CN205500185U - Detection apparatus for material feeding unit and have it - Google Patents

Abstract

The utility model provides a detection apparatus for material feeding unit and have it, material feeding unit includes: the pay -off body, the drive division sets up on the pay -off body, vibration portion, vibration portion is connected with the drive division, and drive division drive vibration portion is so that the vibration of pay -off body. Through drive division drive vibration portion so that thereby the vibration of pay -off body has realized material feeding unit's vibration. The utility model discloses a structure of a feeding is simple, and the handling ease has the little advantage of vibration noise.

Description

Pay-off and there is its detection device

Technical field

This utility model relates to product automatic detection device technical field, in particular to a kind of pay-off and have it Detection device.

Background technology

In prior art, filature uses index dial feeding style, and which feeding speed is slow, has had a strong impact on screw detecting speed Rate, increases production cost then.In addition, screw detecting machine of the prior art may be only available for the screw of fixed dimension, When screw size is outside the detection size of this filature, then it can not be detected by this filature, the most of the prior art Filature practicality has serious narrow-mindedness.Further, use filature of the prior art to detect, there is noise Greatly, the detection shortcomings such as speed is non-adjustable.

Utility model content

Main purpose of the present utility model is provide a kind of pay-off and have its detection device, to solve in prior art The big problem of filature noise.

To achieve these goals, according to an aspect of the present utility model, it is provided that a kind of pay-off, including: feeding is originally Body；Drive division, is arranged on feeding body；Vibration section, vibration section is connected with drive division, drive division drive vibration section so that Feeding body vibrates.

Further, the liftoff setting of axis skew of the drive shaft of the barycenter of vibration section and drive division.

Further, the geometric center lines of vibration section is arranged with the axis of the drive shaft of drive division with paralleling.

Further, vibration section is cam, and the geometric center lines of cam is paralleled with the axis of drive shaft.

Further, feeding body includes: base portion；Supporting part, supporting part is arranged in base portion, and drive division is arranged at and props up On support part.

Further, drive division is motor, and vibration section is arranged on motor, and vibration section is connected with the rotating shaft of motor.

Further, feeding body also includes: footstock portion, and footstock portion is connected with supporting part and is oppositely disposed with base portion, Drive division is arranged between base portion and footstock portion.

Further, pay-off also includes damping portion, and damping portion is arranged in base portion and/or footstock portion.

Further, pay-off also includes damping portion, and damping portion includes: the first vibration damping sheet, one end of the first vibration damping sheet and the end Seat portion is connected, and the other end of the first vibration damping sheet is connected with footstock portion.

Further, damping portion also includes: the second vibration damping sheet, and the second vibration damping sheet and the first vibration damping sheet are oppositely disposed, and second subtracts One end of shake sheet is connected with base portion, and the other end of the second vibration damping sheet is connected with footstock portion, and drive division is arranged at the first damping Between sheet and the second vibration damping sheet.

Further, the shape of the cross section of vibration section is rounded, oval or polygon.

According to another aspect of the present utility model, it is provided that a kind of detection device, including pay-off, pay-off is above-mentioned Pay-off.

Further, detection device includes: connecting portion, rail portion, is arranged on connecting portion；Pay-off, is arranged at connection In portion, the part feeding body of pay-off contacts with rail portion, and rail portion is vibrated with pay-off.

Further, detection device also includes: feeding portion；Rewinding portion, feeding portion is connected with rewinding portion by connecting portion, leads Rail portion is positioned between feeding portion and rewinding portion to be transported in rewinding portion the product to be detected in feeding portion.

Further, detection device also includes air jet system, and air jet system includes that air jet pipe, air jet pipe and rail portion are adjacent to set Putting, air jet pipe is for blowing afloat to increase the translational speed of detection product towards the detection product in rail portion.

Further, detection device also includes detection components, and detection components includes: photomoduel, is disposed adjacently with rail portion, Photomoduel is used for detecting the size of detected product and image and size and image being sent to display screen.

Further, detection components includes: photoelectric sensor, is disposed adjacently with rail portion, and photoelectric sensor detects tested When surveying product, trigger the switch of photomoduel so that photomoduel is started working.

Application the technical solution of the utility model, pay-off includes feeding body, drive division and vibration section.Drive division is arranged at On feeding body.Vibration section is connected with drive division, and drive division drives vibration section so that feeding body vibrates.Driven by drive division Dynamic vibration section is so that the vibration of feeding body is it is achieved thereby that the vibration of pay-off.Feeder structure of the present utility model is simple, Handling ease, has the advantage that vibrating noise is little.

