CN112191616A - A ion wind dust collector and automatic gilding press for automatic gilding press - Google Patents

Abstract

The invention provides an ion wind dust removal device for an automatic stamping machine and the automatic stamping machine. The ion wind dust removal device comprises a wind supply pipeline, one end of which forms an ion dust removal tuyere; the first air source device, the dust and mist removing machine and the ion generating device are sequentially arranged on the air supply pipeline along the direction of the air supply pipeline towards the ion dust removing air nozzle, and the first air source device is used for supplying air to the air supply pipeline; the dust and mist removing machine is used for removing dust and mist from the gas in the air supply pipeline; the ion generating device is used for generating positive and negative ion groups in the air supply pipeline; and the gas subjected to dust removal and demisting is mixed with the positive ion group and the negative ion group to form an ion gas flow and is blown out from the ion dust removal air nozzle.

Description

A ion wind dust collector and automatic gilding press for automatic gilding press

Technical Field

The invention relates to the field of automatic stamping machines, in particular to an ion wind dust removal device for an automatic stamping machine and the automatic stamping machine.

Background

At present, with the improvement of the living standard of people, the requirements on the appearance of an air conditioner are continuously improved. The electrochemical aluminum stamping is used as a secondary processing technology, and the development is rapid in recent years. New materials and new processes are continuously generated, so that the glossiness, the stereoscopic impression and the metal feeling of the air conditioner panel after gold stamping are continuously improved.

Static that high temperature and high pressure can produce among the injection molding process can adsorb the impurity among the surrounding environment, and the panel is by the ejecting in-process of thimble produced surperficial piece also can be adsorbed on the panel surface. In the gold stamping process, fine particles, moisture or impurities are adhered to the surface of an injection molding part, so that the quality problems of pockmarks, white leakage and the like are caused after gold stamping is finished. The problem is a pain point in the gold stamping production process of the air conditioner panel.

Disclosure of Invention

In view of the above, the present invention provides an ion wind dust removing device for an automatic stamping machine and an automatic stamping machine, so as to solve the above problems.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an ion wind dust removal device for an automatic stamping machine comprises an air supply pipeline, wherein an ion dust removal air nozzle is formed at one end of the air supply pipeline; and a first air source device, a dust and mist removing machine and an ion generating device which are arranged on the air supply pipeline in sequence along the direction of the air supply pipeline towards the ion dust removing air nozzle,

the first air source device is used for providing air for the air supply pipeline;

the dust and mist removing machine is used for removing dust and mist from the gas in the air supply pipeline;

the ion generating device is used for generating positive and negative ion groups in the air supply pipeline;

and the gas subjected to dust removal and demisting is mixed with the positive ion group and the negative ion group to form an ion gas flow and is blown out from the ion dust removal air nozzle.

Further optionally:

the air supply pipeline comprises a first pipeline and a second pipeline; and a connecting portion connecting the first pipe and the second pipe,

the first end of the first pipeline is communicated with the first air source device, the second end of the first pipeline is communicated with the second end of the connecting part, and the dust and mist removing machine is arranged on the first pipeline;

the first end of the second pipeline is communicated with the second end of the connecting part, the second end of the second pipeline forms the ion dedusting air nozzle, and the ion generating device is arranged on the second pipeline;

wherein the cross-sectional area of the first conduit is greater than the cross-sectional area of the second conduit; the connecting portion has a gradually decreasing cross-sectional area in a direction from the first end of the connecting portion to the second end of the connecting portion.

Further optionally:

the ion dust removal air nozzle is of a flat opening structure.

Further optionally:

also comprises a drying pipeline; and a heating device arranged on the drying pipeline,

the first end of the drying pipeline is communicated with the connecting part or a second gas source device capable of providing gas; the second end of the drying pipeline is penetrated in the ion dedusting air nozzle, and the direction of a gas flow path inside the drying pipeline is consistent with the blowing direction of the ion airflow of the ion dedusting air nozzle;

the heating device is used for heating the gas in the drying pipeline.

Further optionally:

and the second end of the drying pipeline adopts a flat opening structure and corresponds to the width direction of the flat opening of the ion dust removal air nozzle.

Further optionally:

the ion dust removal air nozzle penetrates through the second end of the drying pipeline and exceeds a preset length.

Further optionally:

the first end of the drying pipeline is communicated with the connecting part, and the sum of the sectional area of the drying pipeline and the sectional area of the second pipeline is not larger than the sectional area of the first pipeline.

Further optionally:

the first pipeline and the second pipeline are both circular pipes and are coaxially arranged, and the drying pipeline is located beside the second pipeline.

