CN102543053A - Electronic simulated hi-hat - Google Patents

Abstract

The invention provides an electronic simulated hi-hat, comprising a hi-hat sheet, sensors arranged on the hi-hat sheet, a supporting stand rod, a supporting mechanism for fixing the hi-hat sheet and a displacement sensing mechanism. The supporting mechanism comprises an adjustment nut, a supporting column, a supporting sleeve, a supporting base and an elastic component for adjusting a mounting position of the hi-hat sheet. The displacement sensing mechanism is arranged below the supporting mechanism and comprises a displacement transmission piece, a shell of a displacement sensor, a base of the displacement sensor and a U-shaped photoelectric sensor arranged on the base of the displacement sensor. According to the electronic simulated hi-hat disclosed by the invention, the hi-hat sheet is provided with a cymbals surface hitting sensor and an edged sensor, so that different vibrations generated by hitting a cymbals surface and an edge of the hi-hat sheet can be sensed so as to obtain different timbres. The electronic simulated hi-hat has a high simulation effect. Meanwhile, the hi-hat has changeable timbres and is played in a dynamic manner by using the supporting mechanism and the displacement sensing mechanism.

Description

Electronic simulation is stepped on small cymbals

Technical field

The present invention relates to the electronic musical instrument technical field, a kind of specifically electronic simulation of photo-electric sensing device that adopts is stepped on small cymbals.

Background technology

In the electronic percussion instrument industry, the function great majority of stepping on small cymbals are by split type realization at present, and promptly the small cymbals sheet is fixed on the support, and control section is installed on the pedal, and small cymbals sheet and pedal lean on a long signal wire to link.During performance; The performing artist hits the small cymbals sheet or steps on pedal; Be installed in the different dynamics that the sensor in small cymbals sheet and the pedal can push down on the pedal to the perpendicular displacement of the vibration of small cymbals sheet and pedal in other words respectively and produce response, response signal outputs to the source of sound device through cable, thereby realizes its function.

Though existing to step on small cymbals simple in structure, there is not the interlock effect of true pedal and small cymbals sheet, the small cymbals sheet of separation and the uncertainty of pedal putting position make the player feel to lack the innervation of true small cymbals sheet performance.

Summary of the invention

To the deficiency and the defective of above prior art, the object of the present invention is to provide a kind of electronic simulation of photo-electric sensing device that adopts to step on small cymbals.

The objective of the invention is through adopting following technical scheme to realize:

A kind of electronic simulation is stepped on small cymbals; Comprise the small cymbals sheet, be arranged at the small cymbals sheet sensor, support vertical rod, the fixedly supporting mechanism and the displacement sensing mechanism of small cymbals sheet; Said small cymbals sheet is made up of the cymbals small cymbals disk body and the cymbals small cymbals bottom that hit cymbals face, support strike cymbals face; The center of said small cymbals sheet is provided with positioning piece, and this keeper is arranged in the stop sleeve of supporting mechanism;

Said supporting mechanism comprises setting nut, support column, stop sleeve, supporting base and regulates the elastic component of small cymbals sheet installation site; This setting nut revolves is located at stop sleeve; Be arranged on the keeper top; This stop sleeve is arranged in the support vertical rod, and this support column is connected with supporting base through stop sleeve, and this elastic component is arranged in stop sleeve; Be arranged between support column and the supporting base, this support column one end contacts setting with the bottom surface of keeper;

Said displacement sensing mechanism is located at the supporting mechanism below, and it comprises displacement driving member, displacement transducer shell, displacement transducer base and places " U " shape optoelectronic sensor on this displacement transducer base; The pig of the top of this displacement driving member and the supporting base of supporting mechanism; Should " U " optoelectronic sensor be the below that a plurality of stack settings are positioned at this displacement driving member; This displacement driving member is provided with extension, and this extension is corresponding with the room in the middle of " U " shape optoelectronic sensor.

As optimal technical scheme of the present invention, said sensor comprises that the cymbals face hits sensor and edge sensor, and this cymbals face hits the inside surface that sensor is located at cymbals small cymbals disk body, and the edge of this cymbals small cymbals disk body is an inclined plane shape, and said edge sensor is located on this inclined-plane.

As optimal technical scheme of the present invention, said cymbals small cymbals bottom below is provided with a cushion, and this cushion is provided with a plurality of bumper posts, and the bottom surface of this bumper post is convex, and the recess of itself and displacement transducer case surface matches.

As optimal technical scheme of the present invention, said keeper is the flexible glue keeper.

