CN112230288A - Antenna oscillator medium detection device and method - Google Patents

Abstract

The invention discloses an antenna oscillator medium detection device, which comprises a machine table, wherein a translation loading platform is arranged on the machine table, a jig for placing a workpiece is fixed on the translation loading platform, a plurality of groups of medium detection positions are arranged on the jig, two detection probes are arranged at each group of medium detection positions, a support is fixed on the machine table, a lifting driving mechanism is arranged on the support, a lifting pressure plate is arranged at the driving end of the lifting driving mechanism, when a workpiece is loaded on the jig, the jig and the workpiece are driven to move to the lower side of the pressure rising and reducing plate by the aid of the moving carrier, the pressure rising and reducing plate is driven to fall by the aid of the lifting driving mechanism, the medium block on the workpiece is enabled to be tightly abutted against the two detection probes on the medium detection position, the display panel is arranged on the support, the display panel is provided with a plurality of indicating lamps, the indicating lamps correspond to the medium detection positions one to one, and the indicating lamps are used for sending preset light when the two detection probes on the medium detection position detect the medium block on the workpiece. The invention has the advantages of time saving, labor saving, high detection efficiency and more accurate detection result.

Description

Antenna oscillator medium detection device and method

Technical Field

The invention relates to antenna detection equipment, in particular to an antenna oscillator medium detection device and method.

Background

In the prior art, the antenna oscillator needs to be assembled with a plurality of dielectric blocks in the manufacturing process, and in the inspection process after the assembly is completed, the mode of artificial vision inspection is generally adopted to judge whether the dielectric blocks on the antenna oscillator are assembled in place.

Disclosure of Invention

The invention aims to solve the technical problem of providing an antenna oscillator medium detection device and method which are time-saving, labor-saving, high in detection efficiency and accurate in detection result and further improve product quality aiming at the defects of the prior art.

In order to solve the technical problems, the invention adopts the following technical scheme.

An antenna oscillator medium detection device comprises a machine table, wherein a translation loading platform is arranged on the machine table and can translate relative to the machine table, a jig for placing a workpiece is fixed on the translation loading platform, a plurality of groups of medium detection positions are arranged on the jig and correspond to a plurality of medium blocks on the workpiece one by one, two detection probes are arranged at each group of medium detection positions, a support is fixed on the machine table, a lifting driving mechanism is arranged on the support, a lifting pressure plate is arranged at the driving end of the lifting driving mechanism, the lifting pressure plate and the jig are parallel to each other, after the workpiece is loaded on the jig, the jig and the workpiece are driven by the translation loading platform to translate to the position below the lifting pressure plate, the lifting pressure plate is driven to descend by the lifting driving mechanism, and the pressure applied by the lifting pressure plate, the medium block on the workpiece is tightly abutted with the two detection probes on the medium detection position, the support is provided with a display panel, the display panel is provided with a plurality of indicator lamps, the indicator lamps are in one-to-one correspondence with the medium detection positions, and the indicator lamps are used for emitting preset light when the two detection probes on the medium detection positions detect the medium block on the workpiece.

Preferably, 32 medium blocks are arranged on the workpiece, 32 medium detection positions are arranged on the jig, and 32 indicator lamps are arranged on the display panel.

Preferably, two parallel slide rails are fixed on the machine table, the translation stage is arranged on the two slide rails, and the translation stage is connected with the slide rails in a sliding manner.

Preferably, a translation driving mechanism for driving the translation carrying platform to translate back and forth is arranged below the machine platform.

Preferably, the front side of the machine platform is provided with a control panel, and the control panel is provided with two button switches which are respectively used for controlling the lifting driving mechanism to execute lifting action and controlling the translation driving mechanism to execute translation action.

Preferably, an emergency stop switch is arranged on the control panel.

Preferably, be equipped with a plurality of serial number signs on the display panel, the serial number sign with the pilot lamp one-to-one, just the serial number sign with the pilot lamp is adjacent to be set up.

Preferably, the support is including four stands and a roof, the lower extreme of four stands all with board fixed connection, the upper end fixed connection of roof and four stands.

An antenna oscillator medium detection method is realized based on a device, the device comprises a machine table, a translation loading platform is arranged on the machine table and can translate relative to the machine table, a jig for placing a workpiece is fixed on the translation loading platform, a plurality of groups of medium detection positions are arranged on the jig and correspond to a plurality of medium blocks on the workpiece one by one, two detection probes are arranged at each group of medium detection positions, a support is fixed on the machine table, a lifting driving mechanism is arranged on the support, a lifting and reducing plate is arranged at the driving end of the lifting driving mechanism and parallel to the jig, a display panel is arranged on the support, a plurality of indicator lamps are arranged on the display panel, and the indicator lamps correspond to the medium detection positions one by one, and the method comprises the following steps: step S1, loading the workpiece on the jig; step S2, driving the jig and the workpiece to translate to the position below the pressure rising and reducing plate by using the translation carrying platform; step S3, driving the lifting and lowering plate to descend by the lifting and lowering driving mechanism, and enabling the medium block on the workpiece to be tightly abutted to the two detection probes on the medium detection position by the aid of pressure applied by the lifting and lowering plate; step S4, when two detection probes on the medium detection position detect the medium block on the workpiece, the indicator light is used for emitting preset light; and step S5, judging whether all the dielectric blocks on the workpiece are assembled in place or not by observing the light emitting conditions of the indicator lamps.

