinder, 11 short transverses in the upper surface of second cylinder 21 from the result of A-stage Rotate 180 degree.In addition, do not rotating under first state under the situation of first parts, first parts 1 are towards the direction of relative A-stage Rotate 180 degree.

First parts on the upper surface that is arranged on first cylinder 11 are structurally independent with first cylinder 11, and with the Cylindorical rod of first cylinder 11 on perpendicular face when rotatable, by 1 dextrorotation of first parts is turn 90 degrees (being 180 degree) under the situation of not rotating first parts under first state, can make first parts 1 form identical with A-stage towards, use the position that has in height risen d.

After this, under the state of the upper end of the inclined lead part 100 of first cylinder 11 by supporting member 23e supporting, to with from A-stage to side that first state rotates first cylinder 11 in the opposite direction (that is, at this for clockwise) first cylinder 11 is revolved turn 90 degrees.Like this, as shown in Figure 6, the inclined lead part 100 of first cylinder 11 not only is subjected to the supporting of supporting member 23e, also is subjected to the supporting of supporting member 23f, forms the third state.At this moment, on the short transverse of the first outstanding cylinder 11 of the upper surface of second cylinder 21, be of a size of 3d/2.

First parts 1 on the upper surface that is arranged on first cylinder 11 are structurally independent with first cylinder 11, and with the Cylindorical rod of first cylinder 11 on perpendicular face when rotatable, by first parts 1 are rotated in a predetermined direction, can make first parts 1 form identical with A-stage towards, use the position that has in height risen 3d/2.

Under the inclined lead part 100 of first cylinder 11 state by supporting member 23e and supporting member 23f supporting, to the side that first state rotates first cylinder 11 first cylinder 11 is revolved from A-stage to turn 90 degrees.Like this, as shown in Figure 7, the bottom of the inclined lead part 100 of first cylinder 11 is subjected to the supporting of supporting member 23e, forms the 4th state.At this moment, can be from the upper end of the inclined lead part 100 of first cylinder 11 by supporting member 23h supporting, so supporting member 23h projects in second cylinder 21.

According to above operation, the size on the short transverse of the first outstanding cylinder 11 of the upper surface of second cylinder 21 forms 2d.

In this case, even it is fashionable when the position of not carrying out with the independent rotation of first cylinder 11 of above-mentioned first parts 1, make the result of first cylinder 11 from A-stage inhour Rotate 180 degree, dextrorotation turnback, also make the parts 1 of winning towards the direction identical with A-stage, first parts 1 are used in the position that therefore can in height rise 2d.In addition, certainly in any one stage of first to the 3rd, even when adjusting the direction of first parts 1, also can be by same adjustment, when making parts 1 formation of winning with A-stage identical towards, use the position that has in height risen 2d.

Thus, cooperate predetermined supporting member 23, make 11 rotations of first cylinder, can reduce the operation that is used for altitude mixture control, can reduce operator's labour force by 100 places of the inclined lead part on a part that is arranged at first cylinder 11.The parts space regulating mechanism of the active force homogeneous that in addition, also can provide simple in structure, cost reduces, the above-mentioned parts of supporting are used.

As mentioned above, so long as first parts 1 can get final product with the 11 independent rotations of first cylinder, but under situation about can not independently rotate, when making first cylinder 11 (first parts 1) rotation, front and back at the height that changes first parts 1, since possess monitor 12 grades first parts 1 towards with rotation before compare and change, suitable operation is produced obstacle, wish that therefore rotation makes that total anglec of rotation is 360 degree or to offset be 0 degree.Particularly in above-mentioned form of implementation, with the upper end of the inclined lead part 100 of supporting member 23 supporting first cylinder 11 and the ranks that the bottom mode has formed through hole 22, above second cylinder 21, watch and be configuration in opposite directions, but under situation about need finely tune, also can for example above first cylinder 11, watch, dispose through hole 22 at 45 degree to the height of first parts 1.Promptly, for the total anglec of rotation that makes first cylinder 11 (first parts 1) be 0 the degree (for example, A-stage → inhour rotation 45 spend → turn clockwise 45 degree → formation identical with A-stage towards (always the anglec of rotation be 0 spend)) be provided with through hole 22, therefore first parts 1 towards form identical with A-stage towards, on the other hand, diminish from the height dimension of the first outstanding cylinder 11 of the upper surface of second cylinder 21, therefore can finely tune.

