CN110091011A - ultrasonic cleaning device and product processing device - Google Patents

Abstract

The application relates to an ultrasonic cleaning device and a product processing device, wherein the ultrasonic cleaning device comprises a machine base, a machine body, an ultrasonic generator and a control switch thereof; the machine body is provided with a cleaning cavity and a mounting cavity which are communicated, the machine body is provided with an opening, the cleaning cavity is communicated with the opening and is used for accommodating a product to be cleaned, the ultrasonic generator is fixed in the mounting cavity, and the output surface of the ultrasonic generator faces the cleaning cavity; the machine body is provided with a communicating pipeline which is communicated with the outer surface of the machine body and the cleaning cavity, the control switch is electrically connected with the ultrasonic generator through a lead, and at least part of the lead penetrates through the communicating pipeline. The cleaning device is particularly suitable for cleaning hardware products such as aluminum alloy products, on one hand, the problem of low efficiency caused by personnel operation is avoided, on the other hand, the problem of unclean cleaning caused by personnel uncertainty is avoided, on the other hand, the consumption of physical energy of operators is reduced, on the other hand, the treatment efficiency is improved, and the labor cost is reduced.

Description

Ultrasonic cleaning device and product processing device

technical field

The application relates to the field of tapping processing, in particular to an ultrasonic cleaning device and a product processing device.

Background technique

When cleaning the residual impurities, oil stains and dust on the surface of hardware products, after putting a certain amount of products into the cleaning tank, the operator needs to hold the plastic frame containing the products and swing it up and down until it is cleaned. .

Manually cleaning the product with this common method is relatively slow in efficiency and requires a large number of personnel to operate, and the product will not be cleaned cleanly due to the lack of seriousness or laziness of the personnel. Operating in this way for a long time will consume a lot of physical energy for the operator. .

Contents of the invention

Based on this, it is necessary to provide an ultrasonic cleaning device and a product processing device.

An ultrasonic cleaning device, which includes a machine base, a body, an ultrasonic generator and a control switch thereof; the body is fixed on the base, and the body is provided with a connected cleaning cavity and an installation cavity, and the body has Opening, the cleaning chamber communicates with the opening, the cleaning chamber is used to accommodate the product to be cleaned, the ultrasonic generator is fixed in the installation chamber and the output surface of the ultrasonic generator faces the cleaning chamber; The body is provided with a communication pipe, and the communication pipe communicates with the outer surface of the body and the cleaning chamber, the control switch is electrically connected to the ultrasonic generator through a wire, and the wire is at least partially passed through the communication channel. in the pipeline.

The above-mentioned ultrasonic cleaning device uses ultrasonic cleaning to clean products, and is especially suitable for cleaning hardware products such as aluminum alloy products. On the one hand, it is beneficial to reduce the physical consumption of operators, and on the other hand, it improves the processing efficiency and reduces labor costs.

In one of the embodiments, the ultrasonic cleaning device further includes at least one support structure for carrying the product to be cleaned, and each support structure is arranged in the cleaning chamber.

In one of the embodiments, the inner wall of the body is provided with fixing grooves, and each of the bracket structures is respectively fixed in each of the fixing grooves.

In one of the embodiments, each of the support structures fixed by each of the fixing grooves forms a support layer in the cleaning chamber.

In one embodiment, the body is provided with a liquid storage area and a material storage area near the opening, and the liquid storage area and the material storage area are arranged side by side.

In one embodiment, the body is provided with a flexible receiving area near the opening.

In one of the embodiments, the flexible receiving area forms a ramp or the flexible receiving area has a network structure.

In one of the embodiments, the base is a frame structure;

The bottom of the body is provided with a drain hole and a valve thereof;

The ultrasonic cleaning device also includes a drain pipe communicating with the valve and a cover for sealing the opening;

The ultrasonic generator has a magnetic transducer or a piezoelectric transducer;

The output frequency of the ultrasonic generator is 20kHz to 30kHz;

The output surface of the ultrasonic generator faces the cleaning area of the cleaning chamber;

The ultrasonic cleaning device also includes a timing controller connected to the control switch.

A product processing device, which includes any one of the ultrasonic cleaning devices.

Description of drawings

FIG. 1 is a schematic diagram of the appearance and structure of an embodiment of the ultrasonic cleaning device of the present application.

FIG. 2 is a schematic diagram of the internal structure of another embodiment of the ultrasonic cleaning device of the present application.

FIG. 3 is a schematic diagram of the application of the embodiment shown in FIG. 2 .

Detailed ways

In order to make the above-mentioned purpose, features and advantages of the present application more obvious and understandable, the specific implementation manners of the present application will be described in detail below in conjunction with the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the application. However, the present application can be implemented in many other ways different from those described here, and those skilled in the art can make similar improvements without departing from the connotation of the present application, so the present application is not limited by the specific embodiments disclosed below.

It should be noted that when an element is referred to as being “fixed on” or “disposed on” another element, it may be directly on the other element or there may be an intervening element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and similar expressions are used herein for purposes of illustration only and are not intended to represent the only embodiments.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the technical field to which this application belongs. The terminology used herein in the description of the application is only for the purpose of describing specific embodiments, and is not intended to limit the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In one embodiment of the present application, an ultrasonic cleaning device includes a base, a body, an ultrasonic generator and a control switch thereof; the body is fixed on the base, and the body is provided with a connected cleaning chamber and an installation chamber, the body has an opening, the cleaning chamber communicates with the opening, the cleaning chamber is used to accommodate the product to be cleaned, the ultrasonic generator is fixed in the installation chamber and the output of the ultrasonic generator Facing towards the cleaning chamber; the body is provided with a communication pipe, the communication pipe communicates with the outer surface of the body and the cleaning chamber, the control switch is electrically connected to the ultrasonic generator through a wire and the wire at least partly penetrated in the communication pipe. The above-mentioned ultrasonic cleaning device uses ultrasonic cleaning to clean products, and is especially suitable for cleaning hardware products such as aluminum alloy products. On the one hand, it is beneficial to reduce the physical consumption of operators, and on the other hand, it improves the processing efficiency and reduces labor costs.

