CN105588524A - Detection device - Google Patents

Abstract

The invention provides a detection device which is used for detecting work pieces automatically. The detection device comprises a control box, a detection box connected with the control box, a detection mechanism arranged in the detection box, positioning mechanisms, transmission mechanisms penetrating through the positioning mechanisms in parallel and used for transmitting work pieces, and a rear material stopping mechanism used for stopping and sensing incoming work pieces and triggering the positioning mechanisms. The detection mechanism includes a first detection assembly, a second detection assembly, and a third detection assembly driven by the first detection assembly and the second detection assembly to detect work pieces. The positioning mechanisms are used for positioning work pieces to make the detection mechanism detect the work pieces.

Description

Checkout gear

Technical field

The present invention relates to electronic component and manufacture field, relate in particular to the checkout gear for electronic component.

Background technology

The workshop section such as parts machining, assembling of electronic product all needs the parameters such as the size to product to detect to ensure product quality. In prior art, often adopt detection machine to coordinate artificial feeding, discharge to detect product, but often because product quantity is large, Product Precision is had relatively high expectations, the cost that this detection mode expends is higher, and is more easily affected by human factors.

Given this, provide one can realize automatic detection, lower-cost checkout gear in fact for necessary.

Summary of the invention

For this reason, the invention provides one and can realize automatic detection, lower-cost checkout gear.

A kind of checkout gear, for workpiece is detected automatically, the detection case that comprises control cabinet, is connected with this control cabinet, and be arranged at the testing agency in this detection case. This testing agency comprises the first detection components, the second detection components, and drives the 3rd detection components so that workpiece is detected by this first detection components and the second detection components. This checkout gear also comprises detent mechanism, is arranged in this detent mechanism and for transmitting the transmission mechanism of workpiece abreast, and for stopping and responding to supplied materials workpiece and trigger the rear stock stop of this detent mechanism. This detent mechanism is used for positioning workpieces so that this testing agency is detected workpiece.

Above-mentioned detection device, this rear stock stop can stop and respond to supplied materials workpiece and trigger this detent mechanism, this detent mechanism is promoted to workpiece after predetermined altitude towards this testing agency, this first detection components and the second detection components drive the 3rd detection components to detect workpiece, can realize the automatic detection to workpiece, and cost is relatively low.

Brief description of the drawings

Fig. 1 is the structural representation of the checkout gear that provides of an embodiment of the present invention.

Fig. 2 is the part-structure schematic diagram of detection case shown in Fig. 1.

Fig. 3 is the part-structure schematic diagram of detent mechanism shown in Fig. 2.

Main element symbol description

Following detailed description of the invention further illustrates the present invention in connection with above-mentioned accompanying drawing.

Detailed description of the invention

Below in conjunction with drawings and Examples, checkout gear provided by the invention is described in detail.

Refer to Fig. 1, the detection case 20 that checkout gear 100 provided by the invention comprises control cabinet 10, is connected with control cabinet 10, and be installed in the testing agency 30 in detection case 20.

Control cabinet 10 comprises Control Component 11, and the display module 12 being electrically connected with Control Component 11. Control Component 11 is for controlling testing agency 30, and display module 12 is for showing the duty of Control Component 11.

Detection case 20 comprises housing 21, is fixed on bracing frame 22 and base 23 in housing 21. Bracing frame 22 is fixed on base 23, for carrying testing agency 30. In the present embodiment, workpiece 200 can enter from one end of base 23 checkout gear 100 and flow out checkout gear 100 via the relative other end of this base 23. Testing agency 30 is for automatically detecting workpiece 200.

Please refer to Fig. 2 to Fig. 3, testing agency 30 comprise the first detection components 31, with vertically disposed the second detection components 32 of the first detection components 31, and for detection of the 3rd detection components 33 of workpiece 200. The first detection components 31, the second detection components 32 are for driving the 3rd detection components 33 to move that workpiece 200 is detected. In the present embodiment, in the plane at base 23 places, the direction of transmitting along workpiece 200 is set to Y direction, and the direction vertical with workpiece 200 transmission directions is X-direction. The first detection components 31 is for driving the 3rd detection components 33 to move along X-direction, and the second detection components 32 is for driving the 3rd detection components 33 to move along Y direction.

Checkout gear 100 also comprises front stock stop 40, the scan components 50 for workpiece 200 is scanned, rear stock stop 60, the detent mechanism 70 relative with front stock stop 40, and parallels with detent mechanism 70 and be arranged in detent mechanism 70 and for transmitting the transmission mechanism 80 of workpiece 200. Front stock stop 40, rear stock stop 60, detent mechanism 70 and transmission mechanism 80 are arranged on base 23.

