DE20308838U1 - Adjustable coil spring housing - Google Patents

Description

Adjustable spiral spring housing Field of the invention

The invention relates to an adjustable spiral spring housing, which has two housing parts and a rotating body and in which a spiral spring is accommodated, the spring constant of which can be adjusted as required

can be adjusted.
10

State of the art

Usually, the spring constant of the spiral spring is already fixed during production. Depending on the machine, the tensile force or compressive force is different. Therefore, spiral springs with different designs are offered. The lower the number of effective turns, the greater the spring constant and the required tensile force and compressive force. The higher the number of effective turns, the smaller the spring constant and the required tensile force and compressive force. Depending on the machine, a specific spiral spring must be used. An adjustment of the

Spring constant is not possible.
25

Object of the invention

The invention is based on the object of creating an adjustable spiral spring housing, whereby the spring constant of the spiral spring can be adjusted as required. The invention is based on the principle that the spring constant of the spiral spring can be changed by changing the number of useful turns. The adjustable screw housing according to the invention consists of

essentially consists of a male and female housing part and a rotating body. The spiral spring is attached at one end to a fastening piece on the bottom of the female housing part and the other end is housed in the male housing part. The rotating body is provided with a number of locking elements on the outside or inside, which are in contact with the spiral line of the spiral spring. When the rotating body is rotated, the number of useful turns and thus the spring constant of the spiral spring is changed.

In the following, the embodiments of the invention are explained in more detail with reference to the accompanying drawings.

Short description of the drawings

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1 shows a sectional view of the invention (1).

2 shows a sectional view of the invention (2).

3 shows a sectional view of the invention (3).

4 shows a sectional view of the invention (4).

5 shows a sectional view of the invention (5) .

6 shows a sectional view of the invention (6).

7 shows a sectional view of the invention (7).

8 shows a sectional view of the invention (8).

9 shows a sectional view of the invention (9).

10 shows a sectional view of the invention

(10) .

11 shows a sectional view of the invention

(11) .

12 shows a sectional view of the invention

(12) .

13 shows a sectional view of the invention

(13) .

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Figure 14 shows

(14) .
Figure 15 shows

(15) .

Figure 16 shows

(16) .
Figure 17 shows

(17) .
Figure 18 shows

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Figure 19 shows

(19) .
Figure 20 shows

(20) .
Figure 21 shows

(21) .
Figure 22 shows

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Figure 23 shows

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Figure 24 shows

(24) .

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

a sectional view of the invention

Detailed description of the implementation examples

Referring to Figures 1 to 4, the invention essentially consists of a male housing part 10, a female housing part 20 and a rotating body 30. Depending on requirements, the invention can produce different spring constants. The female housing part 20 has a fastening piece 201 in the middle of the base. The rotating body 30 is hollow and is located between the male housing part 10 and the female housing part 20. On the inside of the rotating body 30 are

a plurality of locking elements 301 are provided. The outer diameter of the male housing part 10 is slightly smaller than the inner diameter of the rotating body 30 and the outer diameter of the rotating body 30 is in turn slightly smaller than the inner diameter of the female housing part 20. Alternatively, it is also possible that the inner diameter of the male housing part 10 is slightly larger than the outer diameter of the rotating body 30 and the inner diameter of the rotating body 30 is slightly larger

is larger than the outer diameter of the female housing part 20. A thread 50 can be provided on the outside or inside of the male housing part 10 and the rotating body 30, which engage, whereby the male housing part 10 and the rotating body

30 are rotatably connected to one another. A spiral spring 40 is attached at one end to the fastening piece 201 in the female housing part 20 and is accommodated at the other end in the male housing part 10. The locking elements 301 on the inside of the rotating body 30

are in contact with the spiral line 401 of the spiral spring 40. When the spiral spring 40 is pulled or pushed, no frictional force occurs between the female housing part 20 and the rotating body 30. If the rotating body 30, which is connected to the

male housing part 10, it can move in the compression or tension direction of the spiral spring 40. When the rotating body 30 is rotated, the locking elements 301 on its inside move along the spiral line 401 of the spiral spring 40, whereby the

The spiral pitch of the thread pair 50 of the male housing part 10 and the rotating body 30 corresponds to that of the spiral spring 40, whereby the locking elements 301 rotate by one turn of the spiral spring 40 with each revolution of the rotating body 30.