In addition, in above-mentioned form of implementation, be rotated when operation from A-stage to first state, first cylinder not only is subjected to the supporting of supporting member 23d, also be subjected to the supporting of supporting member 23c, therefore at this time point, by towards be rotated operation from A-stage in the opposite direction to the side of first state rotation, also can be so that total anglec of rotation is 0 degree.

By with upper type, can reduce rotary manipulation, and further alleviate operator's labour force.In addition, this situation is applicable to the third state too.

At this, so-called total anglec of rotation refers to and ought a direction of rotation (for example clockwise) be "+", the total anglec of rotation of another direction of rotation (for example inhour rotation) when being "-", for example at first cylinder, 11 dextrorotation turnbacks (+180 degree), under the situation of first cylinder, 11 counter-clockwise Rotate 180 degree (180 degree), be defined as 180 degree-180 degree=0 degree then.Therefore, total anglec of rotation be 0 degree refer to before first cylinder 11 (first parts 1) rotation and after rotating first parts 1 towards identical.

In addition, when relative second cylinder 21 is regulated the height dimension of first cylinder 11, for preventing to extract because of carelessness the cylinder 11 of winning is fallen by inclined lead part 100 that should be coupled to first cylinder 11 and the supporting member 23 that supports, plan as to this safe the time, also the predetermined supporting member 23 relevant with the cooperation of the inclined lead part 100 of first cylinder 11 of rotational slide can be placed the state that does not protrude in second cylinder, 21 inside, make and finish the supporting member 23 that cooperates with inclined lead part 100 and protrude in second cylinder, 21 inside.For example, for the wall thickness of guaranteeing second cylinder 21 more than predetermined thickness, supporting member 23 is cooperated with inclined lead part 100, can encourage with the structure of elastomer (not shown) etc. by dress in adopting in supporting member 23 and implement.By adopting this structure, can make to cooperate relevant predetermined supporting member 23 to be in, and it is outstanding from the internal face of second cylinder 21 to finish the supporting member 23 that cooperates with inclined lead part 100 not from the outstanding state of the internal face of second cylinder 21 with inclined lead part 100.In this case, when first parts 1 slided downwards, relative second parts 2 of user were outwards pulled out the supporting member 23 that supporting inclined lead part 100 upper ends are used.Thus, under the state by supporting member 23 supportings of the bottom that is used to support inclined lead part 100, first cylinder 11 can make parts 1 slide downwards by rotation.

In addition, form A-stage, but Fig. 4 also can be used as A-stage to the state of each position shown in Figure 7 at the state of first cylinder 11 of position shown in Figure 3, promptly as home position, upward or the below slide.In addition, have towards with by first parts 1 under the state of supporting member 23a shown in Figure 3 and supporting member 23d supporting under the state of first parts 1 of identical direction, also can with by the state of supporting member 23c and supporting member 23f supporting as A-stage (home position).Equally, can with by supporting member 23b and supporting member 23c, by supporting member 23d and supporting member 23e, by the state of any situation supporting among supporting member 23f and the supporting member 23g as A-stage (home position).

Below, with reference to Fig. 8 the modified example of first form of implementation of parts space regulating mechanism of the present invention is described.In the explanation of following modified example, omitted the structure identical and the explanation of operation with above-mentioned form of implementation, only difference is described.

Fig. 8 is an axonometric drawing, and it has represented the modified example of first cylinder, 11 structures in first form of implementation of parts space regulating mechanism of the present invention.As shown in Figure 8, at place below the inclined lead part 100 of first cylinder 11,, can form fastener 102 for when making 11 rotations of first cylinder, below above-mentioned, locating to cooperate supporting member 23 with the correct anglec of rotation.This fastener 102 can locate at regular intervals to be arranged on its periphery below (every certain angle), also can be provided with arbitrary interval (angle intervals arbitrarily).

Thus, by forming fastener 102, can be effectively with as be formed on inclined lead part 100 on the inclined-plane below be coupled on the supporting member 23.In addition, for user, in rotation during first cylinder 11, sensation that can be when experiencing fastener 102 and be matched with supporting member 23 (slide etc.) is recognized cooperating of fastener 102 and supporting member 23, can correctly hold the anglec of rotation.

