CN113551003A - Damper - Google Patents

Abstract

The invention provides a damper, which comprises a head part with a clamped and released part and a buckling part; and a release member having a release portion. Therefore, the damper can apply rotary external force to the clamping part or the head part when the clamping part is clamped in the clamped part, so that the buckling part is combined with at least one object, and the clamping part is separated from the clamped part if force is continuously applied after the buckling part is combined with the object, so that the force or the force interval applied to the buckling part is limited, and the effect of avoiding excessive locking is achieved.

Description

Damper

Technical Field

The present invention relates to dampers, and more particularly to a damper that can be used as a joint for at least one object and can achieve the purpose of avoiding excessive locking.

Background

Generally, when at least one object is combined, a screw is usually used for locking, so as to combine the objects.

The general screw is matched with the screwdriver and is locked into an object for combination; however, when the screw driver is used for locking, a user may worry about the insecure locking, and then continue to rotate the screw with the screw driver after the screw is locked into an object, which may result in the object being damaged or the screw breaking.

Disclosure of Invention

Based on at least one embodiment of the invention, the damper can achieve the aim of avoiding excessive locking.

A first aspect of the invention provides a damper comprising: a head and a release member. The head part is provided with at least one clamped and released part and a buckling part, the head part is provided with a limiting part, and the limiting part is movably combined with a corresponding limiting part arranged on the body part; the clamping part is provided with at least one clamping part, the clamping part is clamped in the clamping part, and the clamping part or the head part is used for applying external force to enable the clamping part to be separated from the clamping part so as to limit the force or the force interval applied to the buckling part.

Optionally, the locking part or the locked part comprises an elastic body and an ejector body.

Optionally, the clamping part or the clamping part has a clamping surface and a stopping surface, the direction of the clamping surface can be clamped and rotated, and the direction of the stopping surface limits the rotation.

Optionally, the pushing body is an arc surface body, a circular surface body or a curved surface body, and can be driven or rotated along the clamping surface with lower force along the inclined surface, the curved surface or the arc surface of the clamping surface.

Optionally, the stopping surface is a straight surface, a stepped surface, or an inclined surface, a curved surface, or an arc surface with an angle larger than that of the clamping surface, and is used for stopping and limiting the pushing body from rotating, or limiting the pushing body from moving with a force larger than that of the pushing body driving the clamping surface.

Optionally, when a force is applied to the head portion to drive the fastening portion to be locked or fastened, the fastening portion may be separated from the fastened portion along a fastening surface due to a torque or a rotational force of the fastening portion being greater than a structural force that the corresponding fastened portion can bear, so as to prevent the corresponding fastened portion from being damaged or failing by the fastening portion.

Optionally, when a force is applied to the head to drive the fastening portion to be unlocked or unlocked, the fastening portion may abut against the stop surface, so that a torque or a rotational force of the fastening portion is transmitted to the stop surface by the fastening portion, so that the fastening portion unlocks or unlocks the corresponding fastened portion.

Optionally, when the force is applied to the head to drive the fastening portion to be unlocked or unlocked, the fastening portion may abut against the stop surface, so that the torque or the rotational force of the fastening portion is transmitted to the stop surface by the fastening portion, and the force transmitted to the stop surface is greater than the force of the fastening portion in the other direction entering the fastening portion when the fastening portion is fastened or screwed with the fastening portion, so that the fastening portion is fastened or unfastened to the corresponding fastened portion.

Optionally, when a force is applied to the head portion to drive the fastening portion to be unlocked or unfastened, the fastening portion may be disengaged from the fastened portion along the fastening surface due to the fastening portion torsion or rotation force being greater than the fastening portion preset force.

A second aspect of the present invention provides a damper, comprising: a head and a release member. The head part is provided with at least one clamped and released part and a buckling part; the clamping and releasing piece is provided with at least one clamping and releasing part, the clamping and releasing part is clamped and connected with the clamped and released part, and the clamping and releasing piece or the head part is used for applying external force to enable the clamping and releasing part to be separated from the clamped and released part so as to limit force or a force interval applied to the buckling part; the buckling part is used for buckling and connecting with a corresponding buckled part, and when force is applied to the head part to drive the corresponding buckled part, the clamping and releasing part can be separated from the clamped and released part before the torsion or the rotating force of the buckling part is larger than the bearable or default structural force of the corresponding buckled part.