Accompanying drawing explanation

The Figure of description of the part constituting the application is used for providing being further appreciated by of the present utility model, of the present utility model Schematic description and description is used for explaining this utility model, is not intended that improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the structural representation at the first visual angle of the embodiment according to vibrating device of the present utility model；

Fig. 2 shows the detonation configuration schematic diagram of the embodiment of vibrating device in Fig. 1；

Fig. 3 shows the structural representation at the second visual angle of the embodiment according to vibrating device of the present utility model；

Fig. 4 shows the part-structure schematic diagram of the embodiment according to oscillation feed gear of the present utility model；And

Fig. 5 shows the structural representation of the embodiment according to oscillation feed gear of the present utility model.

Wherein, above-mentioned accompanying drawing includes the following drawings labelling:

1, controller；2, electromagnetic valve；3, air relief valve；4, mechanism for sorting；5, photomoduel；6, photoelectric sensor；7、 Air jet pipe；8, display screen；

10, feeding body；11, base portion；12, supporting part；13, footstock portion；20, drive division；30, vibration section；40、 Damping portion；41, the first vibration damping sheet；42, the second vibration damping sheet；50, feeding portion；60, rewinding portion；70, connecting portion；80、 Rail portion；81, screw；90, pay-off.

Detailed description of the invention

It should be noted that in the case of not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined. Describe this utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

As shown in Figure 1 to Figure 3, according to a specific embodiment of the present utility model, it is provided that a kind of pay-off, this feeding Device includes feeding body 10, drive division 20 and vibration section 30.Drive division 20 is arranged on feeding body 10.Vibration section 30 Being connected with drive division 20, drive division 20 drives vibration section 30 so that feeding body 10 vibrates.

In the present embodiment, vibration section 30 is driven by drive division 20 so that feeding body 10 vibrates it is achieved thereby that pay-off Vibration.Feeder structure of the present utility model is simple, and handling ease has the advantage that vibrating noise is little, feeding speed is fast.

Wherein, the liftoff setting of axis skew of the drive shaft of the barycenter of vibration section 30 and drive division 20.So arrange and make to drive Portion 20 drive vibration section 30 rotate during, vibration section 30 can for pay-off provide enough frequency of vibration so that Obtain pay-off and reach the purpose of feeding.

It is of course also possible to by the axis of the geometric center lines of vibration section 30 with the drive shaft of drive division 20 is arranged with paralleling. Will not being coaxially disposed of vibration section 30 and drive division 20, so make pay-off have enough frequency of vibration and carry out feeding.

Preferably, vibration section 30 is cam structure, and the geometric center lines of cam is paralleled with the axis of drive shaft.So arrange into The frequency of vibration that improve vibration section 30 of one step, thus it is effectively increased the feeding speed of pay-off.Wherein, vibration section The shape of the cross section of 30 is rounded, oval or polygon.

As in figure 2 it is shown, feeding body 10 includes base portion 11 and supporting part 12.Supporting part 12 is arranged in base portion 11, Drive division 20 is arranged on supporting part 12.So arrange and can effectively increase the stability that drive division 20 is installed.

As shown in Figures 2 and 3, drive division 20 is motor, and vibration section 30 is arranged on motor, and vibration section 30 turns with motor Axle is connected.So arranging makes vibration section 30 rotate under the drive of machine shaft, due to barycenter and the motor of vibration section 30 Rotating shaft is the most on the same line so that vibration section 30 polarizes during rotating, and then provides to feeding body 10 and shakes Dynamic power.The vibratory output of feeding body 10 increases along with the frequency of vibration section 30 and increases.

In the present embodiment, feeding body 10 also includes footstock portion 13 and damping portion 40.Footstock portion 13 is connected with supporting part 12 Connecing and be oppositely disposed with base portion 11, drive division 20 is arranged between base portion 11 and footstock portion 13.Damping portion 40 is arranged In base portion 11 and footstock portion 13.So arrange and can be effectively increased the stability that pay-off is overall.Also ensure simultaneously Pay-off will not occur security incident because the frequency of vibration of vibration section 30 is excessive during work.Certainly, it is possible to To arrange damping portion 40 in one of them of base portion 11 and footstock portion 13, for example, it is possible to only in base portion 11 or footstock portion The object of constant weight is set on 13, reaches to reduce the purpose of the vibratory output of pay-off.