Front stock stop 40 and rear stock stop 60 are oppositely arranged along the feeding, discharge direction of workpiece 200. The setting adjacent with scan components 50 of front stock stop 40. In the present embodiment, scan components 50 is Quick Response Code scanner. Front stock stop 40 is for responding to and stop the workpiece 200 of material loading, and induced signal is transferred to scan components 50 with driver sweep assembly 50. The induced signal that scan components 50 transmits for receiving front stock stop 40, and supplied materials workpiece 200 is scanned. After scan components 50 scans workpiece 200, front stock stop 40 declines automatically to remove scanning stopping of workpiece 200, makes to scan workpiece 200 and continues to flow to rear stock stop 60. Rear stock stop 60 scans workpiece 200 for responding to and stopping, and induced signal is transferred to detent mechanism 70 with triggered location mechanism 70.

In the present embodiment, detent mechanism 70 is two, but is not limited to this, and in other embodiments, detent mechanism 70 also can be configured at least one, matches with the quantity of transmission mechanism 80. The induced signal that detent mechanism 70 transmits for receiving rear stock stop 60, and workpiece 200 is promoted to predetermined altitude and is positioned so that detected mechanism 30 is detected towards testing agency 30.

Detent mechanism 70 comprises parallel and spaced two support plates 71, be arranged at supporting component 72 on support plate 71, for the lifting actuator 73 of lifting support plate 71, for promote the first positioning component 74 of workpiece 200 along X-direction, and for promote the second positioning component 75 of workpiece 200 along Y direction.

Two support plates 71 are arranged at respectively the both sides of transmission mechanism 80 and parallel with transmission mechanism 80. In the present embodiment, two support plates 71 are all strip, and the quantity of supporting component 72 is three, is bulb pin. Supporting component 72 is perpendicular with support plate 71, and two supporting component 72 compartment of terrains are arranged on a support plate 71, and another supporting component 72 is arranged on another support plate 71. But be not limited to this, in other embodiments, supporting component 72 can be at least three, and is arranged on two support plates 71. Detent mechanism 70 receives after the induced signal that rear stock stop 60 transmits, lifting actuator 73 drive two support plates 71 to rise and via three supporting components 72 by workpiece 200 jack-up.

In the present embodiment, lifting actuator 73 is for carrying material cylinder, and the first positioning component 74 is for workpiece 200 being carried out to the cylinder of X-direction location, and the second positioning component 75 is for the cylinder along Y direction location to workpiece 200.

Detent mechanism 70 also comprises two the first alignment pins 76 that are vertically arranged on support plate 71, and with second alignment pin 77 of rear stock stop 60 adjacent settings. The first alignment pin 76 carries out the location of X-direction to workpiece 200 for auxiliary the first positioning component 74. The second alignment pin 77 carries out the location of Y direction to workpiece 200 for auxiliary the second positioning component 75.

When workpiece 200 is positioned, the first positioning component 74, the second positioning component 75 are pushed into workpiece 200 respectively the first alignment pin 76 and the second alignment pin 77. Then, the first positioning component 74, the second positioning component 75 unclamp and make workpiece 200 in relaxation state, to avoid the first positioning component 74, the second positioning component 75 that workpiece 200 is out of shape. Then, testing agency 30 is detected workpiece 200. After detection completes, lifting actuator 73 declines and makes workpiece 200 drop down onto transmission mechanism 80 and flow to next workshop section.

In the present embodiment, two the first alignment pin 76 compartment of terrains are arranged on the support plate 71 that is provided with two supporting components 72. Two the first alignment pins 76 and being all arranged on support plate 71 for support the same side of workpiece 200 simultaneously, the second alignment pin 77 be arranged on transmission mechanism 80 tops and between the first positioning component 74 and the second positioning component 75 to support another side of workpiece 200. The first alignment pin 76 and the second alignment pin 77 are for planar carrying out side location to workpiece 200, the stability of locating to increase workpiece 200 direction vertical from two respectively 200 of workpiece.

But be not limited to this, in other embodiments, the first alignment pin 76 can be made as at least one and the second alignment pin 77 can be made as at least two; The first alignment pin 76 is made as at least two and the second alignment pin and is made as at least one, as long as make the first alignment pin 76 can support the same side of workpiece 200 simultaneously, the second alignment pin 77 between the first positioning component 74 and the second positioning component 75 to support workpiece 200 another sides.

Will be understood that, three supporting components 72 can be from the supported at three point workpiece 200 of base 23, and two the first alignment pins 76 and second alignment pin 77 can be realized side location to workpiece, the stability supporting and locate is higher, detent mechanism 70 can be positioned same position by the each workpiece 200 successively entering, so that testing agency 30 is detected accurately to workpiece 200, reduce artifical influence factor.