Preferably, two parallel slide rails are fixed on the machine platform, the translation stage is disposed on the two slide rails, the translation stage is slidably connected to the slide rails, a translation driving mechanism is disposed below the machine platform, and in step S2, the translation stage is driven to translate back and forth by the translation driving mechanism.

In the antenna oscillator medium detection device disclosed by the invention, the jig carrying the workpiece is driven by the translation carrying platform to translate to the position below the pressure rising and reducing plate or move out of the position below the pressure rising and reducing plate, so that the feeding and discharging operation is conveniently executed, meanwhile, the pressure rising and reducing plate is driven by the lifting driving mechanism to ascend or descend, the oscillator workpiece is pressed by the pressure rising and reducing plate, so that the medium block is tightly abutted against the two detection probes, when the medium block on the workpiece is detected by the two detection probes on the medium detection position, the indicator lamp is used for emitting preset light, an operator can directly judge whether the plurality of medium blocks on the workpiece are completely assembled in place or not by observing the light emitting condition of the plurality of indicator lamps, and the specific positions of the medium blocks which are not assembled and wrongly assembled can be assembled, compared with the prior art, the antenna oscillator medium detection device does not need to manually observe the plurality of medium blocks visually, not only labour saving and time saving, can effectively avoid moreover because of long-time repetitive operation leading to missing the inspection, the wrong detection condition takes place, improved inspection efficiency and accuracy greatly, satisfied the production requirement betterly.

Drawings

FIG. 1 is a perspective view of an antenna element medium detection device according to the present invention;

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

FIG. 3 is a front view of the antenna element dielectric detection device of the present invention;

fig. 4 is a side view of the antenna element medium detecting device of the present invention.

Detailed Description

The invention is described in more detail below with reference to the figures and examples.

The invention discloses an antenna oscillator medium detection device, which is shown in a combined drawing 1-4 and comprises a machine table 1, wherein a translation carrier 2 is arranged on the machine table 1, the translation carrier 2 can translate relative to the machine table 1, a jig 3 for placing a workpiece is fixed on the translation carrier 2, a plurality of groups of medium detection positions 30 are arranged on the jig 3, the medium detection positions 30 correspond to a plurality of medium blocks on the workpiece one by one, each group of medium detection positions 30 is provided with two detection probes 31, a support 4 is fixed on the machine table 1, a lifting driving mechanism 5 is arranged on the support 4, a lifting and reducing plate 6 is arranged at the driving end of the lifting driving mechanism 5, the lifting and reducing plate 6 is parallel to the jig 3, after the workpiece is loaded on the jig 3, the jig 3 and the workpiece are driven by the translation carrier 2 to translate to the position below the lifting and reducing plate 6, the lifting driving mechanism 5 drives the lifting and lowering plate 6 to descend, the pressure applied by the lifting and lowering plate 6 enables the medium blocks on the workpiece to be tightly abutted to the two detection probes 31 on the medium detection position 30, the support 4 is provided with a display panel 40, the display panel 40 is provided with a plurality of indicator lamps 41, the indicator lamps 41 are in one-to-one correspondence with the medium detection positions 30, and the indicator lamps 41 are used for emitting preset light when the two detection probes 31 on the medium detection position 30 detect the medium blocks on the workpiece.

In the device, the jig 3 carrying the workpiece is driven by the translation carrying platform 2 to translate to the position below the pressure rising and reducing plate 6 or move out from the position below the pressure rising and reducing plate 6, so that the loading and unloading operation is conveniently executed, meanwhile, the pressure rising and reducing plate 6 is driven by the lifting driving mechanism 5 to ascend or descend, the vibrator workpiece is pressed by the pressure rising and reducing plate 6, so that the dielectric block is tightly abutted against the two detection probes 31, when the dielectric block on the workpiece is detected by the two detection probes 31 on the dielectric detection position 30, the indicator lamp 41 is used for emitting preset light, an operator can directly judge whether the plurality of dielectric blocks on the workpiece are completely assembled in place or not by observing the light emitting condition of the plurality of indicator lamps 41, and the specific positions of the neglected-loading and mistakenly-loading dielectric blocks are compared with the prior art, the device does not need to manually visually observe the plurality of dielectric blocks, not only labour saving and time saving, can effectively avoid moreover because of long-time repetitive operation leading to missing the inspection, the wrong detection condition takes place, improved inspection efficiency and accuracy greatly, satisfied the production requirement betterly.