The invention discloses an automatic stamping machine in a second aspect, which comprises any one of the ion wind dust removal devices.

Further optionally:

the device also comprises a workbench; and a bracket, a flat ironing mechanism and a rolling ironing mechanism which are arranged in sequence along the workpiece feeding direction of the workbench,

the bracket is used for fixing the ion wind dust removal device, and the ion dust removal air nozzle faces the workbench.

Has the advantages that:

according to the invention, the automatic stamping machine is improved, and the ion wind dust removal device is additionally arranged on the automatic stamping machine, so that the yield of products is improved, and the production cost is reduced; the equipment can realize rapid dust removal, and has simple structure and low energy consumption.

Drawings

The above and other objects, features and advantages of the present disclosure will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings. The drawings described below are merely some embodiments of the present disclosure, and other drawings may be derived from those drawings by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic view of an ion wind dust removing apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular forms "a", "an", and "the" as used in the embodiments of the present invention and the appended claims are intended to include the plural forms as well, unless the context clearly indicates otherwise, and "a" and "an" generally include at least two, but do not exclude the inclusion of at least one.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in a commodity or system that comprises the element.

At present, static electricity can be generated at high temperature and high pressure in the injection molding process, so that impurities in the surrounding environment and chips and the like generated in the process that the panel is ejected by the ejector pin are adsorbed. In the gold stamping process, fine particles, moisture or impurities are adhered to the surface of an injection molding part, so that the quality problems of pockmarks, white leakage and the like are caused after gold stamping is finished.

The invention improves the bronzing machine, adds the ion wind dust-removing device on the bronzing machine, releases positive and negative ion groups by utilizing the high-voltage discharge of the ion generating device, is blown out by compressed air at high speed, contacts with the positive and negative charges on the surface of the processed object, neutralizes the charges in the air, and achieves the effect of static electricity removal; and meanwhile, the dust removing effect can be achieved. The ion air dust removal device has large ion airflow coverage area and can adjust proper air volume through the adjusting air valve. The ion wind can eliminate static electricity quickly, and the performance is safe and stable. Because the wind power is very strong, the security is high, therefore can be fine reach the effect that the dust removal department destatics.

To further illustrate the technical solution of the present invention, the following specific examples are provided as shown in fig. 1.

Example 1

As shown in fig. 1, in the present embodiment, an ion wind dust removing apparatus for an automatic stamping machine is provided, which includes a wind supply duct having one end forming an ion dust removing nozzle; and a first air source device, a dust and mist removing machine 11 and an ion generating device 21 which are arranged on the air supply pipeline in sequence along the direction of the air supply pipeline towards the ion dust removing air nozzle. The air is provided into the air supply pipeline after being generated by the first air source device. Optionally, the first air source device is an air compressor. The dust and mist removing machine 11 removes dust and mist from the air in the air supply duct, and removes impurities, moisture and the like in the air by using the dust and mist removing machine. The ion generator 21 generates positive and negative ion groups in the air supply duct. In the ion wind dust removal device, the gas subjected to dust removal and demisting is mixed with positive and negative ion groups to form an ion gas flow, and the ion gas flow is blown out from an ion dust removal air nozzle.

In some implementations, the supply duct includes a first duct 1 and a second duct 2; and a connecting portion 4 connecting the first pipe and the second pipe. Specifically, the method comprises the following steps: a first port of the first pipeline 1 is communicated with a first air source device, a second port of the first pipeline 1 is communicated with a second port of the connecting part 4, and the dust and mist removing machine is arranged on the first pipeline 1; the first port of the second pipeline 2 is communicated with the second port of the connecting part 4, the second port of the second pipeline 2 forms an ion dust removal air nozzle, and the ion generating device is arranged on the second pipeline 2.

The high pressure of the air compressor is combined, meanwhile, an air supply pipeline is improved, and the pressurization acceleration of the gas is realized by utilizing the throttling function. The sectional area of the first pipeline is larger than that of the second pipeline; correspondingly: the connecting portion 4 gradually decreases in cross-sectional area in a direction from the first port of the connecting portion 4 to the second port of the connecting portion. Positive and negative ion groups are released by high-voltage discharge of the ion generating device 21, are blown out at high speed by compressed gas, are contacted with positive and negative charges on the surface of an object, and are neutralized with charges in the air, so that the effect of static electricity removal is achieved; and meanwhile, the dust removing effect can be achieved.

Further optionally: the ion dust removal air nozzle adopts a flat opening structure. The flat mouth structure can correspond to a processed object on a workbench of a metal ironing machine so as to blow and sweep the processed object with a wider size. The ion airflow coverage area of the ion wind dust removal device is large, and the proper air quantity can be adjusted through the adjusting air valve; the formed ion wind can rapidly eliminate static electricity, and the performance is safe and stable; because the wind power is very strong, the security is high, therefore can be fine reach the effect that the dust removal department destatics.

