Installation structure of high hat cymbal

Information

  • Patent Grant
  • 6177621
  • Patent Number
    6,177,621
  • Date Filed
    Thursday, January 6, 2000
    25 years ago
  • Date Issued
    Tuesday, January 23, 2001
    24 years ago
  • CPC
  • US Classifications
    Field of Search
    • US
    • 084 4223
    • 084 4221
    • 084 4222
    • 084 421
    • 084 453
  • International Classifications
    • G10D1302
Abstract
An installation structure for a high hat cymbal having upper and lower cymbals which are held compressed against each other. A respective elastic member is disposed above the upper cymbal and below the lower cymbal. A pressure applying device applies differential pressure on the elastic member of the upper cymbal for adjusting the compression of the cymbals together. The pressure applying device includes a pivotable plate having edge regions at different radii from the transverse pivot axis of the plate, and a functional member that is pressed upon by the selected edge region of the pivotable plate selectively adjusts the force applied to the elastic members. The various members holding the cymbals, the elastic members and the pressure applying device on the installation rod are disclosed.
Description




BACKGROUND OF THE INVENTION




The invention relates to an installation structure for a high hat cymbal wherein the lower and upper cymbals are installed in a state of adhesion without the high hat cymbal being equipped with a pedal.




High hat cymbals can be classified into those in which the upper cymbal and the lower cymbal perform by being moved together or apart through pedal operation and others which perform through stick-beating on the upper cymbal. In the latter case, the lower and upper cymbals are installed in a state of adhesion (closed state) or in a separated state (open state) on the installation rod without being equipped with a pedal to move the cymbals together or apart.




High hat cymbals which are operated by stick-beating are described in the Official Publication of Japanese Utility Model Publication No. Hei 3-39834 and in Japanese Utility Model Registration No. 2551692, to cite two examples.




Utility Model Publication No. Hei 3-39834 discloses a structure in which a lower cymbal receiving member is provided on the lower side of a shaft, which shaft is supported by a prop, an upper cymbal receiving part is installed on the side of the upper edge of the shaft in such a manner as to freely move up and down, and a spring that presses the upper cymbal receiving member upward is provided on the lower side of the upper cymbal receiving member. A nut with a handle is screwed to a spiral part that has been provided toward the upper end of the shaft to push down on the upper cymbal receiving member. The nut is above the upper cymbal receiving member. It is possible to adjust the distance between the upper cymbal and the lower cymbal by moving the upper cymbal up and down through rotating the nut by its handle.




In addition, Utility Model Registration No. 2551692 describes a structure in which an adjusting screw with a spiral formed on its outer periphery is linked to the lower end of a support rod inside of the main holder in the state of the axial line being aligned with the support rod. A screw is screwed into the adjusting screw of the support rod that has been inserted into the main holder body and the screw is formed at the middle of the main holder. A distance adjusting member moves the support rod through the adjusting screw by its own rotation being arranged freely rotatably, and a strengthening member that pushes the support rod upwardly through a bush that has been arranged at the lower part of said support rod is provided toward the lower end of the support rod. This makes it possible to move the adjusting screw that is screwed to the screw part of the distance adjusting member and the support rod that is linked to the adjusting screw by rotating the distance adjusting member, which adjusts the distance between the upper cymbal and the lower cymbal.




The high hat cymbals described in the two examples above enable setting cymbals over a wide range from the open state (the state in which the upper cymbal and the lower cymbal are separated) to the closed state (the state in which the upper cymbal and the lower cymbal are set together). The tone color (tone quality) can therefore be changed during a performance after the installation. Nevertheless, a problem with these high hat cymbals is that their structure becomes complicated with a consequent rise in the manufacturing costs.




Under the circumstances, a high hat cymbal which is shown in

FIG. 6

, with the cross section of its essential part being shown in

FIG. 7.

, has been proposed recently.




This high hat cymbal comprises the following elements. The installation rod


71


of the cymbal stand


70


is inserted through a lower cymbal fixing member


81


and the member


81


is fixed at a desired location along the rod


71


. A lower cymbal receiving member


82


is placed on the lower cymbal fixing member


81


and the member


82


is inserted into the installation hole


73


of the lower cymbal


72


. The installation rod


71


is also inserted through that hole. A lower elastic member


83


is interposed between the lower cymbal


72


and the lower cymbal receiving member


82


. An upper cymbal holding member


84


is inserted into the installation hole


75


of the upper cymbal


74


and the installation rod


71


is inserted through that hole. An upper cymbal fixing member


85


is fixed to the installation rod


71


to press against the upper surface of the upper cymbal holding member


84


. An upper elastic member


86


is interposed between the upper cymbal


74


and the upper cymbal holding member


84


.