In one embodiment, an ultrasonic cleaning device includes part or all of the structures of the following embodiments; that is, the ultrasonic cleaning device includes some or all of the following technical features. In one embodiment, an ultrasonic cleaning device includes a base, a body, an ultrasonic generator and a control switch thereof. In various embodiments, the sonotrode can adopt commercially available products, and in one of the embodiments, the sonotrode has a magnetic transducer or a piezoelectric transducer; in one of the embodiments, the sonotrode The output frequency of the ultrasonic generator is 20kHz to 40kHz; in one embodiment, the output frequency of the ultrasonic generator is 20kHz to 30kHz. In one of the embodiments, the output frequency of the ultrasonic generator is 30kHz to 40kHz. When the output frequency of the ultrasonic generator, that is, the working frequency is very low, it will have a noise impact on the on-site staff, and it is not ultrasonic. In one of the embodiments, the cleaning cavity is used to accommodate cleaning liquid.

In one of the embodiments, the base is a frame structure; thus the overall weight is relatively light. In one of the embodiments, an ultrasonic cleaning device includes a base, a body, an ultrasonic generator and a control switch thereof; the base is a frame structure; the body is fixed on the base, and the body A connected cleaning cavity and an installation cavity are opened, the body has an opening, the cleaning cavity communicates with the opening, the cleaning cavity is used to accommodate the product to be cleaned, the ultrasonic generator is fixed in the installation cavity and The output surface of the ultrasonic generator faces the cleaning chamber; the body is provided with a communication pipe, and the communication pipe communicates with the outer surface of the body and the cleaning chamber, and the control switch communicates with the ultrasonic generator through The wires are electrically connected, and the wires are at least partially passed through the communication pipe. The rest of the embodiments can be deduced by analogy. Further, in one of the embodiments, the machine base is a frame structure; the bottom of the machine body is provided with a drain hole and its valve; the ultrasonic cleaning device also includes a drain pipe connected to the valve. Such a design is beneficial to realize the discharge of the cleaning liquid. Further, in one of the embodiments, the bottom of the base is provided with a moving device and its fixing device; in one of the embodiments, the moving device includes rollers, and the fixing device includes a lifting bracket, and the lifting bracket It is used to adjust the height of the machine base relative to the bearing position such as the ground, and is used to make the roller contact the bearing position to roll the machine base or break away from the bearing position so that the machine base cannot move. Such a design is beneficial to realize the overall movement and fixation of the ultrasonic cleaning device.

In one of the embodiments, the body is fixed on the machine base, the body is provided with a cleaning cavity and an installation cavity connected thereto, the body has an opening, the cleaning cavity communicates with the opening, and the cleaning The cavity is used to accommodate the product to be cleaned, the ultrasonic generator is fixed in the installation cavity and the output surface of the ultrasonic generator faces the cleaning cavity; in one embodiment, the output surface of the ultrasonic generator towards the cleaning area of the cleaning chamber. Further, in one of the embodiments, the number of the installation cavities is multiple, the number of the ultrasonic generators is multiple, each of the ultrasonic generators is set in one-to-one correspondence with each of the installation cavities, and each The output surfaces of the ultrasonic generators are located on the same straight line or on the same arc, and such a design is conducive to improving the cleaning effect. Further, in one of the embodiments, the control switches are respectively electrically connected to the ultrasonic generators through wires. Further, in one of the embodiments, the ultrasonic cleaning device further includes a timing controller connected to the control switch. Such a design can realize timing control, for example, cleaning for 5 minutes or 10 minutes each time.

In one of the embodiments, the body is provided with a communication pipe, and the communication pipe communicates with the outer surface of the body and the cleaning chamber, the control switch is electrically connected to the ultrasonic generator through a wire, and the wire at least partly penetrated in the communication pipe. Furthermore, in one of the embodiments, the communication pipe is sealed and waterproof; such a design, on the one hand, is conducive to waterproofing and insect-proofing, and on the other hand, it is convenient for the staff to control it through the control switch outside the body. The ultrasonic generator.

In one of the embodiments, the ultrasonic cleaning device further includes at least one support structure for carrying the product to be cleaned, and each support structure is arranged in the cleaning chamber. In one of the embodiments, the inner wall of the body is provided with fixing grooves, and each of the bracket structures is respectively fixed in each of the fixing grooves. In one of the embodiments, each of the support structures fixed by each of the fixing grooves forms a support layer in the cleaning chamber. Further, in one of the embodiments, each of the support structures forms a plurality of support layers in the cleaning chamber; each of the support layers includes two support structures. Further, in one of the embodiments, the support structure has a leaky basket structure. Further, in one of the embodiments, the support structure is a filter basket, that is, a drain basket. This Yang design, when the cleaning is finished, the remaining cleaning solution can be easily drained.

In one embodiment, the body is provided with a liquid storage area and a material storage area near the opening. The liquid storage area is used for storing cleaning liquid, and the material storage area is used for storing materials required for cleaning such as solid decontamination powder and the like. In one of the embodiments, the liquid storage area and the material storage area are arranged side by side. In one embodiment, the body is provided with a liquid storage area and a material storage area near the opening, and the liquid storage area and the material storage area are arranged side by side. Further, in one of the embodiments, the machine body is provided with covering bodies in the liquid storage area and the material storage area respectively. Further, in one of the embodiments, the liquid storage area communicates with the cleaning chamber, the liquid storage area is provided with a liquid storage tank, and the liquid storage tank is axially connected to the liquid storage area, so The liquid holding tank is used to store cleaning liquid, and when needed, the cleaning liquid can be poured out into the cleaning cavity by rotating the liquid holding tank. Further, in one of the embodiments, the material storage area is connected to the cleaning chamber, the material storage area is provided with a material storage tank, and the material storage tank is axially connected to the material storage area. The material holding tank is used for storing cleaning materials, and when needed, the cleaning materials therein can be poured out into the cleaning chamber by rotating the material holding tank. With this design, different cleaning formulas can be set flexibly and conveniently to obtain better cleaning effect.

In one embodiment, the body is provided with a flexible receiving area near the opening. Further, in one of the embodiments, the flexible receiving area has an outlet leading to the cleaning chamber or the bottom of the cleaning chamber. In one of the embodiments, the flexible receiving area forms a ramp or the flexible receiving area has a network structure. Such a design can conveniently and quickly output the product to be cleaned into the cleaning chamber automatically, or the cleaning chamber can automatically accept the product to be cleaned, which greatly improves the processing efficiency. Further, in one of the embodiments, the body has a C-shaped or U-shaped transmission structure, the transmission structure is provided with a plurality of cleaning positions, and each of the cleaning positions is used to fix a product to be cleaned, so The transmission structure part is located in the cleaning chamber or the cleaning area of the cleaning chamber; further, a product to be cleaned is fixed on a cleaning position; such a design can form an automatic ultrasonic cleaning method, and a product to be cleaned The product is fixed at one of the cleaning positions, automatically transported to the cleaning chamber for ultrasonic cleaning, and then automatically output, which greatly saves labor costs and improves cleaning efficiency.

