CN220547402U - Vertical abluent plasma cleaning machine - Google Patents

Abstract

The utility model discloses a vertical cleaning plasma cleaning machine, which comprises an air channel assembly and a reaction bin assembly, wherein the reaction bin assembly comprises a cavity, a rear cover plate, a front cover plate, an electrode plate and a plurality of trays, and the air channel assembly is communicated with the cavity through the rear cover plate. The cavity includes that upper end and lower extreme all interval are provided with a plurality of bar grooves and No. two bar grooves, and the bar inslot No. one is all arranged in at the upper and lower both ends of every tray, and No. two bar inslots are all arranged in at the upper and lower both ends of every electrode plate, and the tray includes the stainless steel net, is used for fixed frame to the stainless steel net, sets up fixed plate on the stainless steel net, fixed plate are provided with the side direction through-hole and set up the annular plate in the stainless steel net frame one side of keeping away from at the through-hole, and annular plate, stainless steel net frame and through-hole form the standing groove that is used for placing the product. The advantages are that: the design of vertical setting tray and the structural design of tray can carry out plasma cleaning to the product that can not transversely put or transversely put and cause the terminal surface to collide with easily and hinder.

Description

Vertical abluent plasma cleaning machine

Technical Field

The utility model relates to the field of plasma cleaning equipment, in particular to a vertical cleaning plasma cleaning machine.

Background

Plasma cleaning is to clean products by utilizing plasma, and the traditional mode is to put the products in a horizontal tray mode, so that the products are cleaned. However, this approach is not beneficial for cleaning some products that are not suitable for placement or some products that are prone to wear after placement.

For example, chinese patent publication No. CN202238033U discloses a material surface low-temperature plasma modifying device, which comprises an extraction opening, a cavity inner wall electrode, an inner electrode insulation fixing seat, a sample tray, a sample rack support rail, a gas feeding opening and a plasma generating power supply. The plasma treatment cavity consists of a cavity outer wall electrode and an inner electrode, and the outer wall electrode is grounded; the sample rack support guide rail is fixed on the inner electrode, the sample is placed on the sample rack, the sample tray is supported by the sample rack guide rail, and the sample is positioned in a space surrounded by the inner electrode outside the electrode group.

The low-temperature plasma modifying device for the material surface carries out plasma treatment by placing the product on a sample tray which is horizontally arranged in actual use, and the design of the tray is not suitable for some products which are suitable for being horizontally arranged.

In view of this, it is necessary to provide a vertically cleaning plasma cleaning machine.

Disclosure of Invention

The utility model provides a vertical cleaning plasma cleaning machine, which effectively solves the problem that the existing plasma cleaning device can only horizontally put products.

The technical scheme adopted by the utility model is that the vertical cleaning plasma cleaning machine comprises an air channel assembly and a reaction bin assembly, wherein the reaction bin assembly comprises a cavity, a rear cover plate fixedly connected with the rear end of the cavity, a front cover plate hinged with the front end of the cavity, an electrode plate arranged in the cavity and a plurality of trays, and the air channel assembly is communicated with the cavity through the rear cover plate. The cavity includes that upper end and lower extreme all interval are provided with a plurality of bar grooves and No. two bar grooves, every the bar inslot No. one is all arranged in at the upper and lower both ends of tray, every the bar inslot No. two is all arranged in at the upper and lower both ends of electrode plate, the tray includes the stainless steel net, is used for fixed frame to the stainless steel net, sets up the fixed plate on the stainless steel net the fixed plate is provided with side direction through-hole and sets up the annular plate in the through-hole keep away from stainless steel net frame one side, annular plate, stainless steel net frame and through-hole form the standing groove that is used for placing the product.

Further is: the reaction bin assembly further comprises two limiting strips with the same structure, the two limiting strips are respectively used for limiting the first strip-shaped groove and the second strip-shaped groove at the upper end of the cavity and the first strip-shaped groove and the second strip-shaped groove at the lower end of the cavity, and each limiting strip comprises a rubber strip and a plurality of first plugs which are arranged on the rubber strip and used for blocking the first strip-shaped groove and second plugs which are used for blocking the second strip-shaped groove.

Further is: the handle assembly comprises a handle single hook arranged on the cavity, a fixed block arranged on the front cover plate, a rocking handle hinged with the fixed block and a rubber wheel hinged on the rocking handle and used for being matched with the handle single hook.