There is a main pipe


76


of the cymbal stand


70


, and the pipe is supported by legs


77


. A holding rod


78


extends through link


79


and has the purpose of linking the main pipe body


76


and the holding rod


78


. An angle adjusting member


80


links the holding rod


78


and the installation rod


71


to make it possible for the angle to be adjusted.




A further cymbal


90


is provided in addition to the two cymbals


72


and


74


shown.




This high hat cymbal has an extremely simple installation structure and its manufacturing cost can be drastically reduced. However, the lower cymbal


72


and the upper cymbal


74


are held between the lower cymbal fixing member


81


and the upper cymbal fixing member


85


and particularly between the lower elastic member


83


and the upper elastic member


86


. As a result, the two cymbals


72


and


74


are continuously pushed together after their installation with a certain compressive force. It becomes impossible to change the tone color with the high hat cymbals in the two examples explained above, thereby narrowing the tonal breadth of a performance.




SUMMARY OF THE INVENTION




The present invention seeks to overcome the above described circumstances by providing the installation structure of a high hat cymbal which is capable of easily changing its tone color during a performance by using a simple structure.




In the invention, the installation structure of a high hat cymbal includes a lower cymbal and an upper cymbal, which are installed in a state of adhesion, with adjustable, different compressive forces, on the installation rod of the cymbal stand. A lower cymbal fixing member through which the installation rod is inserted is fixed at a desired location on the rod. A lower cymbal receiving member is inserted into the installation hole of the lower cymbal and is placed on the lower cymbal fixing member as the installation rod is being inserted. A lower elastic member is interposed between the lower cymbal and the lower cymbal receiving member. An upper cymbal fixing adjustment member comprises an upper cymbal fixing part through which the installation rod is installed and that part is fixed at the position where the upper cymbal and the lower cymbal are joined together. A compressive force adjusting part is supported to the upper cymbal fixing part at a horizontal axle that is transverse to the rod. The fixing part has a plurality of compressing surfaces at different edge regions, which are at different distances or radii from the axle. An operating lever is formed integrally with the compressive force adjusting part. A functional member is arranged on the lower side of the upper cymbal fixing adjustment member and therefore receives the compressive force of the compressive part. An upper cymbal holding member is inserted into the installation hole of the upper cymbal and is arranged below the functional member when the installation rod is inserted. An upper elastic member is interposed between the upper cymbal and said upper cymbal holding member.




Other objects and features of the invention are explained below with reference to the attached drawings.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is an oblique and exploded view of an essential part of a high hat cymbal according to the invention.





FIG. 2

is a partial cross section of the cymbal of FIG.


1


.





FIG. 3

is a partial cross section of the compressive force adjusting part and an operating lever of the high hat cymbal.





FIG. 4

is a partial front view showing the condition in which the lower cymbal and the upper cymbal in the high hat cymbal are loosely together.





FIG. 5

is the same partial front view showing the condition in which the lower cymbal and the upper cymbal are firmly together.





FIG. 6

is a front view of an entire high hat cymbal according to a prior art embodiment.





FIG. 7

is a partial cross section showing the essential part of that prior art high hat cymbal.











DESCRIPTION OF A PREFERRED EMBODIMENT





FIGS. 1 and 2

show a cymbal installation


10


which is an essential part of a high hat cymbal of the invention. This cymbal installation


10


has the purpose of connecting a lower cymbal


11


and an upper cymbal


15


to an installation rod R of a cymbal stand S under different compressive forces on the cymbals. The installation


10


comprises a lower cymbal fixing member


20


, a lower cymbal receiving member


25


above the lower cymbal fixing member


20


and resting on it, a lower elastic member


29


above the receiving member


25


and pressed upon by the member


25


, an upper cymbal fixing adjustment assembly


30


, a functional member


45


below the assembly


30


, an upper cymbal holding member


50


below the member


45


and an upper elastic member


55


pressed upon by the member


50


.




The cymbal stand S includes a holding rod H. An angle adjustment hinge A links the holding rod H and the installation rod R so as to make it possible to adjust their relative angle.