Further, in one of the embodiments, the ultrasonic cleaning device further includes a heating device arranged in the cleaning chamber, and the heating device is used for heating the cleaning liquid in the cleaning chamber. Further, in one of the embodiments, the heating device is electrically connected to the control switch through wires, and in one of the embodiments, the heating device is controlled in linkage with the ultrasonic generator. This design can easily increase the cleaning temperature to achieve better cleaning effect. Further, in one of the embodiments, the ultrasonic cleaning device further includes a vibrating device arranged on the base, the body is fixed on the vibrating device, and the vibrating device is used to vibrate the body; Or, the ultrasonic cleaning device also includes a vibrating device arranged in the installation cavity, the ultrasonic generator is fixed on the vibrating device, and the vibrating device is used to vibrate the ultrasonic generator; such a design, It is beneficial to obtain better cleaning effect.

Further, in one of the embodiments, the ultrasonic cleaning device further includes a cover covering the opening. Such a design, on the one hand, is conducive to dust prevention, and on the other hand, it is also conducive to avoiding accidents. In one of the embodiments, the machine base is a frame structure; the bottom of the machine body is provided with a drain hole and its valve; the ultrasonic cleaning device also includes a drain pipe connected to the valve and a seal to cover the opening. Cover; the ultrasonic generator has a magnetic transducer or a piezoelectric transducer; the output frequency of the ultrasonic generator is 20kHz to 30kHz; the output surface of the ultrasonic generator faces the cleaning area of the cleaning chamber; The ultrasonic cleaning device also includes a timing controller connected to the control switch.

In one of the embodiments, as shown in Figure 1, the ultrasonic cleaning device includes a base 200, a body 100, an ultrasonic generator (blocked in the figure) and a control switch 300 thereof; the body 100 is fixed on the base 200 Above, the body 100 is provided with a connected cleaning cavity 130 and an installation cavity (blocked in the figure), please refer to Figure 2 and Figure 3 together, the body 100 has an opening 120, and the cleaning cavity 130 communicates with the Opening 120, there is cleaning liquid 888 in the cleaning cavity 130 during use, the cleaning cavity 130 is used to accommodate the product 999 to be cleaned, the ultrasonic generator is fixed in the installation cavity and the output of the ultrasonic generator Facing towards the cleaning chamber; the body is provided with a communication pipe, the communication pipe communicates with the outer surface of the body and the cleaning chamber, the control switch 300 is electrically connected to the ultrasonic generator through a wire 310 and the The wire 310 is at least partially passed through the communication pipe. Multiple control switches 300 may be designed. The ultrasonic cleaning device also includes a plurality of support structures 110 for carrying the products to be cleaned, each of the support structures 110 is arranged in the cleaning cavity 130, and each of the support structures forms a plurality of support structures in the cleaning cavity layers; each of said scaffold layers includes two of said scaffold structures. In one of the embodiments, each support structure is used to carry a plurality of products to be cleaned. In such a design, before cleaning, the products to be cleaned are placed on the support structure and then put into the cleaning chamber; Finally, you only need to pick up the bracket structure to collect the products to be cleaned, which is very convenient to use.

In a specific application example, by putting the cleaning liquid into the ultrasonic cleaning device, heating the temperature of the liquid inside, and through the sound wave vibration generated by the machine, the size of the vibration can be further adjusted to drive the cleaning liquid to remove the residual impurities in the hardware products. , oil stains and dust are cleaned; during the cleaning process, no personnel are required to swing the plastic frame containing the product; the product is picked up after cleaning. Using this ultrasonic cleaning device can reduce the slow efficiency caused by personnel operation, unclean cleaning caused by personnel uncertainty, and reduce the physical energy consumption of operators; improve efficiency and reduce labor costs. In a specific application example, using an ultrasonic cleaning device, add a certain amount of industrial detergent and degreasing powder, the volume ratio of industrial detergent is 0.03% to 0.1%; put it into the clean water in the ultrasonic wave Stir evenly, and use a heating rod to increase the temperature to the required range, for example, the range is 60 degrees Celsius to 85 degrees Celsius, and the time for the product to be in the ultrasonic pool is 5 to 8 minutes to clean aluminum alloy die castings and zinc alloy die castings , Aluminum hardware products, etc.

In one embodiment, a product processing device includes the ultrasonic cleaning device described in any embodiment. Further, in one of the embodiments, the product processing device may also include other components or devices to form a multi-functional processing equipment, especially aluminum alloy processing equipment or hardware processing equipment. In one of the embodiments, the product processing device also includes a clamping device; the clamping device includes a base, a fixing structure and a driving structure; the fixing structure includes a lower fixing block and an upper fixing block, and the lower fixing block It is fixed on the base and N clamping grooves are formed between the lower fixing block and the upper fixing block, each of the clamping grooves is used to pass a product to be processed, the lower fixing block and the The upper fixing block is used to clamp and fix no more than N products to be processed through each of the clamping grooves; wherein, N is a natural number greater than 1 and less than 8; the driving structure includes a cylinder connection block and a cylinder, and the The cylinder is fixed on the base, and the cylinder connecting block is connected to the upper fixing block; the cylinder drives the cylinder connecting block through its output rod and drives the upper fixing block to move up and down relative to the lower fixing block so that the lower fixing block and the upper fixing block jointly clamp or loosen the product to be processed in the clamping groove. In one of the embodiments, the base includes a base plate and/or a frame; in one of the embodiments, the base is a base plate, that is, a clamping device, which includes: a base, a fixing structure and a driving structure, the base is a base plate; the fixing structure includes a lower fixing block and an upper fixing block, the lower fixing block is fixed on the base and a N is formed between the lower fixing block and the upper fixing block clamping grooves, each of the clamping grooves is used to pass through a product to be processed, and the lower fixing block and the upper fixing block are used to clamp and fix no more than N pieces of products to be processed through each of the clamping grooves Product; wherein, N is a natural number greater than 1 and less than 8; the drive structure includes a cylinder connecting block and a cylinder, the cylinder is fixed on the base, and the cylinder connecting block is connected to the upper fixing block; the The cylinder drives the cylinder connection block through its output rod and drives the upper fixed block to move up and down relative to the lower fixed block, so that the lower fixed block and the upper fixed block clamp together or loosen the clamp The product to be processed in the holding tank. The rest of the embodiments can be deduced by analogy.

