CN213943965U - Detection equipment for crystal oscillator production - Google Patents

Abstract

The utility model relates to a crystal oscillator production detection device, which comprises a device body, wherein a plurality of vertical supporting beams are fixedly arranged on the bottom surface of the device body; the conveying mechanism is fixedly arranged on the top surface of the equipment body and used for conveying the crystal oscillator; the crystal oscillator sorting mechanism is fixedly installed on the equipment body, and unqualified crystal oscillators with the crystal oscillator electrodes on the conveying mechanism being inclined are sorted to the upper side of the conveying mechanism through the crystal oscillator sorting mechanism. The crystal oscillator with the inclined crystal oscillator electrode can be sorted out from the conveying mechanism through the crystal oscillator sorting mechanism, and the normal crystal oscillator of the crystal oscillator electrode is reserved, so that the subsequent processing of the crystal oscillator is facilitated; the spout among the feed mechanism is convenient for crystal oscillator dead weight landing to the conveyer belt on, because have the crystal oscillator accommodation hole on the conveyer belt, and because the electrode weight of crystal oscillator is very light, the electrode of crystal oscillator is then up when falling to the conveyer belt along the gliding crystal oscillator of spout, and the quartz crystal of crystal oscillator then is arranged in the crystal oscillator accommodation hole, and the crystal oscillator sorting mechanism of being convenient for is selected separately, its structural design is reasonable.

Description

Detection equipment for crystal oscillator production

Technical Field

The utility model relates to a crystal oscillator production technical field, especially a check out test set is used in crystal oscillator production.

Background

Some electronic devices require ac signals with highly stable frequency, and LC oscillators have poor stability and easily drift frequency (i.e. the frequency of the generated ac signal is easily changed), and a quartz crystal, which is a special component, is used in the oscillator to generate highly stable signals, and such an oscillator using a quartz crystal is called a crystal oscillator; in the conveying process of the crystal oscillator after manufacture, the electrode on the crystal oscillator is low in hardness and easy to bend and deform, so that the detection equipment for crystal oscillator production can be used for selecting the crystal oscillator with the electrode which is obvious in deflection in the crystal oscillator during conveying.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to prior art not enough, provide one kind can pick out the crooked more obvious crystal oscillator of electrode in the crystal oscillator in carrying check out equipment for crystal oscillator production.

The technical problem to be solved by the utility model is realized by the following technical proposal, including,

the bottom surface of the equipment body is fixedly provided with a plurality of vertical supporting beams;

the conveying mechanism is fixedly arranged on the top surface of the equipment body and used for conveying the crystal oscillator;

the crystal oscillator sorting mechanism is fixedly installed on the equipment body, and unqualified crystal oscillators with the crystal oscillator electrodes on the conveying mechanism being inclined are sorted to the upper side of the conveying mechanism through the crystal oscillator sorting mechanism.

The technical problem to be solved by the utility model can also be realized by the following technical proposal that the detection device for crystal oscillator production comprises a conveying mechanism,

the mounting plates are fixedly arranged on the top surface of the equipment body, and each mounting plate is composed of two mounting plates which are arranged oppositely;

the conveying belt is provided with a plurality of crystal oscillator accommodating holes for accommodating crystal oscillators, and the distance between every two adjacent crystal oscillator accommodating holes is the same;

one of the rotating shafts penetrates through the mounting plate, a gear is fixedly mounted on the peripheral surface of the rotating shaft, a rotating motor is fixedly mounted on the equipment body below the gear, and a toothed belt is mounted on the power output end of the rotating motor and the gear.

The technical problem to be solved by the utility model can also be realized by the following technical proposal that the crystal oscillator production detection device comprises a crystal oscillator sorting mechanism,

the cylinder is fixedly arranged on the top surface of the middle part of the equipment body;

the mounting block is fixedly mounted on the power output end of the air cylinder;

two groups of crystal oscillator electrode accommodating rods are fixedly mounted on the bottom surface of the mounting block, each group of crystal oscillator electrode accommodating rods is composed of two crystal oscillator electrode accommodating rods, and a gap between the two crystal oscillator electrode accommodating rods forms a crystal oscillator electrode accommodating space.

