TWI393886B - Catching mechanism - Google Patents

Description

Holding device

The present invention relates to a holding device, and more particularly to a holding device for holding a data line.

In the production process of electronic products, various performance tests are usually performed on electronic products. During the test, the object to be tested, such as a mobile phone and a test instrument, is connected by a data cable. When the data line is inserted and removed at one end of the mobile phone, it is generally operated manually by a person, but this method may cause damage to the internal components of the mobile phone due to uneven angle and force. If the mobile phone is fixed with a jig, the operation of the data line is replaced by a transmission component such as a cylinder. Although the defects of the angle and the force are overcome, the relative tolerance between the mobile phone and the jig is caused. Inaccurate positioning, resulting in production instability.

In view of this, it is necessary to provide a data line holding device capable of generating a slight offset to correct the relative tolerance between the object to be tested and the jig.

A holding device for holding a data line, the data line comprising a plug, the holding device comprising a holding unit, a resisting mechanism and a plurality of elastic members, the resisting mechanism comprising a through cavity, the holding unit is arranged The elastic member is disposed between the holding unit and the resisting mechanism, and the elastic member elastically resists the holding unit in different directions, and is disposed in the cavity of the resisting mechanism. And one end of each elastic member abuts the holding unit, and the other end abuts the resisting mechanism, so that the holding unit can perform a two-axis offset in the resisting mechanism, the holding unit And a receiving slot extending through opposite sides of the holding unit, the receiving slot is configured to receive and fix the plug of the data line, and expose an end of the plug from the receiving slot.

Compared with the prior art, the holding unit of the holding device of the present invention is disposed in the cavity of the resisting mechanism, and an elastic member is disposed between the holding unit and the resisting mechanism, and the elastic member can be used to generate elastic deformation characteristics. The holding unit is in a floating state in the resisting mechanism, so the data line plug held in the holding body can be slightly offset with respect to the holding body, thereby correcting between the test object and the test fixture. Defects in inaccurate positioning caused by relative tolerances. The holding device of the invention is combined with an external power device such as a cylinder, and the force and the angle of entry and exit when the data line is inserted and removed can be stabilized, and the stability of the test system is improved.

Referring to FIG. 1 and FIG. 3 , the holding device 100 of the present invention includes a holding unit 10 , a resisting mechanism 20 , a base 30 , and a plurality of elastic members 40 .

Referring to FIGS. 1 and 2 , the holding unit 10 includes a holding body 11 and a cover 13 . The holding body 11 is substantially in the shape of a square, and includes a top surface 112, a bottom surface 114 opposite to the top surface 112, and a first side 111 and a second parallel with respect to two parallel sides between the top surface 112 and the bottom surface 114. Second side 113. A receiving groove 115 is defined in the top surface 112 of the holding body 11 . The accommodating groove 115 is a rectangular recess recessed in the top surface 112, and penetrates through the first side surface 111 of the holding body 11 for receiving a plug of a data line. The top surface 112 of the holding body 11 is further provided with four semi-circular holes 116 respectively recessed in two side walls of the receiving groove 115 for receiving processing equipment (not shown) for the processing equipment accurate The two right angle portions of the bottom of the accommodating groove 115 are opened, so that the shape of the accommodating groove 115 is more consistent with the shape of the data line plug to be accommodated. A first screw hole 117 is defined in each of the top surface 112 of the holding body 11 adjacent to the top surface 112. Two second abutting grooves 118 are defined in the second side surface 113 of the holding body 11 , and the first abutting grooves 118 are circular grooves. The bottom surface 114 of the holding body 11 is spaced apart from the fourth second resisting groove 119 (see FIG. 2) which is identical to the first abutting groove 118.

The cover 13 has a substantially square shape and includes a first abutting surface 131 and a first connecting surface 132 opposite to the first abutting surface 131. The first resisting surface 131 of the cover 13 is provided with four second screw holes 133 corresponding to the four first screw holes 117 of the holding body 11, and each of the second screw holes 133 includes a recessed cover 13 The truncated cone-shaped recess 1331 of the first abutting surface 131 and one of the screw holes 1332 extending through the bottom of the truncated cone-shaped recess 1331. Each of the screw holes 1332 is equivalent to the aperture of each of the first screw holes 117. The first resisting surface 131 of the cover 13 is further spaced apart from the two ends thereof to be provided with four third resisting grooves 135. The cover 13 is sized to correspond to the top surface 112 of the holding body 11.

The cover body 13 is screwed into the top surface 112 of the holding body 11 from the fourth second screw hole 133 of the first resisting surface 131 by the four first screws 15 having the same shape as the second screw hole 133. The screw hole 117 is fixed to the holding body 11 to constitute the holding unit 10.

