CN210585969U - Quartz crystal resonator detection device - Google Patents

Abstract

The utility model provides a quartz crystal syntonizer detection device, the purpose is solved current detection device and is consumeed the technical problem that the manpower is big, work efficiency is low. The adopted technical scheme is as follows: a quartz crystal resonator detection device comprises an annular material tray driven by a stepping motor, wherein a plurality of material boxes are uniformly arranged on the surface of the material tray; an insulation detection probe and a parameter detection probe are arranged above the material tray, and the insulation detection probe is electrically connected with the insulation testing device and is adapted to drive the insulation testing device to move along the vertical direction; the parameter detection probe is electrically connected with the parameter testing device and is adapted to drive the parameter testing device to move along the vertical direction; the material taking suction nozzle is driven by the third linear motor to convey the sucked defective products to the defective product slide way.

Description

Quartz crystal resonator detection device

Technical Field

The utility model relates to a syntonizer check out test set technical field, concretely relates to quartz crystal syntonizer detection device.

Background

The quartz crystal resonator is an electronic component for generating high-precision oscillation frequency by utilizing piezoelectric effect of quartz crystal, is formed from quartz crystal chip, base seat, external shell and silver colloid, etc. and is mainly used for frequency control and frequency selection circuit, and has extensive application in communication equipment, TV set, telephone set, electronic toy, timer, electronic clock and calculator, etc.

During the production and processing of the quartz crystal resonator, the insulation performance and various electrical parameters of the quartz crystal resonator need to be detected; most of the existing quartz crystal resonator detection devices are single in function, do not have a sorting function, cannot sort detected defective products in the detection process, and need to remove the defective products through manual operation. This not only needs to consume a large amount of manpowers, and operating personnel is difficult to leave, when operating personnel has something to leave, in order to avoid the defective products to flow out, needs to close detection device, and this can lead to work efficiency to reduce.

Disclosure of Invention

An object of the utility model is to provide a quartz crystal syntonizer detection device can practice thrift the manpower, improve work efficiency.

In order to achieve the above object, the utility model adopts the following technical scheme:

a quartz crystal resonator detection apparatus comprising:

the material tray is annular and is driven by the stepping motor, and a plurality of material boxes are uniformly arranged on the surface of the material tray;

the insulation detection probe is positioned above the material tray and is electrically connected with the insulation testing device, and the insulation detection probe is adapted to drive the first linear motor to move along the vertical direction;

the parameter detection probe is positioned above the material tray and is electrically connected with the parameter testing device, and the parameter detection probe is adapted to drive the second linear motor to move along the vertical direction;

and the material taking mechanism comprises a material taking suction nozzle, and the material taking suction nozzle conveys the sucked defective products to a defective product slideway under the driving of a third linear motor.

Preferably, the material taking suction nozzles are provided with two groups and are respectively positioned at the downstream of the insulation detection probe and the downstream of the parameter detection probe.

Preferably, the material box and the material tray are correspondingly provided with bolt holes and fixedly connected through bolts; the magazine is evenly provided with a plurality of material troughs for placing the quartz crystal resonators.

Preferably, the insulation detection probe is composed of a plurality of groups of insulation test probes, and the insulation test probes are mounted on a first mounting seat driven by a first linear motor.

Preferably, the parameter detection probe consists of a plurality of groups of parameter test probes, and the parameter test probes are arranged on a second mounting seat driven by a second linear motor.

Preferably, the feeding end of charging tray is adapted to be provided with a vibration feeding tray and a feeding mechanism, the discharging end of the vibration feeding tray is closed, and the feeding suction nozzle of the feeding mechanism is used for conveying the quartz crystal resonator at the discharging end of the vibration feeding tray to the charging tray under the driving of the fourth linear motor.

Preferably, the discharging end of the charging tray is provided with a discharging mechanism, and a discharging suction nozzle of the discharging mechanism is driven by a fifth linear motor to convey qualified products to a discharging slideway.

The utility model discloses a theory of operation does: the stepping motor can drive the material tray to rotate in a stepping mode, and the quartz crystal resonator placed in the material tray can move along with the material tray; when the defective products are detected by the insulation detection probe or the parameter detection probe, the defective products are sucked out by the material taking mechanism through the material taking suction nozzle and conveyed to the defective product slideway, so that screening of the defective products is completed.

