CN211412446U - Automatic turn-over machine of spraying - Google Patents

Abstract

The utility model discloses an automatic turn-over machine of spraying, which comprises a frame, the frame on be provided with otter board conveyer belt, coaxial span device and accept the conveyer belt, coaxial span device establish in the middle of otter board conveyer belt and accept the conveyer belt, coaxial span device include left wing exhibition device and right span device, left wing exhibition device and right span device on be provided with step motor, inductive switch and electromagnetism strip, the utility model discloses automatic turn-over when can realize spraying components such as wiper spraying, whole process is accomplished through machinery, has avoided harmful substance such as paint to the harm of human body, safe in utilization; meanwhile, the labor cost is saved, the spraying efficiency can be improved by using the machine for overturning, and the use is convenient.

Description

Automatic turn-over machine of spraying

Technical Field

The utility model relates to a spraying processing technology field especially relates to an automatic turn-over machine of spraying.

Background

The painting process, which is a common process in daily production, generally accomplishes a specific purpose by painting on a painting member, for example, surface painting of a wiper blade; the spraying elements are required to be turned over when the spraying of the whole elements is completed, and the spraying elements such as a windscreen wiper and the like are arranged on a screen plate and are conveyed by a conveying belt in the traditional automatic spraying assembly line, then the windscreen wiper is arranged on the screen plate manually, and the turning is performed manually. The spraying raw materials are mainly paint or spraying plastic dust paint, contain a lot of harmful gases and dust substances threatening the health of workers, are unsafe to use, have high working strength when manual work is utilized, have high labor cost and low turnover efficiency, and are difficult to meet the requirement of automatic processing at the present stage.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automatic turn-over machine of spraying that safe in utilization, use manpower sparingly cost, spraying are efficient is provided.

In order to solve the technical problem, the technical solution of the utility model is that:

the automatic spraying turnover machine comprises a rack, wherein a screen plate conveying belt, a coaxial wingspan device and a receiving conveying belt are arranged on the rack, the coaxial wingspan device is arranged between the screen plate conveying belt and the receiving conveying belt and comprises a left wingspan device and a right wingspan device, stepping motors, induction switches and electric magnetic strips are arranged on the left wingspan device and the right wingspan device, the stepping motors are used for braking the left wingspan device and the right wingspan device to turn left and right, and the induction switches are connected with the stepping motor through circuits.

Furthermore, the left wing spreading device and the right wing spreading device comprise a turning plate main shaft and a wing span side plate, and the wing span side plate is fixedly sleeved on the turning plate main shaft.

Furthermore, the turning plate main shaft is connected with a stepping motor, and the stepping motor brakes the turning plate main shaft to turn left and right.

Further, the wingspan side plate is L-shaped.

Furthermore, the electromagnetic strips are uniformly arranged on the wingspan side plates.

Further, the number of the electromagnetic strips is 2, 4 or 6.

Furthermore, the inductive switch is a sensor, the sensor is arranged in the middle of the stepping motor, and the sensor is a proximity sensor.

Furthermore, a screen plate for bearing the spraying elements is arranged on the screen plate conveying belt and the bearing conveying belt.

Furthermore, the inductive switch is a proximity switch, and the proximity switch is respectively arranged on the right side of the left wing span device electric magnetic strip and the left side of the right wing span device electric magnetic strip.

Furthermore, the screen conveying belt and the receiving conveying belt are also provided with speed reducing motors, and the speed reducing motors drive the screen conveying belt and the receiving conveying belt to transmit.

The utility model has the advantages that:

the utility model realizes the automatic turnover during the spraying of the spraying elements such as the windscreen wiper and the like by the matching turnover of the left wing spreading device and the right wing spreading device of the coaxial wing spreading device through the transmission of the screen plate conveyer belt and the receiving conveyer belt and the spraying elements such as the windscreen wiper and the like, the whole process is completed by machinery, the harm of harmful substances such as paint and the like to human bodies is avoided, and the use is safe; meanwhile, the labor cost is saved, the spraying efficiency can be improved by using the machine for overturning, and the use is convenient.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

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

FIG. 3 is a schematic view of the coaxial wingspan arrangement of the present invention;

fig. 4 is a schematic structural view of the combination of the screen plate and the electromagnetic strip of the present invention.

In the figure: 1-a frame 1; 2-screen plate conveyer belt; 3-a coaxial wingspan device; 4-carrying the conveyer belt; 21-a reduction motor; 5-a left wingspan device; 6-right wingspan device; 51-a stepper motor; 52-an inductive switch; 53-an electric magnetic stripe; 54-flap spindle; 55-wingspan side plate; 521-a sensor; 522-proximity switches;

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be noted that the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

In order to solve the problem that the traditional automatic spraying assembly line is unsafe and inefficient to use due to the fact that spraying elements such as a wiper blade and the like are sprayed through manual turnover, the application discloses a spraying automatic turnover machine, as shown in figures 1, 2, 3 and 4,

the spraying device comprises a rack 1, wherein a screen plate conveying belt 2, a coaxial wingspan device 3 and a receiving conveying belt 4 are arranged on the rack 1, the screen plate conveying belt 2 and the receiving conveying belt 4 are used for conveying, a screen plate with spraying elements is placed on the screen plate conveying belt 2 and the receiving conveying belt 4, the spraying elements are conveyed from left to right through the transmission of the conveying belts, the automatic processing is facilitated, preferably, a speed reducing motor 21 is arranged on the screen plate conveying belt 2 and the receiving conveying belt 4, and the speed reducing motor 21 drives the screen plate conveying belt 2 and the receiving conveying belt 4 to transmit.