In addition, under the situation that adopts first cylinder 11, make the cable that is electrically connected between first parts 1 and second parts 2 etc. by between first cylinder, thus can be to being electrically connected between first parts 1 and second parts 2, but also can not adopt first cylinder 11 and adopt cylinder.In this case, can be with cable of being electrically connected between first parts 1 and second parts 2 etc. is arranged on the cylindrical outside, to being electrically connected between first parts 1 and second parts 2.In addition, can also adopt such form, the perforation road of running through cable promptly is set in cylinder.In addition, as shown in Figure 9, the following of first cylinder 11 as inclined lead part 100 can not form substantially flush inclined-plane, can also adopt with the periphery 91 below above-mentioned form substantially flush below, core 92 is the structure of drum (or cylindrical shape).When adopting this structure of drum; when inside by first cylinder 11 such as the cable that for example connects first parts 1 and second parts 2; even relative second cylinders 21 of first cylinder 11 rise, drum that also can described central part 92 is partly protected above-mentioned cable.

In addition, be all to adopt the form of supporting member 23 to describe in this form of implementation to whole relatively through hole 22, support but also can adopt than first cylinder 11 supporting member 23 still less that is formed with inclined lead part 100, wherein said inclined lead part 100 forms the angle of inclination that guarantees required height dimension.

In addition, except Fig. 9, also can form structure as shown in figure 10, this structure is another modified example of first cylindrical structure in parts space regulating mechanism first form of implementation of the present invention.That is, can be the shape that the lower periphery with first cylinder 11 forms to pruning preset distance towards Cylindorical rod.In this case, the periphery 93 of the step part that is produced by the difference that forms the original peripheral part (periphery) of the thinner cylinder peripheral part 94 and first cylinder 11 by the operation of pruning has the function as inclined lead part 100.Even first cylinder, 11 relative second cylinders 21 rise in this structure, also can protect cable.

(second form of implementation)

Figure 11 is the figure of second form of implementation of expression parts space regulating mechanism of the present invention.The difference of second form of implementation and first form of implementation is first cylinder 11 in the diagnostic ultrasound equipment shown in Figure 1 and second cylinder 21 are changed to first cylinder 110 and second cylinder 210.Below, be that the center describes with different piece with first form of implementation.As shown in figure 11, first cylinder 110 has 2 screw thread receiving portions 111 and 3 screw thread receiving portions 112.On the other hand, second cylinder 210 has 2 first threaded portions 211 and 3 first threaded portions 213, and has 2 second threaded portions 212 and 3 second threaded portions 214.

Under the A-stage when first cylinder 110 is inserted in second cylinder 210 (with the identical position of A-stage in first form of implementation), make 2 screw thread receiving portion positions 111 of 2 first threaded portions 211 of second cylinder 210 and first cylinder 110 consistent, hold-down screw.In addition, this moment second cylinder 210 3 first threaded portions 213 and the position consistency of 3 screw thread receiving portions 112 of first cylinder 110, hold-down screw.Fix by this screw, make win cylinder 110 and second cylinder 210 be fixed on the position of A-stage effectively, stably keep.

In addition, under the high position state when first cylinder 110 is inserted in second cylinder 210 (with the identical position of the 4th state in first form of implementation), make 2 second threaded portions 212 of second cylinder 210 and 2 screw thread receiving portion 111 position consistency of first cylinder 110, hold-down screw.In addition, this moment second cylinder 210 3 second threaded portions 214 and the position consistency of 3 screw thread receiving portions 112 of first cylinder 110, hold-down screw.Fix by this screw,, and stably support even also can fix first cylinder 110 and second cylinder 210 effectively at the high position state.

In addition, as an example, in second form of implementation, through hole only is provided with 3, the i.e. first through hole 22a to the, three through hole 22c, only be provided with 2 as supporting member, the supporting member 23j that can plug and be fixed on fixed bearing member 23k on the second through hole 22b, what this was second form of implementation with first form of implementation is different.Below, adopt Figure 12 to Figure 14, first to the 3rd through hole 22a, 22b and 22c, pluggable supporting member 23j and fixed bearing member 23k are elaborated, simultaneously the operation as second form of implementation of parts space regulating mechanism of the present invention are described.

Figure 12 is the figure of expression as the operation of second form of implementation of parts space regulating mechanism of the present invention to Figure 14.Figure 12 is an axonometric drawing, shows the A-stage example of parts space regulating mechanism of the present invention.In addition, Figure 13 is an axonometric drawing, shows the intermediateness example of parts space regulating mechanism of the present invention.In addition, Figure 14 is an axonometric drawing, shows the example of the high position state of parts space regulating mechanism of the present invention.