Therefore, the utility model has the advantages that: the detected defective products can be automatically sorted, manpower is saved, and work efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings 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 application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a top view of the present invention;

FIG. 2 is a schematic view of the structure of an insulation detection probe;

FIG. 3 is a schematic view of a parameter sensing probe;

FIG. 4 is a schematic view of a take-off mechanism;

reference numerals: 1. a material tray; 2. an insulation detection probe; 3. a parameter detection probe; 4. a material taking mechanism; 5. a first linear motor; 6. a second linear motor; 7. a material taking suction nozzle; 8. a third linear motor; 9. a magazine; 10. a defective product slide way; 11. an insulation test probe; 12. a first mounting seat; 13. a parametric test probe; 14. a second mounting seat; 15. a feeding mechanism; 16. a discharging mechanism; 17. a discharge chute; 18. vibrating a feeding tray; 19. a stepper motor.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Embodiments of the present invention will be described in detail below with reference to fig. 1 to 4.

The embodiment of the utility model provides a quartz crystal syntonizer detection device, this detection device includes:

the material tray 1 is annular and is driven by a stepping motor 19, and a plurality of material boxes 9 are uniformly arranged on the surface of the material tray 1.

And the insulation detection probe 2 is positioned above the material tray 1 and is electrically connected with the insulation testing device, and the insulation detection probe 2 is matched with and drives the first linear motor 5 to move along the vertical direction. It should be understood that the insulation test apparatus may select a commonly used resonator insulation test device. The first linear motor 5 can drive the insulation detection probe 2 to move up and down at a frequency matched with the stepping motor 19, and can also be matched with a sensor of the insulation detection probe 2, so that when the quartz crystal resonator to be detected moves below the insulation detection probe 2, the first linear motor 5 can correspondingly drive the insulation detection probe 2 to move down to detect the quartz crystal resonator.

The parameter detection probe 3 is positioned above the material tray 1 and is electrically connected with the parameter testing device, and the parameter detection probe 3 is adapted to drive the second linear motor 6 to move along the vertical direction; it should be understood that the parametric test apparatus selects a commonly used resonator parametric test device. The second linear motor 6 can drive the parameter detection probe 3 to move up and down at the frequency matched with the stepping motor 19, and can also be matched with a sensor for the parameter detection probe 3, so that when the quartz crystal resonator to be detected moves below the parameter detection probe 3, the second linear motor 6 can correspondingly drive the parameter detection probe 3 to move down to detect the quartz crystal resonator.

And the material taking mechanism 4 comprises a material taking suction nozzle 7, and the material taking suction nozzle 7 conveys the sucked defective products to a defective product slide way 10 under the driving of a third linear motor 8. It should be understood that the material taking suction nozzle 7 is adapted with a vacuum pump, and the controller of the material taking mechanism 4 is respectively electrically connected with the insulation testing device, the parameter testing device, the vacuum pump and the third linear motor 8; when the insulation testing device or the parameter testing device detects a defective product, a signal is transmitted to the controller of the material taking mechanism 4; the material taking mechanism 4 starts a vacuum pump and sucks out corresponding defective products through the material taking suction nozzle 7 when the quartz crystal resonator moves to the lower part of the quartz crystal resonator, and conveys the defective products to the defective product slideway 10 through the third linear motor 8.

In the following, the embodiment of the present invention is explained, the stepping motor 19 will drive the tray 1 to rotate in a stepping manner, and the quartz crystal resonator placed in the magazine 9 will also move along with it; the quartz crystal resonator is characterized in that an insulation detection probe 2 and a parameter detection probe 3 are sequentially arranged on a moving path of the quartz crystal resonator, when defective products are detected by the insulation detection probe 2 or the parameter detection probe 3, the defective products are sucked out by the material taking mechanism 4 through the material taking suction nozzle 7 and conveyed to the defective product slideway 10, and accordingly screening of the defective products is completed. The utility model discloses can sort the defective products of examining out automatically, practice thrift the manpower, improve work efficiency.

As the utility model discloses a further optimization, get material suction nozzle 7 and set up two sets ofly, and be located insulating test probe 2's low reaches and parameter test probe 3's low reaches respectively. It should be understood that the next adjacent station of the insulation detection probe 2 and the next adjacent station of the parameter detection probe 3 are respectively provided with a set of material taking suction nozzles 7.

