CN208460945U - A kind of mounting device of connector - Google Patents

Abstract

The utility model discloses a kind of mounting devices of connector, wherein described device includes: main part, at least one component on the mounting device of fixed RF connector；R limiting section is arranged on the main part, and the R limiting section is for accommodating and fixing R radio frequency cavity, wherein each radio frequency cavity includes M nipple orifice, and R and M are positive integer；Test section, for successively carrying out position detection to i-th of connector in M connector in M nipple orifice of the first radio frequency cavity in the insertion R radio frequency cavity according to preset order, obtain i-th of position where i-th of connector wherein, i successively takes 1 to M positive integer；Control unit is connect with the test section；Portion is screwed, is connect with the control unit, for receiving the control instruction from the control unit, successively i-th of M connector at i-th of position is fastened on the first radio frequency cavity according to the preset order.

Description

A kind of mounting device of connector

Technical field

The utility model relates to radio-frequency devices technical field, in particular to a kind of mounting device of connector.

Background technique

Radio-frequency devices used in mobile communication system (for example, combiner, filter, duplexer, etc.), often using company It connects device and other components carries out signal transmission.

At present or using flange installing type connector 11 as shown in Figure 1 or using as shown in Figure 2 rotary Connector 22, to realize the connection of connector Yu radio frequency cavity.

Specifically, the former specifically uses screw 1 ' that connector is fixed on radio frequency cavity 2 ', but is pacified using screw The flange of dress causes adapter flange to deform since screw tightening sequence is different, connector ground ring cannot well with penetrate Frequency cavity installs face contact, i.e. imperfect earth is good.When radiofrequency signal passes through connector, can be generated due to imperfect earth passive Intermodulation.

And the latter, including rotating connectors 3 ', cavity 4 ', sleeve fasten hex surface 5 ', connection screw thread 6 '.Although can It solves the problems, such as that installation is uneven, but is presently mainly that connector and radio-frequency cavity are realized by artificial torque spanner or common electric screwdriver The fastening of body, however, since not only assembly efficiency is low for manual operation, large labor intensity, and be easy there are pretightning force it is inconsistent with And unstable problem.

As it can be seen that the technical problem that the existing mounting device for connector is low there are assembly efficiency.

Utility model content

The utility model embodiment provides a kind of mounting device of connector, for solving the existing installation for connector The device technical problem low there are assembly efficiency.

The utility model embodiment provides a kind of mounting device of connector, comprising:

Main part, at least one component on the mounting device of fixed connection device；

R limiting section is arranged on the main part, and the R limiting section is used to accommodating and fixing R radio frequency cavity, Wherein, each radio frequency cavity includes M nipple orifice, and R and M are positive integer；

Test section, for successively being connect to M for being inserted into the first radio frequency cavity in the R radio frequency cavity according to preset order I-th of connector carries out position detection in M connector in head bore, obtains i-th of position where i-th of connector Wherein, i successively takes 1 to M positive integer；

Control unit is connect with the test section；

Portion is screwed, is connect with the control unit, for receiving the control instruction from the control unit, according to described default I-th of M connector at i-th of position is successively fastened on the first radio frequency cavity by sequence.

In the technical solution of the utility model embodiment, test section is according to preset order successively to R radio-frequency cavity of insertion Each connector in M connector in body in M nipple orifice of each radio frequency cavity carries out position detection, to obtain every The location of a connector.Further, control unit control screws portion according to the preset order for corresponding position Connector be fastened on corresponding radio frequency cavity, to solve the existing mounting device for connector, there are assembly efficiencies Low technical problem realizes the automation installation to connector, improves the assembly efficiency that mounting device is directed to connector.

Optionally, the portion of screwing includes:

Servo motor, flexible drive mechanism and Hexagonal jacket, wherein by the flexible drive mechanism by the servo Motor is connected with the Hexagonal jacket, and the Hexagonal jacket and the R limiting section are on same central plane, described Hexagonal jacket and i-th of connector are located at same vertical plane, and the Hexagonal jacket entangles i-th of connector When, the Hexagonal jacket is fastened under the action of the servo motor, by i-th of connector with corresponding radio frequency cavity Predetermined torque and predetermined angle.