The utility model discloses the technical problem that solve can also be realized through following technical scheme, above a check out test set is used in crystal oscillator production, still including setting up the discharge mechanism at the conveying mechanism rear, it includes the ejection of compact board on the side of two mounting panels at conveyer belt rear portion, fixed mounting has crystal oscillator blanking plate on the rear end portion of ejection of compact board, crystal oscillator blanking plate be located the below of conveyer belt.

Compared with the prior art, the utility model has the advantages that: the crystal oscillator with the inclined crystal oscillator electrode can be sorted out from the conveying mechanism through the crystal oscillator sorting mechanism, and the normal crystal oscillator of the crystal oscillator electrode is reserved, so that the subsequent processing of the crystal oscillator is facilitated; the spout among the feed mechanism is convenient for crystal oscillator dead weight landing to the conveyer belt on, because have the crystal oscillator accommodation hole on the conveyer belt, and because the electrode weight of crystal oscillator is very light, the electrode of crystal oscillator is then up when falling to the conveyer belt along the gliding crystal oscillator of spout, and the quartz crystal of crystal oscillator then is arranged in the crystal oscillator accommodation hole, and the crystal oscillator sorting mechanism of being convenient for is selected separately, its structural design is reasonable.

Drawings

FIG. 1 is a schematic structural view of the present invention before use;

FIG. 2 is a schematic view of the structure of the present invention;

fig. 3 is a schematic view of the bottom structure of the mounting block of the present invention.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings so as to facilitate the further understanding of the present invention by those skilled in the art, and do not limit the right thereto.

Embodiment 1, referring to fig. 1 to 3, a detecting apparatus for crystal oscillator production, comprising,

the bottom surface is fixedly provided with an equipment body 2 of a plurality of vertical supporting beams 1;

a conveying mechanism fixedly arranged on the top surface of the equipment body 2 and used for conveying the crystal oscillator;

the crystal oscillator sorting mechanism fixedly arranged on the equipment body 2 sorts the unqualified crystal oscillator with the crystal oscillator electrode inclined on the conveying mechanism to the upper part of the conveying mechanism through the crystal oscillator sorting mechanism. The cross section of the vertical supporting beam 1 is rectangular; the cross section of the equipment body 2 is rectangular.

Embodiment 2, the check out test set for crystal oscillator production of embodiment 1, the conveying mechanism includes,

two groups of mounting plates 3 fixedly mounted on the top surface of the equipment body 2, wherein each group of mounting plates 3 consists of two mounting plates 3 arranged oppositely;

the rotary shafts are rotatably arranged between the two mounting plates 3, the outer peripheral surfaces of the two rotary shafts are tensioned with a conveyer belt 4, the conveyer belt 4 is provided with a plurality of crystal oscillator accommodating holes 5 for accommodating crystal oscillators, and the distance between every two adjacent crystal oscillator accommodating holes 5 is the same;

one of the rotating shafts penetrates through the mounting plate 3, a gear is fixedly mounted on the outer peripheral surface of the rotating shaft, a rotating motor 6 is fixedly mounted on the equipment body 2 below the gear, and a toothed belt 7 is mounted on a power output end of the rotating motor 6 and the gear. The cross section of the mounting plate 3 is rectangular; the shape of the crystal oscillator accommodating hole 5 can be set according to the shape of the crystal oscillator, so the description of the shape of the crystal oscillator accommodating hole 5 is omitted; the type of the rotating electrical machine 6 can be selected according to the use requirement in the prior art, and therefore, the method for selecting the type of the rotating electrical machine 6 is not described herein again.

Embodiment 3, the detecting apparatus for crystal oscillator production described in embodiment 2, said crystal oscillator sorting mechanism comprises,

the cylinder 8 is fixedly arranged on the top surface of the middle part of the equipment body 2;

a mounting block 9 fixedly mounted on the power output end of the cylinder 8;

two groups of crystal oscillator electrode accommodating rods 10 are fixedly arranged on the bottom surface of the mounting block 9, each group of crystal oscillator electrode accommodating rods 10 is composed of two crystal oscillator electrode accommodating rods 10, and a gap between the two crystal oscillator electrode accommodating rods 10 forms a crystal oscillator electrode accommodating space. The type of the cylinder 8 can be selected according to the use requirement in the prior art, so the method for selecting the type of the cylinder 8 is not repeated herein; the cross section of the mounting block 9 is rectangular; the cross section of the electrode accommodating rod is rectangular.