The lower cymbal fixing member


20


is for positioning the lower cymbal receiving member


25


and, in turn, to position the lower cymbal


11


along the installation rod R. As the installation rod R is inserted through the above noted elements, the desired positions of those elements along the rod are fixed. The lower cymbal fixing member


20


is comprised of a tubular body or a disc having an aperture


20




a


for receiving the inserted rod R and the installation rod R is inserted through the aperture


20




a


, where it is fixed by tightening a fixing screw


21


.




A screw hole


22


for receiving the fixing screw


21


runs radially from the periphery of the lower cymbal fixing member


20


to the aperture


20




a.






The lower cymbal receiving member


25


with a tubular opening


25




a


has a purpose of holding the lower cymbal


11


on the installation rod R by receiving the lower cymbal


11


. The member


25


is placed on the lower cymbal fixing member


20


, while the member


25


is inserted into the installation hole of the lower cymbal


11


when the installation rod R is inserted.




The lower cymbal receiving member


25


is integrally comprised of an upstanding tubular part


26


and annular flange


27


, wherein the flange


27


contacts the upper surface of the lower cymbal fixing member


20


.




The tubular part


26


is inserted into the installation hole


12


of the lower cymbal


11


as described above, which provides an advantage of preventing deterioration of the installation hole


12


caused by the repeated sliding of the lower cymbal


11


along the installation rod R.




A lower elastic member


29


has the purpose of buffering the compressive force from the lower cymbal receiving member


25


, and transmitting that force to the lower cymbal


11


. The member


29


is interposed between the lower cymbal


11


and the lower cymbal receiving member


25


. Felt is illustrated as the lower elastic member


29


in this example. However, the member


29


is not limited to this material, as rubber, foam or some other material having elasticity, such as a spring, etc., can be used as the lower elastic member


29


.




The upper cymbal fixing adjustment device


30


positions the functioning member


45


and the upper cymbal holding member


50


and thereby positions the upper cymbal


15


with respect to the installation rod R. The device


30


comprises an upper cymbal fixing part


31


, a compressive force adjusting part


35


and an operating lever


40


.




The upper cymbal fixing part


31


sets the height position of axles


36


, described below. As the installation rod R is inserted, it is fixed at the position where the upper cymbal


15


and the lower cymbal


11


are joined. In this example, the upper cymbal fixing part


31


is a rectangular parallelepiped which has an opening


31


a for receiving the inserted installation rod R. As the installation rod R is inserted through the opening


31




a,


it is fixed in the part


31


by a fixing screw


32


. Axle holes


34


for the two axles


36


are formed in a pair of opposite surfaces (the front and the back in the drawing) of the upper cymbal fixing part


3




1


.




The part


31


includes a screw hole


33


for receiving the fixing screw


32


. The hole


33


is formed through a side of the part


31


such that the hole


33


crosses the pair of surfaces having the axle holes


34


and extends into the opening


31


a of the upper cymbal fixing part


31


.




The compressive force adjusting part


35


adjusts the compressive force against the upper cymbal


15


by moving the operating member


45


up and down. The adjusting part


35


is supported on the upper cymbal fixing part


31


through the axles


36


. The compressive force adjusting part


35


comprises a pair of plate-like bodies arranged to sandwich the surfaces (the front and the back in the drawing) having the axle holes


34


of the upper cymbal fixing part


31


and these bodies are supported at the holes by the axles


36


.




An axle hole


39


is formed in the compressive force adjusting part


35


for receiving the axle


36


.

FIG. 3

shows the two plate-like bodies with a plurality, two being shown, of compressing surface areas


37


and


38


which are at different distances or radii m and n, with m larger than n in this example, from the axles


36


. The surface areas


37


and


38


contact and press upon the upper surface of the operating member


45


. The surface areas


37


and


38


are flat surfaces, which are joined by a concavely curved surface C. This makes it possible to smoothly rotate the compressive force adjusting member


35


for modifying the cymbal tone color as described below.




An operating lever


40


rotates the compressive force adjusting part


35


. It is formed integrally with the compressive force adjusting part


35


. The lever


40


is slightly inclined with respect to a surface that opposes the first compressing surface area


37


of the compressive force adjusting part


35


and to the side of the second compressing surface area


38


of the part


35


as contrasted with directly crossing direction. There is also an opening


41


into the bottom side or the root of the operating lever


40


(on the side of the compressive force adjusting part


35


), so that movement of the operating lever


40


is not obstructed by the installation rod R.