The resisting mechanism 20 is generally in the form of a rectangular frame structure, and includes a bottom plate 21, an upper baffle 23 opposite to the bottom plate 21, and two parallel side baffles 22 vertically disposed between the bottom plate 21 and the upper baffle 23.

The bottom plate 21 is substantially in the shape of a square, and includes a second abutting surface 211 and the same The second resisting surface 211 is opposite to one of the second connecting faces 213. A fourth abutting groove 212 corresponding to the second abutting groove 119 of the bottom surface 114 of the holding body 11 and having the same shape is formed on the second abutting surface 211 of the bottom plate 21 . The second resisting surface 211 of the bottom plate 21 is spaced apart from the two ends by two second screw holes 214, and the two third screw holes 214 are arranged along the longitudinal direction of the bottom plate 21. Each of the third screw holes 214 includes a circular groove 2141 recessed in the second abutting surface 211 of the bottom plate 21 and a circular hole 2142 extending through the center of the bottom of the circular groove 2141. A fourth screw hole 215 is defined in a side of the second connecting surface 213 of the bottom plate 21 , and a hole diameter of the fourth screw hole 215 is larger than a diameter of the first screw hole 117 of the holding body 11 .

The side baffle 22 has a substantially square shape and includes a third connecting surface 221 , a fourth connecting surface 222 opposite to the third connecting surface 221 , and a third connecting surface 221 and a fourth connecting surface 222 . A third resisting surface 223. The third connecting surface 221 is provided with three fifth screw holes 224. The fourth connecting surface 222 is provided with two fifth screw holes 225 corresponding to the second screw holes 215 of the bottom plate 21 (see FIG. 2). The fifth screw holes 224, 225 have the same aperture as the fourth screw holes 215 of the bottom plate 21. The third abutting surface 223 is provided with two fifth abutting grooves 226 corresponding to the two first abutting grooves 118 on the second side surface 113 of the holding body 11 . The distance between the two side baffles 22 is slightly larger than the distance between the second side faces 113 of the holding body 11 . The distance between the upper baffle 23 and the bottom plate 21 is slightly larger than the first abutting surface 131 of the cover 13 and the first connecting surface 132 . The distance between the top surface 112 and the bottom surface 114 of the holding body 11 is the sum of the distances.

The upper baffle 23 is also substantially in the shape of a square, and includes an upper surface 231 and a fourth abutting surface 233 opposite to the upper surface 231. Upper surface of upper baffle 23 The third sixth screw hole 235 corresponding to the fifth screw hole 224 of the side baffle 22 is respectively opened near the two ends of the 231. The sixth screw hole 235 has the same shape as the third screw hole 214 on the second abutting surface 211 of the bottom plate 21. The fourth resisting surface 233 of the upper baffle 23 is provided with four sixth resisting grooves 237 (see FIG. 2) corresponding to the four third resisting grooves 135 of the cover body 13 and having the same structure.

The base 30 includes a support portion 31 having a substantially straight cubic block shape and a bent portion 32 extending at one end of the support portion 31 and extending toward one surface side thereof. The support portion 31 includes two opposite side surfaces 33 and a top surface 34 that is perpendicular to the two side surfaces 33. Two connecting portions 331 are defined in the supporting portion 31. The connecting portion 331 defines a substantially elliptical through hole extending through the two side surfaces 33. The connecting portion 331 cooperates with the bent portion 32 for the holding device 100 to be connected to an external power mechanism (not shown) such as a cylinder or the like. A second screw hole 342 corresponding to the second screw holes 214 of the bottom plate 21 of the resisting mechanism 20 is further disposed on the top surface 34 of the supporting portion 31.

The elastic member 40 is a spring whose outer diameter is equivalent to the inner diameter of the first abutting groove 118.

Referring to FIG. 3 , when the holding device 100 is assembled, the bottom plate 21 of the resisting mechanism 20 is screwed into the seventh screw hole 342 of the base 30 by the second screw 50 from the third screw hole 214 to be fixed to the base 30 . Then, the two side baffle side baffles 22 are placed on the two ends of the bottom plate 21, so that the third abutting surfaces 223 of the two side baffle side baffles 22 face each other, and the fifth snail on the two side baffles 22 The hole 225 is aligned with the fourth screw hole 215 at both ends of the bottom plate 21, and is screwed from the fourth screw hole 215 to the fifth screw hole of the fourth connecting surface 222 of the side baffle 22 by the second screw 50. 225, the two side baffles 22 are fixed to the bottom plate 21. On the bottom plate 21 And an elastic member 40 is disposed in each of the fourth abutting groove 212 and the second abutting groove 226 of the two side baffles 22, and the holding unit 10 is placed between the two side baffles 22 to make each elastic The other end of the member 40 is inserted into the bottom surface 114 of the holding unit 10 and the corresponding first abutting groove 118 and the second abutting groove 119 of the second surface 113. An elastic member 40 is placed in each of the third abutting grooves 135 of the cover 13 of the holding unit 10, the upper baffle 23 is pressed thereon, and the other end of each elastic member 40 is inserted into the upper baffle. The corresponding sixth sixth screw hole 224 is screwed into the third connecting surface 221 of the two side baffles 22 by screws from the sixth screw holes 235 at the two ends of the upper baffle 23 . The upper baffle 23 is fixed to the two side baffles 22.