As shown in figure 12, the bottom of the inclined lead part 100 of first cylinder 110 is by the plugged supporting member 23j supporting that is inserted among the first through hole 22a, and the upper end of inclined lead part 100 is by the fixed bearing member 23k supporting that is fixed on the second through hole 22b.

In addition, although not shown, as shown in figure 11, in A-stage shown in Figure 12, hold-down screw between 2 screw thread receiving portions 111 of 2 first threaded portions 211 of second cylinder 210 and first cylinder 110.In addition, 3 screw thread receiving portion 112 position consistency, also hold-down screws of 3 first threaded portions 213 of second cylinder 210 and first cylinder 110.

From this state, be subjected in the upper end of the inclined lead part 100 of first cylinder 110 under the state of fixed bearing member 23k supporting, make 110 rotations of first cylinder, above first cylinder 110, watch for example counter-clockwise Rotate 180 degree.Like this, as shown in figure 13, the upper end of first cylinder 110 rises to the position of the 3rd through hole 22c.Therefore, extract from the first through hole 22a, be inserted into the 3rd through hole 22c at this pluggable supporting member 23j that will be inserted among the first through hole 22a.Thus, inclined lead part 100 is not only supported by fixed bearing member 23k, but also is subjected to the supporting of pluggable supporting member 23j, forms intermediateness.

In addition, the inclined lead part 100 at first cylinder 110 is subjected under the state of fixed bearing member 23k and pluggable supporting member 23j supporting, further with first cylinder, 110 Rotate 180 degree.Like this, as shown in figure 14, the upper end of first cylinder 110 rises to the position of the described supporting member 23h of above-mentioned first form of implementation (for example with reference to Fig. 7).Under the high position state of the first such cylinder 110, the supporting member suitable with supporting member 23h is not set in this form of implementation, but as shown in figure 11, hold-down screw between 2 screw thread receiving portions 111 of 2 second threaded portions 212 of second cylinder 210 and first cylinder 110,3 second threaded portions 214 of second cylinder 210 and 3 screw thread receiving portion 112 position consistency of first cylinder 110, hold-down screw.Therefore, even the upper end of first cylinder 110 be not provided with above-mentioned first form of implementation in the suitable supporting member of supporting member 23h, also can effectively first cylinder 110 be fixed also and stably remain in the high position state (promptly, when the distance that the first through hole 22a and the second through hole 22b make progress at Cylindorical rod is d, the relative A-stage height position of 2d of having risen).

As previously discussed, fixed bearing member 23k and pluggable supporting member 23j have the function that makes first cylinder 110 easily rise to the high position state basically in second form of implementation, are fixedly implemented by screw and fix.According to this structure,, also can realize the last lift operations of first cylinder 110 and fixing in raised position even use the minority supporting member.

In addition, in this form of implementation,, and make 110 rotations of first cylinder by pluggable supporting member 23j of cooperation and fixed bearing member 23k on the inclined lead part 100 that is arranged at first cylinder, 110 parts, can reduce the operation that altitude mixture control is used, alleviate operator's labour force.In addition, can provide simple in structure, cost to reduce, support the parts space regulating mechanism of the active force homogeneous that above-mentioned parts use.

In addition, removing screw under the state of high position fixes, with pluggable supporting member 23j is that basic point rotates first cylinder 110 and makes its decline, when the bottom of inclined lead part 100 is subjected to the supporting of fixed bearing member 23k, extract pluggable supporting member 23j from through hole 22c, be that basic point rotates first cylinder 110 and makes its decline further, also can make first cylinder 110 return back to A-stage thus with fixed bearing member 23k.

In addition, structurally independent and when the Cylindorical rod with first cylinder 110 rotatably constitutes on perpendicular face at first parts 1 that are arranged on first cylinder, 110 upper surfaces with first cylinder 110, by with first parts, 1 Rotate 180 degree, even under above-mentioned intermediateness, also can be so that first parts 1 use towards, the position that in height risen d with identical with A-stage.In this case, owing in structure shown in Figure 11, do not carry out screw and fix, therefore under this intermediateness, for further fixing effectively, but on second cylinder 210, with the corresponding position of this intermediateness the threaded portion of hold-down screw can also be set.In addition, in that first cylinder 110 is rotated under the situation of this intermediateness, need not to be provided with through hole 22c.

