CN103105148B - Shoe heel height setting machine - Google Patents
Shoe heel height setting machine Download PDFInfo
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- CN103105148B CN103105148B CN201310013565.9A CN201310013565A CN103105148B CN 103105148 B CN103105148 B CN 103105148B CN 201310013565 A CN201310013565 A CN 201310013565A CN 103105148 B CN103105148 B CN 103105148B
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- height
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Abstract
The invention provides a shoe heel height setting machine which can simulatively adjust the height of the shoe heel. The shoe heel height setting machine is composed of a simulative shoe heel lifting part, a height measuring part, an outer cover part and a control system. The simulative shoe heel lifting part is placed at the front end of the lower portion of the outer cover part. The height testing part is arranged at the back portion of the outer cover part. The control system is mounted at the back portion of the inside of the outer cover part and controls the movement of the simulative shoe heel lifting part. By moving a measuring head of the height measuring part, the height from the top of a head to a navel and the height from the navel to a heel can be measured. The displacement can be output to the control system through a bracing wire sensor. The control system figures out the numerical value which needs to be adjusted through a calculation ratio and the comparison with 0.618. An motor rotates and penetrates through a coupling according to the numerical value. A worm reducer drives the simulative shoe heel to lift to a given height. Subjects can see measuring values through a touch screen and can adjust the height values, and can see the body shape change that is brought about by the change of division points of the body from a mirror, and therefore the pursuit of pretty figure of people is met.
Description
Art
The present invention relates to a kind of electromechanical integration equipment determining women's high-heeled shoes height.
Background technology
At present, domestic and international market there is no this series products, does not also find the relevant Patents document about this series products, fills up this field blank.
Summary of the invention
Human body golden section point is one of basis of the beauty of human body.Navel is the gold point (crown is 0.618: 1 to height and the navel of navel to the ratio of the height of heel, and majority are greater than this value) of organization of human body, and the beauty of human body is the important goal that people pursue.
The height that the object of the invention is to by changing heel makes health navel reaches 0.618: 1 with the ratio under navel, meets people and pursues beautiful demand.
The technical problem to be solved in the present invention is: by the numerical value of height on the navel of measuring mechanism measurement human body with height under navel, control system calculates the difference of actual cut-point numerical value and golden section point 0.618 according to numerical value, elevating mechanism rises according to the given difference of control system, the actual cut-point of measured is made to be adjusted to 0.618, for women selects the high-heeled shoes of proper height to provide foundation.
The technical solution adopted for the present invention to solve the technical problems is:
The fixed high machine of a kind of heel, by simulation heel Lift Part, surveys high parts, outer cover part, and control system composition; Wherein, simulation heel Lift Part is positioned at the front end of outer cover part bottom, and survey the rear portion that high parts are located at outer cover part, control system is arranged on the rear portion inside outer cover part, and control system control simulation heel Lift Part moves.
The structure of the high parts of above-mentioned survey is: be provided with pedestal, line slideway with section brace is vertically fixedly connected through web member and pedestal, line slideway is provided with guide rail slide block moving up and down, transition connecting plate is fixedly connected through screw and guide rail slide block, transition connecting plate is installed with sliding bearing of usheing to seat, usher to seat to be provided with in sliding bearing can before and after, the gauge head moved up and down, prevent sliding bearing of usheing to seat, gauge head, transition connecting plate, the stay cord that guide rail slide block glides, by being connected with the lifting bolt be fixed in transition connecting plate, supported by pulley blocks and be connected with counterweight.One end of bracing wire is connected with the tail end of gauge head, and another section is connected with stay wire sensor, and stay wire sensor is fixed on pedestal.
The structure of above-mentioned simulation heel Lift Part is: be provided with base plate, base plate is installed with 4 supports, assembly fixed head is installed in the top of support, assembly fixed head is installed with right orienting lug, left orienting lug, and electric machine support, worm decelerating machine is connected with servomotor with driver through shaft coupling, driver and servomotor are arranged on electric machine support, in the respective centre of right orienting lug and left orienting lug, one linear bearing is housed, the guide pillar of energy lifting moving is provided with in linear bearing, top and the contiguous block of two guide pillars are fixedly connected, contiguous block is installed with two push rods, push rod is fixedly connected with simulation heel, the end of worm decelerating machine and the bottom of contiguous block are fixedly connected.
Above-mentioned control system comprises power unit, detection control unit and performance element, and performance element is driver and servomotor; Control module in detection control unit reads the measuring height data that stay wire sensor is sent, and be presented on touch screen, control module carries out data calculating and compares with 0.618 and calculate the numerical value that human body should raise, and sends corresponding instruction control and drive system and servomotor motion according to data.