Referring to FIG. 4 and FIG. 5, when the holding device 100 is used, the columnar head portion 61 of a data cable plug 60 is inserted into the receiving groove 115 of the holding body 11 from the side of the bent portion 32 of the base 30, and A conductive terminal 612 extending from the cylindrical head 61 protrudes from the other end of the accommodating groove 115. One side of the bent portion 32 of the base 30 is connected to an external power unit such as a cylinder (not shown), and the external power unit pushes the base 30, thereby driving the entire holding device 100 and the data line plug 60 to the fixed object to be tested, such as a mobile phone. motion. Since the distance between the two side baffles 22 of the resisting mechanism 20 is slightly larger than the distance between the second side faces 113 of the holding body 11, the distance between the upper baffle 23 and the bottom plate 21 is slightly larger than the first abutting surface 131 of the cover body 13 and The distance between the first connecting surface 132 and the distance between the top surface 112 and the bottom surface 114 of the holding body 11 is such that the holding unit 10 has a certain movable space in the resisting mechanism 20, plus the elastic member 40 The fixing, by the elasticity of the elastic member 40, causes the holding unit 10 to be in a floating state, and can make a slight deviation of the two axial directions in the resisting mechanism 20. The object to be tested is fixed by the jig, and the object to be tested is determined by the dimensional tolerance between the jig and the object to be tested. When the position is not in time, the holding unit 10 automatically aligns the conductive terminal 612 of the data line with the data line socket on the object to be tested (not shown) by making a slight offset in the resisting mechanism 20, thereby accurately conducting the data line. Terminal 612 is inserted. Therefore, it is possible to correct the problem of inaccurate positioning due to the tolerance between the fixture of the fixed object to be tested and the object to be tested. The holding device 100 is combined with a power component such as a cylinder to achieve the purpose of stabilizing the insertion force and the entry and exit angle, thereby improving the stability of the test system.

It can be understood that the elastic member 40 of the holding unit 10 and the opposing surfaces of the resisting mechanism 20 may be one or more, and the corresponding resisting grooves may be a pair or a pair. the above.

It can be understood that the base 30 can be disposed in a unitary structure with the bottom plate 21.

It can be understood that the cover body 13 and the holding body 11 can also be a unitary structure.

It can be understood that the holding body 11 of the holding unit 10 can be replaced according to the size and shape of the clamped data line plug.

It can be understood that the bottom plate 21, the two side baffles 22 and the upper baffle 23 of the resisting mechanism 20 can be fixed to each other as long as the resisting mechanism 20 is provided with a cavity for receiving the holding body 10. Just fine.

100‧‧‧ holding device

10‧‧‧ holding unit

11‧‧‧ Holding ontology

111‧‧‧ first side

112‧‧‧ top surface

113‧‧‧ second side

114‧‧‧ bottom

115‧‧‧ accommodating slots

116‧‧‧Semicircular holes

117‧‧‧first screw hole

118‧‧‧First abutment slot

119‧‧‧Second abutment slot

13‧‧‧ Cover

131‧‧‧First Responsive

132‧‧‧First connection surface

133‧‧‧Second screw hole

1331‧‧‧Frustum-shaped groove

1332‧‧‧ screw holes

135‧‧‧ third resist slot

15‧‧‧First screw

20‧‧‧Responsible institutions

21‧‧‧floor

211‧‧‧ second resistance

212‧‧‧fourth resist slot

213‧‧‧second connection surface

214‧‧‧ Third screw hole

2141‧‧‧Circular groove

2142‧‧‧round hole

215‧‧‧4th screw hole

22‧‧‧ side baffle

221‧‧‧ third connection surface

222‧‧‧4th connection surface

223‧‧‧ Third Reward

224, 225‧‧‧ fifth screw hole

226‧‧‧ fifth resist slot

23‧‧‧Upper baffle

231‧‧‧ upper surface

233‧‧‧ Fourth Reward

235‧‧‧ sixth screw hole

237‧‧‧ sixth resist slot

30‧‧‧Base

31‧‧‧Support

32‧‧‧Bends

33‧‧‧ side surface

331‧‧‧Connecting Department

34‧‧‧ top surface

342‧‧‧ seventh screw hole

40‧‧‧Flexible parts

50‧‧‧Second screw

60‧‧‧Data cable plug

61‧‧‧column head

612‧‧‧Electrical terminals

1 is a perspective exploded perspective view of a holding device according to a preferred embodiment of the present invention.