In one of the embodiments, a deformation layer is provided at the position where the clamping groove is in contact with the product to be processed. Such a design can clamp and fix long profiles for processing. Different long profiles can be fixed through different clamping groove shape designs. When clamping the product to be processed, the deformation layer will be deformed to a certain extent. It is beneficial to ensure the clamping strength, which is beneficial to cooperate with subsequent processing. In one of the embodiments, the number of the clamping grooves is two, three or four. That is, N is 2, 3 or 4. In one of the embodiments, the clamping grooves are regularly arranged. Further, in one of the embodiments, the clamping grooves are regularly arranged to form a straight line or an arc. Further, in one of the embodiments, the clamping grooves have a circular cross section, and the centers of the circular cross sections of the clamping grooves are located on the same arc. Or, in one of the embodiments, the clamping grooves have a circular cross section, and the centers of the circular cross sections of the clamping grooves are located on the same straight line. With such a design, through the design of the number of clamping grooves, at least two products to be processed can be processed at the same time on the basis of processing coordination. The production efficiency is high, the production cost is effectively reduced, and the competitive advantage is significantly improved. In one of the embodiments, the cylinder connecting block is fixedly connected above the upper fixing block. With such a design, the lower fixed block and the upper fixed block can be pressed and fixed above. Further, in one of the embodiments, the output rod is located on one side of the fixed structure and lower than the cylinder connection block, such a design is beneficial to reduce the stroke of the output rod, so that the cylinder drives The reciprocating efficiency is high, and the clamping or loosening of the product to be processed is faster, which is conducive to improving production efficiency. In one of the embodiments, the cylinder is located at the middle or one side of the fixed structure. Further, in one of the embodiments, an escape groove is provided in the middle of the fixing structure, the cylinder is located in the escape groove, and the cylinder connecting block is fixedly connected above the upper fixing block, The output rod is located in the escape groove or outside the escape groove and the output rod is connected to the cylinder connection block. Such a design is beneficial to realize independent control in the middle, and a relatively balanced applied force is provided through the cylinder connection block to drive the upper fixed block to move up and down relative to the lower fixed block, and the pressing effect is better. In one of the embodiments, the number of the air cylinders is two, and the two air cylinders are respectively located on two sides of the fixing structure. Such a design can also output a relatively balanced driving force to drive the cylinder connecting block and drive the upper fixing block to move up and down relative to the lower fixing block, so as to obtain a better pressing effect.

Further, in one of the embodiments, the clamping device further includes a pushing structure, the pushing structure is fixed on the base, and the pushing structure is set in linkage with the driving structure, and the pushing structure is used for When the lower fixing block and the upper fixing block jointly release the clamping groove, they cooperate to push the product to be processed to move toward the clamping groove. That is, when the cylinder drives the cylinder connection block through its output rod and drives the upper fixed block to move upward relative to the lower fixed block, the clamping groove is released, and the clamping device or the driving structure enables the push structure, Pushing the product to be processed moves towards the clamping groove. In one of the embodiments, the pushing structure is used to push all the products to be processed on the base to move towards the clamping grooves respectively. In one of the embodiments, the pushing structure is used to push the product to be processed towards the clamping groove in a stepwise manner. In one of the embodiments, the pushing structure is used to push all the products to be processed on the base to move towards each of the clamping grooves in a step-by-step manner. Such a design can realize automatic delivery, and with the corresponding control method, it can realize automatic processing or semi-automatic processing, which saves labor costs and further improves processing efficiency. Further, in one of the embodiments, the pushing structure includes a roller structure, in one of the embodiments, the roller structure is covered with a skin layer, and in one of the embodiments, the skin layer is a rubber layer. Such a design, on the one hand, is conducive to improving friction and better controlling the movement of the product to be processed. On the other hand, it is conducive to replacing the skin layer, which is convenient for long-term application.

Further, in one of the embodiments, the clamping device further includes a linkage rod, the pushing structure is connected to the linkage rod, the linkage rod is connected to the driving structure, and the driving structure is connected to the driving structure through the linkage rod. The push structure linkage setting. In one of the embodiments, the linkage rod includes a first connecting rod, a shaft socket and a second connecting rod, the output rod is connected to the first connecting rod, the first connecting rod and the second connecting rod The rods are respectively pivotally connected to the shaft joint sleeve or the first connecting rod is pivotally connected to the shaft joint sleeve and the second connecting rod is pivotally connected to the outside of the shaft joint sleeve, and the second connecting rod Connect the push structure. Such a design can realize effective linkage control, and can better control the push structure to cooperate with the drive structure for linkage processing.

In one of the embodiments, the bottom of the base is provided with a moving device and its fixing device; in one of the embodiments, the moving device includes rollers, and the fixing device includes a lifting bracket, and the lifting bracket is used for adjusting The height of the base relative to the bearing position, such as the ground, is used to make the roller contact the bearing position to roll the base or break away from the bearing position so that the base cannot move. In one of the embodiments, the clamping device is also provided with a receiving structure at a position adjacent to the clamping groove beside the base, the receiving structure is detachably fixed to the base, and the receiving structure There is a buffer structure at the bottom. Such a design is conducive to collecting processed workpieces, such as sawn hardware such as aluminum tubes, etc. On the one hand, it can prevent the processed workpieces from being out of control, and on the other hand, it is beneficial to protect the processed workpieces. Further, in one of the embodiments, the receiving structure includes a conveyor belt, so that one piece can be automatically conveyed after one piece is processed. Further, in one of the embodiments, the clamping device is also provided with a debris collection device at a position next to the base adjacent to the clamping groove, and the debris collection device is used to collect debris, so as to It makes the work site cleaner and safer, and it is also conducive to protecting the health of construction workers, and it is also conducive to the recycling and reuse of debris. In one of the embodiments, the debris collection device can be realized by using a vacuum cleaner or similar structures. In one of the embodiments, the bottom of the base is provided with mobile equipment and its fixing equipment; the base includes a base plate and/or a frame; the clamping device is also adjacent to the clamping groove beside the base A receiving structure is provided at the position where the receiving structure is detachably fixed to the base, and a buffer structure is provided at the bottom of the receiving structure.