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move so that an adjustment of the spring constant of the spiral spring 40 can be achieved. Furthermore, a spindle 60 can be provided along the center line of the male and flexible housing parts 10, 20, which is fastened with one end together with the spiral spring 40 to the fastening piece 201 in the female housing part 20 and with the other end penetrates through an oil seal 601 or the like in an axle hole in the bottom of the male housing part 10. When the spiral spring 40 is subjected to a force and the male housing part 10 is fixed, the spindle 60 can be moved. As a result, the deformation of the spiral spring 40 only takes place in the axial direction.

Direction.
15

As can be seen from Figures 5 to 8, the connection between the male housing part 10 and the rotary body 30 can also be made by a bearing 70 or the like. When the rotary body 30 is rotated, the number of turns of the spiral spring 40 in the locking space 402 can be reduced, thereby increasing the number of effective turns and pushing the female housing part outwards, so that the length of the invention is increased. When the rotary body 30 is rotated in the opposite direction, the number of turns of the spiral spring 40 in the locking space 402 can be increased, thereby reducing the number of effective turns and pulling the female housing part 20 inwards, so that the length of the invention is reduced. In this case, a spindle 60 can also be provided along the center line of the male and female housing parts 10, 20, which is fastened at one end together with the spiral spring 40 to the fastening piece 201 in the female housing part 20 and at the other end by an oil seal 601 or the like in a

Axle hole in the bottom of the male housing part 10. When the spiral spring 40 is subjected to a force and the male housing part 10 is fixed, the spindle 60 can be moved. As a result, the deformation of the spiral spring 40 only occurs in the axial direction.

As can be seen from Figures 9 and 10, the outer diameter of the rotating body 30 can be slightly smaller than the inner diameter of the male housing part 10 and the female housing part 20 can not or only partially enclose the spiral spring 40, wherein the female housing part 20 only serves to fasten the spiral spring 40 and the spindle 60. The male housing part 10 and the rotating body 30 are rotatably connected to one another via the thread pair 50, the bearing 70 or the like. A spindle 60 can be provided along the center line of the male and female housing parts 10, 20, which at one end is connected together with the spiral spring 40.

^O is fixed to the fixing piece 201 in the female housing part 20 and penetrates with the other end through an oil seal 601 or the like in an axle hole in the bottom of the male housing part. As a result, the deformation of the spiral spring 40 takes place only in the axial direction.

As can be seen from Figures 11 and 12, the inner diameter of the rotating body 30 can be slightly larger than the outer diameter of the male housing part 10 and the female housing part 20 does not or only partially enclose the spiral spring 40, whereby the female housing part 20 only serves to attach the spiral spring 40 and the spindle 60. The male housing part 10 and the rotating body 30 are connected via the thread pair 50, the bearing

70 or the like. A spindle 60 can be provided along the center line of the male and flexible housing parts 10, 20, which is fastened at one end together with the spiral spring 40 to the fastening piece 201 in the female housing part 20 and at the other end penetrates through an oil seal 601 or the like in an axle hole in the bottom of the male housing part. As a result, the deformation of the spiral spring 40 only takes place in the axial direction.

The invention can have a further structure, as shown in Figures 13 to 16. Here, the invention consists of a male housing part 10, a female housing part 20 and a rotary body 30. The inner diameter of the female housing part 20 is slightly larger than the outer diameter of the male housing part 10 or the outer diameter of the female housing part 20 is slightly smaller than the inner diameter of the male housing part 10. The female housing part 20 has a fastening piece 201 for the spiral spring 40 in the middle of the bottom. The other end of the spiral spring 40 is accommodated in the male housing part 10. The rotary body 30 passes through a hole in the bottom of the male housing part 10. The rotary body is hollow and is provided on the outside with a plurality of locking elements 301 which are in contact with the spiral line of the spiral spring 40. The spring constant of the spiral spring 40 can be adjusted by the rotary body. The hole in the bottom of the male housing part 10 and the rotating body 30 are connected to each other via a threaded pair 50. When the spiral spring 40 is pulled or pushed, a pressure occurs between the male and female

