CN209027473U - A kind of atomizing piece micro-hole detection device - Google Patents

Abstract

The utility model provides a kind of atomizing piece micro-hole detection device, including parallel light source generator, outer housing, photoelectric sensor and processing unit, the outer housing is provided with the hollow cavity for light transmission along its length, the parallel light source generator is connected to one end of the outer housing, the photoelectric sensor is set to the other end of the outer housing, the parallel light source generator and the photoelectric sensor are located at the both ends of the hollow cavity, and the outer housing is provided with the mounting base for grafting atomizing piece between the parallel light source generator and the photoelectric sensor, the photoelectric sensor is electrically connected with the processing unit.Using the atomizing piece micro-hole detection device of technical solutions of the utility model, which can accurately detect the quality and quantity of the micropore of atomizing piece, so that the drilling quality to atomizing piece is monitored, and then protect worker's eye health.

Description

A kind of atomizing piece micro-hole detection device

Technical field

The utility model relates to micropore detection technique fields, and in particular to a kind of atomizing piece micro-hole detection device.

Background technique

With the continuous improvement of human living standards, people increasingly increase the demand of all kinds of champignon articles, in order to make Champignon product to spread a kind of piezoelectric atomizer application for having Piezoelectric Ceramic rapidly increasingly extensive.Such atomizer is mainly benefit Make the champignon product shock of macromolecular mass across the micropore of atomizing piece with pressure, so that champignon product are dispersed as micel, by This achievees the effect that champignon product quick break and quickly spreads, therefore the quality of the atomization metal on piece micropore in this kind of atomizer The final atomizing effect of atomizer is decide with quantity.

In existing technology, using manual detection mode, i.e., each factory is for the detection of micropore on such atomizing piece Worker irradiates light beam against the atomizing piece sheet metal after punching, and is observed from another side to it, and workpeople is rule of thumb Examine the quality and quantity of the micropore of atomizing piece.Above-mentioned manual detection mode make atomizing piece detection efficiency extremely low and it is easy go out Mistake wastes a large amount of human and material resources, and workers with long time visual detection is easy to cause serious damage to eyes.

Summary of the invention

The purpose of the utility model is to provide a kind of atomizing piece micro-hole detection device, the atomizing piece micro-hole detection devices The quality and quantity of the micropore of atomizing piece can be accurately detected, so that the drilling quality to atomizing piece is monitored, and then is protected Worker's eye health.

Based on this, the utility model provides a kind of atomizing piece micro-hole detection device, including parallel light source generator, shell Body, photoelectric sensor and processing unit, the outer housing is provided with the hollow cavity for light transmission along its length, described flat Line light source generator is connected to one end of the outer housing, and the photoelectric sensor is set to the other end of the outer housing, institute It states parallel light source generator and the photoelectric sensor is located at the both ends of the hollow cavity, and the outer housing is described flat Be provided with the mounting base for grafting atomizing piece between line light source generator and the photoelectric sensor, the photoelectric sensor with The processing unit electrical connection.

Preferably, the mounting base is vertically installed in the hollow cavity, and it is logical that the mounting base is provided with middle part Hole and inserting groove for grafting atomizing piece, the middle through-hole connect with the inserting groove and the hollow cavity respectively, institute The light that inserting groove issues atomizing piece with the parallel light source generator is stated to be vertically arranged.

Preferably, the material of the mounting base is rubber.

Preferably, the side of the outer housing is provided with resigning groove, the inserting groove and the resigning groove It connects, and the slot bottom end face flush of the end face of the first end of the mounting base and the resigning groove.

Preferably, the outer housing is provided with clamping groove in its inner wall, the second end of the mounting base with it is described The first end of mounting base is oppositely arranged, and the second end of the mounting base is connected in the clamping groove.

Preferably, the parallel light source generator is semiconductor laser, and one end of the outer housing is provided with The first through hole being connected with the hollow cavity, the semiconductor laser interference are connected to the first through hole, and described The camera lens of semiconductor laser is located in the hollow cavity.

Preferably, the other end of the outer housing is provided with the second through-hole being connected with the hollow cavity, The photoelectric sensor is connected to second through-hole, and the processing unit is PC machine, and the photoelectric sensor passes through connecting line And it is electrically connected with the PC machine.

Preferably, the outer housing includes first shell and second shell interconnected, the source of parallel light Generator is set to one end of the first shell, and the photoelectric sensor is set to one end of the second shell, the peace Fill the junction that seat setting is located at the first shell and the second shell.