Further is: the front cover plate is provided with a visual window.

Further is: sealing rings are arranged between the front cover plate and the cavity, and between the rear cover plate and the cavity.

The utility model has the beneficial effects that: the design of vertical setting tray and the structural design of tray can carry out plasma cleaning to the product that can not transversely put or transversely put and cause the terminal surface to collide with easily and hinder.

Drawings

Fig. 1 is an overall schematic view of a cleaning-to-cleaning plasma cleaning machine according to an embodiment of the present application.

FIG. 2 is a schematic illustration of a reaction chamber assembly for a plasma cleaning machine for cleaning, as provided by an embodiment of the present application.

FIG. 3 is a schematic view of a reaction chamber assembly of a plasma cleaning machine with a front cover plate removed according to an embodiment of the present application.

Fig. 4 is a schematic view of a tray of a plasma cleaning machine for cleaning provided in an embodiment of the present application.

Fig. 5 is an enlarged schematic view of the area a in fig. 4.

Fig. 6 is a schematic view of a chamber of a cleaning plasma cleaning machine according to an embodiment of the present application.

Fig. 7 is a schematic view of a limit bar of a cleaning plasma cleaning machine according to an embodiment of the present application.

FIG. 8 is a schematic view of a handle assembly of a cleaning plasma cleaning machine according to an embodiment of the present application.

Marked in the figure as: 1. the air circuit assembly; 2. a reaction bin assembly; 21. a cavity; 22. a back cover plate; 23. a front cover plate; 24. an electrode plate; 25. a tray; 211. a first strip-shaped groove; 212. a second strip-shaped groove; 251. a frame; 252. stainless steel mesh; 253. a fixing plate; 254. an annular plate; 200. a placement groove; 26. a limit bar; 261. a rubber strip; 262. a first plug; 263. a second plug; 27. a handle assembly; 271. a handle single hook; 272. a fixed block; 273. a rocking handle; 274. a rubber wheel; 28. a visual window;

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the structure of the vertical cleaning plasma cleaning machine provided by the embodiment of the application includes a gas circuit assembly 1 and a reaction chamber assembly 2, the reaction chamber assembly 2 includes a cavity 21, a back cover plate 22 fixedly connected with the rear end of the cavity 21, a front cover plate 23 hinged with the front end of the cavity 21, an electrode plate 24 arranged in the cavity 21 and a plurality of trays 25, and the gas circuit assembly 1 is communicated with the cavity 21 through the back cover plate 22. As shown in fig. 6, the cavity 21 includes a plurality of first and second slots 211 and 212 spaced from each other at upper and lower ends, the upper and lower ends of each tray 25 are disposed in the first slots 211, the upper and lower ends of each electrode plate 24 are disposed in the second slots 212, the tray 25 includes a stainless steel mesh 252, a frame 251 for fixing the stainless steel mesh 252, a fixing plate 253 disposed on the stainless steel mesh 252, the fixing plate 253 is provided with a lateral through hole, and a ring plate 254 disposed at a side of the through hole away from the stainless steel mesh 252, and the ring plate 254, the stainless steel mesh 252 and the through hole form a placement groove 200 for placing a product.

In actual use, the product is placed in the placement groove 200, then the tray 25 is clamped on the cavity 21 through the first strip-shaped groove 211, then the front cover plate 23 is covered, and the air is blown into the cavity 21 through the air path assembly 1, so that the plasma released by the electrode plate 24 is blown by the air to clean the product.

Among the above-mentioned designs, the design of vertically setting tray 25 and the structural design of tray 25 can carry out plasma cleaning to the product that can not transversely put or transversely put and cause the terminal surface to collide with and damage easily.

Specifically: as shown in fig. 3 and 7, the reaction bin assembly 2 further includes two spacing bars 26 with the same structure, and the two spacing bars 26 are respectively used for spacing a bar slot 211 and a bar slot 212 on the upper end of the cavity 21, and a bar slot 211 and a bar slot 212 on the lower end of the cavity 21, and the spacing bars 26 include a rubber strip 261, a plug 262 which is arranged on the rubber strip 261 and is used for blocking the bar slot 211, and a plug 263 which is used for blocking the bar slot 212.