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Housing part 10, 20 does not exert any frictional force. If the rotating body 30 is rotated by the thread pair 50 relative to the male housing part 10, it can move in the compression or tension direction of the spiral spring 40. When the rotating body 30 is rotated, the locking elements 301 on its outside move along the spiral line 401 of the spiral spring 40, whereby the number of useful turns is changed. The spiral pitch of the thread pair 50 of the hole in the bottom of the male housing part 10 and the rotating body 30 corresponds to that of the spiral spring 40, whereby the locking elements 301 move by one turn of the spiral spring 40 with each revolution of the rotating body 30, so that an adjustment of the spring constant of the spiral spring 40 can be achieved.

Furthermore, a spindle 60 can be provided in the rotary body 30, which is fastened at one end to the fastening piece 201 in the female housing part 20 and penetrates at the other end through an oil seal 601 or the like. As a result, the deformation of the spiral spring 40 takes place only in the axial direction.

As can be seen from Figures 17 to 20, the connection between the hole in the bottom of the male housing part 10 and the rotary body 30 can also be made by a bearing 70 or the like. When the rotary body 30 is rotated, the number of turns of the spiral spring 40 in the locking space 402 can be reduced, thereby increasing the number of effective turns and pushing the female housing part 20 outward, so that the length of the invention is increased. A spindle 60 can be provided in the rotary body 30, which is fastened at one end to the fastening piece 201 in the female housing part 20 and penetrates at the other end through an oil seal 601 or the like. As a result,

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the deformation of the spiral spring 40 occurs only in the axial direction.

As can be seen from Figures 21 and 22, the female housing part 20 can only serve to attach the spiral spring 40 and the spindle 60 and does not or only partially enclose the spiral spring 40. The male housing part 10 only serves to connect to the rotary body and does not or only partially enclose the spiral spring 40. The connection between the hole in the bottom of the male housing part 10 and the rotary body 30 is made by the thread pair 50, the bearing 70 or the like. A spindle 60 can be provided in the rotary body 30, which is attached at one end to the attachment piece 201 in the female housing part 20 and penetrates at the other end through an oil seal 601 or the like. As a result, the deformation of the spiral spring 40 only takes place in the

axial direction.
20

As can be seen from Figures 23 and 24, the invention can also consist of only a male housing part 10 and a rotary body 30. The inner diameter of the male housing part 10 is slightly larger than the outer diameter of the rotary body 30 or the outer diameter of the male housing part 10 is slightly smaller than the inner diameter of the rotary body 30. The spiral spring 40 is attached to a hook at one end and supported at the bottom of the male housing part at the other end. When the rotary body 30 is rotated, the number of turns of the spiral spring 40 in the locking space 402 can be reduced. When the rotary body 30 is rotated in the opposite direction, the number of turns of the spiral spring 40 in the locking space 402 can be increased.

become.

In summary, the invention allows an adjustment of the spring constant of the spiral spring by means of the male housing part, the female housing part and the rotating body.

Claims (14)