In one of the embodiments, the product processing device further includes a feeding device, and the feeding device includes a platform, a first guiding and fixing plate, a stopper, a first driving member, a second guiding and fixing plate, a feeding cylinder and a second Two driving parts; the first guiding and fixing plate, the first driving part, the second guiding and fixing plate, the feeding cylinder and the second driving part are all fixedly arranged on the platform; The first guiding and fixing plate and the second guiding and fixing plate cooperate to form a channel on the platform, the channel communicates with the feeding cylinder, and the channel is provided with adjacent preset positions and A processing position, the processing position is located between the preset position and the feeding cylinder; the first drive member is connected to the stopper, and the first drive member drives the stopper relative to the preset The position is moved, used to block or open the channel at the preset position; the feeding cylinder is used to input at least one product to be processed, and the second driving member is used to move each of the feeding cylinders The products to be processed are pushed into the channel one by one, and a product to be processed is located at the processing position under the blocking of the stopper. In one of the embodiments, the platform is a rectangular plate. Further, in one of the embodiments, the platform includes a rectangular plate. Further, in one of the embodiments, the platform includes a frame and a board installed on the frame. Adopting the design of the platform is beneficial for the feeding device to match the heads of various drilling and tapping machines, and has strong versatility. In one of the embodiments, the first guiding and fixing plate, the first driving member, the second guiding and fixing plate, the feeding cylinder and the second driving member are all fixedly arranged on the platform Above; in one of the embodiments, the lengths of the first guiding and fixing plate and the second guiding and fixing plate are set differently. Such a design is beneficial to take out the products to be processed that have completed the drilling and tapping process from one side or the conveying direction of the channel. In one of the embodiments, the first guiding and fixing plate and the second guiding and fixing plate cooperate to form a channel on the platform, the channel communicates with the feeding cylinder, and the channel is provided with There is an adjacent preset position and a processing position, and the processing position is located between the preset position and the feeding cylinder; in one embodiment, the platform is provided at the bottom of the channel The friction structure, that is, the feeding device is provided with a friction structure on the platform and at the bottom of the channel. Further, in one of the embodiments, the friction structure includes a thickened and/or roughened rubber pad; or, the friction structure includes a raised rubber strip and/or a roughened layer. It can be understood that in the relevant embodiments, the degree of thickening, the degree of surface roughening, the height of the protrusion, etc., can be designed or adjusted according to the actual situation, such as the volume or weight of the product to be processed, and should not be interpreted as Additional restrictions on the feeding device of the present application. Such a design is conducive to increasing the resistance of the product to be processed in the channel, and avoiding the displacement caused by too fast movement and affecting the subsequent drilling and tapping process. In one of the embodiments, the first driving member is connected with the blocking member, and the first driving member drives the blocking member to move relative to the preset position for blocking or opening at the preset position. The channel; in one of the embodiments, the first guiding and fixing plate and the second guiding and fixing plate are respectively provided with corresponding through holes at the preset positions, and the stoppers are corresponding to the through holes. Hole studs. Alternatively, in one of the embodiments, the first guiding and fixing plate and the second guiding and fixing plate are respectively provided with corresponding through slots at the preset positions, and the stopper is a stopper corresponding to the through slots. plate. Further, in one of the embodiments, the stopper is pivotally connected to the first driving member, and is used for moving into or out of the preset position from above the channel. Such a design can conveniently block or open the channel through the stopper, avoiding the dislocation or dislocation of the product to be processed in the channel and causing poor processing, which is conducive to improving the product yield. In one of the embodiments, the feeding barrel is used to input at least one product to be processed, and the second driving member is used to push each product to be processed in the feeding barrel into the channel one by one and A product to be processed is located at the processing position under the blocking of the stopper. In one of the embodiments, the first driving member and the second driving member are set in linkage, and the first driving member is used to drive the stopper before the second driving member pushes a certain product to be processed leaving the preset position of the channel to open the channel, and driving the stopper into the preset position of the channel to block the channel after the second driving member pushes the product to be processed . In this way, before the second driving member is ready to push a product to be processed, the first driving member drives the stopper away from the preset position, so that the product to be processed at the side of the feeding barrel at the preset position can enter the preset position away from the feeding barrel In the channel on one side; when the second driving member pushes the product to be processed, each product to be processed in the channel on the side of the feeding cylinder at the preset position abuts against each other, and moves away from the second driving member along the channel direction Move in the direction until the second driving member completes pushing; after the second driving member pushes the product to be processed, the first driving member drives the stopper back to the preset position, blocks the channel, and prevents the preset position from approaching the feeding barrel The product to be processed on one side enters the channel at the preset position away from the side of the feeding cylinder. This design simply and conveniently realizes the accurate delivery of the product to be processed to the processing position, which is conducive to forming a semi-automatic or even fully automatic structure. And it is a feeding device with convenient application and strong versatility.