Above-mentioned outer cover part and base plate are connected, and wherein, outer cover is provided with handrail, and the bottom of the inside of outer cover is provided with pedal, and rear portion is provided with dividing plate, and two inner sides are provided with mirror, and dividing plate is provided with touch screen.
The present invention measures the crown to the height of navel and navel to the height of heel by the mobile gauge head surveying high parts, and through stay wire sensor, control system is exported in displacement; Control system ratio comparing with 0.618 as calculated, draws the numerical value that need adjust, and provides adjustment numeric instructions to heel Lift Part simultaneously; The motor of heel Lift Part rotates according to numerical value and rises to assigned altitute through shaft coupling, worm decelerating machine band dynamic simulated heel.Measured sees measurement numerical value and adjustment height number by touch screen, also can see from mirror that body segmentation point changes the change brought to body.
The invention has the beneficial effects as follows: the pursuit meeting people's enantiomorph U.S., for science service makes new contribution in life, market is extensive, considerable benefit.
Accompanying drawing explanation
Fig. 1 is one-piece construction schematic diagram of the present invention.
Fig. 2 is the high modular construction schematic diagram of survey of the present invention.
Fig. 3 is the Facad structure schematic diagram that the present invention surveys high parts.
Fig. 4 is Lift Part structural representation of the present invention.
Fig. 5 is the Facad structure schematic diagram of Lift Part of the present invention.
Fig. 6 is the vertical view of Fig. 5.
Fig. 7 is cover structure schematic diagram of the present invention.
Fig. 8 is the front schematic view of cover structure of the present invention.
Fig. 9 is control system schematic diagram of the present invention.
Mark in figure:
In simulation heel Lift Part 001: base plate 13, supports 14 (4), assembly fixed head 15, right orienting lug 16, linear bearing 17, push rod 18, simulation heel 19, contiguous block 20, guide pillar 21, left orienting lug 22, worm decelerating machine 23, spring coupling 24, electric machine support 25, driver and servomotor 26.
To survey in high parts in 002: pedestal 1, web member 2, band supports line slideway 3, stay wire sensor 4, bracing wire 5, sliding bearing 6 of usheing to seat, gauge head 7, pulley blocks 8, stay cord 9, counterweight 10, transition connecting plate 11, slide block 12.
In outer cover part 003: outer cover 27, pedal 28, dividing plate 29, touch screen 30, mirror 31, handrail 32, pattern area 33.
In control system 004: stay wire sensor 4, touch screen 30, control module, driver and servomotor 26.
Embodiment
Shown in Figure 1, the fixed high machine of heel provided by the invention, by simulation heel Lift Part 001, survey high parts 002, outer cover part 003, and control system 004 forms; Wherein, simulation heel Lift Part 001 is positioned at the front end of outer cover part 003 bottom, survey the rear portion that high parts 002 are located at outer cover part 003, control system 004 is arranged on the rear portion inside outer cover part 003, and control system 004 control simulation heel Lift Part 001 moves.
See Fig. 2, shown in 3, the structure surveying high parts 002 is: be provided with pedestal 1, line slideway 3 with section brace is vertically fixedly connected through web member 2 and pedestal 1, line slideway 3 is provided with guide rail slide block 12 moving up and down, transition connecting plate 11 is fixedly connected through screw and guide rail slide block 12, transition connecting plate 11 is installed with sliding bearing 6 of usheing to seat, usher to seat to be provided with in sliding bearing 6 can before and after, the gauge head 7 moved up and down, prevent sliding bearing 6 of usheing to seat, gauge head 7, transition connecting plate 11, the stay cord 9 that guide rail slide block 12 glides, by being connected with the lifting bolt be fixed in transition connecting plate 11, supported by pulley blocks 8 and be connected with counterweight 10.One end of bracing wire 5 is connected with the tail end of gauge head 7, and another section is connected with stay wire sensor 4, and stay wire sensor 4 is fixed on pedestal 1.
See Fig. 4, 5, shown in 6, the structure of simulation heel Lift Part 001 is: be provided with base plate 13, base plate 13 is installed with 4 and supports 14, assembly fixed head 15 is installed in the top of support 14, assembly fixed head 15 is installed with right orienting lug 16, left orienting lug 22, and electric machine support 25, worm decelerating machine 23 is connected with servomotor 26 with driver through shaft coupling 24, driver and servomotor 26 are arranged on electric machine support 25, in the respective centre of right orienting lug 16 and left orienting lug 22, a linear bearing 17 is housed, the guide pillar 21 of energy lifting moving is provided with in linear bearing 17, top and the contiguous block 20 of two guide pillars 21 are fixedly connected, contiguous block 20 is installed with two push rods 18, push rod 18 is fixedly connected with simulation heel 19, the end of worm decelerating machine 23 and the bottom of contiguous block 20 are fixedly connected.