In addition, even in second form of implementation, fastener 102 as shown in Figure 8 can also be set on first cylinder 110.In addition, first cylinder 110 can be Fig. 9 and shape shown in Figure 10, in addition, can not use cylinder and uses cylinder, and this situation is identical with the situation of first form of implementation.

In addition, through hole 22a and supporting member 23j are also not necessarily necessary.For example, when supporting member only was supporting member 23k, for example the bottom of first cylinder 110 can be by 2 supportings of second parts.

On the second through hole 22b, can not use fixed bearing member 23k and use pluggable supporting member.

With the state of first cylinder 110 of position shown in Figure 12 as A-stage (home position), but through hole is being set on the needed position, is supporting in this position under the situation of first cylinder 110, by appropriate position the threaded portion is set, can sets the position of the A-stage of first cylinder 110 arbitrarily at second cylinder 210.In addition, because by determining A-stage, the position of intermediateness or high position state is also determined inevitably, therefore can through hole be set in this position that must determine.

(the 3rd form of implementation)

In above-mentioned each form of implementation,, be not limited to the shape that below first cylinder 11 (or 110), is processed to form for making first cylinder 11 (or 110) knee-action with the inclined lead part that cooperates with supporting member 23.Figure 15 is an axonometric drawing, and it shows the shape as first cylinder in parts space regulating mechanism the 3rd form of implementation of the present invention.For example, as shown in figure 15, the rotating shaft of relative first cylinder 1100 is provided with obliquely round the slot part 101 in 1,100 one weeks of first cylinder, this slot part 101 also can form the form by supporting member 23 (that is, supporting member 23a to 23h, can plug supporting member 23j and fixed bearing member 23k) supporting.Slot part 101 is equivalent to above-mentioned inclined lead part 100.Promptly, the different inclined lead part that are of first cylinder in this form of implementation and above-mentioned first and second forms of implementation are formed on the position on first cylinder, opposite as can be known be that the shape of the above-mentioned first or second form of implementation medium dip guide portion 100 can be regarded as being formed at the slot part that first cylinder 11 (or 110) is located below.

In this form of implementation, also can be as above-mentioned first or the operation of second form of implementation, by rotating the height dimension that first cylinder 1100 changes first cylinder 1100.But, in this form of implementation, because slot part 101 is not below first cylinder 1100, therefore according to the formation position (the top or following distance of distance first cylinder 1100) of slot part 101, first cylinder 1100 is the same with first or second form of implementation from the outstanding size of second cylinder 21 (or 210), depending on the interval of adjacent through hole, is different but make the basic point of first cylinder, 1100 knee-actions.

In addition, under the situation that is suitable for second form of implementation, because the space that below slot part 101, does not have supporting member to make a concession, therefore may need to adopt such structure: do not use fixed bearing member 23k and use for example pluggable supporting member, perhaps at least so that the degree that can deviate from from slot part 101 at member is introduced supporting member from the medial surface of second cylinder 21 (or 210) a structure.

Therefore, can be corresponding with the necessity of user, make first cylinder, 1100 outstanding which kind of degree according to wanting, determine the formation position of slot part 101.In addition, for corresponding, a plurality of slot parts 101 can be set also with the various needs of user.For example can form slot part 101 with the roughly the same spacing parallel arranging ground of the through hole 22 of adjacency.At this moment, the rotating shaft of relative first cylinder 1100, the gradient of each slot part 101 can be identical, also can be different.

More than, be illustrated as parts space regulating mechanism example of the present invention with 3 forms of implementation, but the various examples of the following stated also can be used as the part of form of implementation, are applicable to parts space regulating mechanism of the present invention.

Parts space regulating mechanism of the present invention is different with existing height adjustment mechanism by bolt structure, its " direction of rotation " of regulating height usefulness is not constant, but the angle of inclination that position relative tilt guide portion 100 is set of supporting member 23 is set subtly, according to rotary manipulation (so-called steering operation also belongs to this operation) to both forward and reverse directions (clockwise, counterclockwise) rotation, can carry out parts space adjusting arbitrarily, therefore can reduce the operation that parts space is regulated usefulness, and reduce the labour force of operator's cost.