Preferably, the first shell is provided with connection bump, and the second shell is provided with and the connection The corresponding connecting groove of protrusion, the first shell are connected by the connection bump with the connecting groove.

Preferably, the outer housing is that outer wall is coated with light shield layer, so that being formed in the hollow cavity closed Shading chamber.

Implement the utility model embodiment, has the following beneficial effects:

The source of parallel light that parallel light source generator generates emits to the mounting base for being equipped with atomizing piece, and hereafter light is from atomization The micropore of piece passes through and obtains the hot spot of corresponding with micropore shape and quantity on the photosensor, and hereafter photoelectric sensor will Spot signal forms electric signal and is delivered to processing unit and is analyzed and processed, processing unit atomized micropore quantity and The uniform pore diameter degree of each micropore is monitored the drilling quality of atomizing piece micropore to realize, the detection device is for mist The micropore for changing piece is easy to detect quick and accuracy is high, and avoid worker because visual detection atomizing piece to eyes caused by damage.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of atomizing piece micro-hole detection device in the utility model embodiment.

Fig. 2 is the structural schematic diagram figure of atomizing piece in the utility model embodiment.

In figure: 1- parallel light source generator, 2- outer housing, 3- photoelectric sensor, 4- processing unit, 5- atomizing piece, 6- mounting base；21- resigning groove, 22- clamping groove, 201- first shell, 202- second shell, 61- middle through-hole, 62- inserting groove；201a- connection bump, 202a- connecting groove.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

It should be understood that various information are described in the utility model using term " first ", " second " etc., but these Information should not necessarily be limited by these terms, these terms are only used to for same type of information being distinguished from each other out.For example, not departing from this In the case where utility model range, " first " information can also be referred to as " second " information, and similar, " second " information can also be with Referred to as " first " information.

As shown in Figure 1 to Figure 2, the present embodiment provides a kind of atomizing piece micro-hole detection devices, including parallel light source generator 1, outer housing 2, photoelectric sensor 3 and processing unit 4, the outer housing 2 are provided with along its length in light transmission Cavity, the parallel light source generator 1 are connected to one end of the outer housing 2, and the photoelectric sensor 3 is set to the shell The other end of body 2, the parallel light source generator 1 and the photoelectric sensor 3 are located at the both ends of the hollow cavity, and The outer housing 2 is provided between the parallel light source generator 1 and the photoelectric sensor 3 for grafting atomizing piece 5 Mounting base 6, the source of parallel light that parallel light source generator 1 generates emit to the mounting base 6 for being equipped with atomizing piece 5, hereafter light from The micropore of atomizing piece 5 passes through and obtains the hot spot of corresponding with micropore shape and quantity, the photoelectric transfer on photoelectric sensor 3 Sensor 3 is electrically connected with the processing unit 4, and hereafter spot signal formation electric signal is delivered to processing unit 4 by photoelectric sensor 3 It is analyzed and processed, specifically, hereafter the standard master drawing after storage atomizing piece 5 correctly punches in processing unit 4 extracts sample It is detected, processing unit 4 obtains sample detection figure and compares and analyzes with standard master drawing after will test, take a sample test to obtain this The drilling quality of atomizing piece 5, i.e., processing unit 4 atomized 5 micropore quantity and the uniform pore diameter degree of each micropore, from And realize and the drilling quality of 5 micropore of atomizing piece is monitored, guarantee that the drilling operation of atomizing piece 5 is gone on smoothly, it should be pointed out that , in specific production process, this is detected as being taken a sample test according to actual needs, micropore of the detection device for atomizing piece 5 Easy to detect quick and accuracy is high, and avoid worker because visual detection atomizing piece 5 to eyes caused by damage.And photoelectric sensing The basic principle of device 3 is based on photoelectric effect, measured data conversion at the variation of optical signal, then by photoelectricity Non-electrical signal is further converted into electric signal by element, and in the present embodiment, electric signal hereafter is transferred to the progress of processing unit 4 Further analysis processing.

Based on above technical scheme, the source of parallel light that parallel light source generator 1 generates emits to the peace for being equipped with atomizing piece 5 Seat 6 is filled, hereafter light passes through from the micropore of atomizing piece 5 and obtains shape corresponding with micropore and quantity on photoelectric sensor 3 Hot spot, hereafter spot signal formation electric signal is delivered to processing unit 4 and is analyzed and processed by photoelectric sensor 3, processing dress 4 atomized 5 micropore quantity and the uniform pore diameter degree of each micropore are set, to realize the punching to 5 micropore of atomizing piece Quality is monitored, and the detection device quick and accuracy easy to detect for the micropore of atomizing piece 5 is high, and avoids worker because of mesh Inspection surveys atomizing piece 5 and causes to damage to eyes.