Embodiment 4, the check out test set for crystal oscillator production of embodiment 3, still include the discharge mechanism who sets up at the conveying mechanism rear, it includes the ejection of compact board 11 on the side of two mounting panels 3 at the rear portion of conveyer belt 4, fixedly mounted with crystal oscillator blanking plate 12 on the rear end of ejection of compact board 11, crystal oscillator blanking plate 12 be located the below of conveyer belt 4. The cross section of the discharging plate 11 is rectangular; the cross section of the crystal oscillator blanking plate 12 is rectangular.

When the detection equipment for crystal oscillator production is used, the rotating motor 6 is started through an external power supply, the power output end of the rotating motor 6 drives the rotating shaft to rotate through the toothed belt 7, the rotating shaft drives the conveying belt 4 thereon to rotate, the crystal oscillator to be detected is manually placed into the crystal oscillator accommodating tank, when the crystal oscillator on the conveying belt 4 is conveyed to the rear part of the conveying belt 4, the driving of the rotating motor 6 is closed, the power output end of the cylinder 8 is extended through the external power supply starting cylinder 8, the crystal oscillator with the inclined crystal oscillator electrode can be supported by the electrode accommodating rod at the moment, because the electrode part of the normal crystal oscillator is vertical to the electrode accommodating rod, and the electrode part of the crystal oscillator with the inclined electrode can block and interfere with the electrode accommodating rod during the ascending period of the electrode accommodating rod, namely can be supported by the electrode accommodating rod, so that the sorting of the unqualified crystal oscillator, namely the crystal oscillator with the inclined electrode is completed, the crystal oscillator that will be held up is taken off, and rethread external power source starts cylinder 8 and makes the power take off end of cylinder 8 resume to initial position can, the device with the separation of crystal oscillator and the transport set of crystal oscillator as an organic whole, the separation efficiency height has solved in the past can only one manual work select the means of examining crystal oscillator, has improved the machining efficiency of crystal oscillator.

Claims (4)

1. The utility model provides a check out test set is used in crystal oscillator production which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the bottom surface of the equipment body is fixedly provided with a plurality of vertical supporting beams;

the conveying mechanism is fixedly arranged on the top surface of the equipment body and used for conveying the crystal oscillator;

the crystal oscillator sorting mechanism is fixedly installed on the equipment body, and unqualified crystal oscillators with the crystal oscillator electrodes on the conveying mechanism being inclined are sorted to the upper side of the conveying mechanism through the crystal oscillator sorting mechanism.

2. The crystal oscillator production detection device as claimed in claim 1, wherein: the conveying mechanism comprises a conveying mechanism and a conveying mechanism,

the mounting plates are fixedly arranged on the top surface of the equipment body, and each mounting plate is composed of two mounting plates which are arranged oppositely;

the conveying belt is provided with a plurality of crystal oscillator accommodating holes for accommodating crystal oscillators, and the distance between every two adjacent crystal oscillator accommodating holes is the same;

one of the rotating shafts penetrates through the mounting plate, a gear is fixedly mounted on the peripheral surface of the rotating shaft, a rotating motor is fixedly mounted on the equipment body below the gear, and a toothed belt is mounted on the power output end of the rotating motor and the gear.

3. The crystal oscillator production detection device as claimed in claim 2, wherein: the crystal oscillator sorting mechanism comprises a crystal oscillator sorting mechanism,

the cylinder is fixedly arranged on the top surface of the middle part of the equipment body;

the mounting block is fixedly mounted on the power output end of the air cylinder;

two groups of crystal oscillator electrode accommodating rods are fixedly mounted on the bottom surface of the mounting block, each group of crystal oscillator electrode accommodating rods is composed of two crystal oscillator electrode accommodating rods, and a gap between the two crystal oscillator electrode accommodating rods forms a crystal oscillator electrode accommodating space.

4. The crystal oscillator production detection device as claimed in claim 3, wherein: the automatic feeding device is characterized by further comprising a discharging mechanism arranged behind the conveying mechanism, the discharging mechanism comprises discharging plates arranged on the side faces of the two mounting plates at the rear part of the conveying belt, a crystal oscillator blanking plate is fixedly mounted on the rear end part of each discharging plate, and the crystal oscillator blanking plate is located below the conveying belt.

Images