In addition, what more than illustrate is first cylinder 11 (or 110,1100) and second cylinder 21 (or 210) structure of sliding, but be formed at first cylinder 11 (or 110,1100) inclined lead part 100 (slot part 101) is located, be installed in the supporting member 23 of second cylinder 21 (or 210) by cooperation, make first cylinder 11 (or 110,1100) rotation, can obtain height dimension, therefore neither adopt first cylinder 11 (or 110,1100) and second cylinder 21 (or 210) structure of sliding, at first cylinder 11 (or 110,1100) and between second cylinder 21 (or 210) also can there be the gap.

In addition, the structure that is inserted in first cylinder 11 (110) in second cylinder 21 (210) has been shown in first or second form of implementation, but, also can obtain same effect as adopting first cylinder, 11 ' the outer structure that is inserted on second cylinder 21 ' as shown in Figure 16.

In addition, the slot part shape can not be a ring-type, also can form the slot part of arcuation.This structure can adopt under the situation that goes for small height dimension, and for example, as shown in figure 17, slot part forms face can be by connecting two different slot parts, forming accordingly with adjacent through hole.Particularly, for example the shape of slot part 103 as starting point and terminal point, forms the shape that is roughly " ㄑ " word with two adjacent through holes.By adopting the structure of this slot part 103, do not form according to first cylinder 11 " parts space regulating mechanism of rotation; but form by first cylinder 11 rotary manipulation at a predetermined angle first cylinder 11 " the parts space regulating mechanism regulated of height dimension, therefore can reduce at needs and change first cylinder 11 " height dimension the time, the labour force that user is required.

In above-mentioned any form of implementation, according to the rotating range of first cylinder (or cylinder etc.), first and second cylinders also are not necessarily limited to the shape of cylinder etc.For example, at first object 110 shown in Figure 18 (a) " like that; periphery at least a portion 180 forms circular-arc; be set to the slot part 181 of inclined lead part on the part of this circular-arc part 180; first object 110 ' that also can be shown in Figure 18 (b) will have following 182 of this circular-arc part and use as inclined lead part like that.Sub as second cylinder (or cylinder etc.), can be second object 210 ' that for example see, shown in Figure 18 (c) like that, at least 1 point, can support and allow the shape of first object rotation to the circular-arc part of first object (is first cylinder 11 (or 110) at this) by supporting member 23p from above.In addition, also can be second object 210 that for example see, shown in Figure 18 (d) from above " like that, at least 1 point, can support first object 110 by supporting member 23r " the circular-arc part of (or 110 ') and form allow this first object 110 " shape of (or 110 ') rotation.In above-mentioned each form of implementation, first and second cylinders etc. only are the examples of first and second objects.

With by the present level governor motion of this first cylinder knee-action being compared below roughly orthogonal this first cylinder of glide direction (rotating shaft direction) of first cylinder, elastomer being set, the uniform parts space regulating mechanism of active force that can provide a kind of supporting first cylinder to use according to the present invention.In addition,, therefore can realize reducing cost, and improve effective rate of utilization because component count is few, simple in structure, also uncomplicated aspect manufacturing process.

Above-mentioned each form of implementation is an an example of the present invention, and the present invention is not subjected to the qualification of each form of implementation.In above-mentioned each form of implementation, the employed parts space regulating mechanism of diagnostic ultrasound equipment is illustrated, if but the glide direction (short transverse) of relative second cylinder of first cylinder be roughly vertical direction also can be suitable equally, the effect same that can obtain to obtain according to the present invention.In addition, be under the situation of above-below direction in user mode, promptly when altitude mixture control, be not limited to use the situation of parts space regulating mechanism of the present invention, even under the situation of relative any direction, also can be suitable for the situation that the interval between 2 parts is regulated.In addition, even be other situation, as long as in the scope that does not break away from the technology of the present invention thought, can carry out various changes according to being provided with etc.

Symbol description

1 first component

2 second components

11,11 ', 11 ", 110,1,100 first cylinders

21,21 ', 210 second cylinders

22 installing holes (through hole)

23 supporting members

91,93 peripheries

92 cores

94 cylinder peripheral parts

100 inclined lead part

101,103,181 slot parts

102 fasteners

110 ', 110 " first object

111,112 screw thread receiving portions

180 circular-arc parts

Below 182

210 ', 210 " second object

211,213 first threaded portions

2112,214 second threaded portions

Claims (25)

1. a parts space regulating mechanism is characterized by, and has:

Periphery at least a portion forms first object circular-arc, that be connected with first parts,

Extrapolation or in second object that inserts in this first object, be connected with second parts,

Be arranged on the described extrapolation of the circular-arc part of described first object, described relatively first object or the inclined lead part that interior direction interpolation has predetermined inclination,

Cooperate, form at least 1 supporting member of the mobile basic point of rotation of the described extrapolation of described first object or interior direction interpolation with this inclined lead part,

Be used for this supporting member is installed at least 1 installing hole on described second object.