Such as Fig. 1 and Fig. 2, damping portion 40 includes the first vibration damping sheet 41 and the second vibration damping sheet 42.One end of first vibration damping sheet 41 with Base portion 11 is connected, and the other end of the first vibration damping sheet 41 is connected with footstock portion 13.Second vibration damping sheet 42 and the first vibration damping sheet 41 are oppositely disposed, and one end of the second vibration damping sheet 42 is connected with base portion 11, the other end of the second vibration damping sheet 42 and footstock portion 13 are connected, and drive division 20 is arranged between the first vibration damping sheet 41 and the second vibration damping sheet 42.So arrange and can further subtract The vibratory output of little pay-off, thus ensure that pay-off has stable balance in the process of work.

As shown in Figure 4 and Figure 5, the pay-off in above-described embodiment may be also used in Product checking technical field, i.e. according to this The another aspect of utility model, it is provided that a kind of detection device.This detection device includes that pay-off 90, pay-off 90 are upper State the pay-off in embodiment.This detection device may be used for the detection to screw 81, rail portion 80 is transported as screw 81 Defeated track.Wherein rail portion 80 is line slideway, installs pay-off 90 so that line slideway presses one bottom line slideway Determining frequency vibration, now, the screw 81 on guide rail moves towards rewinding portion 60.It is achieved thereby that screw 81 is at line slideway The function of upper transport.

Wherein, detection device includes also feeding portion 50, connecting portion 70 and rail portion 80.Rail portion 80 is arranged at connecting portion 70 On.Pay-off 90 is arranged on connecting portion 70, and the part feeding body 10 of pay-off 90 contacts with rail portion 80, Rail portion 80 is vibrated with pay-off 90.Feeding portion 50 is connected with rewinding portion 60 by connecting portion 70, rail portion 80 So that the product to be detected in feeding portion 50 is transported in rewinding portion 60 between feeding portion 50 and rewinding portion 60.

Further, detection device also includes air jet system and detection components.Air jet system includes air jet pipe 7, air jet pipe 7 with lead Rail portion 80 is disposed adjacently, and air jet pipe 7 is for blowing afloat to increase the movement of detection product towards the detection product in rail portion 80 Speed.Wherein, in order to increase reliability and the transporting velocity of test product of detection speed, can arrange on detection means and subtract Pressure valve 3, arranges battery valve 2 and carries out whiff pressure control between the nozzle of air relief valve 3 and air jet pipe 7.Detection components includes camera Assembly 5 and photoelectric sensor 6.Photomoduel 5 is disposed adjacently with rail portion 80, and photomoduel 5 is used for detecting detected product Size and image are also sent on display screen 8 by the size of product and image.Photoelectric sensor 6 is disposed adjacently with rail portion 80, When photoelectric sensor 6 detects detected product, trigger the switch of photomoduel 5 so that photomoduel 5 is started working.

This detection device controls pay-off 90 by controller 1 and vibrates, and oscillation feed gear 90 makes line slideway by certain frequency Rate is vibrated, so that the screw 81 on line slideway carries facing one direction.Can be with set screw by adjusting frequency of vibration 81 transporting velocities.

Owing to motor shaft is not arranged on cam center point, so whole pay-off 90 will be made during cam rotation to vibrate.Logical Cross the amplitude of damping portion 40 buffering vibration, owing to whole device is connected as a single entity, so footstock portion 13 vibrates together also with entirety, And by vibration transmission to line slideway, drive line slideway vibration.Now, the screw 81 on guide rail by vibrated and along one Moving in individual direction, thus can arrive the function of conveying screw 81.

When changing motor speed by controller 1, thus it is possible to vary the frequency of vibration of pay-off 90, i.e. can be by adjusting electricity Machine rotating speed, adjusts the speed of screw 81 conveying.Can also be by adjusting the direction of rotation of motor, thus it is possible to vary screw 81 defeated Send direction, after screw 81 completes detection process, be transported to rewinding portion 60 and sorted by mechanism for sorting 4.

In the present embodiment, in addition to using this pay-off 90 and vibrating, it is also possible to use linear vibrator, will straight line Vibrator replaces this oscillation feed gear, equally reaches to vibrate the purpose that screw 81 carries out transporting.The material of damping portion 40 Metal material can be used, it would however also be possible to employ nonmetallic materials.As long as meeting the requirements in performance, both there is certain toughness i.e. Can.The material of footstock portion 13, base portion 11 and supporting part 12 can also use metal or nonmetallic.Preferably aluminium or Steel are made.