The functioning member


45


located under the upper cymbal fixing adjusting member


30


receives the compressive force of one of the compressing surface areas


37


and


38


of the upper cymbal fixing adjusting member


30


. The member


45


comprises a tubular body or a disc having an opening


45




a


for receiving insertion of the rod R. As the installation rod R is inserted through the opening


45




a


, it is arranged under the upper cymbal fixing adjusting member


30


.




The upper cymbal holding member


50


holds the upper cymbal


15


. It has a tubular part


51


that is inserted into the installation hole


16


of the upper cymbal


15


to be arranged under the functioning member


45


when the installation rod R is inserted. The upper cymbal holding member


50


includes an annular flange


52


held integrally together with the tubular part


51


and the annular flange


52


contacts the lower surface of the functioning member


45


.




As the tubular part


1


is inserted into the installation hole


16


of the upper cymbal


15


as described above, any possible deterioration of the installation hole


16


from the sliding of the upper cymbal


15


with respect to the installation rod R can be prevented. The member


50


has an opening


50




a


for insertion of the rod R.




The upper elastic member


55


buffers the compressive force applied by the upper cymbal holding member


50


and transmits the force to the upper cymbal


15


. The member


55


is interposed between the upper cymbal


15


and the upper cymbal holding member


50


. Felt may be used as the upper elastic member


55


. However, rubber or foam or some other materials that have elasticity like a spring can be used like the lower elastic member


29


. The member


55


has a hole


55




a


for insertion of the tubular portion


51


of the upper cymbal holding member


50


that is on the upper elastic member


55


.




Using the installation structure described, different tone colors are produced, with one tone color produced when the first compressing surface area


37


of the compressive force adjusting part


35


of the upper cymbal fixing adjustment member


30


is in contact with the functional member


45


, as shown in

FIG. 4

, and with another tone color produced when the second compressing surface area


38


is in contact with the functional member


45


, as shown in FIG.


5


. This is explained below.




The distance L from the center of the axles


36


of the compressive force adjustment part


35


to the lower surface of the lower elastic member


29


is determined by the positions along the rod R of the upper cymbal fixing part


31


and the lower cymbal fixing member


20


. After they are fixed on the installation rod R, the distance L becomes constant. In

FIG. 4

, this distance can be expressed by a first formula:








L=m+j+p


1


+k+p


2






In the above first formula, m indicates the distance from the center of the axles


36


to the first compressive surface


37


, j is the distance from the upper surface of the functional member


45


to the lower surface of the upper cymbal holding member


50


, p1 is the thickness of the upper elastic member


55


, k is the distance from the upper surface of the upper cymbal


15


to the lower surface of the lower cymbal


11


, and p2 is the thickness of the lower elastic member


29


.




In the condition of

FIG. 5

, the distance L can be expressed by a second formula:








L=n+j+q


1


+k+q


2






In the above second formula, n indicates the distance form the center of the axles


36


of the compressive force adjustment part


35


to the second compressing surface area


38


, j is the distance from the upper surface of the functional member


45


to the lower surface of the upper cymbal holding member


50


, q1 is the thickness of the upper elastic member


55


, k is the distance from the upper surface of the upper cymbal


15


to the lower surface of the lower cymbal


11


, and q2 is the thickness of the lower elastic member


29


.




The following relationship can be derived from the first and second formulas above:






[


p


1


+p


2


]−[q


1


+q


2


]=n−m








The compressive force applied to the upper cymbal


15


and the lower cymbal


11


is inversely proportional to the thickness of the upper elastic member


55


and of the lower elastic member


29


.




In

FIG. 5

, the upper elastic member


55


and the lower elastic member


29


contract or are compressed by the difference (n−m) in the radial distances between the compressing surface areas


37


and


38


and the axles


36


, as described in the third formula, with the compressive force that is applied on the upper cymbal


15


and the lower cymbal


11


increasing and the adhesion between the upper cymbal


15


and the lower cymbal


11


becoming tighter. As a result, the tone colors differ between the positions shown in

FIGS. 4 and 5

.




Next, the method for switching the tone color during a performance is described.




The tone color can be modified during a performance quite easily by rotating the compressive force adjusting part


35


with respect to the upper cymbal fixing part


31


by operating the lever


40


of the upper cymbal fixing adjustment member


30


and changing the compressing surface area of the compressive force adjusting part


35


that is in contact with the upper surface of the functional member


45


from the first area


37


to the second area


38


, or vice versa.




Two of the compressing surface areas of


37


and


38


of the compressive force adjustment part


35


are shown. However, the number of the compressive parts may be three or more, enabling production of three or more tone colors during a performance after installation of the high hat cymbals.