A third aspect of the present invention provides a damper, comprising: a head and a release member. The head part is provided with at least one clamped and released part and a buckling part; the clamping and releasing piece is provided with at least one clamping and releasing part, the clamping and releasing part is clamped and connected with the clamped and released part, and the clamping and releasing piece or the head part is used for applying external force to enable the clamping and releasing part to be separated from the clamped and released part so as to limit force or a force interval applied to the buckling part; the buckling part is used for buckling a corresponding buckled part, when a force is applied to the head part to drive the buckling part to be locked or buckled, the clamping and releasing part can be separated from the clamped and released part along a clamping and releasing surface due to the fact that the torsion or the rotating force of the buckling part is larger than the bearable or default structural force of the corresponding buckled part, and the corresponding buckled part or the buckling part is prevented from being damaged or losing efficacy.

A fourth aspect of the present invention provides a damper, comprising: a head and a release member. The head part is provided with at least one clamped and released part and a buckling part, the head part is provided with a limiting part, and the limiting part is movably combined with a corresponding limiting part arranged on the body part; the fastener is characterized in that the fastener is provided with at least one fastener releasing part, the fastener releasing part is connected with the fastener releasing part, the fastener releasing part or the head is used for applying external force, so that the fastener releasing part is separated from the fastener releasing part to limit the force or force range applied to the fastener, the fastener is used for fastening the fastener, when the force is applied to the head to drive the fastener, the fastener releasing part can be driven by the torque or the rotating force of the fastener to be greater than the fastener to be separated from the fastener before the force is preset, and the fastener releasing part is clamped.

A fifth aspect of the present invention provides a damper, comprising: a head and a release member. The head part is provided with at least one clamping part and a first combination part; the clamping part is provided with at least one clamping part and a second combination part, the head part is movably combined with the clamping part, the clamping part can be clamped with the clamping part, the first combination part or the second combination part is provided with a material storage space, and the first combination part or the second combination part can be pressed by external force to enable the material of an object or another object to enter or flow into the material storage space so as to be combined with the object or another object.

A sixth aspect of the present invention provides a damper comprising: a head and a release member. The head part is provided with at least one clamping part and a first combination part; the clamping part is provided with at least one clamping part and a second combination part, the head part is movably combined with the clamping part, the clamping part can be clamped with the clamping part, and the first combination part or the second combination part is used for applying pressure by external force to form a material storage space so that the material storage space clamps the object or the other object to be combined with the object or the other object.

A seventh aspect of the present invention provides a damper, comprising: the damper is stored in a carrier, and is placed in an assembly position of an object after the damper is taken up by a tool from the carrier and the assembly position of the damper and the object is compared through a comparison device.

An eighth aspect of the present invention provides a damper, comprising: a head and a release member. The head part is provided with at least one clamping part and a first combination part; the clamping and releasing piece is provided with at least one clamping and releasing part and a second combination part, the head part is movably combined with the clamping and releasing piece, the first combination part and the second combination part are respectively used for being combined with an object and another object, and the damper is rotated to enable the clamping and releasing part and the clamped and releasing part to be clamped and released.

Optionally, the damper has a shaft portion, and the head portion and the locking member are movably combined through the shaft portion, so that the head portion or the locking member is rotated on the shaft portion, and the locking portion can be locked with the locked portion.

Optionally, the first or second assembly has a solderable surface, the object or the other object has a solder layer, the solderable surface is heatable to solder with the solder layer, and the object or the other object is a circuit board.

Optionally, the comparison device is an image comparison device, a distance comparison device or a computer comparison device.

Optionally, the head or the disengagement member has an assembly positioning portion that can define a position of the disengaged portion of the head or the disengagement portion of the disengagement member as a definition of a damping position or direction.

Optionally, the locking part or the locked part has a locking surface and a stopping surface, the locking surface can be locked and unlocked and rotated, the stopping surface limits rotation, or increases the force required for locking and unlocking rotation in the direction of the stopping surface.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic cross-sectional view of a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a second embodiment of the present invention;

FIG. 3 is a schematic top view of a third embodiment of the present invention;

FIG. 4 is a schematic top view of a fourth embodiment of the present invention;

FIG. 5 is a schematic view of a fifth embodiment of the present invention in use;

FIG. 6 is a schematic view of a sixth embodiment of the present invention in use;

FIG. 7 is a schematic view of a seventh embodiment of the present invention in use;

FIG. 8 is a schematic view of the eighth embodiment of the present invention in use;

FIG. 9 is a schematic view of a ninth embodiment of the present invention in use;

FIG. 10 is a schematic external view of a tenth embodiment of the present invention;

fig. 11 is a schematic view of a state of use of the tenth embodiment of the present invention.