Furthermore, the material box 9 and the material tray 1 are correspondingly provided with bolt holes and fixedly connected through bolts; the material box 9 is uniformly provided with a plurality of material grooves for placing quartz crystal resonators. It should be understood that the magazine 9 is connected with the tray 1 by bolts, which facilitates the removal and replacement; in addition, can choose for use the magazine 9 that has the different size specification silos to detect the quartz crystal syntonizer of different size specifications, application scope is wider.

Further, the insulation detection probe 2 is composed of a plurality of sets of insulation test probes 11, and the insulation test probes 11 are mounted on a first mounting seat 12 driven by the first linear motor 5.

Further, the parameter detection probe 3 is composed of a plurality of sets of parameter test probes 13, and the parameter test probes 13 are mounted on a second mounting seat 14 driven by the second linear motor 6.

Further, the feeding end of the material tray 1 is provided with a vibration feeding tray 18 and a feeding mechanism 15 in a matching mode, the discharging end of the vibration feeding tray 18 is closed, and a feeding suction nozzle of the feeding mechanism 15 is used for conveying the quartz crystal resonator at the discharging end of the vibration feeding tray 18 to the material tray 1 under the driving of a fourth linear motor. It should be understood that the structure and operation of the feeding mechanism 15 are similar to those of the material taking mechanism 4, and thus, the description thereof is omitted.

Further, the discharging end of the tray 1 is adapted with a discharging mechanism 16, and a discharging nozzle of the discharging mechanism 16 is driven by a fifth linear motor to convey qualified products to a discharging slideway 17. It should be understood that the structure and operation of the take-off mechanism 16 is similar to that of the take-off mechanism 4 and will not be described in detail herein.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that changes and modifications may be made to these embodiments without departing from the principles and spirit of the invention, and these changes and modifications are intended to fall within the scope of the invention.

Claims (7)

1. A quartz crystal resonator detection device is characterized in that: the method comprises the following steps:

the material tray (1) is annular and is driven by a stepping motor (19), and a plurality of material boxes (9) are uniformly arranged on the surface of the material tray (1);

the insulation detection probe (2) is positioned above the material tray (1) and is electrically connected with the insulation test device, and the insulation detection probe (2) is adapted to drive a first linear motor (5) which moves along the vertical direction;

the parameter detection probe (3) is positioned above the material tray (1) and is electrically connected with the parameter testing device, and the parameter detection probe (3) is adapted to drive a second linear motor (6) which moves along the vertical direction;

and the material taking mechanism (4) comprises a material taking suction nozzle (7), and the material taking suction nozzle (7) conveys the sucked defective products to a defective product slide way (10) under the driving of a third linear motor (8).

2. The quartz crystal resonator detector of claim 1, wherein: the material taking suction nozzles (7) are arranged in two groups and are respectively positioned at the downstream of the insulation detection probe (2) and the downstream of the parameter detection probe (3).

3. The quartz crystal resonator detector of claim 2, wherein: the material box (9) and the material tray (1) are correspondingly provided with bolt holes and fixedly connected through bolts; and a plurality of material grooves for placing the quartz crystal resonators are uniformly arranged on the material box (9).

4. The quartz crystal resonator detector of claim 3, wherein: the insulation detection probe (2) is composed of a plurality of groups of insulation test probes (11), and the insulation test probes (11) are installed on a first installation seat (12) driven by a first linear motor (5).

5. The quartz crystal resonator detector of claim 4, wherein: the parameter detection probe (3) is composed of a plurality of groups of parameter test probes (13), and the parameter test probes (13) are arranged on a second mounting seat (14) driven by a second linear motor (6).

6. The quartz crystal resonator detector of claim 5, wherein: the feed end of charging tray (1) is adapted to be provided with vibration feeding tray (18) and feed mechanism (15), the discharge end of vibration feeding tray (18) is sealed, and the feeding suction nozzle of feed mechanism (15) carries the quartz crystal resonator of vibration feeding tray (18) discharge end to charging tray (1) under the drive of fourth linear motor.

7. The quartz crystal resonator detector of claim 6, wherein: the discharging end of the charging tray (1) is provided with a discharging mechanism (16), and a discharging suction nozzle of the discharging mechanism (16) is driven by a fifth linear motor to convey qualified products to a discharging slideway (17).

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