CN212146050U - Tablet personal computer test fixture - Google Patents

Abstract

The utility model provides a panel computer test fixture, panel computer test fixture includes: a bracket; a carrier slidably connected to the carriage; a sliding structure disposed between the carriage and the carrier to form a sliding connection of the carriage and the carrier; a detection component for sending or receiving wireless signals to a sample to be detected, the detection component being detachably or slidably connected to the bracket to move the detection component. The operation is convenient, and the operation efficiency of operators is improved.

Description

Tablet personal computer test fixture

Technical Field

The utility model relates to a radio signal's frequency channel detection area, in particular to panel computer test fixture.

Background

At present, the wide application is in the radio connection technique in the life, for example, wireless connection such as WIFI and bluetooth, and the connection antenna setting of this kind of WIFI and bluetooth is inside electronic equipment, and after electronic product production was accomplished, need test finished product wireless connection performance to guarantee that the wireless connection intensity of product is in the parameter range of design. In the prior art, in the tablet computer test fixture, the antenna module and the bearing piece are fixed structures, so that the product is very inconvenient to take and place in the process of detecting the wireless signal of the electronic equipment, and the labor efficiency of personnel is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a panel computer test fixture, aim at solving in the process that electronic equipment carried out radio signal and detects, get and put the product very inconvenient, cause personnel's the problem that labor efficiency is low.

In order to achieve the above object, the utility model provides a panel computer test fixture, panel computer test fixture includes:

a bracket;

a carrier slidably connected to the carriage;

a sliding structure disposed between the carriage and the carrier to form a sliding connection of the carriage and the carrier;

a detection component for sending or receiving wireless signals to a sample to be detected, the detection component being detachably or slidably connected to the bracket to move the detection component.

Optionally, the bearing member includes a bearing table and a bearing frame, the bearing table is disposed on the bearing frame, and the bearing frame is rotatably connected to the bracket.

Optionally, the sliding structure includes a guide rail and a slider that are matched with each other, the guide rail is disposed on the frame, and the slider is mounted on the bearing frame.

Optionally, the sliding structure further includes a bearing disposed on the bracket and a sliding groove disposed on the plummer, and the bearing is embedded in the sliding groove to form a fit.

Optionally, the bracket is provided with a positioning element, the bearing frame is provided with a buckling position, the positioning element is located on a sliding path of the buckling position, and when the bearing frame moves to a preset position, the positioning element is embedded into the buckling position.

Optionally, the bracket includes a base and a top plate, a plurality of mounting holes are opened on the top plate, and the detection assembly is detachably mounted in the mounting holes.

Optionally, the detection assembly comprises a connecting piece and a detection piece, the connecting piece is connected with the mounting hole and the detection piece, the connecting piece is provided with a plurality of connecting holes for mounting the detection piece, and the connecting holes are arranged along the circumferential direction and/or the axial direction of the connecting piece.

Optionally, the connecting piece includes head rod, second connecting rod and connecting block, the head rod is connected the roof, the second connecting rod is connected on the head rod, the connecting block is installed on the second connecting rod, the detection piece is installed on the connecting block, wherein, connecting hole on the head rod is followed the circumference of head rod distributes, the connecting hole of second connecting rod is followed the axial distribution of second connecting rod, connecting hole on the connecting block is arc distribution.

Optionally, the tablet computer test fixture further comprises a docking assembly, the docking assembly is arranged on the rack, the docking assembly at least comprises a docking support and a connector clip installed on the docking support, and the connector clip is used for docking the sample to be tested.

Optionally, an adjusting hole is formed in the butt joint support, and the plug connector is installed in the adjusting hole and can move along the adjusting hole.

The utility model discloses technical scheme holds carrier through slidable mounting on the bracket, and hold the sliding connection who is connected sliding structure in order to form bracket and hold carrier between carrier and bracket, make and hold carrier and can follow the relative bracket slip of sliding structure, the slip route that holds carrier has slip initiating position and slip termination position, when holding carrier and being located the slip initiating position, detecting element can carry out wireless detection to the sample that awaits measuring of loading on holding carrier, when holding carrier and being located the slip termination position, operating personnel can take out or toward holding the sample that awaits measuring of carrying on carrier and put into the sample that awaits measuring. The operation is convenient, and the operation efficiency of operators is improved. The detection assembly can be detached or can be slidably connected to the bracket and used for sending or receiving wireless signals to a sample to be detected, and the detection assembly can move on the bracket, so that an operator can adjust relevant parameters such as the position and the angle of the detection assembly according to the model specification of the sample to be detected and the change of detection requirements, the debugging is convenient, and the detection assembly has high adaptability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, 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 the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the tablet pc testing jig of the present invention.