Shown in Fig. 7,8, outer cover part 003 and base plate 13 are connected, wherein, outer cover 27 is provided with handrail 32, and the bottom of the inside of outer cover 27 is provided with pedal 28, and rear portion is provided with dividing plate 29, two inner sides are provided with mirror 31, dividing plate 29 are provided with touch screen 30.
Shown in Figure 9, control system 004 comprises power unit, detection control unit and performance element, and performance element is driver and servomotor 26; Control module in detection control unit reads the measuring height data that stay wire sensor 4 is sent, and be presented on touch screen 30, control module carries out data calculating and compares with golden section value 0.618 and calculate the numerical value that human body should raise, and sends corresponding instruction control and drive system and servomotor 26 moves according to data.
Principle of work:
Measured's bi-pedal is sole pattern area 33 on the pedal 28 of outer cover part 003, measures the crown to the height of navel and navel to the height of heel with the gauge head 7 surveyed on high parts 002; The touch screen 30 display measurement numerical value of control system 004, control system 004 to calculate on measured's navel the ratio of height and height under navel automatically, compared with golden section value 0.618, and convert out the difference of needs adjustment and show on touch screen 30, send the instruction of adjustment height number to the driver and servomotor 26 of simulating heel Lift Part 001 simultaneously, the push rod 18 of simulation heel Lift Part 001 raises automatically according to order tape dynamic simulated heel 19, and measured's heel is lifted; Measured can see the difference that oneself body segmentation point changes in the mirror 31 of outer cover part 003, for women selects the high-heeled shoes of proper height to provide foundation.
Use demonstration:
During beginning, need the person of survey set foot on pedal 28, and both feet are placed in pattern area 33 place of pedal 28, now touch screen 30 highlights as holding state, the desktop of touch screen 30 has height the Show Button; Operator moves gauge head 7 to the crown, and sliding bearing 6 of usheing to seat, transition connecting plate 11 move forward and backward together, and moves up and down with slide block 12; One end of bracing wire 5 is connected with gauge head 7 tail end, and another section is connected with stay wire sensor 4, and along with moving up and down of gauge head 7, stay wire sensor 4 outputs signal to control system 004; Press the height button on touch screen, screen display height values, then gauge head 7 front end is moved to navel place, stay wire sensor 4 outputs signal to control system 004; While mobile gauge head 7, touch screen 30 refreshes as display navel height button, and press navel height button, touch screen 30 shows navel height numerical value, control system 004 computing, and touch screen 30 refreshes as adjustment button; Press adjustment button, touch screen 30 shows adjustment height number, signal is passed to driver and the servomotor 26 of simulation heel Lift Part 001 by control system 004 simultaneously, driver and servomotor 26 rotate, worm decelerating machine 23 is driven to rotate by spring coupling 24, worm decelerating machine 23 output terminal leading screw rises, and the push rod 18 promoting to link together with it, simulates together with heel 19, contiguous block 20, guide pillar 21 and rises to adjustment numerical value, and demonstration completes.
Thus, measured can see that from mirror 31 body segmentation point changes the change brought to body simultaneously, selects the shoes of suitable golden section point height.
Claims (6)
1. the fixed high machine of heel, is characterized in that, by simulation heel Lift Part (001), survey high parts (002), outer cover part (003), and control system (004) composition; Wherein, simulation heel Lift Part (001) is positioned at the front end of outer cover part (003) bottom, survey the rear portion that high parts (002) are located at outer cover part (003), control system (004) is arranged on the rear portion of outer cover part (003) inner side, and control system (004) control simulation heel Lift Part (001) moves; Survey high parts and measure the measured crown to the height of navel and navel to the height of heel, control system calculates the difference of actual cut-point numerical value and golden section point 0.618 according to numerical value, simulation heel Lift Part rises according to the given difference of control system, the actual cut-point of measured is made to be adjusted to 0.618, for women selects the high-heeled shoes of proper height to provide foundation.