In some optional modes, the ion wind dust removal device further comprises a drying pipeline 3; and a heating device 31 provided on the drying duct. The first port of the drying pipeline is communicated with the connecting part 4 or a second gas source device (not shown in the figure) capable of providing gas; the second port of the drying pipeline is penetrated by the ion dust removal air nozzle, and the direction of the gas flow path inside the drying pipeline 3 is consistent with the blowing direction of the ion airflow of the ion dust removal air nozzle; the heating device 31 is used for heating the gas inside the drying duct. Wherein the second air source device can also adopt an air compressor and the like. This electrostatic precipitator device can produce dry ion wind through high-pressure ion pipe (be equipped with ion generating device's second pipeline) and electric heating pipe (the stoving pipeline that has heating device) and carry out effectual cleanness to the panel, has further improved the effect that removes dust and destatics for impurity in the surrounding environment and the piece that is produced by the ejecting in-process of thimble by processed object (like panel etc.) can not adsorb on the surface of panel. The quality problems of pockmarks, white leakage and the like generated after gold stamping is finished due to the fact that fine particles, moisture or impurities are adhered to the surface of an injection molding piece in the gold stamping process are avoided.

An ion dust removal air nozzle adopting a flat opening structure is combined; correspondingly: the second end of the drying pipeline also adopts a flat opening structure and corresponds to the width direction of the flat opening of the ion dust removal air nozzle, so that the drying air can comprehensively dry the ion airflow and ensure that the two are uniformly mixed.

Furthermore, the second port of the ion dust removal air nozzle penetrating through the drying pipeline exceeds the preset length. The problem that the drying air in the drying pipeline disturbs the ion airflow before the ion dedusting air nozzle is blown out is avoided, and the ion dedusting and purifying effect of the ion airflow on the processed object after being blown out is reduced.

When the first port of the drying pipeline is communicated with the connecting part 4, the sum of the sectional area of the drying pipeline and the sectional area of the second pipeline is not larger than the sectional area of the first pipeline 1, and the air outlet speed and pressure of air are ensured. Further, the first pipeline 1 and the second pipeline 2 both adopt circular pipes and are coaxially arranged; the drying duct is offset and located beside the second duct 2. The gas flow in the second pipeline 2 is ensured, and the formed ion airflow can be directly blown out. In addition, this effect is further ensured by offsetting the drying duct 3 at one side of the second duct 2. The arrangement mode also reduces the number of the air source devices and simplifies the integral structure of the ion wind dust removal device. It should be noted that the shape of the pipeline may also be a square pipe, a triangular pipe, etc., which can ensure that dry ion wind is blown out.

The ion wind dust removal device in the embodiment effectively cleans the panel by generating dry ion wind through the high-voltage ion tube and the electric heating tube, solves the quality problem of the air conditioner panel in the gold stamping process, and is matched with a gold stamping machine for use to realize automatic production.

Example 2

As shown in fig. 1, in the present embodiment, there is provided an automatic gold stamping machine including the ion wind dust removing device in embodiment 1. In addition, the automatic stamping machine also comprises a workbench; and a bracket 5, a flat ironing mechanism and a rolling ironing mechanism which are sequentially arranged along the workpiece feeding (processed object) direction of the workbench.

Wherein support 5 is used for fixed ion wind dust collector, and the ion dust removal tuyere sets up towards the workstation, can just be to the object by processing, because the object by processing is conveyed by the workstation, the ion wind dust collector fixes and can realize blowing by the whole of object by processing on sending the route of piece this moment.

The working process of this embodiment will be further described by taking the object to be processed as the air-conditioning panel 6 as an example.

When the air conditioner panel 6 is taken out from the mold of the injection molding machine by the corresponding manipulator and then placed on the workbench, the pressure switch on the workbench is turned on, and the bronzing machine is started. At this time, the ion wind dust removing device on the automatic stamping machine works, and comprises a first air source device (air compressor), a dust and mist removing machine 11 in the first pipeline 1, an ion generating device 21 in the second pipeline 2, a heating device 31 on the drying pipeline 3 and the like.

After the ion wind dust removal device starts to work, compressed air enters the dust and mist removal machine 11 through the first pipeline 1, and the dust and vapor in the air are filtered and dried by the dust and mist removal machine 11 to obtain clean and dry compressed air.