In actual use, when the electrode plate 24 or the tray 25 is required to be taken and placed, the limiting strip 26 is firstly taken down, and then the limiting strip 26 is placed on the cavity 21, so that the first plug 262 blocks the first strip-shaped groove 211, and the second plug 263 blocks the second strip-shaped groove 212.

In the above design, the limit bar 26 is configured to prevent the electrode plate 24 and the tray 25 from sliding relative to the cavity 21.

Specifically: as shown in fig. 2 and 8, a handle assembly 27 is disposed between the front cover plate 23 and the cavity 21, and the handle assembly 27 includes a handle single hook 271 disposed on the cavity 21, a fixed block 272 disposed on the front cover plate 23, a rocking handle 273 hinged to the fixed block 272, and a rubber wheel 274 hinged to the rocking handle 273 for cooperation with the handle single hook 271.

In actual use, when it is desired to open the front cover 23, the crank 273 is held so that the rubber wheel 274 is out of contact with the pull single hook 271 after the rotation of the crank 273, and then the front cover 23 is rotated.

In the above design, the handle assembly 27 is designed to ensure effective securement of the front cover plate 23 and the cavity 21.

Specifically: as shown in fig. 2, the front cover plate 23 is provided with a viewing window 28.

In the above design, the condition in the cavity 21 is observed through the viewing window 28.

Specifically: sealing rings are arranged between the front cover plate 23 and the cavity 21, and between the rear cover plate 22 and the cavity 21.

In the above design, the design of the sealing ring can ensure that the cavity 21 and the front cover plate 23 and the cavity 21 and the rear cover plate 22 are in an effective sealing state after the front cover plate 23 is folded with the cavity 21.

It should be understood that the foregoing description is only illustrative of the present utility model and is not intended to limit the utility model to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (5)

1. The utility model provides a vertically abluent plasma cleaning machine, includes gas circuit assembly (1) and reaction storehouse assembly (2), reaction storehouse assembly (2) include cavity (21), with cavity (21) rear end fixed connection's back shroud (22), with cavity (21) front end articulated front shroud (23), set up electrode plate (24) and a plurality of tray (25) in cavity (21), gas circuit assembly (1) switch on its characterized in that with cavity (21) through back shroud (22): the cavity (21) comprises a plurality of first strip-shaped grooves (211) and second strip-shaped grooves (212) which are formed in the upper end and the lower end of the cavity at intervals, the upper end and the lower end of each tray (25) are arranged in the first strip-shaped grooves (211), the upper end and the lower end of each electrode plate (24) are arranged in the second strip-shaped grooves (212), each tray (25) comprises a stainless steel net (252), a frame (251) for fixing the stainless steel net (252), a fixing plate (253) arranged on the stainless steel net (252), a lateral through hole and an annular plate (254) arranged on one side of the through hole away from the stainless steel net (252), and the annular plate (254), the stainless steel net (252) frame and the through hole form a placing groove (200) for placing products.

2. The vertically cleaning plasma cleaning machine of claim 1, wherein: the reaction bin assembly (2) further comprises two limit bars (26) with the same structure, the two limit bars (26) are respectively used for limiting a first bar groove (211) and a second bar groove (212) at the upper end of the cavity (21) and a first bar groove (211) and a second bar groove (212) at the lower end of the cavity (21), and the limit bars (26) comprise rubber strips (261) and a plurality of first plug heads (262) which are arranged on the rubber strips (261) and used for blocking the first bar groove (211) and second plug heads (263) which are used for blocking the second bar groove (212).

3. The vertically cleaning plasma cleaning machine of claim 1, wherein: a handle assembly (27) is arranged between the front cover plate (23) and the cavity (21), and the handle assembly (27) comprises a handle single hook (271) arranged on the cavity (21), a fixed block (272) arranged on the front cover plate (23), a rocking handle (273) hinged with the fixed block (272) and a rubber wheel (274) hinged on the rocking handle (273) and used for being matched with the handle single hook (271).

4. The vertically cleaning plasma cleaning machine of claim 1, wherein: a visual window (28) is arranged on the front cover plate (23).

5. The vertically cleaning plasma cleaning machine of claim 1, wherein: sealing rings are arranged between the front cover plate (23) and the cavity (21) and between the rear cover plate (22) and the cavity (21).