In the utility model embodiment, the rotation that is made of servo motor, flexible rotational structure and Hexagonal jacket It tight portion can be under the action of the servo motor, by the position when the Hexagonal jacket entangles the connector at a certain position The connector at the place of setting is fastened to predetermined torque and predetermined angle with corresponding radio frequency cavity.That is, can be according to user's Actual use needs, and the connector of any position is fastened to arbitrary torsion by screwing portion described on the mounting device At square and angle, to improve the service performance of the mounting device.

Optionally, the test section includes:

Two groups of photoelectric sensors, including first group of photoelectric sensor and second group of photoelectric sensor, first group of photoelectricity Sensor is arranged in first side for screwing portion, second group of photoelectric sensor be arranged in it is described screw portion with described The opposite second side in side, two groups of photoelectric sensors whether there is connector for detecting in the R radio frequency cavity, In, every group of photoelectric sensor includes the emission part for emitting optical signal, and the receiving unit for receiving optical signal, and described Side is located on the direction vertical with the central axle portion for screwing portion with described second side；

First side screwed in portion and second side area defined is arranged in laser positioning sensor It is interior, it is described to swash if determining that there are i-th of connectors in the R radio frequency cavity for two groups of photoelectric sensors Light-seeking working sensor determines i-th of position locating for i-th of connector, wherein the laser positioning passes Sensor includes the emission part for emitting optical signal, and the receiving unit for receiving optical signal.

In the utility model embodiment, by the way that two groups of photoelectric sensings are respectively set in the opposite sides for screwing portion Device further whether there is connector to detect in the R radio frequency cavity, and if it exists, screw portion described by being arranged again On two groups of laser positioning sensors determine the location of the connection implement body.It is directed to be conducive to the mounting device The connector of specific location is targetedly fastened, and the service performance of the mounting device is further increased.

Optionally, described device further include:

Driving section is connect with the portion of screwing, for determining described the of i-th of connector in the control unit After i position, the portion of screwing is moved to i-th of position locating for the i connector at a distance of pre-determined distance Position at.

Optionally, the driving section includes:

Vertical motion portion is connect with the first end of the central axle portion for screwing portion, and the vertical motion portion includes vertical Moving guide rail and jack-up cylinder, the jack-up cylinder screw portion along described vertical under the action of the control unit, described in control Moving guide rail is mobile；

Transverse movement portion is connect with the second end of the central axle portion for screwing portion, and the transverse movement portion includes laterally Moving guide rail, ball screw and motor, wherein the ball screw screws portion edge under the action of the motor, described in control The transverse shifting guide rail is mobile；

Wherein, the portion that screws screws under the vertical motion portion and transverse movement portion collective effect by described Portion is moved to i-th of position locating for i-th of connector at the position of the pre-determined distance.

Optionally, described device further include:

Alarm department is connect with the control unit, if to determine that i-th of connector is not fastened to default for the control unit Torque and predetermined angle show i-th of connector for exporting then after the triggering command for receiving the control unit The fault message to break down during the fastening process.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this is practical new Some embodiments of type.

Fig. 1 is one of structural schematic diagram of flange installing type connector in the prior art；

Fig. 2 is one of structural schematic diagram of rotating connectors in the prior art；

Fig. 3 is a kind of one of structural schematic diagram of the mounting device of connector in the utility model embodiment；

Fig. 4 is one of side structure schematic diagram that mounting device includes the portion that screws in the utility model embodiment；

Fig. 5 is one of structural schematic diagram for the test section that mounting device includes in the utility model embodiment；

Fig. 6 is another structural schematic diagram for the test section that mounting device includes in the utility model embodiment.

Specific embodiment

The utility model embodiment provides the mounting device and method of a kind of connector, existing for connector for solving The mounting device technical problem low there are assembly efficiency.

" first ", " second " in the specification and claims of the utility model and above-mentioned attached drawing etc. are for distinguishing Different objects, are not use to describe a particular order.In addition, term " includes " and their any deformation, it is intended that cover It covers and non-exclusive includes.Such as it contains the process, method, system, product or equipment of a series of steps or units and does not limit In listed step or unit, but optionally further comprising the step of not listing or unit, or optionally further comprising for The intrinsic other step or units of these process, methods, product or equipment.