2. parts space regulating mechanism as claimed in claim 1 is characterized by, and described first object and second object are cylinder.

3. parts space regulating mechanism as claimed in claim 1 is characterized by, and described first parts are connected with an end of described first object, and described inclined lead part is arranged on the other end of described first object.

4. parts space regulating mechanism as claimed in claim 1 is characterized by, and is the slot part that circular-arc outer peripheral portion is provided as described inclined lead part at described first object.

5. parts space regulating mechanism as claimed in claim 1 is characterized by, and when a plurality of described installing hole was installed, described relatively each installing hole of described supporting member was installed.

6. parts space regulating mechanism as claimed in claim 1 is characterized by, and when described supporting member when being a plurality of, at least 1 supporting member is configured to and can plugs operation by described relatively installing hole.

7. parts space regulating mechanism as claimed in claim 1 is characterized by, and either party of described first and second objects threaded portion is set, and the opposing party the screw thread receiving portion is set, and first and second objects are fixed by screw thread in the pre-position.

8. a parts space regulating mechanism is characterized by, and has:

First cylinder that is connected with first parts,

Extrapolation or in second cylinder that inserts in this first cylinder, be connected with second parts,

The central shaft that is arranged at described first cylinder, described relatively first cylinder has the inclined lead part of predetermined inclination,

Cooperate, form a plurality of supporting members of the mobile basic point of rotation of the central axis direction of described first cylinder with this inclined lead part,

Be used for this supporting member is installed in a plurality of installing holes on described second cylinder.

9. a parts space regulating mechanism is characterized by, and has:

First cylinder that is connected with first parts,

Extrapolation or in second cylinder that inserts in this first cylinder, be connected with second parts,

The central shaft that is arranged at described first cylinder, described relatively first cylinder has the inclined lead part of predetermined inclination,

Cooperate, form first and second supporting members of the mobile basic point of rotation of the central axis direction of described first cylinder with this inclined lead part,

Be arranged on described second cylinder, be used to install first and second installing holes of first and second supporting members;

Be installed at described first supporting member under the state of described first installing hole described first supporting member made described first cylinder rotation as basic point after, described second supporting member is inserted in described second installing hole the mobile basic point of new rotation as described first cylinder, make described first cylinder rotation with described second supporting member as basic point, regulate the interval of described first and second parts thus.

10. parts space regulating mechanism as claimed in claim 9 is characterized by, and also has: in described inclined lead part during by described first supporting members supports, and at the 3rd installing hole of the described inclined lead part of following side bearing of described first installing hole,

Make described inclined lead part by described second supporting members supports by in described the 3rd installing hole, inserting described second supporting member, under this state described first supporting member made described first cylinder rotation as basic point after, described second supporting member moved from described the 3rd installing hole be inserted into described second installing hole.

11. parts space regulating mechanism as claimed in claim 10 is characterized by, the described first and the 3rd installing hole is arranged on the position of 2 times of distances of the described central axis direction full-size difference of leaving described inclined lead part on described central axis direction.

12. parts space regulating mechanism as claimed in claim 9 is characterized by, and either party of described first and second cylinders threaded portion is set, and the opposing party the screw thread receiving portion is set, first and second cylinders are fixed by screw thread in the pre-position.

13. parts space regulating mechanism is characterized by as claimed in claim 8 or 9, described inclined lead part is the groove that is formed on the side face of described first cylinder, and the central shaft that described installing hole clips described second cylinder is arranged on position in opposite directions.

14. parts space regulating mechanism as claimed in claim 8 or 9, it is characterized by, described inclined lead part is the face at least a portion below described first cylinder that is formed at, and the central shaft that described installing hole clips described second cylinder is arranged on position in opposite directions.