The installation structure of high hat cymbals can be extremely simple, the manufacturing cost can be reduced and the tone colors can be changed easily during a performance.




Although the present invention has been described in relation to a particular embodiment thereof, many other variations and modifications and other uses will become apparent to those skilled in the art. It is preferred, therefore, that the present invention be limited not by the specific disclosure herein, but only by the appended claims.



Claims
  • 1. An installation structure for a high hat cymbal for adjusting the compressive forces between upper and lower cymbals of the high hat cymbal, the installation structure comprising:an installation rod; an upper cymbal on the rod and a lower cymbal on the rod compressible against each other with different degrees of compressive force to adjust the tone color produced by the cymbals; a lower cymbal fixing member fixed on the rod, a lower cymbal receiving member on the lower cymbal fixing member and also received on the rod; a lower elastic member between the lower cymbal and the lower cymbal receiving member, the elastic member being compressible as pressure is applied thereto; an upper cymbal adjustment arrangement comprising: an upper cymbal fixing member fixed on the installation rod above the upper cymbal at a location along the rod selected so that the upper and lower cymbals are in engagement; an upper cymbal functional member between the upper cymbal fixing member and the upper cymbal, the functional member being movable along the installation rod to and away from the upper cymbal; an upper cymbal holding member disposed on the lower side of the upper cymbal functional member and between the upper cymbal functional member and the upper cymbal for supporting the upper cymbal; an upper elastic member interposed between the upper cymbal and the upper cymbal holding member and which is compressible upon pressure being applied thereto; and a compressive force adjusting device supported to the upper cymbal fixing member and movable with respect to the upper cymbal fixing member and the installation rod to a plurality of different device positions, the compressive force adjusting device having a plurality of pressure applying surfaces thereon, each surface selectively engaging the functional member as the compressive force adjusting device is adjusted into a respective one of its plurality of device positions, and the compressive force adjusting device being shaped such that at each one of its plurality of device positions, the compressive force adjusting part moves the functional member to a respective member position along the installation rod and each of the member positions along the rod is different from the other member positions for thereby selectively compressing the upper elastic member to a greater or lesser extent, for applying selective different compressive force between the upper cymbal and the lower cymbal depending upon which one of the pressure applying surfaces is engaging the functional member.
  • 2. The installation structure of claim 1, wherein all of the elements comprising the lower cymbal fixing member, the lower cymbal receiving member, the lower elastic member, the lower cymbal, the upper cymbal, the upper elastic member, the upper cymbal holding member, the functional member, the upper cymbal fixing member and the upper cymbal adjustment device are on the installation rod.
  • 3. The installation structure of claim 2, wherein the installation rod extends through all of the elements on the rod.
  • 4. The installation structure of claim 1, wherein the lower cymbal has a hole therethrough through which the installation rod passes, and the lower cymbal receiving member includes a tubular portion that extends into the hole in the lower cymbal;the upper cymbal has a hole therethrough through which the installation rod passes, and the upper cymbal holding member has a tubular portion which is installed in the installation hole of the upper cymbal.
  • 5. The installation structure of claim 1, wherein each elastic member comprises an annular piece of compressible elastic material.
  • 6. The installation structure of claim 1, wherein the upper cymbal adjustment arrangement comprises a plate having an axis across the axis of the rod, a plurality of edge regions around the plate which are at different distances from the axis thereof;the plate being pivotally supported to the upper cymbal fixing member at the plate axis and the plate being movable around the plate axis with respect to the upper cymbal fixing member for moving a selected one of the edge regions of the plate into engagement with the upper cymbal functional member to apply a respective selected force to the functional member and selective compressive force to the elastic members.
  • 7. The installation structure of claim 6, further comprising a lever connected with the plate and operable for rotating the plate around the axle.
  • 8. The installation structure of claim 7, wherein there are a pair of the plates symmetrically at opposite sides of the installation rod, and the upper cymbal functional member extending around the installation rod and beneath the plates of the upper cymbal adjustment arrangement.
Priority Claims (1)
Number Date Country Kind
11-000785 Feb 1999 JP
US Referenced Citations (5)
Number Name Date Kind
4928567 Kurosaki May 1990
5140883 Fay Aug 1992
5218151 Kurosaki Jun 1993
5808217 Liao Sep 1998
6054645 Gauger Apr 2000
Non-Patent Literature Citations (2)
Entry
Japanese Utility Model Publication Hei 3 39834.
Japanese Utility Model Registration No. 2551692.