CN200988689Y - Production line isolation device - Google Patents

Abstract

The utility model provides an isolation device for production lines, which is a device for transporting objects to be detected from a preparation area to an isolation area by using a conveyer, comprising an isolation door, a first sensor, a second sensor, a third sensor, a shield and a controller, wherein the isolation door is arranged at the entrance of the isolation area with flexible open and close, the first sensor is arranged in the preparation area outside the isolation door, the second sensor is arranged nearby the isolation door and is positioned behind the first sensor, the third sensor is arranged inside the isolation area in the isolation door, the shield is arranged on the conveyer with flexible scale and positioned between the sensor position of the first and the second sensor, and the controller is connected with and is receiving the signals from the first, second and third sensors, and controls the extending of the shield and the open and close of the isolation door.

Description

The manufacturing line spacer assembly

Technical field

The utility model relates to a kind of manufacturing line spacer assembly, relates in particular to a kind of spacer assembly that is applied to feedway.

Background technology

Along with the continuous development of industrial technology, manufacturer can produce a large amount of products at short notice by advanced person's production facilities, to satisfy customer's needs.So right, quality and reliability is the main key of product always for a long time, is the key factor that attracts the customer, also is the basic dependence that manufacturer gets on the ground floor in the competition that is growing more intense; So after product is made, the detection that manufacturer can be correlated with to product under specific environment according to industry standard is to guarantee product design.

For product is tested, product is transferred to specific place with to be detected.But, adopt aforesaid way, need the outer trucking expenses of amount paid, and carry and often expend many times, not only increase productive costs, and influence detection efficiency.

In addition, other has producing on the load-transfer device and directly product is detected, to improve detection efficiency; But this load-transfer device environment of living in does not often have the particular space of coincidence detection, making to detect to tie is subjected to the influence of external factor bigger, thereby cause testing result to have bigger error, cause for the quality of product and the false judgment of fiduciary level, no failure-free test data promptly can't be guaranteed the quality and the fiduciary level of product.

So, how to develop a kind of spacer assembly that overcomes the various shortcoming in the above-mentioned known technology, provide detection product is sent into an insulating space by load-transfer device, be combined into one will produce with detection, thereby improve detection efficiency and reduce production costs the problem that reality needs to be resolved hurrily for the association area dealer.

The utility model content

In view of the shortcoming of above-mentioned known technology, main purpose of the present utility model is to provide a kind of manufacturing line spacer assembly, can be combined into one carrying and detecting.

For reaching above-mentioned purpose and other relevant purpose, the utility model provides a kind of manufacturing line spacer assembly, produce the online device that examined object is delivered to an isolated area by a dark zone by a feedway one, comprise isolating door, first inductor, second inductor, the 3rd inductor, stop part, reach controller, this isolating door, switch are located at the arrival end of this isolated area freely; This first inductor is located at the outer dark zone of this isolating door; This second inductor, approaching being located at outside the isolating door, and be positioned at the first inductor rear; The 3rd inductor is located in the isolated area in the isolating door; This stop part is located on the feedway elastically, and between the sense position of first inductor and second inductor; And this controller, connect and the switch of the signal that receives this first, second and third inductor and the flexible and isolating door of control stop part.

In other words, the utility model provides a kind of manufacturing line spacer assembly, produces one by a feedway and online examined object is delivered to the device of an isolated area by a dark zone, and have: isolating door, switch are located at the arrival end of this isolated area freely; First inductor is located at the outer dark zone of this isolating door, prepares to send into isolated area in order to the induction examined object; Second inductor, approaching being located at outside the isolating door, and be positioned at the first inductor rear, have or not examined object near this isolating door in order to induction; The 3rd inductor is located in the isolated area in the isolating door, has or not examined object to be arranged in isolated area in order to induction; Stop part is to be located on the feedway elastically, and between the sense position of first inductor and second inductor; And controller, connect and the switch of the signal that receives this first, second and third inductor and the flexible and isolating door of control stop part.

This feedway is the two roller load-transfer devices that are synchronized with the movement, and this stop part is hubbed between the two roller load-transfer devices, and with the driver drives just like air cylinder or linear motor, this stop part is stretched.

This isolating door has a driver train, and this driver train is connected with these isolating door both sides, drive the switch of isolating door, and this driver train is an air cylinder.

First induction part is sensed object, when the 3rd induction part is not sensed object simultaneously, opens this door and closes this stopper section; When second induction part is not sensed object, when the 3rd induction part is sensed object simultaneously, close door and open the stopper section; When this first induction part is sensed object, when the 3rd induction part is sensed object simultaneously, keep door and be and close and the stopper section is the state of unlatching.