2. the fixed high machine of heel according to claim 1, it is characterized in that: the structure of the high parts of described survey (002) is: be provided with pedestal (1), line slideway (3) with section brace is vertically fixedly connected through web member (2) and pedestal (1), line slideway (3) is provided with guide rail slide block moving up and down (12), transition connecting plate (11) is fixedly connected through screw and guide rail slide block (12), transition connecting plate (11) is installed with sliding bearing of usheing to seat (6), usher to seat to be provided with in sliding bearing (6) can before and after, the gauge head (7) moved up and down, prevent sliding bearing (6) of usheing to seat, gauge head (7), transition connecting plate (11), the stay cord (9) that guide rail slide block (12) glides, by being connected with the lifting bolt be fixed in transition connecting plate (11), supported by pulley blocks (8) and be connected with counterweight (10), one end of bracing wire (5) is connected with the tail end of gauge head (7), another section is connected with stay wire sensor (4), stay wire sensor (4) is fixed on pedestal (1).
3. the fixed high machine of heel according to claim 1 and 2, it is characterized in that, the structure of described simulation heel Lift Part (001) is: be provided with base plate (13), base plate (13) is installed with 4 supports (14), assembly fixed head (15) is installed in the top of support (14), assembly fixed head (15) is installed with right orienting lug (16), left orienting lug (22), and electric machine support (25), worm decelerating machine (23) is connected with servomotor (26) with driver through shaft coupling (24), driver and servomotor (26) are arranged on electric machine support (25), in the respective centre of right orienting lug (16) and left orienting lug (22), a linear bearing (17) is housed, the guide pillar (21) of energy lifting moving is provided with in linear bearing (17), top and the contiguous block (20) of two guide pillars (21) are fixedly connected, contiguous block (20) is installed with two push rods (18), push rod (18) is fixedly connected with simulation heel (19), the end of worm decelerating machine (23) and the bottom of contiguous block (20) are fixedly connected.
4. the fixed high machine of heel according to claim 1 and 2, it is characterized in that, described control system (004) comprises power unit, detection control unit and performance element, and performance element is driver and servomotor (26); Control module in detection control unit reads the measuring height data that stay wire sensor (4) is sent, and be presented on touch screen (30), control module carries out data calculating and compares with 0.618 and calculate the numerical value that human body should raise, and sends corresponding instruction control and drive system and servomotor (26) motion according to data.
5. the fixed high machine of heel according to claim 3, it is characterized in that, described control system (004) comprises power unit, detection control unit and performance element, and performance element is driver and servomotor (26); Control module in detection control unit reads the measuring height data that stay wire sensor (4) is sent, and be presented on touch screen (30), control module carries out data calculating and compares with 0.618 and calculate the numerical value that human body should raise, and sends corresponding instruction control and drive system and servomotor (26) motion according to data.
6. the fixed high machine of heel according to claim 5, it is characterized in that, described outer cover part (003) and base plate (13) are connected, wherein, outer cover (27) is provided with handrail (32), the bottom of the inside of outer cover (27) is provided with pedal (28), rear portion is provided with dividing plate (29), two inner sides are provided with mirror (31), dividing plate (29) are provided with touch screen (30).
Priority Applications (1)
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CN201310013565.9A CN103105148B (en) | 2013-01-15 | 2013-01-15 | Shoe heel height setting machine |
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CN201310013565.9A CN103105148B (en) | 2013-01-15 | 2013-01-15 | Shoe heel height setting machine |
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CN103105148A CN103105148A (en) | 2013-05-15 |
CN103105148B true CN103105148B (en) | 2015-04-15 |
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CN201310013565.9A Active CN103105148B (en) | 2013-01-15 | 2013-01-15 | Shoe heel height setting machine |
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1570577A (en) * | 2004-04-23 | 2005-01-26 | 钮建康 | Body weight and body height measuring apparatus |
CN202283060U (en) * | 2011-08-26 | 2012-06-27 | 马杉杉 | Heel adjustable high-heeled shoes |
CN203083545U (en) * | 2013-01-15 | 2013-07-24 | 国术科技(北京)有限公司 | A heel height determining machine |
GB2567931A (en) * | 2012-09-20 | 2019-05-01 | Hitachi Ltd | Vehicle body structure |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB376546A (en) * | 1930-09-15 | 1932-07-14 | Bruno Giuntini | Apparatus for taking measurements of the feet and limbs of the human body |
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2013
- 2013-01-15 CN CN201310013565.9A patent/CN103105148B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1570577A (en) * | 2004-04-23 | 2005-01-26 | 钮建康 | Body weight and body height measuring apparatus |
CN202283060U (en) * | 2011-08-26 | 2012-06-27 | 马杉杉 | Heel adjustable high-heeled shoes |
GB2567931A (en) * | 2012-09-20 | 2019-05-01 | Hitachi Ltd | Vehicle body structure |
CN203083545U (en) * | 2013-01-15 | 2013-07-24 | 国术科技(北京)有限公司 | A heel height determining machine |
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