Then the compressed air enters into the second pipeline 2 and the drying pipeline 3 respectively, the ion generating device 21 at the second pipeline 2 generates high-voltage discharge to release positive and negative ion groups, and the positive and negative ion groups are blown out at high speed by the compressed air. The compressed air introduced into the drying duct 3 is heated by the heating device 31.

The compressed air in the second pipeline 2 and the drying pipeline 3 is converged into clean hot ion wind (ion airflow) at the ion dust removal air nozzle, and the clean and dry high-pressure hot ion wind is blown out through the flat air outlet nozzle.

Meanwhile, a workbench which is matched with the workbench to work moves from an initial position to a gold stamping station (corresponding positions of the flat stamping mechanism and the rolling stamping mechanism) through a slide rail, the ion wind dust removal device blows high-pressure hot ion wind to clean the surface of the panel, and the panel is sequentially subjected to flat stamping and rolling stamping.

And after the gold stamping is finished, the gold stamping tool is restored to the initial position, the air conditioner panel 6 which is subjected to gold stamping is taken out by the corresponding manipulator, and the next round of gold stamping is carried out.

Exemplary embodiments of the present disclosure are specifically illustrated and described above. It is to be understood that the present disclosure is not limited to the precise arrangements, instrumentalities, or instrumentalities described herein; on the contrary, the disclosure is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (10)

1. The utility model provides an ion wind dust collector for automatic gilding press which characterized in that: comprises an air supply pipeline, one end of which forms an ion dust removal air nozzle; and a first air source device, a dust and mist removing machine and an ion generating device which are arranged on the air supply pipeline in sequence along the direction of the air supply pipeline towards the ion dust removing air nozzle,

the first air source device is used for providing air for the air supply pipeline;

the dust and mist removing machine is used for removing dust and mist from the gas in the air supply pipeline;

the ion generating device is used for generating positive and negative ion groups in the air supply pipeline;

and the gas subjected to dust removal and demisting is mixed with the positive ion group and the negative ion group to form an ion gas flow and is blown out from the ion dust removal air nozzle.

2. The ionic wind dust collector for automatic bronzing machines according to claim 1, wherein: the air supply pipeline comprises a first pipeline and a second pipeline; and a connecting portion connecting the first pipe and the second pipe,

a first port of the first pipeline is communicated with the first air source device, a second port of the first pipeline is communicated with a second port of the connecting part, and the dust and mist removing machine is arranged on the first pipeline;

the first port of the second pipeline is communicated with the second port of the connecting part, the second port of the second pipeline forms the ion dedusting air nozzle, and the ion generating device is arranged on the second pipeline;

wherein the cross-sectional area of the first conduit is greater than the cross-sectional area of the second conduit; the connecting portion has a gradually decreasing cross-sectional area in a direction from the first port of the connecting portion to the second port of the connecting portion.

3. The ionic wind dust removal device for automatic bronzing machines of claim 2, wherein: the ion dust removal air nozzle is of a flat opening structure.

4. The ionic wind dust collector for automatic bronzing machines according to claim 3, wherein: also comprises a drying pipeline; and a heating device arranged on the drying pipeline,

the first port of the drying pipeline is communicated with the connecting part or a second gas source device capable of providing gas; the second port of the drying pipeline is penetrated by the ion dedusting air nozzle, and the direction of a gas flow path inside the drying pipeline is consistent with the blowing direction of the ion airflow of the ion dedusting air nozzle;

the heating device is used for heating the gas in the drying pipeline.

5. The ionic wind dust collector for automatic bronzing machines according to claim 4, wherein: and the second end of the drying pipeline adopts a flat opening structure and corresponds to the width direction of the flat opening of the ion dust removal air nozzle.

6. The ionic wind dust collector for automatic bronzing machines according to claim 5, wherein: and the ion dust removal air nozzle penetrates through the second port of the drying pipeline and exceeds a preset length.

7. The ionic wind dust collector for automatic bronzing machines according to claim 6, wherein: the first port of the drying pipeline is communicated with the connecting part, and the sum of the sectional area of the drying pipeline and the sectional area of the second pipeline is not more than the sectional area of the first pipeline.

8. The ionic wind dust collector for automatic bronzing machines according to claim 7, wherein: the first pipeline and the second pipeline are both circular pipes and are coaxially arranged, and the drying pipeline is located beside the second pipeline.

9. An automatic gilding press which characterized in that: the automatic stamping machine comprises the ion wind dust removal device of any one of claims 1 to 8.

10. The automatic bronzing machine of claim 9, wherein: the device also comprises a workbench; and a bracket, a flat ironing mechanism and a rolling ironing mechanism which are arranged in sequence along the workpiece feeding direction of the workbench,

the bracket is used for fixing the ion wind dust removal device, and the ion dust removal air nozzle faces the workbench.

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