1. Adjustable spiral spring housing made of
a housing comprising a male and a female housing part ( 10 , 20 ), the female housing part having a fastening piece ( 201 ) centrally on the bottom to which one end of the spiral spring ( 40 ) is fastened, and
a rotating body ( 30 ) which is located between the male housing part ( 10 ) and the female housing part ( 20 ), is provided on the inside with a plurality of locking elements ( 301 ) which are in contact with the spiral line ( 401 ) of the spiral spring ( 40 ), and serves to adjust the spring constant of the spiral spring ( 40 ), wherein the outer diameter of the male housing part ( 10 ) is slightly smaller than the inner diameter of the rotating body ( 30 ) and the outer diameter of the rotating body ( 30 ) is slightly smaller than the inner diameter of the female housing part ( 20 ), or the inner diameter of the male housing part ( 10 ) is slightly larger than the outer diameter of the rotating body ( 30 ) and the inner diameter of the rotating body ( 30 ) is slightly larger than the outer diameter of the female housing part ( 20 ). 2. Adjustable spiral spring housing according to claim 1, characterized in that on the outside or inside of the male housing part ( 10 ) and the rotary body ( 30 ) there is provided a thread ( 50 ) which engage, whereby the male housing part ( 10 ) and the rotary body ( 30 ) are rotatably connected to one another, so that when the rotary body ( 30 ) is rotated, it can move in the compression or tension direction of the spiral spring ( 40 ), which is why the number of useful turns and thus the spring constant of the spiral spring ( 40 ) is changed. 3. Adjustable spiral spring housing according to claim 1, characterized in that on the outside or inside of the male housing part ( 10 ) and the rotary body ( 30 ) there is provided a thread ( 50 ) which engage, whereby the male housing part ( 10 ) and the rotary body ( 30 ) are rotatably connected to each other, so that when the rotary body ( 30 ) is rotated, it can move in the compression or tension direction of the spiral spring ( 40 ), which changes the number of useful turns and thus the spring constant of the spiral spring ( 40 ), and that along the center line of the male and flexible housing parts ( 10 , 20 ) there is provided a spindle ( 60 ) which is fastened at one end to the fastening piece ( 201 ) in the female housing part ( 20 ) and at the other end is fixed by an oil seal ( 601 ) in an axle hole in the bottom of the male housing part ( 10 ) so that the deformation of the spiral spring ( 40 ) occurs only in the axial direction. 4. Adjustable spiral spring housing according to claim 1, characterized in that the connection between the male housing part ( 10 ) and the rotating body ( 30 ) is made by a bearing ( 70 ), wherein when the rotating body ( 30 ) is rotated, the number of turns of the spiral spring ( 40 ) in the locking space ( 402 ) is reduced, whereby the number of useful turns is increased and the female housing part is pressed outwards, so that the length of the spiral spring housing is increased. 5. Adjustable spiral spring housing according to claim 1, characterized in that the connection between the male housing part ( 10 ) and the rotary body ( 30 ) is made by a bearing ( 70 ), and that along the center line of the male and flexible housing parts ( 10 , 20 ) a spindle ( 60 ) is provided, which is fastened at one end to the fastening piece ( 201 ) in the female housing part ( 20 ) and penetrates at the other end through an oil seal ( 601 ) in an axle hole in the bottom of the male housing part ( 10 ) so that the deformation of the spiral spring ( 40 ) takes place only in the axial direction. 6. Adjustable spiral spring housing according to claim 1, characterized in that the inner diameter of the rotating body ( 30 ) is slightly larger than the outer diameter of the male housing part ( 10 ) and the female housing part ( 20 ) does not or only partially encloses the spiral spring ( 40 ), the female housing part ( 20 ) only serving to fasten the spiral spring ( 40 ) and the spindle ( 60 ), and the male housing part ( 10 ) and the rotating body ( 30 ) are connected to one another via a pair of threads ( 50 ), and that a spindle ( 60 ) is provided along the center line of the male and flexible housing parts ( 10 , 20 ), which is fastened at one end to the fastening piece ( 201 ) in the female housing part ( 20 ) and at the other end by an oil seal ( 601 ) in an axle hole in the bottom of the male housing part ( 10 ) so that the deformation of the spiral spring ( 40 ) occurs only in the axial direction. 