The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for this area For technical staff, this utility model can have various modifications and variations.All within spirit of the present utility model and principle, institute Any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.

Claims (17)

1. a pay-off, it is characterised in that including:

Feeding body (10)；

Drive division (20), is arranged on described feeding body (10)；

Vibration section (30), described vibration section (30) are connected with described drive division (20), and described drive division (20) drives Dynamic described vibration section (30) is so that described feeding body (10) vibrates.

Pay-off the most according to claim 1, it is characterised in that the barycenter of described vibration section (30) and described drive division (20) the liftoff setting of axis skew of drive shaft.

Pay-off the most according to claim 2, it is characterised in that the geometric center lines of described vibration section (30) is with described The axis of the described drive shaft of drive division (20) is arranged parallelly.

Pay-off the most according to claim 2, it is characterised in that described vibration section (30) are cam, described cam Geometric center lines is paralleled with the axis of described drive shaft.

Pay-off the most according to claim 2, it is characterised in that described feeding body (10) including:

Base portion (11)；

Supporting part (12), described supporting part (12) is arranged in described base portion (11), and described drive division (20) sets It is placed on described supporting part (12).

Pay-off the most according to claim 5, it is characterised in that described drive division (20) is motor, described vibration section (30) being arranged on described motor, described vibration section (30) are connected with the rotating shaft of described motor.

Pay-off the most according to claim 5, it is characterised in that described feeding body (10) also includes:

Footstock portion (13), described footstock portion (13) be connected with described supporting part (12) and with described base portion (11) Being oppositely disposed, described drive division (20) is arranged between described base portion (11) and described footstock portion (13).

Pay-off the most according to claim 7, it is characterised in that described pay-off also includes damping portion (40), described Damping portion (40) is arranged in described base portion (11) and/or described footstock portion (13).

Pay-off the most according to claim 7, it is characterised in that described pay-off also includes damping portion (40), described Damping portion (40) including:

First vibration damping sheet (41), one end of described first vibration damping sheet (41) is connected with described base portion (11), described The other end of the first vibration damping sheet (41) is connected with described footstock portion (13).

Pay-off the most according to claim 9, it is characterised in that described damping portion (40) also includes:

Second vibration damping sheet (42), described second vibration damping sheet (42) is oppositely disposed with described first vibration damping sheet (41), institute The one end stating the second vibration damping sheet (42) is connected with described base portion (11), another of described second vibration damping sheet (42) End is connected with described footstock portion (13), and described drive division (20) is arranged at described first vibration damping sheet (41) and described Between second vibration damping sheet (42).

11. pay-offs according to claim 1, it is characterised in that the shape of the cross section of described vibration section (30) is circle Shape, ellipse or polygon.

12. 1 kinds of detection devices, it is characterised in that include pay-off (90), described pay-off (90) be claim 1 to Pay-off according to any one of 11.

13. detection devices according to claim 12, it is characterised in that described detection device includes:

Connecting portion (70)；

Rail portion (80), is arranged on described connecting portion (70)；

Pay-off (90), is arranged on described connecting portion (70), the described feeding of part of described pay-off (90) Body (10) contacts with described rail portion (80), and described rail portion (80) is shaken with described pay-off (90) Dynamic.

14. detection devices according to claim 13, it is characterised in that described detection device also includes:

Feeding portion (50)；

Rewinding portion (60), described feeding portion (50) is connected with described rewinding portion (60) by described connecting portion (70), Described rail portion (80) is positioned between described feeding portion (50) and described rewinding portion (60) with by described feeding portion (50) In product to be detected be transported in described rewinding portion (60).

15. detection devices according to claim 13, it is characterised in that described detection device also includes air jet system, described spray Device of air includes that air jet pipe (7), described air jet pipe (7) are disposed adjacently with described rail portion (80), described air jet pipe (7) for blowing afloat to increase the translational speed of described detection product towards the detection product in described rail portion (80).

16. detection devices according to claim 13, it is characterised in that described detection device also includes detection components, described inspection Survey assembly includes:

Photomoduel (5), is disposed adjacently with described rail portion (80), and described photomoduel (5) is used for detecting tested Survey the size of product and image and described size and described image are sent on display screen.

17. detection devices according to claim 16, it is characterised in that described detection components includes:

Photoelectric sensor (6), is disposed adjacently with described rail portion (80), described photoelectric sensor (6) detect by During detection product, trigger the switch of described photomoduel (5) so that described photomoduel (5) is started working.