In the present embodiment, the mounting base 6 is vertically installed in the hollow cavity, and the mounting base 6 is provided with middle part Through-hole 61 and inserting groove 62 for grafting atomizing piece 5, the middle through-hole 61 respectively with the inserting groove 62 and described hollow Chamber connects, and the light that the inserting groove 62 issues atomizing piece 5 with the parallel light source generator 1 is vertically arranged, above-mentioned Structure make atomizing piece 5 in the detection process with light ray parallel, consequently facilitating light pass through micropore after photoelectric sensor 3 carry out Imaging, so that the signal collected is more accurate, and inserting groove 62 enables atomizing piece 5 to be more easily assemblied in mounting base 6 Interior, the detection process for improving atomizing piece 5 is more efficient.Further, the material of the mounting base 6 is rubber, and rubber is in room temperature Lower high resilience can generate larger deformation under the external force of very little, remove resilient, the i.e. elasticity of rubber after external force It is very big, it is convenient for the stabilization grafting of atomizing piece 5 using the mounting base 6 of rubber material, and rubber flexible will not be to the table of atomizing piece 5 It causes to wear in face.

Wherein, the side of the outer housing 2 is provided with resigning groove 21, the inserting groove 62 and 21 phase of resigning groove Perforation, and the slot bottom end face flush of the end face of the first end of the mounting base 6 and the resigning groove 21, resigning groove 21 are The dismounting of atomizing piece 5 provides operating space, so that atomizing piece 5 can more easily be torn open from mounting base 6 Dress, improves the detection efficiency of the detection device.Preferably, the outer housing 2 is provided with clamping groove 22, the installation in its inner wall The first end of the second end and the mounting base 6 of seat 6 is oppositely arranged, and the second end of the mounting base 6 is connected in the clamping groove In 22, clamping groove 22 enables mounting base 6 to be steadily connected on the inner wall of outer housing 2, thus improves the structure of the device Stability.In addition, the cross section of mounting base 6 is rectangle in the present embodiment.

Specifically, the parallel light source generator 1 is semiconductor laser, and the wave-length coverage of semiconductor laser is wide, system Make it is simple, at low cost, be easy to mass production, and since small in size, light-weight, the service life is long, to meet this detection device, institute The one end for stating outer housing 2 is provided with the first through hole being connected with the hollow cavity, and the semiconductor laser interference, which is worn, to be connect In the first through hole, and the camera lens of the semiconductor laser is located in the hollow cavity, and interference wears the structure connect and makes half Conductor laser can be assembled steadily with outer housing 2.Further, the other end of the outer housing 2 is provided with and institute The second through-hole that hollow cavity is connected is stated, the photoelectric sensor 3 is connected to second through-hole, and the processing unit is PC Machine, the photoelectric sensor 3 are electrically connected by connecting line with the PC machine, it should be pointed out that photoelectric sensor 3 with it is parallel Light source sensor can be a variety of with 2 type of attachment of outer housing, such as be bonded or connected using screw etc..

In the present embodiment, the outer housing 2 includes first shell 201 interconnected and second shell 202, first shell The connection structure of body 201 and shell makes outer housing 2 realize Demountable, so that the dismounting maintenance of whole device is more Add conveniently, the parallel light source generator 1 is set to one end of the first shell 201, and the photoelectric sensor 3 is set to One end of the second shell 202, the setting of mounting base 6 are located at the company of the first shell 201 and the second shell 202 Meet place, it should be pointed out that mounting base 6 and the type of attachment of first shell 201 and second shell 202 can be it is a variety of, can be with Using bonding or the form of screw connection.Preferably, the first shell 201 is provided with connection bump 201a, and described second Shell 202 is provided with connecting groove 202a corresponding with the connection bump 201a, and the first shell 201 passes through described Connection bump 201a and be connected with the connecting groove 202a, on the one hand connecting groove 202a and connection bump 201a can make It obtains and connects more stable, another aspect, connecting groove 202a and connection bump between first shell 201 and second shell 202 A location structure is formed between 201a, is convenient to being located by connecting for first shell 201 and second shell 202.