The coaxial wingspan device 3 is arranged between the screen plate conveyer belt 2 and the bearing conveyer belt 4, the coaxial wingspan device 3 comprises a left wingspan device 5 and a right wingspan device 6, a stepping motor 51, an induction switch 52 and an electromagnetic strip 53 are arranged on the left wingspan device 5 and the right wingspan device 6, the stepping motor 51 brakes the left wingspan device 5 and the right wingspan device 6 to turn left and right, the stepping motor 51 is used for providing power for the left wingspan device 5 and the right wingspan device 6 to turn left and right, the induction switch 52 is used for driving the stepping motor 51, the induction switch 52 is in circuit connection with the stepping motor 51, when the induction switch 52 senses an electric signal, a signal is transmitted to the stepping motor 51 so as to realize the driving and turning of the stepping motor 51, the electromagnetic strip 53 is used for providing a magnetic force to adsorb the screen plate, and both sides of the screen plate corresponding to the application have magnetism, when the electromagnetic strips 53 are arranged at the two ends of the screen plate, if the induction switch 52 enables the electromagnet to be electrified, the electromagnetic strips 53 can adsorb the screen plate, and when the induction switch 52 is powered off, the electric magnetic strips 53 are disconnected from adsorption, and the screen plate can fall to a certain position according to the gravity of the screen plate. Preferably, the left wingspan device 5 and the right wingspan device 6 include a turning plate main shaft 54 and a wingspan side plate 55, the wingspan side plate 55 is fixedly sleeved on the turning plate main shaft 54, and when the turning plate main shaft 54 is turned, the wingspan side plate 55 is driven to turn.

Preferably, the stepping motors 51 on the left wingspan device 5 and the right wingspan device 6 are specifically connected with the flap spindle 54, the stepping motors 51 brake the flap spindle 54 to turn left and right, and the flap spindle 54 drives the wingspan side plate 55 to turn left and right.

Preferably, the span-wise side plate 55 is L-shaped, one side of the span-wise side plate is fixedly sleeved on the flap main shaft 54, and the other side of the span-wise side plate extends outwards, wherein the length of the span-wise side plate 55 fixedly sleeved on the flap main shaft 54 is half of the whole length of the span-wise side plate 55.

Preferably, the electromagnetic strips 53 are uniformly arranged on the span side plates 55.

Preferably, the number of the electromagnetic bars 53 is 2, 4 or 6. 4 or 6 electromagnetic strips 53 are used for placing the screen plates with different sizes, if the screen plate is smaller, a plurality of electromagnetic strips are arranged, a plurality of elements are processed at one time, if the screen plate is larger, a small number of electromagnetic strips 53 are arranged, at least 2 electromagnetic strips are arranged, and the screen plate can be stably supported.

Preferably, the inductive switch 52 is a sensor 521, the sensor 521 is disposed in the middle of the stepping motor 51, the sensor 521 is a proximity sensor 521, and the proximity sensor 521 is a device capable of sensing the proximity of an object, and recognizes the proximity of the object by using the sensitivity of the displacement sensor 521 to the approaching object, and outputs a corresponding switch signal. In this application, when proximity sensor 521 in the middle of step motor 51 senses that the otter board is apart from self certain distance, and specific distance is the distance of electromagnetic strip 53's right side apart from step motor 51, and when the otter board transmitted the right side of electromagnetic strip 53 promptly, proximity sensor 521 output corresponding switching signal gives step motor 51 and electromagnetic strip 53, drives step motor 51 braking upset or electric magnetic stripe 53 and adsorbs or the disconnection adsorbs.

Preferably, the screen plate conveying belt 2 and the receiving conveying belt 4 are provided with screen plates for bearing spraying elements. The spraying element of this application passes through the otter board transmission, and the otter board has certain magnetism moreover.

Preferably, the inductive switch 52 may be provided as a proximity switch 522 in addition to the proximity sensor 521 on the stepping motor 51, and the proximity switches 522 are respectively provided on the right side of the electric magnetic strip 53 of the left wing span device 5 and the left side of the electric magnetic strip 53 of the right wing span device 6. When the screen plate reaches the right side of the electric magnetic strip 53 of the left wingspan device 5, the stepping motor 51 is driven to turn over, and meanwhile, the electric magnetic strip 53 is driven to adsorb the screen plate to realize turning over.