In practice, the two detection probes 31 can detect the dielectric block in various ways, such as: the detecting probe 31 may be a trigger switch or a current detecting probe, but the present invention is not limited thereto, that is, any means capable of sensing and detecting the dielectric block in the prior art should fall within the protection scope of the present invention.

Further, the on state of the indicator 41 can be realized by turning on or off, or by emitting red and green lights.

As a preferable mode, the workpiece has 32 dielectric blocks, the jig 3 is provided with 32 dielectric detection positions 30, and the display panel 40 is provided with 32 indicator lamps 41.

In order to realize reliable translation of the translation stage 2, in this embodiment, two parallel slide rails 10 are fixed on the machine table 1, the translation stage 2 is disposed on the two slide rails 10, and the translation stage 2 is slidably connected to the slide rails 10.

In order to facilitate the operation, in this embodiment, a translation driving mechanism for driving the translation stage 2 to translate back and forth is disposed below the machine table 1.

Further, a control panel 11 is arranged on the front side of the machine table 1, and two button switches 12 are arranged on the control panel 11 and are respectively used for controlling the lifting driving mechanism 5 to execute lifting actions and controlling the translation driving mechanism to execute translation actions. And an emergency stop switch 13 is arranged on the control panel 11.

As a preferable mode, a plurality of serial number marks 42 are arranged on the display panel 40, the serial number marks 42 correspond to the indicator lamps 41 one by one, and the serial number marks 42 are adjacent to the indicator lamps 41. By observing the serial number marks 42, the accurate positions of the unqualified medium blocks can be rapidly and accurately obtained.

Regarding the specific structure of the support 4, in this embodiment, the support 4 includes four upright columns 43 and a top plate 44, lower ends of the four upright columns 43 are all fixedly connected to the machine platform 1, and the top plate 44 is fixedly connected to upper ends of the four upright columns 43.

In order to better describe the technical scheme of the invention, the invention further relates to an antenna oscillator medium detection method, which is realized based on a device shown in fig. 1 to 4, wherein the device comprises a machine table 1, a translation carrier 2 is arranged on the machine table 1, the translation carrier 2 can translate relative to the machine table 1, a jig 3 for placing a workpiece is fixed on the translation carrier 2, a plurality of groups of medium detection positions 30 are arranged on the jig 3, the medium detection positions 30 correspond to a plurality of medium blocks on the workpiece one by one, each group of medium detection positions 30 is provided with two detection probes 31, a support 4 is fixed on the machine table 1, a lifting drive mechanism 5 is arranged on the support 4, a lifting plate 6 is arranged at the drive end of the lifting drive mechanism 5, the lifting plate 6 is parallel to the jig 3, and a display panel 40 is arranged on the support 4, the display panel 40 is provided with a plurality of indicator lamps 41, the indicator lamps 41 correspond to the medium detection positions 30 one by one, and the method comprises the following steps:

step S1, loading the workpiece on the jig 3;

step S2, driving the jig 3 and the workpiece to translate to the position below the pressure rising and reducing plate 6 by using the translation carrying platform 2;

step S3, driving the pressure rising and lowering plate 6 to descend by the lifting driving mechanism 5, and enabling the medium block on the workpiece to be tightly abutted with the two detection probes 31 on the medium detection position 30 by the pressure exerted by the pressure rising and lowering plate 6;

step S4, when the two detection probes 31 on the medium detection position 30 detect the medium block on the workpiece, the indicator lamp 41 is used for emitting a preset light;

step S5, by observing the light emitting conditions of the indicator lamps 41, it is determined whether all of the dielectric blocks on the workpiece are assembled in place.

Further, two parallel slide rails 10 are fixed on the machine table 1, the translation stage 2 is disposed on the two slide rails 10, the translation stage 2 is slidably connected to the slide rails 10, a translation driving mechanism is disposed below the machine table 1, and in step S2, the translation stage 2 is driven to translate back and forth by the translation driving mechanism.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents or improvements made within the technical scope of the present invention should be included in the scope of the present invention.