In one of the embodiments, the feeding cylinder is vertically arranged on the platform, and the feeding cylinder is provided with a feeding port, a push plate port and a channel port; product; the channel opening communicates with the channel; the feeding device is provided with a push plate connected to the second driving member, the pushing plate is located at the pushing plate opening, and the second driving member drives the The push plate moves relative to the opening of the channel, and is used to push the products to be processed in the feeding barrel into the channel one by one. Further, in one of the embodiments, the second driving member drives the push plate to move a product to be processed toward the opening of the slot, and push a product to be processed in the feeding cylinder into the slot in the channel, and then drive the push plate away from the mouth of the channel to move a position of the product to be processed, so that the next product to be processed in the feed tube falls into the bottom of the feed tube and is located on the table and located in the channel. With such a design, the reciprocating movement of the push plate relative to the opening of the groove can realize the semi-automatic or fully automatic feeding effect. Further, in one of the embodiments, the top of the push plate is provided with a support plate or a support frame, which is used to support the position of the product to be processed when the push plate moves toward the opening of the slot. The last product to be processed to avoid its direct fall. Further, in one of the embodiments, the push plate is in the shape of a box. In one embodiment, the feeding device further includes a conveyor belt, and the output end of the conveyor belt is adjacent to the feeding port of the feeding barrel. Such a design is beneficial to transport the product to be processed into the feeding barrel semi-automatically or fully automatically through the conveyor belt. In one of the embodiments, the table portion is provided with an avoidance assembly on the side of the preset position away from the feeding cylinder, and the avoidance assembly is used to push a certain waiting position when the second driving member pushes After the product is processed, move the upper product to be processed away from the feeding cylinder to form an avoidance area at the preset position; such a design can prevent the product to be processed from blocking the preset position, which is conducive to blocking The component enters the preset position without hindrance. In one of the embodiments, the avoidance assembly includes a roller structure and its roller driving part, and the roller driving part is set in linkage with the first driving part or the second driving part, or the roller The shaft driving member is integrated with the first driving member or the second driving member; in one embodiment, the length of the first guiding and fixing plate is greater than the length of the second guiding and fixing plate, and the table A push assembly and a collection device are provided at the end of the channel away from the feeding cylinder, the push assembly includes an induction element, a controller connected to the induction element, and a push rod connected to the controller; The induction element is used to push the product to be processed to the collecting device through the controller controlling the push rod when the product to be processed reaches the end of the feeding cylinder. Such a design can conveniently collect the products to be processed after the drilling and tapping process. In one of the embodiments, the table portion is provided with an avoidance assembly on the side of the preset position away from the feeding cylinder, and the avoidance assembly is used to push a certain waiting position when the second driving member pushes After the product is processed, move the upper product to be processed away from the feeding cylinder to form a shelter area at the preset position; the shelter assembly includes a roller structure and its roller drive, and the roller The shaft driver is set in linkage with the first driver or the second driver, or the roller driver is integrated with the first driver or the second driver; the first guide is fixed The length of the plate is greater than the length of the second guiding and fixing plate, and the end of the platform is provided with a pushing component and a collecting device at the end of the channel away from the feeding cylinder, and the pushing component includes an induction element, connected to the The controller of the sensor and the push rod connected to the controller; the sensor is used to control the push rod through the controller to make the product to be processed Push to the collection device. In one of the embodiments, the first driving member and the second driving member are set in linkage, and the first driving member is used to drive the stopper before the second driving member pushes a certain product to be processed leaving the preset position of the channel to open the channel, and driving the stopper into the preset position of the channel to block the channel after the second driving member pushes the product to be processed The first guiding and fixing plate and the second guiding and fixing plate are respectively provided with corresponding through holes at the preset positions, and the stopper is a post corresponding to the through holes; or the first guide The fixing plate and the second guide fixing plate are respectively provided with corresponding through grooves at the preset positions, and the stopper is a baffle plate corresponding to the through grooves; the feeding cylinder is vertically arranged on the platform Above, the feed barrel is provided with a feed port, a push plate port and a channel opening; the feed port is used to accept the products to be processed one by one; the channel port is connected to the channel; the feeding device is provided with a connecting The push plate of the second driving member, the push plate is located at the opening of the pushing plate, the second driving member drives the pushing plate to move relative to the opening of the slot, and is used to move each of the feeding cylinders The products to be processed are pushed into the channel one by one; the feeding device also includes a conveyor belt, and the output end of the conveyor belt is adjacent to the feeding port of the feeding cylinder; The side far away from the feeding cylinder is provided with a evasion assembly, and the evasion assembly is used to direct the upper product to be processed away from the feed material after the second driving member pushes a product to be processed. The movement of the cylinder is to form a shelter area at the preset position; the shelter assembly includes a roller structure and its roller driving part, and the roller driving part is connected with the first driving part or the second driving part set in linkage, or the roller drive part is integrated with the first drive part or the second drive part; the length of the first guide fixing plate is greater than the length of the second guide fixing plate, and the The platform is provided with a push assembly and a collection device at the end of the channel away from the feeding cylinder, the push assembly includes an induction element, a controller connected to the induction element, and a push rod connected to the controller; The induction element is used to push the product to be processed to the collecting device through the controller to control the push rod when the product to be processed reaches the end of the feeding cylinder. Such a design can realize the fast and efficient delivery of the products to be processed to the processing position, and realize the technical effect of automatic feeding.

In one of the embodiments, the product processing device further includes a drilling and tapping head, and the drilling and tapping head is located above the processing position. In one of the embodiments, the drilling and tapping head is fixed on the table or on the side of the table, and is located above the processing position. In one of the embodiments, the drilling and tapping head is movably arranged on the channel and above the processing position. In one of the embodiments, the drilling and tapping machine further includes an automatic air blowing device for automatic chip blowing, and the automatic air blowing device is fixed on the table. In one of the embodiments, the automatic air blowing device includes a control device, a fixed structure and an air blowing tube. In one of the embodiments, the air outlet end of the air blowing tube is used to face the area to be blown; further, in one of the embodiments, the area to be blown includes a plurality of tapping positions, and the air blowing tube There are multiple gas outlets, and each of the gas outlets is set in one-to-one correspondence with each of the tapping positions, and each of the gas outlets faces one of the tapping positions; or, in one of the embodiments, the waiting The air blowing area includes a plurality of tapping positions, the number of the air blowing pipes is multiple, and the air outlet ends of each of the air blowing pipes are set in one-to-one correspondence with each of the tapping positions, and the air outlet ends of each of the air blowing pipes face A said tapping position. Further, in one of the embodiments, the area to be blown includes a plurality of tapping positions, each tapping position corresponds to an air outlet end of a blowing pipe, and the angle between the air outlet directions of two adjacent air outlet ends is 25 degrees to 65 degrees, and the air outlet direction of each air outlet forms a fan-shaped surface of 120 degrees; the effective design of the blowing pipe is a technical issue worthy of attention, especially for the matching design of multi-axis tapping machines, which is a better invention point , each of the tapping positions corresponds to a blowing pipe or its air outlet. The angle between the air outlet directions of two adjacent air outlets should not be too large. It is best to be able to gather together to form a wind gathering effect. On the other hand, it can prevent the wind from canceling each other out, and on the other hand, it can form a combined force to face an area as much as possible, so as to facilitate the recovery of debris and protect the working environment of construction workers so as not to affect the health of construction workers. In this way, there is no need to manually blow aluminum shavings separately, which helps to reduce manual blowing man-hours, and can cooperate with the realization of direct processing of the next product, thereby increasing production efficiency and production capacity; with other auxiliary structures, it can also achieve alignment without aluminum shavings Each position, and after the drilling or tapping process is completed, the aluminum chips on the surface of the product and in the auxiliary tool for tapping are automatically blown away during the rising process of the machine head, thereby realizing the automation of the production process and improving the working efficiency. At the same time, it is also conducive to improving product quality.