[ reference numerals ]

1 damper

11 head part

111 is stuck and taken off part

1111 card noodles

1112 stop surface

112 fastening part

113 first combining part

114 position limiting part

115 stock space of first combined part

116 assembling positioning part

12-card stripping piece

121 seizing and releasing part

1211 elastomer

1212 pushing body

122 second combination part

123 stock space of second combined part

124 weldable surface

13 body part

131 corresponding to the limiting part

14 shaft part

2 object

3 another object

4 first tool

5 second tool

6 vectors

61 cover body

7 third tool

8 compare the device

20 first screw lock assembly

30 second screw lock assembly

Detailed Description

The damper according to the embodiment of the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1 and 2, the present invention provides a damper 1, which includes a head 11 and a locking member 12.

The head 11 has at least one locked/released part 111 and a buckle part 112, the head 11 and the buckle part 112 are integrally formed, the head 11 has a position-limiting part 114, and the position-limiting part 114 is movably combined with a corresponding position-limiting part 131 arranged on the body 13.

The engaging member 12 has at least one engaging portion 121, the engaging portion 121 is engaged with the engaged portion 111, and the engaging member 12 (or the head 11) is applied with an external force to disengage the engaging portion 121 from the engaged portion 111, so as to limit the force or force range applied to the locking portion 112. In the present embodiment, the engaging portion 121 can be a convex body, the engaged portion 111 can be a concave body, and the fastening portion 112 can be a threaded body; in addition, the number of the engaging-disengaging part 121 and the engaged-disengaging part 111 may be one or more than one invention.

In addition, a second aspect of the present invention provides a method of releasing the damper 1 from the card, comprising the steps of: providing a damper 1, which comprises a head part 11 and a clamping part 12, wherein the head part 11 is provided with at least one clamped and released part 111 and a buckling part 112, the clamping part 12 is provided with at least one clamping and releasing part 121, and the clamping and releasing part 121 is clamped and connected with the clamped and released part 111; and applying an external force to the engaging and disengaging member 12 (or the head 11) to deform the engaging and disengaging portion 121 or the engaged and disengaging portion 111 to disengage from each other, thereby limiting the force or force interval applied by the engaged and disengaging portion 111 to the fastening portion 112, wherein the fastening portion 112 is configured to be fastened to a corresponding fastened portion (not shown), and when the head 11 is applied with a force to drive the fastening portion 112, the engaging and disengaging portion 121 disengages from the engaged and disengaging portion 111 before the torque or the rotational force of the fastening portion 112 is greater than the predetermined force of the fastening portion 112.

When the damper 1 of the present invention is used, it can be used to combine at least two objects (not shown), when two objects are combined, the fastening portion 112 is aligned to the screw hole of the object, and a rotational external force is applied to the engaging/disengaging member 12 in a state where the engaging/disengaging portion 121 is engaged with the engaged/disengaging portion 111, so that the fastening portion 112 is locked into the two objects for combination, when the fastening portion 112 is combined with the object and then the force is continuously applied to the engaging/disengaging member 12, the engaging/disengaging portion 121 is disengaged from the engaged/disengaging portion 111, so that the engaging/disengaging member 12 is deformed, and after the engaging/disengaging portion 121 is engaged with the engaged/disengaging portion 111 again, the engaging/disengaging member 12 is restored to its original shape, thereby limiting the force or force interval applied to the fastening portion 112, and achieving the effect of avoiding over-locking.