Referenced herein " embodiment " is it is meant that a particular feature, structure, or characteristic described can wrap in conjunction with the embodiments It is contained at least one embodiment of the utility model., which there is the phrase, in each position in the description to be each meant Identical embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art are explicit Ground and implicitly understand, embodiment described herein can be combined with other embodiments.

In order to better understand the above technical scheme, below by attached drawing and specific embodiment to the utility model technology Scheme is described in detail, it should be understood that the specific features in the utility model embodiment and embodiment are to the utility model The detailed description of technical solution, rather than the restriction to technical solutions of the utility model, in the absence of conflict, this is practical Technical characteristic in new embodiment and embodiment can be combined with each other.

Embodiment

Referring to FIG. 3, being a kind of structural schematic diagram of the mounting device of connector provided by the embodiment of the utility model, institute Stating mounting device includes:

Main part 100, at least one component on the mounting device of fixed RF connector；

R limiting section 1 is arranged on main part 100, and R limiting section 1 is used to accommodating and fixing R radio frequency cavity 200, Wherein, each radio frequency cavity includes M nipple orifice, and R and M are positive integer；

Test section 4, for successively a to the M for being inserted into the first radio frequency cavity in the R radio frequency cavity according to preset order I-th of connector carries out position detection in M connector in nipple orifice, obtains i-th where i-th of connector It sets wherein, i successively takes 1 to M positive integer；

Control unit 5 is connect with test section 4.

Portion 6 is screwed, is connect with control unit 5, for receiving the control instruction from control unit 5, according to the preset order Successively i-th of M connector at i-th of position is fastened on the first radio frequency cavity.

Still it as shown in figure 3, mounting device includes 2 limiting sections 1, is accommodated on left side limiting section and right side limiting section And fix 1 radio frequency cavity, wherein left side radio frequency cavity includes 1 nipple orifice, and the connector being inserted into the nipple orifice is 2, and Only 1.Right side radio frequency cavity includes 2 nipple orifices, and the connector for being inserted into this 2 nipple orifices is 3, and shares 2.The peace Assembling device further includes test section 4, for carrying out position detection to the connector in insertion nipple orifice.Further, it is penetrated with right side For frequency cavity, the location of the two connectors are determined by the control unit 5 connecting with test section 4 respectively.Once it is determined that Behind connector location, control unit 5, which can control, connected to it to be screwed portion 6 and connects the two according to preset order Device is fastened on the radio frequency cavity of right side.To realize the automatic installation that mounting device is directed to connector, mounting device is improved For the assembly efficiency of connector.In addition, the preset order can be sequence from left to right, can also be from right to left Sequentially, certain those skilled in the art can also be accustomed to design the preset order, herein according to the actual use of user Different one has been illustrated.

In the utility model embodiment, in order to further improve the service performance of the mounting device, figure is please referred to 4, provided by the embodiment of the utility model includes one of side structure schematic diagram for screwing portion 6, specifically, comprising:

Servo motor 61, flexible drive mechanism 62 and Hexagonal jacket 63, wherein by flexible drive mechanism 62 by servo Motor 61 is connected with Hexagonal jacket 63, and Hexagonal jacket 63 and the R limiting section are on same central plane, in hexagonal set Cylinder 63 is located at same vertical plane with i-th of connector in the M connector, and Hexagonal jacket 63 entangles i-th of company When connecing device, Hexagonal jacket 63 is fastened under the action of servo motor 61, by i-th of connector with corresponding radio frequency cavity Predetermined torque and predetermined angle.The predetermined torque and the predetermined angle specifically can be user and pass through control according to actual needs The numberical range that portion 5 processed is inputted can also be that those skilled in the art are preset according to the actual use of user habit Numberical range, just different one have been illustrated herein.That is, in the specific implementation process, it can be according to the reality of user Connector to be tightened is fastened at arbitrary torque and angle using needs by the portion 6 that screws on the mounting device by border, To improve the service performance of the mounting device.