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is an exploded view of the supporting member of the testing jig for tablet computers according to the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at B;

fig. 5 is a schematic structural view of the docking assembly of the tablet computer test fixture of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				11	Base seat	31	Handle (CN)
12	Supporting plate	32	Bearing platform
				13	Top board	33	Bearing frame
131	Mounting hole	40	Tray
				20	Detection assembly	51	Locating piece
21	Connecting piece	60	Docking assembly
				211	First connecting rod	61	Butt joint support
212	Second connecting rod	62	Plug-in connector
				213	Connecting block	63	Adjusting hole
214	Connecting hole	71	Sliding block
				22	Detecting piece	72	Guide rail
30	Bearing part	73	Bearing assembly

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1-5, in order to achieve the above object, the present invention provides a tablet computer testing jig, which includes: a bracket; a carrier 30, said carrier 30 being slidably connected to said carriage; a sliding structure provided between the carriage and the carrier 30 to form a sliding connection of the carriage and the carrier 30; the detection assembly is detachably or slidably connected to the bracket to receive a wireless signal emitted by a sample to be detected (not shown in the figure).

In this embodiment, the tablet computer test fixture is placed in a shielding box (not shown) for use, and the shielding box shields interference signals in an external environment, so as to ensure the detection precision of the whole tablet computer test fixture. The bearing member 30 is mounted on the bracket, as shown in fig. 1, the bracket includes a base 11, a supporting plate 12 and a top plate 13, the supporting plate 12 is connected between the base 11 and the top plate 13 and supports the top plate 13, and the bearing member 30 is mounted on the base 11 and is used for bearing a sample to be tested. Still can further set up the tray 40 that is used for placing the sample that awaits measuring on the carrier 30, tray 40 can constitute by polyformaldehyde plastic to avoid forming the electrostatic damage sample that awaits measuring to the sample, perhaps, carrier 30 itself just can constitute by polyformaldehyde plastic.

In this embodiment, the sample to be tested is an electronic device with a wireless connection function, such as a mobile terminal like a mobile phone or a computer, or a router.

The bearing member 30 and the bracket are in sliding connection, the sliding connection is formed by a sliding structure connected between the bearing member 30 and the bracket, so that the bearing member 30 can slide relative to the bracket along the sliding structure, and a sliding starting position and a sliding ending position are arranged on a sliding path of the bearing member 30. Wherein, when bearing the weight of thing 30 and being located the slip initial position, detecting element can carry out wireless detection to the sample that awaits measuring of loading on bearing the weight of thing 30, when bearing the weight of thing 30 and being located the slip termination position, operating personnel can take out or put into the sample that awaits measuring on bearing the weight of thing 30 toward bearing the weight of thing 30. The sample to be measured is convenient to take and place.

The detection component is used for receiving wireless signals from a sample to be detected or sending wireless signals to the sample to be detected, and the wireless signals can be Bluetooth, WIFI and the like. The detection assembly is detachably connected or slidably connected with the bracket. The sliding connection can be that a sliding guide rail and a sliding groove are mutually matched, a guide rail is matched with a sliding block, or a bearing is matched with the sliding groove; the detachable connection here may be a pin to secure the sensing assembly to the carriage, and the operator may release the pin as desired to replace the sensing assembly. The detachable connection or the sliding connection of the detection assembly and the bracket enables the detection assembly to move relative to the bracket, so that an operator can adjust relevant parameters such as the position, the angle and the like of the detection assembly according to the model specification of a sample to be detected and the change of a detection requirement, the debugging is convenient, the detection assembly has higher adaptability, and the operation efficiency is improved. In a particular implementation, the detection assembly is mounted on the top plate 13 of the carriage and faces the carrier 30 to make the detection data more accurate.

The carrier 30 includes a carrier 32 and a carrier 33, the carrier 32 is disposed on the carrier 33, and the carrier 33 is rotatably connected to the bracket.

In a further embodiment, as shown in fig. 3, the carrier 30 has a carrier table 32 and a carrier frame 33, the carrier table 32 is mounted on the carrier frame 33 for carrying the sample to be tested, and the carrier frame 33 is rotatably connected to the carrier frame 33. In a specific implementation, the handles 31 are disposed on the bearing table 32 and the bearing frame 33, and when an operator pulls the handles 31 on the bearing frame 33, the bearing frame 33 rotates a certain angle relative to the bracket, so that the bearing table 32 is unlocked and can slide relative to the bracket, thereby facilitating the fixing of the bearing table 32.

The sliding structure further comprises a guide rail 72 and a sliding block 71 which are matched with each other, the guide rail 72 is arranged on the bracket, and the sliding block 71 is arranged on the bearing frame 33; the sliding structure further includes a bearing 73 disposed on the bracket and a sliding slot (not shown) disposed on the bearing platform 32, wherein the bearing 73 is embedded in the sliding slot to form a fit.