In one embodiment of the present invention, the number of the engaging portion 121 and the engaged portion 111 of the damper 1 may be two, and the engaged portion 111 is disposed on the top surface of the head portion 11, the locking part 121 is disposed at the bottom of the locking part 12, the locking part 121 of the locking part 12 includes an elastic body 1211 and an ejector 1212, the locked part 111 of the head 11 is a groove, and the locked part 111 has a locking surface 1111 and a stopping surface 1112, the releasing surface 1111 and the stopping surface 1112 are at different angles, so that when the pushing body 1212 is engaged with or removed from the released portion 111, the disengaging surface 1111 and the stopping surface 1112 with different angles generate different rotating torque forces, so that the force for driving the locking portion 112 to be locked in is smaller than the force for moving the pushing body 1212 away from the disengaged portion 111, the direction of the disengaging surface 1111 allows the pushing body 1212 to pass through, so as to disengage and rotate the head 11, the direction of the stop surface 1112 limits the pushing body 1212, so that the head 11 is limited and can not rotate; the pushing body 1212 may be an arc body, a circular body or a curved body, and may be driven or rotated by a lower force along an inclined surface, a curved surface or an arc surface of the releasing surface 1111, and the stop surface 1112 is a straight surface, a step surface or an inclined surface, a curved surface or an arc surface having an angle larger than that of the releasing surface 1111, so as to stop and limit the pushing body 1212 from being rotated or limit the pushing body 1212 from being moved by a force larger than that of the pushing body 1212 driving the releasing surface 1111, when a force is applied to the head 11 to drive the locking portion 112 to be unlocked or unlocked, the releasing portion 121 may be separated from the released portion 111 before the releasing surface 1111 is released because the torque or the rotation force of the locking portion 112 is larger than the predetermined force of the locking portion 112. Therefore, the force or the force range applied to the buckle part 112 can be limited, so as to achieve the effect of avoiding excessive locking, and the invention can better meet the requirement of practical use.

Besides, the direction of the disengaging surface 1111 can be disengaged and rotated, and the direction of the stopping surface 1112 can limit the rotation, and the force required for the disengaging and rotating in the direction of the stopping surface 1112 can be increased according to the requirement, so that the invention can better meet the requirement of practical use.

In addition, the disengaging surface 1111 is an inclined surface, a curved surface, an arc surface, a step surface, a plane surface or a spiral surface. The locking portion 111 may further include an elastic body 1211 and an urging body 1212, the locking portion 121 of the locking member 12 is a groove, and the locking portion 121 has a locking surface and a stopping surface (not shown). Therefore, the invention can be more suitable for the actual use.

As mentioned above, the fastening portion 112 is used to fasten to a corresponding fastened portion (not shown), when a force is applied to the head portion 11 to drive the fastening portion 112 to be fastened or fastened, the engaging/disengaging portion 121 will be disengaged from the engaged/disengaging portion 111 along the engaging/disengaging surface 1111 due to the torsion or rotation force of the fastening portion 112 being greater than the structural force that the corresponding fastened portion can bear, so as to prevent the corresponding fastened portion from being damaged or failing by the fastening portion 112.

In addition, when a force is applied to the head 11 to drive the buckling portion 112 to be unlocked or buckled, the buckling portion 121 will abut against the stop surface 1112, so that the torsion or rotation force of the buckling portion 112 is transmitted to the stop surface 1112 through the buckling portion 121, so that the buckling portion 112 unlocks or unbuckles the corresponding buckled portion; when the torque or the rotational force of the locking portion 112 is transmitted to the stopping surface 1112 through the engaging/disengaging portion 121, the force transmitted to the stopping surface 1112 is greater than the engaging/disengaging force generated when the engaging/disengaging portion 121 and the engaged/disengaging portion 111 in the other direction are locked or rotated, so that the locking portion 112 unlocks or unlocks the corresponding locked portion.

Referring to fig. 2, in the present embodiment, the number of the engaging portion 121 and the engaged portion 111 of the damper 1 may be one, the engaged portion 111 is disposed on two sides of the head portion 11, and the engaging portion 121 is disposed on two sides of the bottom of the engaging member 12. The locked portion 111 has an unlocking surface 1111 and a stopping surface 1112, and the locking portion 121 of the locking member 12 includes an elastic body 1211 and an urging body 1212. The direction of the releasing surface 1111 allows the pushing body 1212 to pass through to allow the head 11 to be rotated, and the direction of the stopping surface 1112 restricts the pushing body 1212 to prevent the head 11 from being rotated. Therefore, the invention can be more suitable for the actual use.

Referring to fig. 3 and 4, in the present embodiment, as shown in the figures, the number of the locking portion 121 and the locked portion 111 of the damper 1 may be four (as shown in fig. 3), or the number of the locking portion 121 and the locked portion 111 of the damper 1 may be one (as shown in fig. 4), the locked portion 111 has a locking surface 1111 and a stopping surface 1112, and the locking portion 121 of the locking member 12 includes an elastic body 1211 and an urging body 1212. The direction of the disengagement surface 1111 allows the pushing body 1212 to pass through to allow the head 11 to be disengaged from the rotating head, and the direction of the stop surface 1112 restricts the pushing body 1212 to restrict the head 11 from rotating. Therefore, the invention can be more suitable for the actual use.