Transmission mechanism 80 be arranged in parallel with support plate 71, and is arranged between two support plates 71. In the present embodiment, transmission mechanism 80 is two, and transmission mechanism 80 is provided with two parallel and spaced conveyer belts 81, but is not limited to this, and in other embodiments, transmission mechanism 80 also can be at least one.

Will be understood that, in the time that detent mechanism 70 completes the location to front supplied materials workpiece 200 and via testing agency 30, workpiece 200 is detected, detent mechanism 70 is located opposite from the top of conveyer belt 81, and follow-up workshop section is passed and flowed in the below that the workpiece 200 at rear can self-positioning mechanism 70.

Will be understood that, in other embodiments, checkout gear 100 provided by the invention can be used for multiply-computer series connection and uses, and to realize the detection of the same detection project to workpiece 200, the workpiece 200 that the below of self-positioning mechanism 70 is passed can flow to a rear checkout gear 100 until flow to discharging streamline. In other embodiments, the checkout gear 100 that multiply-computer series connection uses also can carry out NG discharge in conjunction with NG discharge mechanism.

Checkout gear 100 provided by the invention, there is detection case 20, testing agency 30 for workpiece 200 being carried out automatically detect, scan components 50 and front stock stop 40 that can driver sweep assembly 50, detent mechanism 70 and rear stock stop 60 that can triggered location mechanism 70, and be arranged in detection case 20 and for transmitting the transmission mechanism 80 of workpiece 200, so checkout gear 100 can be realized automatically detecting on the production line of workpiece 200, and manpower feeding, discharge is lower with the mode cost that coordinates detection machine to detect relatively. Simultaneously, detent mechanism 70 comprise three can be from the supporting component 72 of the supported at three point workpiece 200 of base 23, can realize to workpiece two the first alignment pins 76 and second alignment pin 77 of side location, so make checkout gear 100 to the location of workpiece 200 is comparatively stable, detection is comparatively accurate, is affected by human factors less.

In addition, those skilled in the art can also do other and change in spirit of the present invention, and certainly, the variation that these do according to spirit of the present invention, all should be included in the present invention's scope required for protection.

Claims (9)

1. a checkout gear, for workpiece is detected automatically, the detection case that comprises control cabinet, is connected with this control cabinet, and be arranged at the testing agency in this detection case, it is characterized in that: this testing agency comprises the first detection components, the second detection components, and drive the 3rd detection components so that workpiece is detected by this first detection components and the second detection components; This checkout gear also comprises detent mechanism, is arranged in this detent mechanism and for transmitting the transmission mechanism of workpiece abreast, and for stopping and responding to supplied materials workpiece and trigger the rear stock stop of this detent mechanism, this detent mechanism for positioning workpieces so that this testing agency workpiece is detected.

2. checkout gear as claimed in claim 1, it is characterized in that: this checkout gear also comprises the front stock stop relative with this rear stock stop along workpiece transfer direction, and with the scan components of the adjacent setting of this front stock stop, this front stock stop is used for stopping and responds to supplied materials workpiece and trigger this scan components so that this workpiece is scanned.

3. checkout gear as claimed in claim 1, is characterized in that: this detent mechanism comprises two support plates that are arranged at the both sides of this transmission mechanism and parallel with this transmission mechanism, and for the lifting actuator of this support plate of lifting.

4. checkout gear as claimed in claim 3, is characterized in that: this detent mechanism also comprises the supporting component being vertically arranged on this support plate, and this supporting component is at least three and be arranged on two support plates.

5. checkout gear as claimed in claim 1, it is characterized in that: this detent mechanism also comprises the first positioning component and the second positioning component for workpiece is positioned, this first positioning component promotes workpiece to position for the perpendicular direction of edge and workpiece transfer, and this second positioning component is for promoting workpiece to position along workpiece transfer direction.

6. checkout gear as claimed in claim 5, is characterized in that: this detent mechanism also comprises the first alignment pin being arranged on this support plate, and this first alignment pin is located workpiece for auxiliary this first positioning component.

7. checkout gear as claimed in claim 6, is characterized in that: this detent mechanism also comprises the second alignment pin, and this second alignment pin is located workpiece for auxiliary this second positioning component.

8. checkout gear as claimed in claim 7, it is characterized in that: this first alignment pin is at least two and is all arranged on this support plate for support the same side of workpiece simultaneously, this second alignment pin is arranged on transmission mechanism top and between the first positioning component and the second positioning component.

9. checkout gear as claimed in claim 1, is characterized in that: this detection case comprises base and be fixed on the bracing frame on this base, and this detent mechanism and this transmission mechanism are arranged on this base, and this testing agency is arranged on this bracing frame.