15. a parts space regulating mechanism is characterized by, and has:

First cylinder that is connected with first parts,

Extrapolation or in second cylinder that inserts in this first cylinder, be connected with second parts,

Be arranged on the guide portion on described first cylinder, described guide portion is formed on the groove that is roughly the ㄑ font that starting point and terminal point are set on the direction with the central axes of described first cylinder,

Cooperate with this guide portion, as the supporting member of the mobile basic point of rotation of the central axis direction of described first cylinder,

And be arranged on described second cylinder, be used to install the installing hole of described supporting member.

16. parts space regulating mechanism as claimed in claim 15, it is characterized by, after under described supporting member and state that described guide portion cooperates, described first cylinder being rotated in a predetermined direction, with described first cylinder with described predetermined party in the opposite direction on rotation, regulate the interval of first and second parts thus.

17. a diagnostic ultrasound equipment, it has:

First parts,

Second parts,

First cylinder that is connected with described first parts,

Be connected in described second parts, extrapolation or in insert in second cylinder of this first cylinder,

It is characterized by, the central shaft that relative this first cylinder is set on described first cylinder has the inclined lead part of predetermined inclination,

On described second cylinder, be provided with cooperate with this inclined lead part, as a plurality of supporting members of the mobile basic point of rotation of the central axis direction of described first cylinder be used for this supporting member is installed in a plurality of installing holes on described second cylinder.

18. a diagnostic ultrasound equipment, it has:

First parts,

Second parts,

First cylinder that is connected with described first parts,

Be connected in described second parts, extrapolation or in be inserted in second cylinder on this first cylinder,

It is characterized by, the central shaft that described relatively first cylinder is set on described first cylinder has the inclined lead part of predetermined inclination,

On described second cylinder, be provided with cooperate with this inclined lead part, as first and second supporting members of the mobile basic point of rotation of the central axis direction of described first cylinder be used to install first and second installing holes of this first and second supporting member,

Be installed at described first supporting member under the state of described first installing hole described first supporting member made described first cylinder rotation as basic point after, described second supporting member is inserted in described second installing hole the mobile basic point of new rotation as described first cylinder, described second supporting member is made described first cylinder rotation as basic point, regulate the interval of described first and second parts thus.

19. diagnostic ultrasound equipment as claimed in claim 18, it is characterized by, on described second cylinder, when also being arranged on by the described inclined lead part of described first supporting members supports at the 3rd installing hole of the described inclined lead part of following side bearing of described first installing hole

By in described the 3rd installing hole, inserting the bottom of described second supporting member by the described inclined lead part of described second supporting members supports, after described first cylinder being rotated in a predetermined direction described first supporting member under this state, described second supporting member moved from described the 3rd installing hole be inserted into described second installing hole.

20. diagnostic ultrasound equipment as claimed in claim 19 is characterized by, the described first and the 3rd installing hole is arranged on the position of 2 times of distances of the described central axis direction full-size difference of leaving described inclined lead part on described central axis direction.

21. diagnostic ultrasound equipment as claimed in claim 18 is characterized by, and either party of described first and second cylinders threaded portion is set, and the opposing party the screw thread receiving portion is set, first and second cylinders are fixed by screw thread in the pre-position.

22. as claim 17 or 18 described diagnostic ultrasound equipments, it is characterized by, described inclined lead part is the groove that is formed on the side face of described first cylinder, the central shaft that described installing hole clips described second cylinder is arranged on position in opposite directions.

23. as claim 17 or 18 described diagnostic ultrasound equipments, it is characterized by, described inclined lead part is the face at least a portion below described first cylinder that is formed at, and the central shaft that described installing hole clips described second cylinder is arranged on position in opposite directions.

24. a diagnostic ultrasound equipment, it has:

First parts,

Second parts,

First cylinder that is connected with described first parts,

Be connected in described second parts, extrapolation or in insert in second cylinder of this first cylinder,

It is characterized by, on described first cylinder guide portion is set, this guide portion is formed on the groove that the roughly ㄑ font of starting point and terminal point is set on the direction with the central axes of described first cylinder,

On described second cylinder, be provided with cooperate with this inclined lead part, as the supporting member of the mobile basic point of rotation of the central axis direction of described first cylinder, and the installing hole that is used to install this supporting member.

25. diagnostic ultrasound equipment as claimed in claim 24, it is characterized by, be engaged at described supporting member under the state of described guide portion described first cylinder is rotated in a predetermined direction after, make described first cylinder with described predetermined party in the opposite direction on the rotation, thus the interval of first and second parts is regulated.

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