Referring to fig. 5, as shown in the figure, the difference between the present embodiment and the above embodiments is that the head 11 has at least one engaged portion 111 and a first combining portion 113. The fastening part 12 has at least one fastening part 121 and a second combining part 122, the head 11 is movably combined with the fastening part 12, the fastening part 121 can be fastened with the fastening part 111, the first combining part 113 and the second combining part 122 have material storage spaces 115 and 123, respectively, the material storage spaces 115 and 123 of the first combining part 113 or the second combining part 122 can be pressed by external force to allow the materials of the object 2 and the other object 3 to enter or flow into the material storage spaces 115 and 123, so that the damper 1 is combined with the object 2 and the other object 3.

When the damper 1 of the present invention is assembled, the damper 2 and the other object 3 can be combined, when the damper 1 is used for combining the object 2 and the other object 3, the object 2 and the other object 3 can respectively correspond to the first combining portion 113 of the head 11 and the second combining portion 122 of the engaging and disengaging member 12, and then the first tool 4 and the second tool 5 respectively apply external force to press the object 2 and the other object 3, so that the materials of the object 2 and the other object 3 respectively enter or flow into the material storage spaces 115 and 123, and further the damper 1 combines the object 2 and the other object 3; so that the head 11 and the engaging member 12 of the damper 1 are stably fixed to the object 2 and the other object 3.

When the damper 1 of the present invention is used, a rotating external force is applied to the object 2 or the other object 3, so that the object 2 or the other object 3 rotates the head 11 or the locking member 12 of the damper 1, and the locking portion 121 of the locking member 12 is locked with the locked portion 111 of the head 11, thereby limiting the force or the force interval when the object 2 or the other object 3 is rotated, and the damper 1 can achieve the effect of avoiding over-locking by using the locking portion 121 of the locking member 12 and the locked portion 111 of the head 11.

In the preferred embodiment of the present invention, the damper 1 has a shaft portion 14, and the head portion 11 and the engaging and disengaging member 12 are movably combined through the shaft portion 14, so that the head portion 11 or the engaging and disengaging member 12 can rotate on the shaft portion 14, and the engaging and disengaging portion 121 can be engaged and disengaged with the engaged and disengaging portion 111.

Referring to fig. 6, as shown in the drawing, the difference between the present embodiment and the above embodiment is that the first combining portion 113 and the second combining portion 122 are pressed by the first tool 4 and the second tool 5, so that the first combining portion 113 and the second combining portion 122 form material storage spaces 115 and 123, respectively, and the material storage spaces 115 and 123 clamp the object 2 and the other object 3, so that the damper 1 is combined with the object 2 and the other object 3; so that the head 11 and the engaging member 12 of the damper 1 are stably fixed to the object 2 and the other object 3.

Referring to fig. 7, as shown in the drawing, the difference between the present embodiment and the above embodiments is that the first combining portion 113 and the second combining portion 122 can be a locking platform, and the first combining portion 113 and the second combining portion 122 are combined with the object 2 and the other object 3 through the first screw locking component 20 and the second screw locking component 30, respectively; so that the head 11 and the engaging member 12 of the damper 1 are stably fixed to the object 2 and the other object 3.

Referring to fig. 8, as shown, the difference between the present embodiment and the above embodiments is that the damper 1 is stored in the carrier 6, the carrier 6 has a cover 61, and the cover 61 can enclose the damper 1 in the carrier 6.

When assembled, the cover 61 can be opened so that the third tool 7 can take up the damper 1 from the carrier 6, and after the assembly position of the damper with another object 3 (or object 2) is compared by the comparison device 8, the damper 1 is placed in the assembly position of another object 3 (or object 2), for example: the second combination part 122 (or the first combination part 113) is correspondingly placed on the penetrating part 31 of the other object 3 (or the object 2); thereby achieving an accurate setting of the damper 1.