As optimal technical scheme of the present invention, the curved shape in cross section of the end that said support column contacts with the keeper bottom surface.

As optimal technical scheme of the present invention, the side of said support column is provided with restriction small cymbals sheet around supporting the boss that vertical rod is rotated.

As optimal technical scheme of the present invention, said elastic component is a spiral compression spring.

Compared with prior art, a kind of electronic simulation that the present invention disclosed is stepped on small cymbals, and its small cymbals sheet is provided with the cymbals face and hits sensor and edge sensor; Can sense the different vibrations that the cymbals face that hits the small cymbals sheet and edge send; Send different tone colors with this, have the simulated effect of height, simultaneously; Supporting mechanism that is adopted and displacement sensing mechanism, make the tone color of stepping on small cymbals changeable, play and to be full of innervation.

Description of drawings

Below in conjunction with accompanying drawing and specific embodiment the present invention is described further:

Fig. 1 steps on the decomposing schematic representation of small cymbals for electronic simulation of the present invention.

Fig. 2 steps on the cut-open view one of the non-closure state of small cymbals for electronic simulation of the present invention.

Fig. 3 is the enlarged diagram in b zone among Fig. 2.

Fig. 4 is the enlarged diagram in a zone among Fig. 2.

Fig. 5 steps on the cut-open view two of the non-closure state of small cymbals for electronic simulation of the present invention.

Fig. 6 steps on the cut-open view of small cymbals closure state for electronic simulation of the present invention.

Embodiment

See also Fig. 1, Fig. 2 and Fig. 5, for electronic simulation of the present invention is stepped on the decomposing schematic representation of small cymbals and cut-open view one, the cut-open view two that electronic simulation is stepped on the non-closure state of small cymbals.This electronic simulation is stepped on small cymbals, comprise small cymbals sheet 101, be arranged at small cymbals sheet 101 sensor, support vertical rod 102, the fixedly supporting mechanism and the displacement sensing mechanism of small cymbals sheet 101.

See also the enlarged diagram of Fig. 3 for b zone among Fig. 2, said small cymbals sheet 101 is combined by a cymbals small cymbals disk body 104 and cymbals small cymbals bottom 105 3 parts of hitting 103, one support strikes of cymbals face cymbals face 103.Said sensor comprises that the cymbals face hits sensor 106 and edge sensor 107, and this cymbals face hits the inside surface that sensor 106 is located at cymbals small cymbals disk body 104, and the edge of this cymbals small cymbals disk body 104 is an inclined plane shape, and said edge sensor 107 is located on this inclined-plane.When small cymbals sheet 101 caught a packet, the cymbals face hit sensor 106 and is used for sensing and hits the vibration that produces when cymbals face 103 overwhelms, the vibration that edge sensor 107 produced when being used for sensing small cymbals sheet 101 edges and overwhelming.

Please continue to consult Fig. 1, Fig. 2 and Fig. 5; The center of small cymbals sheet 101 is provided with positioning piece 108, and this keeper 108 adopts flexible glue materials to process, and is provided with a circular hole between wherein; Small cymbals sheet 101 is located on the stop sleeve 111 of supporting mechanism through this circular hole, stop sleeve 111 is arranged in and supports vertical rod 102.

See also Fig. 1 and Fig. 4, said supporting mechanism comprises setting nut 109, support column 110, stop sleeve 111, supporting base 112 and regulates the elastic component 113 of small cymbals sheet installation site; This setting nut 109 revolves is located at stop sleeve 111, is arranged on keeper 108 tops, and this support column 110 is connected with supporting base 112 through stop sleeve 111; This elastic component 113 is arranged in stop sleeve 111; Be arranged between support column 110 and the supporting base 112, the end of this support column 110 contacts setting with the bottom surface of keeper 108, the curved shape in the cross section of said this end; Not only can effective support small cymbals sheet 101; And the position that this end contacts with keeper 108 can keep one angle, so that small cymbals sheet 101 is slightly swung.

In the present embodiment, the side of said support column 110 is provided with restriction small cymbals sheet 101 around supporting the boss 114 that vertical rod 102 is rotated.Said elastic component 113 is a spiral compression spring.