7. Adjustable spiral spring housing according to claim 1, characterized in that the inner diameter of the rotating body ( 30 ) is slightly larger than the outer diameter of the male housing part ( 10 ) and the female housing part ( 20 ) does not or only partially encloses the spiral spring ( 40 ), the female housing part ( 20 ) only serving to fasten the spiral spring ( 40 ) and the spindle ( 60 ), and the male housing part ( 10 ) and the rotating body ( 30 ) are connected to one another via a bearing ( 70 ), and that a spindle ( 60 ) is provided along the center line of the male and flexible housing parts ( 10 , 20 ), which is fastened at one end to the fastening piece ( 201 ) in the female housing part ( 20 ) and at the other end by an oil seal ( 601 ) in an axle hole in the bottom of the male housing part ( 10 ) so that the deformation of the spiral spring ( 40 ) occurs only in the axial direction. 8. Adjustable spiral spring housing, which consists of a housing which comprises a male and female housing part ( 10 , 20 ), the inner diameter of the female housing part ( 20 ) being slightly larger than the outer diameter of the male housing part ( 10 ) or the outer diameter of the female housing part ( 20 ) being slightly smaller than the inner diameter of the male housing part ( 10 ), the female housing part ( 20 ) having a fastening piece ( 201 ) for the spiral spring ( 40 ) in the middle of the base and the male housing part ( 10 ) having a hole for a rotating body ( 30 ) in the middle of the base, and a rotating body ( 30 ) which is hollow, passes through the hole in the base of the male housing part ( 10 ), is provided on the outside with a plurality of locking elements ( 301 ), and serves to adjust the spring constant of the spiral spring ( 40 ). 9. Adjustable spiral spring housing according to claim 8, characterized in that the connection between the hole in the bottom of the male housing part ( 10 ) and the rotating body ( 30 ) is made by a threaded pair ( 50 ), whereby when the rotating body ( 30 ) is rotated, it can move in the compression or tension direction of the spiral spring ( 40 ), whereby the useful number of turns and thus the spring constant of the spiral spring ( 40 ) is changed. 10. Adjustable spiral spring housing according to claim 8, characterized in that the connection between the hole in the bottom of the male housing part ( 10 ) and the rotary body ( 30 ) is made by a thread pair ( 50 ), and that a spindle ( 60 ) is provided in the rotary body ( 30 ), which is fastened at one end to the fastening piece ( 201 ) in the female housing part 20 and penetrates at the other end through an oil seal ( 601 ) or the like so that the deformation of the spiral spring ( 40 ) takes place only in the axial direction. 11. Adjustable spiral spring housing according to claim 8, characterized in that the connection between the hole in the bottom of the male housing part ( 10 ) and the rotating body ( 30 ) is made by a bearing ( 70 ), whereby when the rotating body ( 30 ) is rotated, the number of turns of the spiral spring ( 40 ) in the locking space ( 402 ) can be reduced, whereby the number of useful turns increases and the female housing part ( 20 ) is pushed outwards, so that the length of the spiral spring housing is increased. 12. Adjustable spiral spring housing according to claim 8, characterized in that the connection between the hole in the bottom of the male housing part ( 10 ) and the rotary body ( 30 ) is made by a bearing ( 70 ), and that a spindle ( 60 ) is provided in the rotary body ( 30 ), which is fastened at one end to the fastening piece ( 201 ) in the female housing part ( 20 ) and penetrates at the other end through an oil seal ( 601 ) or the like so that the deformation of the spiral spring ( 40 ) takes place only in the axial direction. 13. Adjustable spiral spring housing according to claim 8, characterized in that the female housing part ( 20 ) only serves to fasten the spiral spring ( 40 ) and the spindle ( 60 ) and does not or only partially enclose the spiral spring ( 40 ), while the male housing part ( 10 ) only serves to connect to the rotary body and does not or only partially enclose the spiral spring ( 40 ), the connection between the hole in the bottom of the male housing part ( 10 ) and the rotary body ( 30 ) being made by a thread pair ( 50 ), and that a spindle ( 60 ) is provided in the rotary body ( 30 ), which is fastened at one end to the fastening piece ( 201 ) in the female housing part ( 20 ) and penetrates at the other end through an oil seal ( 601 ) or the like so that the deformation of the spiral spring ( 40 ) only takes place in the axial direction. 14. Adjustable spiral spring housing according to claim 8, characterized in that the female housing part ( 20 ) only serves to fasten the spiral spring ( 40 ) and the spindle ( 60 ) and does not or only partially enclose the spiral spring ( 40 ), while the male housing part ( 10 ) only serves to connect to the rotary body and does not or only partially enclose the spiral spring ( 40 ), the connection between the hole in the bottom of the male housing part ( 10 ) and the rotary body ( 30 ) being made by a bearing ( 70 ), and that a spindle ( 60 ) is provided in the rotary body ( 30 ), which is fastened at one end to the fastening piece ( 201 ) in the female housing part ( 20 ) and penetrates at the other end through an oil seal ( 601 ) or the like so that the deformation of the spiral spring ( 40 ) only takes place in the axial direction.