In one of the embodiments, the control device is used to control the blowing tube for blowing; further, in one of the embodiments, the control device is used for controlling the opening or closing of the blowing tube for blowing or, the control device is used to control the input of the air blowing pipe for blowing; in one embodiment, the automatic air blowing device also includes a blower, and the output end of the blower communicates with the blowing pipe, The control device is connected to the blower, and the control device is used to control the blower to blow air through the blowing pipe. Further, in one of the embodiments, the control device is also used to control the position and/or direction of the air outlet end of the air blowing tube. Such a design can be connected to a blower or other air supply equipment, as long as the control device can control the air blowing pipe to supply air. Good chipping effect. In one of the embodiments, the control device controls the blowing tube to blow air during tapping; or, the control device controls the blowing tube to blow air after tapping. In one of the embodiments, the automatic air blowing device further includes a detection device, the detection device is connected to the control device, and the detection device is used to activate the control device to control the blower when detecting the completion of tapping. The trachea is insufflated. Further, in one of the embodiments, the control device is used for coordinated control with the controller of the multi-axis tapping machine tool, and controls the blowing pipe to blow air according to the tapping operation procedure of the controller. In one of the embodiments, when the controller starts tapping, there is no need to blow air. When the tapping progress reaches 30%, that is, when the tapping operation process reaches 30%, the control device controls the blowing pipe to press the maximum of 50%. When the tapping progress reaches 65%, the tapping operation process reaches 65%, the control device controls the blowing pipe to blow at the maximum power of 90%, and the tapping progress reaches 75%. When the tapping operation process reaches 75%, the control device controls the air blowing pipe to blow air at the maximum power. When the tapping progress reaches 100%, that is, when the tapping operation process is completed, the control device controls the air blowing pipe to continue to press Blow air at the maximum power for 1-2 seconds, then stop, and wait for the next tapping operation. This design is conducive to saving energy consumption on the premise of ensuring cleaning efficiency. According to the operation, it can save energy by about 50% to 68% compared with blowing at the maximum power in the whole process. It is found in the test that it will not affect the tapping effect and Chip removal effect, combined with controlling the position of the air outlet end of the blowing pipe, the cleaning effect is better. Further, in one of the embodiments, the tapping operation process of the controller is a two-stage type, the controller does not need to blow air when the first stage of tapping is started, and the control device Control the blowing pipe to blow air at 70% to 80% of the maximum power for 2 to 4 seconds, and then stop. When the second stage of tapping progress reaches 30%, the control device controls the blowing pipe to blow at 50% of the maximum power. Power blowing, when the tapping progress reaches 65%, the control device controls the blowing pipe to blow at 90% of the maximum power, and when the tapping progress reaches 75%, the control device controls the blowing pipe to press Air blowing is performed at the maximum power, and when the tapping progress reaches 100%, the control device controls the air blowing pipe to continue blowing air at the maximum power for 1-2 seconds, then stops, and waits for the next tapping operation procedure. This design is suitable for tapping operations in stages. In one of the embodiments, the automatic air blowing device also includes a telescopic device, the telescopic device is connected to the detection device and the air outlet end of the blowing pipe, and the detection device is also used to detect the completion of tapping, Start the telescopic device to extend the air outlet end of the blowing pipe to the area to be blown, and when tapping is about to start, start the telescopic device to retract the air outlet end of the blowing pipe. Further, in one of the embodiments, the automatic air blowing device also includes a telescopic device, the telescopic device is connected to the control device and the air outlet end of the blowing pipe, and the control device is also used for tapping during the tapping process. , start the telescopic device to extend the air outlet end of the blowing pipe to the area to be blown, and when the tapping is completed, start the telescopic device to retract the air outlet end of the blowing pipe. Further, in one of the embodiments, the telescopic device is used to extend the air outlet end of the blowing pipe to the area to be blown and adjacent to the tapping position. In one of the embodiments, the telescopic device is used Extend the air outlet end of the blowing pipe to the area to be blown and be 1-3 cm away from the tapping position. For thinner cutter heads, the distance can be smaller, and for thicker cutter heads, the distance can be larger, and it can be set according to the actual situation. For the design of multiple blowing tubes or multiple gas outlets, further, in one embodiment, the telescopic device is used to extend each of the blowing tubes or their gas outlets, so that the gas outlets of the blowing tubes The corresponding tapping position is 1-3 cm. With such a design, the telescopic device can be flexibly adjusted according to the production process and procedures, which is conducive to improving the blowing effect.