See also Fig. 1 and Fig. 2, said displacement sensing mechanism is located at the supporting mechanism below, and it comprises displacement driving member 115, displacement transducer shell 117, displacement transducer base 118 and places " U " shape optoelectronic sensor 119 on this displacement transducer base 118.The pig of the top of this displacement driving member 115 and the supporting base of supporting mechanism 112; Should " U " optoelectronic sensor 119 be the below that a plurality of stack settings are positioned at this displacement driving member 115; This displacement driving member 115 is provided with two extensions 116, and this extension 116 is corresponding with the room in the middle of " U " shape optoelectronic sensor 119.Said cymbals small cymbals bottom 105 belows are provided with a cushion 121, and this cushion 121 is provided with a plurality of bumper posts 122, and the bottom surface of this bumper post 122 is convex, and itself and displacement transducer shell 117 surperficial recess match.

When displacement driving member 115 moves down; Its two extensions 116 stretch in the room in the middle of " U " shape optoelectronic sensor 119; Make optoelectronic sensor 119 conductings, produce electric signal, the change in displacement that small cymbals sheet 101 moves down; The number of optoelectronic sensor 119 conductings is changed thereupon, also correspondingly produce different electric signal.

See also Fig. 6; When the bumper post 122 that moves down into cushion 121 when small cymbals sheet 101 contacts with displacement transducer shell 117; The bumper post 122 of cushion 121 can slow down small cymbals sheet 101 and move down the impact to the displacement sensing mechanism, avoids the sensor 106 on the small cymbals sheet 101 to produce the triggerless conducting.Meanwhile, displacement driving member 115 also reaches extreme lower position, and " U " shape optoelectronic sensor 119 is the maximum displacement position of small cymbals sheet 101 by all conductings here, also is make-position.Opposite, when discharging pedal, small cymbals sheet 101 moves with supporting in the vertical rod 102, and the conducting quantity of " U " shape optoelectronic sensor 119 reduces gradually, and electric signal also gradually changes until disappearance.

The above is merely preferred embodiment of the present invention, is not to be used for limiting practical range of the present invention; Every according to equivalence variation and modification that the present invention did, all covered by the scope of claims of the present invention.

Claims (7)

1. an electronic simulation is stepped on small cymbals, comprise the small cymbals sheet, be arranged at the small cymbals sheet sensor, support vertical rod, the fixedly supporting mechanism and the displacement sensing mechanism of small cymbals sheet, it is characterized in that:

Said small cymbals sheet is made up of the cymbals small cymbals disk body and the cymbals small cymbals bottom that hit cymbals face, support strike cymbals face, and the center of said small cymbals sheet is provided with positioning piece, and this keeper is arranged in the stop sleeve of supporting mechanism;

Said supporting mechanism comprises setting nut, support column, stop sleeve, supporting base and regulates the elastic component of small cymbals sheet installation site; This setting nut revolves is located at stop sleeve; Be arranged on the keeper top; This stop sleeve is arranged in the support vertical rod, and this support column is connected with supporting base through stop sleeve, and this elastic component is arranged in stop sleeve; Be arranged between support column and the supporting base, this support column one end contacts setting with the bottom surface of keeper;

Said displacement sensing mechanism is located at the supporting mechanism below, and it comprises displacement driving member, displacement transducer shell, displacement transducer base and places " U " shape optoelectronic sensor on this displacement transducer base; The pig of the top of this displacement driving member and the supporting base of supporting mechanism; Should " U " optoelectronic sensor be the below that a plurality of stack settings are positioned at this displacement driving member; This displacement driving member is provided with extension, and this extension is corresponding with the room in the middle of " U " shape optoelectronic sensor.

2. electronic simulation according to claim 1 is stepped on small cymbals; It is characterized in that: said sensor comprises that the cymbals face hits sensor and edge sensor; This cymbals face hits the inside surface that sensor is located at cymbals small cymbals disk body, and the edge of this cymbals small cymbals disk body is an inclined plane shape, and said edge sensor is located on this inclined-plane.

3. electronic simulation according to claim 1 is stepped on small cymbals, it is characterized in that: said cymbals small cymbals bottom below is provided with a cushion, and this cushion is provided with a plurality of bumper posts, and the bottom surface of this bumper post is convex, and the recess of itself and displacement transducer case surface matches.

4. electronic simulation according to claim 1 is stepped on small cymbals, it is characterized in that: said keeper is the flexible glue keeper.

5. electronic simulation according to claim 1 is stepped on small cymbals, it is characterized in that: the curved shape in cross section of the end that said support column contacts with the keeper bottom surface.

6. electronic simulation according to claim 1 is stepped on small cymbals, it is characterized in that: the side of said support column is provided with restriction small cymbals sheet around supporting the boss that vertical rod is rotated.

7. electronic simulation according to claim 1 is stepped on small cymbals, it is characterized in that: said elastic component is a spiral compression spring.

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