2 is a perspective exploded perspective view of the holding device of the preferred embodiment of the present invention.

3 is a schematic overall view of a holding device according to a preferred embodiment of the present invention.

4 is a schematic diagram of a data line plug and a holding device of a preferred embodiment of the present invention.

FIG. 5 is a schematic view showing the assembly of a data line plug held by a holding device according to a preferred embodiment of the present invention.

100‧‧‧ holding device

10‧‧‧ holding unit

11‧‧‧ Holding ontology

111‧‧‧ first side

112‧‧‧ top surface

113‧‧‧ second side

115‧‧‧ accommodating slots

116‧‧‧Semicircular holes

117‧‧‧first screw hole

118‧‧‧First abutment slot

13‧‧‧ Cover

131‧‧‧First Responsive

133‧‧‧Second screw hole

1331‧‧‧Frustum-shaped groove

1332‧‧‧ screw holes

135‧‧‧ third resist slot

15‧‧‧First screw

20‧‧‧Responsible institutions

21‧‧‧floor

211‧‧‧ second resistance

212‧‧‧fourth resist slot

214‧‧‧ Third screw hole

2141‧‧‧Circular groove

215‧‧‧4th screw hole

22‧‧‧ side baffle

221‧‧‧ third connection surface

223‧‧‧ Third Reward

224‧‧‧ fifth screw hole

226‧‧‧ fifth resist slot

23‧‧‧Upper baffle

231‧‧‧ upper surface

235‧‧‧ sixth screw hole

30‧‧‧Base

31‧‧‧Support

32‧‧‧Bends

33‧‧‧ side surface

331‧‧‧Connecting Department

34‧‧‧ top surface

342‧‧‧ seventh screw hole

40‧‧‧Flexible parts

50‧‧‧Second screw

Claims (10)

A holding device for holding a data line, the data line comprising a plug, the holding device comprising a holding unit, a resisting mechanism and a plurality of elastic members, wherein the resisting mechanism comprises a through cavity The holding unit is disposed in the cavity of the resisting mechanism and is at a distance from the resisting mechanism. The elastic member is disposed between the holding unit and the resisting mechanism, and the elastic member elastically resists in different directions. The holding unit has one end of each elastic member abutting the holding unit, and the other end abuts the resisting mechanism, so that the holding unit can make a two-axis offset in the resisting mechanism, and the holding unit is provided And a receiving slot extending through opposite sides of the holding unit, the receiving slot is configured to receive and fix the plug of the data line, and expose an end of the plug from the receiving slot. The holding device of claim 1, wherein the holding unit comprises a holding body, the holding body comprises a first surface, and the receiving groove is formed on the first surface of the holding body and penetrates the A rectangular recess on one side of the holding unit is sized to correspond to the size of the plug of the data line. The holding device of claim 2, wherein the holding unit further comprises a cover body, and the cover body is fixed to the first surface of the holding body and the receiving groove. The holding device of claim 3, wherein the first surface of the holding body and the cover body are provided with a plurality of screw holes, and the cover body and the holding body are screwed through the screw hole Screwed together. The holding device of claim 4, wherein the resisting mechanism comprises a bottom plate, an upper baffle opposite the bottom plate, and a vertical plate Two parallel side baffles between the bottom plate and the upper baffle, the bottom plate and the upper baffle being fixed to the two side baffles to form the cavity. The holding device of claim 5, wherein the holding body further comprises a bottom surface opposite to the first surface and a first side and a second opposite to the second surface and the bottom surface The second side of the second side is opposite to the two side baffles of the resisting mechanism, and the cover is away from the surface of the holding body and the resisting mechanism The upper baffle plates face each other, and the bottom surface of the holding body faces the bottom plate of the resisting mechanism. The holding device of claim 6, wherein the holding unit and the opposite surfaces of the holding body have a corresponding pair of abutting grooves, and each pair abuts between the grooves Each of the elastic members is resisted. The holding device of claim 7, wherein each of the elastic members is a spring, and an inner diameter of the abutting groove is equivalent to an outer diameter of the elastic member. The holding device of claim 8, wherein the distance between the two side baffles of the resisting mechanism is greater than the distance between the second side faces of the holding body, and the distance between the baffle and the bottom plate of the resisting mechanism The distance between the surface of the cover body and the bottom surface of the holding body is greater than the distance between the cover body and the bottom surface of the holding body. The holding device of claim 9, wherein the holding device further comprises a base, one end of the base is connected to the bottom plate of the resisting mechanism, and the base is provided with a connecting portion, the base is connected by the connection The part is connected to the external power unit.