In the aforementioned spacer assembly manufacturing line spacer assembly, this first induction part inductor, the second induction part inductor and the 3rd inductor are carrying inductor, infrared inductor, contacting inductor or close induction type inductor, and each one is the carrying inductor.This first, second and third inductor is located at the side of this roller load-transfer device.

When this first inductor is sensed examined object, when the 3rd inductor is not sensed examined object simultaneously, then open this isolating door and make this stop part retraction; When second inductor is sensed examined object, after noninductive immediately required this examined object, promptly open this stop part, again when the 3rd inductor is sensed examined object, promptly close this isolating door, detect so that this examined object is sent in the isolated area, and avoid entering isolated area, and this detects and is quiet detection or temperature detection by this stop part.

Than known technology, the related manufacturing line spacer assembly of the utility model is provided with first inductor, second inductor and the 3rd inductor to confirm the position of the examined object on the feedway, control the switching of isolating door and stop part whereby, so that being sent in the isolated area, examined object detects, be combined into one will produce with detection, reaching better testing result, thereby overcome the disappearance of known technology.

Description of drawings

Fig. 1 is the composition scheme drawing of the related spacer assembly of the utility model;

Fig. 2 is the related spacer assembly initial condition scheme drawing of the utility model;

Fig. 3 is the related spacer assembly of the utility model first running condition scheme drawing; And

Fig. 4 is the related spacer assembly of the utility model second running condition scheme drawing.

[primary clustering nomenclature]

1 spacer assembly

10 isolating doors

101 driver trains

11 first inductors

12 second inductors

13 the 3rd inductors

14 stop parts

15 controllers

2 feedways

30 dark zones

31 isolated areas

4,4 ' examined object

The specific embodiment

Below by specific instantiation embodiment of the present utility model is described, those skilled in the art can understand other advantage of the present utility model and effect easily by the content that this specification sheets disclosed.

See also Fig. 1, composition scheme drawing for the related manufacturing line spacer assembly of the utility model, in an isolated area 3, be equipped with a feedway 2, and be provided with a spacer assembly 1 at these isolated area 3 arrival ends, this spacer assembly 1 has isolating door 10, first inductor 11, second inductor 12, the 3rd inductor 13, stop part 14 and controller 15.

In present embodiment, this spacer assembly 1 is located on the feedway 2, and these feedway 2 as two roller load-transfer devices that are synchronized with the movement detect in the isolated area 31 so that examined object is sent into by a dark zone 30; This spacer assembly 1 also can be applicable to need carry out the production feedway of the product of isolation detection such as vision receiver, telltale, audio amplifier, computing machine or other, and this detection also can be quiet detection, temperature detection or other detection that need carry out under a specific environment.

This first inductor 11, second inductor 12 and the 3rd inductor 13 are the carrying inductor, and this first, second and third inductor is located at the side of this roller load-transfer device, and the weight by the induction examined object is to confirm the position of examined object.

But non-ly only limit to this, this first inductor 11, second inductor 12 and the 3rd inductor 13 also can be infrared inductor, contacting inductor, close induction type inductor or other sensing device.

This isolating door 10 is located at the arrival end of isolated area 3, and this isolating door 10 driven by the driver train 101 just like air cylinder, this isolating door 10 is opens or closed condition; This first inductor 11 is located at outside the isolated area 3, whether drive nearly isolating door 10 in order to induction examined object 4, second inductor 12 is located at outside the isolated area 3, and be positioned at first inductor, 11 rears, have or not examined object 4 near this isolating door 10 in order to induction, the 3rd inductor 13 is located in the isolated area 3 and is positioned at isolating door 10, has or not examined object 4 to be arranged in this isolated area 3 in order to induction; This stop part 14 is located between the sense position of first inductor 11 and second inductor 12, and this stop part 14 is hubbed between the two roller load-transfer devices, and with an actuator 141 drives, this actuator 141 is one of an air cylinder and linear motor, and this stop part is located on this feedway 2 elastically; This controller 15 connects the switch of the signal that also receives this first inductor 11, second inductor 12 and the 3rd inductor 13 and the flexible and isolating door 10 of this stop part 14 of control, and described connection can be electric connection, also can be wireless signal couples.

Distance between the distance between this first inductor 11 and second inductor 12 and second inductor 12 and the 3rd inductor 13, determined according to feedway transfer rate, the shape that transmits object and the induction range of inductor, be known technology, so no longer illustrate in this.