In one of the embodiments, the automatic air blowing device further includes a collection assembly, the collection assembly is connected to the control device, and the collection assembly is used for collecting when the control device is activated. Further, in one of the embodiments, the area to be blown is located between the collecting assembly and the air outlet end of the blowing tube. Further, in one of the embodiments, the collection component is set in linkage with the control device. In one of the embodiments, the collection assembly is provided in conjunction with the telescopic device. In one of the embodiments, the collection assembly includes a receiving area for receiving debris. In one of the embodiments, the collection component includes a receiving area and an adsorption device, the receiving area is used to receive debris, and the adsorption device is used to absorb and limit debris. In one embodiment, the adsorption device includes an electrostatic adsorption device; or, in one embodiment, the adsorption device includes an air suction device; the air suction device is similar to a vacuum cleaner. Such a design is conducive to recycling debris and protecting the working environment of construction personnel so as not to affect the health of construction personnel. In one of the embodiments, the fixing structure is used to fix the control device. In one embodiment, the fixing structure includes screws, inserts and/or pressing blocks. In one of the embodiments, the fixing structure is used to fix the control device next to the area to be blown or on the operating table. Such a design facilitates disassembly or adjustment of the control device. In one of the embodiments, the drilling and tapping head is fixed on the table and the cutter head of the drilling and tapping head is located above the table; the control device passes through the fixed structure fixed on the table; the table is provided with a fixed position for fixing the product to be processed, the air outlet end of the air blowing pipe faces above the fixed position and the air outlet end of the air blowing pipe is higher than the product to be processed. In one of the embodiments, the control device is connected to the controller of the drilling and tapping head, and according to the controller, the air blowing pipe is cooperatively controlled to perform air blowing. In one of the embodiments, the control device is detachably fixed on the platform through the fixing structure. Further, in one of the embodiments, there are multiple air blowing tubes, or there are multiple air outlet ends of the air blowing tubes. Further, in one of the embodiments, the fixing position has a buckle, a slide rail structure and a fixing area slidably arranged on the slide rail structure, and the slide rail structure is arranged on the platform, so that The buckle is used to buckle and fix the fixing area on the platform or loosen the fixing area. Such a design can conveniently transport the products to be processed. Further, in one of the embodiments, the buckle is provided in linkage with the control device. In order to realize the automatic multi-axis tapping of the assembly line, further, in one of the embodiments, the number of the fixed areas is multiple, and each of the fixed areas is slidably arranged on the slide rail with the slide rail structure in sequence and at intervals Structurally; or each of the fixed areas forms a reciprocating transmission fixed plate as a whole, and when each of the fixed areas slides to the working position of the drilling and tapping head, the control device controls the buckle The fixed area is fixed, and then the tapping process and blowing process are performed. This design is conducive to the realization of automatic processing, which greatly improves the production efficiency and improves the yield of good products. Further, in one of the embodiments, the drilling and tapping machine head is provided with a bracket, a fuselage, a tool holder, a cutter and a cutter head, and the bracket is fixedly arranged on the table or the side of the table, and the machine head The body is fixedly arranged on the bracket, and a controller etc. are arranged inside it; the tool holder is installed on the fuselage and faces the fixed position of the platform, the cutter is installed on the tool holder and faces the platform, and the cutter The number is multiple, each tool is connected to the controller, and the tool head is installed on the tool and faces the fixed position of the table, that is, the position of the product to be processed. Further, in one of the embodiments, the air blowing pipe is sequentially provided with an air inlet end, a first bent part, an air inlet connecting section, an air outlet connecting section, a second bent part, an escape section, and a third bent part and the air outlet, the air inlet is used to connect the gas transmission equipment such as blower, etc., the first bending part cooperates with the air inlet connection section to form the first gap area, and the first gap area is used to realize the shock absorbing effect; the air inlet connection section passes through The control device is connected to the air outlet connection section, or the air intake connection section is connected to the air outlet connection section through a valve and the control device controls the switch of the valve; the air outlet connection section and the platform form a second gap area, and the second gap area is used to realize the shock absorbing effect; The second bending part cooperates with the avoiding section and the third bending part to form a avoiding area. The avoiding area is used to form a certain distance between the air outlet direction of the air outlet and the product to be processed, which is beneficial to the surface of the product to be processed. And the aluminum chips in the tapping auxiliary fixture are blown out. Further, in one of the embodiments, the receiving structure or the collecting device is also connected to the transmission structure, through which the finished product to be processed is directly transported to the ultrasonic cleaning device for cleaning. Such a design is beneficial to cooperate with various functional components to make the product processing device form a set of multi-functional processing equipment, especially through the additional design of the transmission structure, the processed product to be processed is put into the ultrasonic cleaning device for direct cleaning and then packaging Transport, very convenient.

It should be noted that other embodiments of the present application also include an ultrasonic cleaning device and a product processing device formed by combining the technical features of the above embodiments.

The technical features of the above-mentioned embodiments can be combined arbitrarily. To make the description concise, all possible combinations of the technical features in the above-mentioned embodiments are not described. However, as long as there is no contradiction in the combination of these technical features, should be considered as within the scope of this specification. The above-mentioned embodiments only express several implementation modes of the present application, and the description thereof is relatively specific and detailed, but should not be construed as limiting the scope of the patent application. It should be noted that those skilled in the art can make several modifications and improvements without departing from the concept of the present application, and these all belong to the protection scope of the present application. Therefore, the scope of patent protection of this application should be based on the appended claims.

Claims (10)

1. An ultrasonic cleaning device, characterized in that, comprises a support, a body, an ultrasonic generator and a control switch thereof; The body is fixed on the machine base, and the body is provided with a connected cleaning chamber and an installation chamber, the body has an opening, the cleaning chamber communicates with the opening, and the cleaning chamber is used to accommodate the product to be cleaned , the ultrasonic generator is fixed in the installation cavity and the output surface of the ultrasonic generator faces the cleaning cavity; The body is provided with a communication pipe, and the communication pipe communicates with the outer surface of the body and the cleaning chamber, the control switch is electrically connected to the ultrasonic generator through a wire, and the wire is at least partially passed through the in the connecting pipe. 2 . The ultrasonic cleaning device according to claim 1 , further comprising at least one support structure for carrying the product to be cleaned, and each support structure is arranged in the cleaning chamber. 3 . 3 . The ultrasonic cleaning device according to claim 2 , wherein the inner wall of the body is provided with fixing grooves, and each of the support structures is respectively fixed in each of the fixing grooves. 4 . 4 . The ultrasonic cleaning device according to claim 3 , wherein a support layer is formed in the cleaning cavity by each of the support structures fixed by each of the fixing grooves. 5. The ultrasonic cleaning device according to claim 1, wherein the body is provided with a liquid storage area and a material storage area near the opening, and the liquid storage area and the material storage area are arranged side by side . 6 . The ultrasonic cleaning device according to claim 1 , wherein the body is provided with a flexible receiving area at a position close to the opening. 7. The ultrasonic cleaning device according to claim 5, wherein the flexible receiving area forms a ramp or the flexible receiving area has a mesh structure. 8. The ultrasonic cleaning device according to any one of claims 1 to 7, wherein the base is a frame structure; The bottom of the body is provided with a drain hole and a valve thereof; The ultrasonic cleaning device also includes a drain pipe communicating with the valve and a cover for sealing the opening; The ultrasonic generator has a magnetic transducer or a piezoelectric transducer; The output frequency of the ultrasonic generator is 20kHz to 30kHz; The output surface of the ultrasonic generator faces the cleaning area of the cleaning chamber; The ultrasonic cleaning device also includes a timing controller connected to the control switch. 9. A product processing device, characterized in that it comprises an ultrasonic cleaning device according to any one of claims 1 to 8. 10. The product processing device according to claim 9, characterized in that the product processing device is an aluminum alloy product processing device.