In the preferred embodiment of the present invention, the second assembly portion 122 (or the first assembly portion 113) has a solderable surface 124, the other object 3 (or the object 2) has a solder layer 31, and after the second assembly portion 122 (or the first assembly portion 113) is correspondingly placed on the through portion 32 of the other object 3 (or the object 2), the solderable surface 124 is heated again to be soldered with the solder layer 31, so that the fastening-releasing member 12 (or the head 11) of the damper 1 can be stably mounted on the other object 3 (or the object 2).

In a preferred embodiment of the present invention, the other object 3 (or the object 2) can be a circuit board, and the comparison device 8 can be an image comparison device, a distance comparison device or a computer comparison device. Therefore, the invention can better meet the requirements in practical application.

Referring to fig. 9, as shown in the drawing, the difference between the present embodiment and the above embodiments is that the second combination portion 122 (or the first combination portion 113) is a plane, and after the second combination portion 122 (or the first combination portion 113) is correspondingly placed on one surface of another object 3 (or the object 2), the solderable surface 124 is heated to perform soldering with the solder layer 32, so that the releasing member 12 (or the head 11) of the damper 1 can be stably mounted on the other object 3 (or the object 2).

Referring to fig. 10 and 11, as shown in the figures, the difference between the present embodiment and the above embodiments is that the first combining portion 113 of the head 11 (or the second combining portion 122 of the engaging and disengaging member 12) has an assembling and positioning portion 116, and the assembling and positioning portion 116 can define the position of the engaged and disengaging portion 111 of the head 11 (or the engaging and disengaging portion 121 of the engaging and disengaging member 12) as the limit of the damping position or direction.

To sum up, the damper according to the embodiment of the present invention can apply a rotational external force to the engaging and disengaging member when the engaging and disengaging portion is engaged with the engaged and disengaging portion, so that the engaging and disengaging portion is engaged with at least one object, and the engaging and disengaging portion is disengaged from the engaged and disengaging portion if the force is continuously applied after the engaging and disengaging portion is engaged with the object, so as to limit the force applied to the engaging and disengaging portion or the force interval, thereby achieving the purpose of avoiding excessive engagement.

The above description is only an example of the present invention, and is not intended to limit the scope of the present invention.

Claims (9)

1. A damper, characterized in that the damper comprises:

a head having at least one engaged portion and a first combining portion; and

the head is movably combined with the clamping part, the clamping part can be clamped with the clamped part, the first combination part or the second combination part is provided with a material storage space, and the first combination part or the second combination part can be pressed by external force to enable the material of an object or another object to enter or flow into the material storage space so as to be combined with the object or the another object.

2. A damper, characterized in that the damper comprises:

a head having at least one engaged portion and a first combining portion; and

the head is movably combined with the clamping part, the clamping part can be clamped with the clamped part, and the first combining part or the second combining part is used for applying pressure by external force to form a material storage space so that the material storage space clamps the object or the other object to be combined with the object or the other object.

3. A damper is characterized in that the damper is stored in a carrier, and is placed in an assembly position of an object after a tool takes up the damper from the carrier and the assembly position of the damper and the object is compared through a comparison device.

4. A damper, characterized in that the damper comprises:

a head having at least one engaged portion and a first combining portion; and

the head is movably combined with the clamping piece, the first combination part and the second combination part are respectively used for being combined with an object and another object, and the damper is rotated to enable the clamping part and the clamping part to be clamped and separated.

5. The damper of claim 1, 2, 3 or 4, wherein the damper has a shaft portion, and the head portion and the engaging and disengaging member are movably combined by the shaft portion, so that the head portion or the engaging and disengaging member is rotated on the shaft portion to allow the engaging and disengaging portion to be engaged and disengaged with the engaged and disengaging portion.

6. The damper of claim 3, wherein the first or second composite part has a solderable surface, the object or the other object has a solder layer, the solderable surface is heatable for soldering with the solder layer, and the object or the other object is a circuit board.

7. The damper of claim 3, wherein the comparison device is an image comparison device, a distance comparison device, or a computer comparison device.

8. A damper as claimed in claim 1, 2 or 3 wherein the head or the escapement has an assembly locating portion which can define the position of the escapement of the head or the escapement of the escapement as a definition of a damping position or direction.

9. The damper of claim 1, 2 or 4, wherein the locking or unlocking portion has a locking surface and a stopping surface, the locking surface is rotatable in a locking direction, and the stopping surface is oriented to limit rotation or increase the force required for locking and unlocking rotation in a direction toward the stopping surface.

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