In the utility model embodiment, the assembly in order to further improve the mounting device for connector is imitated Rate please refers to Fig. 5 and Fig. 6 in the specific implementation process, and test section 4 includes that two groups of photoelectric sensors 40 and laser positioning pass Sensor 41, specifically, two groups of photoelectric sensors 40 include first group of photoelectric sensor 401 and second group of photoelectric sensor 402, First group of photoelectric sensor 401 is arranged in first side in the portion of screwing 6, second group of photoelectric sensor 402 be arranged in the portion of screwing 6 with The opposite second side in first side, two groups of photoelectric sensors 40 are for detecting in the R radio frequency cavity with the presence or absence of connection Device, wherein every group of photoelectric sensor includes the emission part for emitting optical signal, and the receiving unit for receiving optical signal, The emission part and receiving unit of every group of photoelectric sensor are oppositely arranged on the inner sidewall of same sidepiece part, for example, first group of photoelectricity Sensor 401 includes the first emission part 4011 and the second receiving unit 4012, and first side is located at and screws with described second side On the vertical direction of the central axle portion in portion 6.

The area that first side screwed in portion is surrounded with described second side is arranged in laser positioning sensor 41 In domain, including the emission part 410 for emitting optical signal, and the receiving unit 411 for receiving optical signal, laser positioning sensing If device 41 determines that there are i-th of connector, laser positionings in the R radio frequency cavity for two groups of photoelectric sensors 40 Sensor 41 works, and determines i-th of position locating for i-th of connector.For example, in laser positioning sensor 41 After detecting the edge of connector, control unit 5 can will screw portion 6 and be moved to locating for i-th of connector I-th of position is at pre-determined distance.To realize the portion of screwing 6 to the accurate fastening between connector and radio frequency cavity. Laser positioning sensor with respect to photoelectric sensor for, position it is more accurate.

In the utility model embodiment, in order to guarantee that control unit 5 will screw 6 accurate movement of portion to apart from connector center At the pre-determined distance of position, referring still to Fig. 3, described device further include:

Driving section 7 is connect with the portion that screws 6, for determining described i-th of i-th of connector in control unit 5 After setting, the portion that screws 6 is moved to i-th of position locating for the i connector at the position of pre-determined distance.

In the specific implementation process, referring still to Fig. 3 and Fig. 4, driving section 7 is specifically included:

Vertical motion portion 8 is connect with the first end of the central axle portion in the portion that screws 6, and vertical motion portion 8 includes vertically movable leads Rail 81 and jack-up cylinder 82, jack up cylinder 82 under the action of control unit 5, control screws portion 6 along the vertically movable guide rail 81 It is mobile；

Transverse movement portion 9 is connect with the second end of the central axle portion in the portion that screws 6, and transverse movement portion 9 is led including transverse shifting Rail 91, ball screw 92 and motor 93, wherein under the action of motor 93, control screws portion 6 and laterally moves ball screw 92 Guide rail 91 is mobile；

Wherein, portion 6 is screwed under vertical motion portion 8 and 9 collective effect of transverse movement portion, will be screwed portion 6 and is moved to and institute I-th of position locating for i-th of connector is stated at the position of the pre-determined distance.

In the utility model embodiment, in order to further improve the service performance of the mounting device, described device Further include: alarm department is connect with control unit 5, if control unit 5 determine i-th of connector be not fastened to predetermined torque with Predetermined angle shows that i-th of connector was fastening for exporting then after the triggering command for receiving control unit 5 The fault message to break down in journey.For example, " current torque is excessive ", the fault messages such as " current torque is too small ".

In the utility model embodiment, in order to further improve the service performance of the mounting device, specific real During applying, for each limiting section, one can also be respectively set and started switch, once the corresponding switch of starting, then correspondingly Start the mounting device according to preset order successively to the tight of the connector switched on corresponding limiting section and radio frequency cavity part Gu process.

In addition, control unit 5 is provided simultaneously with real-time torsion detectability in the utility model embodiment, to judge to connect Whether device is accurately installed, and if can not be accurately installed, generates fault alarm signal, prompts specific abort situation, such as connector There is abnormal point at upper certain positions, so that user is quickly handled after switching station, to further increase The service performance of the mounting device.