Claims (10)

1. An antenna oscillator medium detection device is characterized by comprising a machine table (1), wherein a translation carrying platform (2) is arranged on the machine table (1), the translation carrying platform (2) can translate relative to the machine table (1), a jig (3) for placing a workpiece is fixed on the translation carrying platform (2), a plurality of groups of medium detection positions (30) are arranged on the jig (3), the medium detection positions (30) correspond to a plurality of medium blocks on the workpiece one by one, each group of medium detection positions (30) is provided with two detection probes (31), a support (4) is fixed on the machine table (1), a lifting driving mechanism (5) is arranged on the support (4), a lifting and dropping plate (6) is arranged at the driving end of the lifting and dropping driving mechanism (5), the lifting and dropping plate (6) is parallel to the jig (3), and when the workpiece is loaded on the jig (3), the jig (3) and the workpiece are driven to translate to the position below the pressure rising and reducing plate (6) by the translation carrying platform (2), the pressure rising and reducing plate (6) is driven to descend by the lifting driving mechanism (5), the medium blocks on the workpiece are enabled to be tightly abutted to the two detection probes (31) on the medium detection position (30) by the pressure exerted by the pressure rising and reducing plate (6), the support (4) is provided with a display panel (40), the display panel (40) is provided with a plurality of indicator lamps (41), the indicator lamps (41) are in one-to-one correspondence with the medium detection positions (30), and the indicator lamps (41) are used for emitting preset light when the two detection probes (31) on the medium detection positions (30) detect the medium blocks on the workpiece.

2. The antenna element medium detection device according to claim 1, wherein the workpiece has 32 medium blocks, the jig (3) is provided with 32 medium detection positions (30), and the display panel (40) is provided with 32 indicator lamps (41).

3. The antenna element medium detection device according to claim 1, wherein two parallel slide rails (10) are fixed on the machine table (1), the translation stage (2) is disposed on the two slide rails (10), and the translation stage (2) is slidably connected to the slide rails (10).

4. The antenna element medium detection device according to claim 3, wherein a translation driving mechanism for driving the translation stage (2) to translate back and forth is arranged below the machine table (1).

5. The antenna element medium detection device according to claim 4, wherein a control panel (11) is disposed on a front side of the machine base (1), and two button switches (12) for controlling the elevation driving mechanism (5) to perform an elevation operation and controlling the translation driving mechanism to perform a translation operation are disposed on the control panel (11).

6. The antenna element medium detection device according to claim 4, wherein an emergency stop switch (13) is provided on the control panel (11).

7. The antenna element medium detection device according to claim 1, wherein a plurality of serial number marks (42) are provided on the display panel (40), the serial number marks (42) correspond to the indicator lamps (41) one by one, and the serial number marks (42) are disposed adjacent to the indicator lamps (41).

8. The antenna element medium detection device according to claim 1, wherein the support (4) comprises four upright columns (43) and a top plate (44), the lower ends of the four upright columns (43) are fixedly connected with the machine platform (1), and the top plate (44) is fixedly connected with the upper ends of the four upright columns (43).

9. A method for detecting an antenna oscillator medium is characterized by being realized based on a device, the device comprises a machine table (1), a translation carrying table (2) is arranged on the machine table (1), the translation carrying table (2) can translate relative to the machine table (1), a jig (3) for placing a workpiece is fixed on the translation carrying table (2), a plurality of groups of medium detection positions (30) are arranged on the jig (3), the medium detection positions (30) correspond to a plurality of medium blocks on the workpiece one by one, each group of medium detection positions (30) is provided with two detection probes (31), a support (4) is fixed on the machine table (1), a lifting driving mechanism (5) is arranged on the support (4), a lifting voltage reducing plate (6) is arranged at the driving end of the lifting driving mechanism (5), and the lifting voltage reducing plate (6) is parallel to the jig (3), the medium detection method is characterized in that a display panel (40) is arranged on the support (4), a plurality of indicator lamps (41) are arranged on the display panel (40), the indicator lamps (41) correspond to the medium detection positions (30) one by one, and the method comprises the following steps:

step S1, loading the workpiece on the jig (3);

step S2, driving the jig (3) and the workpiece to translate to the position below the pressure rising and reducing plate (6) by using the translation carrying platform (2);

step S3, driving the pressure rising and lowering plate (6) to descend by using the lifting driving mechanism (5), and enabling the medium block on the workpiece to be tightly abutted with the two detection probes (31) on the medium detection position (30) by means of pressure exerted by the pressure rising and lowering plate (6);

step S4, when two detection probes (31) on the medium detection position (30) detect the medium block on the workpiece, the indicator lamp (41) is used for emitting preset light;

and step S5, judging whether all the dielectric blocks on the workpiece are assembled in place by observing the light emitting conditions of the indicator lamps (41).

10. The antenna element medium detection method according to claim 9, wherein two parallel slide rails (10) are fixed on the machine table (1), the translation stage (2) is disposed on the two slide rails (10), the translation stage (2) is slidably connected to the slide rails (10), a translation driving mechanism is disposed below the machine table (1), and in step S2, the translation stage (2) is driven to translate back and forth by the translation driving mechanism.

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