In order to enable the stability of the detection device is more preferable, the outer housing 2 is that outer wall is coated with light shield layer, so that described Closed shading chamber is formed in hollow cavity, the light that shading chamber issues source of parallel light does not spill over hollow cavity, to make It is small through energy loss after the micropore of atomizing piece 5 to obtain light, consequently facilitating the signal collection of photoelectric sensor 3.

The directional light generated using the atomizing piece micro-hole detection device of the utility model embodiment, parallel light source generator 1 Source emits to the mounting base 6 for being equipped with atomizing piece 5, and hereafter light is passed through from the micropore of atomizing piece 5 and obtained on photoelectric sensor 3 To the hot spot of corresponding with micropore shape and quantity, hereafter spot signal formation electric signal is delivered to processing by photoelectric sensor 3 Device 4 is analyzed and processed, processing unit 4 atomized 5 micropore quantity and the uniform pore diameter degree of each micropore, from And realize and the drilling quality of 5 micropore of atomizing piece is monitored, the detection device is easy to detect for the micropore of atomizing piece 5 quick And accuracy is high, and avoid worker because visual detection atomizing piece 5 to eyes caused by damage.

In the description of the present invention, it should be understood that term " on ", "lower", "left", "right", "top", "bottom" etc. The orientation or positional relationship of instruction is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model It is described with simplifying, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation structure It makes and operates, therefore should not be understood as limiting the present invention.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without deviating from the technical principle of the utility model, several improvement and replacement can also be made, these change It also should be regarded as the protection scope of the utility model into replacement.

Claims (10)

1. a kind of atomizing piece micro-hole detection device, it is characterised in that: including parallel light source generator, outer housing, photoelectric sensor And processing unit, the outer housing are provided with the hollow cavity for light transmission, the parallel light source generator along its length It is connected to one end of the outer housing, the photoelectric sensor is set to the other end of the outer housing, the source of parallel light hair Raw device and the photoelectric sensor are located at the both ends of the hollow cavity, and the outer housing is in the parallel light source generator The mounting base for grafting atomizing piece, the photoelectric sensor and the processing unit are provided between the photoelectric sensor Electrical connection.

2. atomizing piece micro-hole detection device according to claim 1, it is characterised in that: the mounting base is vertically installed in institute It states in hollow cavity, the mounting base is provided with middle through-hole and the inserting groove for grafting atomizing piece, the middle through-hole difference It connects with the inserting groove and the hollow cavity, the inserting groove issues atomizing piece and the parallel light source generator Light is vertically arranged.

3. atomizing piece micro-hole detection device according to claim 2, it is characterised in that: the material of the mounting base is rubber Glue.

4. atomizing piece micro-hole detection device according to claim 2, it is characterised in that: the side of the outer housing is provided with Resigning groove, the inserting groove connect with the resigning groove, and the end face of the first end of the mounting base and the resigning The slot bottom end face flush of groove.

5. atomizing piece micro-hole detection device according to claim 4, it is characterised in that: the outer housing is arranged in its inner wall There is clamping groove, the second end of the mounting base and the first end of the mounting base are oppositely arranged, the second end card of the mounting base It is connected in the clamping groove.

6. atomizing piece micro-hole detection device according to claim 1, it is characterised in that: the parallel light source generator is half Conductor laser, one end of the outer housing are provided with the first through hole being connected with the hollow cavity, and the semiconductor swashs Light device interference is connected to the first through hole, and the camera lens of the semiconductor laser is located in the hollow cavity.

7. atomizing piece micro-hole detection device according to claim 6, it is characterised in that: the other end of the outer housing is arranged There is the second through-hole being connected with the hollow cavity, the photoelectric sensor is connected to second through-hole, the processing dress It is set to PC machine, the photoelectric sensor is electrically connected by connecting line with the PC machine.

8. atomizing piece micro-hole detection device according to any one of claims 1 to 7, it is characterised in that: the outer housing packet First shell and second shell interconnected are included, the parallel light source generator is set to one end of the first shell, institute One end that photoelectric sensor is set to the second shell is stated, the mounting base setting is located at the first shell and described second The junction of shell.

9. atomizing piece micro-hole detection device according to claim 8, it is characterised in that: the first shell is provided with connection Protrusion, the second shell are provided with connecting groove corresponding with the connection bump, and the first shell passes through the company It connects protrusion and is connected with the connecting groove.

10. atomizing piece micro-hole detection device according to any one of claims 1 to 7, it is characterised in that: the outer housing is Outer wall is coated with light shield layer, so that forming closed shading chamber in the hollow cavity.