The sliding connection between the carrier 30 and the bracket is realized by a sliding structure, in a specific implementation, the sliding structure includes a guide rail 72 and a sliding block 71 which are matched with each other, the carrier 33 is lifted in rotation relative to the bracket, the bearing platform 32 is unlocked, and the sliding block 71 can move along the guide rail 72 from a sliding start position to a sliding end position. In order to further ensure the stability of sliding, the sliding structure further comprises a bearing 73 arranged on the bracket and a sliding groove arranged on the bearing platform 32, and the bearing 73 is embedded into the sliding groove to form matching.

As an embodiment, as shown in fig. 4, a positioning member is disposed on the bracket, a buckle position is disposed on the carriage 33, the positioning member is located on a sliding path of the buckle position, and when the carriage 33 moves to a predetermined position, the positioning member is embedded into the buckle position.

The positioning element is engaged with the locking position to lock the bearing element 30 at the sliding start position, and the predetermined position may be the sliding start position, and when the bearing platform 32 moves to the sliding start position, the positioning element is inserted into the locking position to lock the bearing element 30, so as to ensure that the sample to be tested is stably held in the subsequent testing process. In a specific implementation, the positioning element is a positioning shaft 51, the positioning shaft 51 is parallel to the base 11 of the bracket, the fastening position on the bearing frame 33 is U-shaped, an opening of the U-shaped fastening position faces the base 11, when the U-shaped fastening position moves to the position of the positioning shaft 51, the operator releases the handle 31, the bearing frame 33 falls onto the positioning shaft 51, and the U-shaped fastening position is matched with the positioning shaft 51 to realize a locking function.

The bracket comprises a base 11 and a top plate 13, wherein the top plate 13 is provided with a plurality of mounting holes 131, and the detection assembly is detachably mounted in the mounting holes 131.

The mounting hole 131 (as shown in fig. 2) is used for mounting the detection assembly, the detection assembly is detachably connected in the mounting hole 131, and when an operator needs to adjust the position of the detection assembly according to the changed parameters, the detection assembly can be detached from the top plate 13 and replaced in another more suitable mounting hole 131. The detachable connection may be a threaded connection or a pinned connection, to name but a few.

It will be appreciated that the detachable connection of the detection assembly to the top plate 13 is for adjusting the position of the detection assembly, and that this function can be achieved by other connection means, such as a sliding connection, which can be achieved by means of a guide rail and a guide rail groove.

The adjustment accuracy of the sensing assembly is related to the density of the mounting holes 131, and the more dense the mounting holes 131, the higher the adjustment accuracy of the sensing assembly. In a further embodiment, the plurality of mounting holes 131 in the top plate 13 are arranged in an array to facilitate corresponding adjustment of the position of the detection assembly by an operator according to the adjustment parameters.

In a further aspect, as shown in fig. 2, the detecting assembly includes a connecting member 21 and a detecting member 22, the connecting member 21 connects the mounting hole 131 and the detecting member 22, the connecting member 21 is provided with a plurality of connecting holes 214 for mounting the detecting member 22, and the connecting holes 214 are arranged along a circumferential direction and/or an axial direction of the connecting member 21.

The detection assembly can move on the base plate as a whole, and meanwhile, the connecting piece 21 and the detection piece 22 which form the detection assembly can also be adjusted, so that the adjustability of the equipment is further improved. The connecting piece 21 is used for connecting the top plate 13 and the detecting piece 22, the detecting piece 22 is used for receiving or sending a wireless signal to a sample to be detected, the connecting piece 21 is provided with connecting holes 214, the connecting holes 214 are arranged on the connecting piece 21 along the circumferential direction and/or the axial direction of the connecting piece 21, the circumferential arrangement of the connecting holes 214 enables the detecting piece 22 to rotate a certain angle relative to the connecting piece 21, and the axial arrangement of the connecting holes 214 enables the detecting piece 22 to move up and down relative to the connecting piece 21.

In a specific implementation, the connecting member 21 includes a first connecting rod 211, a second connecting rod 212 and a connecting block 213, the first connecting rod 211 is connected to the top plate 13, the second connecting rod 212 is connected to the first connecting rod 211, the connecting block 213 is installed on the second connecting rod 212, the detecting member 22 is installed on the connecting block 213, wherein the connecting holes 214 on the first connecting rod 211 are distributed along the circumferential direction of the first connecting member 21, the connecting holes 214 on the second connecting rod 212 are distributed along the axial direction of the second connecting rod 212, and the connecting holes 214 on the connecting block 213 are distributed in an arc shape.