In the utility model embodiment, for the ease of user's manipulation, and according to the actual demand of user by connector It is fastened on the mounting device according to predetermined torque and predetermined angle, control unit 5 can be described with an external touching display screen Touching display screen can be liquid crystal display, can receive the input operation from user for torque and angle on it, To further increase the service performance of the mounting device.Although the preferred embodiment of the utility model has been described, Once a person skilled in the art knows basic creative concepts, then these embodiments can be made other change and Modification.So it includes preferred embodiment and all changes for falling into the scope of the utility model that the following claims are intended to be interpreted as More and modify.

Obviously, it is practical without departing from this can to carry out various modification and variations to the utility model by those skilled in the art Novel spirit and scope.If in this way, these modifications and variations of the present invention belong to the utility model claims and Within the scope of its equivalent technologies, then the utility model is also intended to include these modifications and variations.

Claims (6)

1. a kind of mounting device of connector characterized by comprising

Main part, at least one component on the mounting device of fixed connection device；

R limiting section is arranged on the main part, and the R limiting section is for accommodating and fixing R radio frequency cavity, wherein Each radio frequency cavity includes M nipple orifice, and R and M are positive integer；

Test section, for according to preset order successively to M nipple orifice for being inserted into the first radio frequency cavity in the R radio frequency cavity In M connector in i-th connector carry out position detection, obtain i-th of position where i-th of connector its In, i successively takes 1 to M positive integer；

Control unit is connect with the test section；

Portion is screwed, is connect with the control unit, for receiving the control instruction from the control unit, according to the preset order Successively i-th of M connector at i-th of position is fastened on the first radio frequency cavity.

2. device as described in claim 1, which is characterized in that the portion of screwing includes:

Servo motor, flexible drive mechanism and Hexagonal jacket, wherein by the flexible drive mechanism by the servo motor It is connected with the Hexagonal jacket, the Hexagonal jacket and the R limiting section are on same central plane, in the hexagonal Sleeve and i-th of connector are located at same vertical plane, and when the Hexagonal jacket entangles i-th of connector, institute Hexagonal jacket is stated under the action of the servo motor, i-th of connector is fastened to corresponding radio frequency cavity default Torque and predetermined angle.

3. device as described in claim 1, which is characterized in that the test section includes:

Two groups of photoelectric sensors, including first group of photoelectric sensor and second group of photoelectric sensor, first group of photoelectric sensing Device is arranged in first side for screwing portion, and second group of photoelectric sensor is arranged in described screwing portion with first side Opposite second side, two groups of photoelectric sensors are for detecting in the R radio frequency cavity with the presence or absence of connector, wherein Every group of photoelectric sensor includes the emission part for emitting optical signal, and for receiving the first side described in the receiving unit of optical signal It is located on the direction vertical with the central axle portion for screwing portion with described second side；

Laser positioning sensor is arranged in first side screwed in portion and second side area defined, If determining that, there are i-th of connector in the R radio frequency cavity, the laser is fixed for two groups of photoelectric sensors Level sensor work, determines i-th of position locating for i-th of connector, wherein the laser positioning sensor Including the emission part for emitting optical signal, and the receiving unit for receiving optical signal.

4. device as described in claim 1, which is characterized in that described device further include:

Driving section is connect with the portion of screwing, for determining described i-th of i-th of connector in the control unit After position, the portion of screwing is moved to i-th of position locating for the i connector at a distance of the position of pre-determined distance Set place.

5. device as claimed in claim 4, which is characterized in that the driving section includes:

Vertical motion portion is connect with the first end of the central axle portion for screwing portion, and the vertical motion portion includes vertically movable Guide rail and jack-up cylinder, the jack-up cylinder screw portion along described vertically movable under the action of the control unit, described in control Guide rail is mobile；

Transverse movement portion is connect with the second end of the central axle portion for screwing portion, and the transverse movement portion includes transverse shifting Guide rail, ball screw and motor, wherein the ball screw screws portion along described under the action of the motor, described in control Transverse shifting guide rail is mobile；

Wherein, the portion that screws moves the portion of screwing under the vertical motion portion and transverse movement portion collective effect Move to i-th of position locating for i-th of connector at the position of the pre-determined distance.

6. device as described in claim 1, which is characterized in that described device further include:

Alarm department is connect with the control unit, if the control unit determines that i-th of connector is not fastened to predetermined torque Show i-th of connector tight for exporting then after the triggering command for receiving the control unit with predetermined angle The fault message to break down during Gu.