See also shown in Figure 2ly, be initial (initial) state of this spacer assembly 1, when this spacer assembly 1 was in initial condition, isolating door 10 was closed condition, and stop part 14 is the state of stretching out simultaneously.

See also the 3rd and Fig. 4, the scheme drawing of this spacer assembly 1 each state is described respectively.

As shown in Figure 3, this examined object 4 via the transmission of feedway 2 to enter the induction region of this first inductor 11, this first inductor 11 is triggered, three inductor 13 of position in isolated area 3 then is not triggered, have examined object 4 will enter in this isolated area 3 on this feedway 2 this moment, and no examined object 4 in this isolated area 3, so that this stop part 14 transfers retraction state (lying low as shown in the figure) to, and make these driver train 101 starts to open this isolating door 10, make this examined object 4 send isolated area 3 to and detect by this feedway 2.

As shown in Figure 4, when this examined object 4 is sent isolated area 3 to by this feedway 2, this second inductor 12 is triggered, and enter isolated area 3 backs in this examined object 4 and trigger the 3rd inductor 13, this moment, this second inductor 12 broke away from the triggering state, represent that this examined object 4 enters isolated area 3 fully, even these driver train 101 starts are to close this isolating door 10, and make this stop part 14 transfer the state of stretching out (erecting as shown in the figure) to enter isolated area 3 to avoid next examined object 4 ', detect so that this examined object 4 is positioned in the osed top isolated area 3, and can avoid being subjected to the testing result that influences of external factor.

Again when next examined object 4 ' enters and trigger this first inductor 11, and examined object 4 is not sent as yet and is triggered the 3rd inductor 13 in this isolated area 3 simultaneously, represent an existing examined object 4 in this isolated area 3, and also have another examined object 4 ' to wait on the feedway 2 outside this isolated area 3 and be sent to this isolated area 3, then this isolating door 10 still remains on closed condition, and make this stop part 14 be held open state, so that isolated area 3 outer examined object 4 ' halt; When the examined object in the isolated area 34 finish detect leave isolated area after, then this moment spacer assembly 1 recovering state to state shown in Figure 3, thereby make another examined object 4 ' enter this isolated area 3, to detect this examined object 4 by this.

Than known technology, by first inductor 11, second inductor 12 and the 3rd inductor 13 position with examined object on the affirmation feedway 2, control the switching of isolating door 10 and stop part 14 whereby, so that being sent into, product carries out various detections in the isolated area 3, be combined into one will produce with detection, and can make to detect to reach better effect, thereby overcome the disappearance of known technology.

The foregoing description is illustrative principle of the present utility model and effect thereof only, but not is used to limit the utility model.Any personage those skilled in the art that have the knack of this skill can be under the utility model spirit and category, and the foregoing description is modified and changed.Therefore, rights protection scope of the present utility model, claim is listed as described later.

Claims (8)

1. manufacturing line spacer assembly, produce the online device that examined object is delivered to an isolated area by a dark zone by a feedway one, comprise isolating door, first inductor, second inductor, the 3rd inductor, stop part, reach controller, it is characterized in that:

This isolating door, switch are located at the arrival end of this isolated area freely;

This first inductor is located at the outer dark zone of this isolating door;

This second inductor, approaching being located at outside the isolating door, and be positioned at the first inductor rear;

The 3rd inductor is located in the isolated area in the isolating door;

This stop part is located on the feedway elastically, and between the sense position of first inductor and second inductor; And

This controller connects and the switch of the signal that receives this first, second and third inductor and the flexible and isolating door of control stop part.

2. manufacturing line spacer assembly according to claim 1 is characterized in that: this first inductor, second inductor and the 3rd inductor are one of carrying inductor, infrared inductor, contacting inductor and close induction type inductor.

3. manufacturing line spacer assembly according to claim 1 is characterized in that: this isolating door has a driver train, and this driver train is connected with these isolating door both sides, drives the switch of isolating door.

4. manufacturing line spacer assembly according to claim 3 is characterized in that: this driver train is an air cylinder.

5. manufacturing line spacer assembly according to claim 1 is characterized in that: this feedway is the two roller load-transfer devices that are synchronized with the movement.

6. manufacturing line spacer assembly according to claim 5 is characterized in that: this first, second and third inductor is located at the side of this roller load-transfer device.

7. manufacturing line spacer assembly according to claim 5 is characterized in that: this stop part is hubbed between the two roller load-transfer devices, and with a driver drives.

8. manufacturing line spacer assembly according to claim 7 is characterized in that: this actuator is an air cylinder and linear motor one.

Images