The connector 21 comprises at least three components: the first connecting rod 211, the second connecting rod 212 and the connecting block 213 are provided with mounting holes 131 for adjusting the detecting element 22. The connecting holes 214 on the first connecting rod 211 are distributed along the circumferential direction of the first connecting member 21, so that the detecting member 22 can rotate a certain angle relative to the connecting member 21; the connection holes 214 of the second connection rod 212 are distributed along the axial direction of the second connection rod 212 such that the sensing piece 22 can move up and down relative to the connection piece 21; the connection holes 214 of the connection block 213 are distributed in an arc shape so that the detecting member 22 can rotate at a certain angle with respect to the vertical plane. Thus, the detecting member 22 can be adjusted from three dimensions, and the adjustment requirement of any position can be met.

As shown in fig. 5, the tablet computer test fixture further includes a docking assembly 60, the docking assembly 60 is disposed on the bracket, the docking assembly 60 at least includes a docking support 61 and a connector 62 installed on the docking support 61, and the connector 62 is used for docking the sample to be tested.

The docking assembly 60 is used for connecting an external control device to a sample to be tested so as to transmit data on the sample to be tested to the control device, the docking assembly 60 is arranged on the bracket and comprises a docking support 61 and a plug connector 62, and the plug connector 62 comprises one or more plugs connected with the sample to be tested. The docking support 61 is used to carry the plug 62, and the docking support 61 is mounted on the bracket, so that the docking support 61 can be detachably or slidably connected to the bracket for adjustment.

In a specific implementation, an adjusting hole 63 is provided on the docking support 61, the adjusting hole 63 may be multiple, the adjusting hole 63 may extend along the length direction or the width direction of the base 11, the plug 62 is installed in the adjusting hole 63 and may be fixed by a screw, when the position of the plug 62 needs to be adjusted, the screw is loosened, and the plug 62 may move along the extending direction of the adjusting hole 63, so as to adjust the position of the plug 62.

The above is only the optional embodiment of the present invention, and not therefore the limit to the patent scope of the present invention, all the concepts of the present invention utilize the equivalent structure transformation of the content of the specification and the attached drawings, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (10)

1. The tablet computer test fixture is characterized by comprising:

a bracket;

a carrier slidably connected to the carriage;

a sliding structure disposed between the carriage and the carrier to form a sliding connection of the carriage and the carrier;

a detection component for sending or receiving wireless signals to a sample to be detected, the detection component being detachably or slidably connected to the bracket to move the detection component.

2. The tablet testing fixture of claim 1, wherein the carrier comprises a carrying table and a carrying frame, the carrying table is disposed on the carrying frame, and the carrying frame is rotatably connected to the bracket.

3. The tablet testing fixture of claim 2, wherein the sliding structure comprises a guide rail and a sliding block, the guide rail is disposed on the bracket, and the sliding block is disposed on the bearing frame.

4. The tablet testing fixture of claim 3, wherein the sliding structure further comprises a bearing disposed on the bracket and a sliding slot disposed on the supporting platform, and the bearing is embedded in the sliding slot to form a fit.

5. The tablet computer test fixture of claim 4, wherein the bracket is provided with a positioning element, the bearing frame is provided with a buckling position, the positioning element is located on a sliding path of the buckling position, and the positioning element is embedded into the buckling position when the bearing frame moves to a predetermined position.

6. The tablet computer test fixture of claim 1, wherein the bracket comprises a base and a top plate, the top plate defines a plurality of mounting holes, and the detection assembly is detachably mounted in the mounting holes.

7. The tablet computer test fixture of claim 6, wherein the detection assembly comprises a connecting piece and a detection piece, the connecting piece is connected with the mounting hole and the detection piece, the connecting piece is provided with a plurality of connecting holes for mounting the detection piece, and the connecting holes are arranged along the circumferential direction and/or the axial direction of the connecting piece.

8. The tablet computer test fixture of claim 7, wherein the connecting member comprises a first connecting rod, a second connecting rod and a connecting block, the first connecting rod is connected with the top plate, the second connecting rod is connected with the first connecting rod, the connecting block is arranged on the second connecting rod, and the detecting member is arranged on the connecting block, wherein the connecting holes in the first connecting rod are distributed along the circumferential direction of the first connecting member, the connecting holes in the second connecting rod are distributed along the axial direction of the second connecting rod, and the connecting holes in the connecting block are distributed in an arc shape.

9. The tablet computer test fixture of claim 1, further comprising a docking assembly disposed on the bracket, the docking assembly comprising at least a docking support and a connector mounted on the docking support, the connector configured to dock the sample to be tested.

10. The tablet testing fixture of claim 9, wherein the docking support has an adjustment hole, and the connector is mounted in and movable along the adjustment hole.

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