The application has the following specific use method and principle:

firstly, the screen plate is placed on a bearing conveyer belt 4, the electromagnetic strip 53 of the right wingspan device 6 adsorbs the screen plate to prevent the screen plate from being conveyed to the right side, the spraying elements are orderly arranged on the screen plate and enter the screen plate conveyer belt 2 of the application after one surface is sprayed, the screen plate conveyer belt 2 sequentially conveys the screen plate to the right side, when the approach switch 522 at the right side of the electromagnetic strip 53 of the left wingspan device 5 senses that the screen plate enters or the sensor 521 positioned in the middle of the stepping motor 51 senses that the screen plate enters, the induction switch 52 drives the electromagnetic strip 53 positioned below the screen plate to adsorb the screen plate, and simultaneously the stepping motor 51 of the right wingspan device 6 drives the turning plate main shaft 54 to turn over by 180 degrees anticlockwise, the right wingspan device 6 turns over, the screen plate driven by the right wingspan device 6 reaches the left side to press the left wing, then the driving switch drives the left wing spreading device 5 and the right wing spreading device 6 to rotate clockwise 180 degrees simultaneously, when the screen plate is turned over, the approach switch 522 at the left side of the electromagnetic strip 53 of the right wing spreading device 6 senses that the screen plate enters or the sensor 521 positioned in the middle of the stepping motor 51 senses that the screen plate enters, the driving switch drives the left wing spreading device 5 with the screen plate to rotate 180 degrees leftwards, the left wing spreading device 5 with the screen plate is turned over to the left, the spraying element positioned on the right wing spreading device 6 automatically falls onto the screen plate on the right wing spreading device 6 due to the action of gravity, simultaneously the sensing switch 52 at the right side drives the electromagnetic strip 53 on the right wing spreading device 6 to release adsorption, the screen plate carrying the wiper on the right wing spreading device 6 automatically reaches the carrying conveyer belt 4 due to the action of gravity and is sent into the spraying system through the carrying conveyer, and (3) completing the automatic turning process of the windscreen wiper, and after the steps are completed, turning the right wingspan device 6 to the left, adsorbing the screen plate onto the electromagnetic strip 53 of the right wingspan device 6, turning the screen plate to the right, resetting and further turning the screen plate to the next step.

The spraying elements such as the windscreen wiper and the like placed on the screen plate are conveyed through the screen plate conveying belt and the bearing conveying belt, and the spraying elements such as the windscreen wiper and the like are automatically turned over when being sprayed through the matching turning of the left winging device and the right winging device of the coaxial winging device, the whole process is completed through machinery, the harm of harmful substances such as paint and the like to a human body is avoided, and the use is safe; meanwhile, the labor cost is saved, the spraying efficiency can be improved by using the machine for overturning, and the use is convenient.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that all changes and modifications made according to the claims and the specification of the present invention should fall within the scope covered by the present invention.

Claims (10)

1. The utility model provides an automatic turn-over machine of spraying, includes the frame, its characterized in that: the coaxial wingspan device is arranged between the screen plate conveyer belt and the receiving conveyer belt and comprises a left wingspan device and a right wingspan device, stepping motors, induction switches and electric magnetic strips are arranged on the left wingspan device and the right wingspan device, the stepping motors brake the left wingspan device and the right wingspan device to turn left and right, and the induction switches are connected with stepping motor circuits.

2. The automatic spraying turnover machine according to claim 1, characterized in that: the left wing spreading device and the right wing spreading device comprise a turning plate main shaft and a wing span side plate, and the wing span side plate is fixedly sleeved on the turning plate main shaft in a fixed mode.

3. The automatic spraying turnover machine according to claim 2, characterized in that: the turning plate main shaft is connected with a stepping motor, and the stepping motor brakes the turning plate main shaft to turn left and right.

4. The automatic spraying turnover machine according to claim 3, characterized in that: the wingspan side plate is L-shaped.

5. The automatic spraying turnover machine according to claim 2, characterized in that: the electromagnetic strips are uniformly arranged on the wingspan side plate.

6. The automatic spraying turnover machine according to claim 5, characterized in that: the number of the electromagnetic strips is 2, 4 or 6.

7. The automatic spraying turnover machine according to claim 1, characterized in that: the inductive switch is a sensor, the sensor is arranged in the middle of the stepping motor, and the sensor is a proximity sensor.

8. The automatic spraying turnover machine according to claim 7, characterized in that: and the screen plate conveying belt and the bearing conveying belt are provided with screen plates for bearing spraying elements.

9. The automatic spraying turnover machine according to claim 2, characterized in that: the inductive switches are proximity switches which are respectively arranged on the right side of the left wing span device electric magnetic strip and the left side of the right wing span device electric magnetic strip.

10. The automatic spraying turnover machine according to claim 1, characterized in that: the screen conveyer belt and the receiving conveyer belt are also provided with speed reducing motors, and the speed reducing motors drive the screen conveyer belt and the receiving conveyer belt to transmit.

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