CN211112279U

CN211112279U - Continuous surface coloring treatment equipment for titanium metal vacuum cup

Info

Publication number: CN211112279U
Application number: CN201922255672.8U
Authority: CN
Inventors: 应心滨; 应宏建
Original assignee: Zhejiang Houhan Science And Technology Development Co ltd
Current assignee: Zhejiang Houhan Science And Technology Development Co ltd
Priority date: 2019-12-16
Filing date: 2019-12-16
Publication date: 2020-07-28
Anticipated expiration: 2029-12-16

Abstract

The utility model discloses a titanium metal vacuum insulation cup continuous surface coloring treatment device, which consists of a rectangular channel, the lower part of the channel is sequentially provided with an acid cleaning liquid pool, an alkaline cleaning liquid pool, an anode oxidation pool, a clean water pool and corresponding clapboards from left to right, the middle part of the clean water pool is also provided with a half clapboard, the top of the channel above the acid cleaning liquid pool, the alkaline cleaning liquid pool and the clean water pool is also provided with corresponding spray heads, the two sides of the channel on the right side of the half clapboard are provided with a plurality of air outlets, the acid cleaning liquid pool, the alkaline cleaning liquid pool and the clean water pool are also provided with pump bodies, each pump body is connected with the corresponding spray head, the inner side of the conveying rail is provided with a conveying chain, the conveying rail above the anode oxidation pool is provided with a concave slow descending section, and openings corresponding to the conveying rail are arranged on each clapboard and the half clapboard; the bottom of the anodic oxidation tank is also provided with a cooling pipe in a bending way, the clear water tank is also provided with a circulating pump, and a water inlet of the cooling pipe is connected with the circulating pump.

Description

Continuous surface coloring treatment equipment for titanium metal vacuum cup

Technical Field

The utility model relates to a continuous surface coloring treatment device of a titanium metal vacuum cup.

Background

The titanium vacuum cup oxidation coloring has the characteristics of simple process, easy control and low cost, but the titanium vacuum cup oxidation coloring processing mode in the prior art generally adopts a manual mode, the carrying process wastes time and labor, and the processing efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a continuous surface coloring treatment device for a titanium metal vacuum cup.

The technical scheme of the utility model is that: a continuous surface coloring treatment device for a titanium metal vacuum cup comprises a device main body, wherein the device main body is composed of a rectangular channel, an acidic cleaning solution pool, an alkaline cleaning solution pool, an anodic oxidation pool and a clean water pool are sequentially arranged below the channel from left to right,

the device comprises a channel, a clean water tank, an acidic cleaning liquid tank, an alkaline cleaning liquid tank, a clean water tank, a plurality of water outlets, partition plates, a plurality of spray heads, pump bodies and a plurality of spray heads, wherein the partition plates are arranged in the channel and correspond to the tank bodies;

the device also comprises a conveying rail, wherein a conveying chain is arranged on the inner side of the conveying rail, the conveying rail positioned above the anodic oxidation pond is provided with a concave slow descending section, and each partition plate and each semi-partition plate are provided with openings corresponding to the conveying rail;

the bottom of the anodic oxidation pond is also provided with a cooling pipe in a bending manner, the clear water pond is also internally provided with a circulating pump, a water inlet of the cooling pipe is connected with the circulating pump, and a water outlet of the cooling pipe is communicated with the clear water pond.

Further, the length of the acid cleaning liquid pool is equal to that of the alkaline cleaning liquid pool, the length of the anodic oxidation pool is twice that of the acid cleaning liquid pool or the alkaline cleaning liquid pool, and the length of the clean water pool is equal to that of the anodic oxidation pool.

Furthermore, each air outlet is obliquely arranged towards the semi-partition plate.

Furthermore, the top parts of the acidic cleaning liquid pool and the alkaline cleaning liquid pool are respectively provided with a porous filter plate.

Furthermore, the cooling pipe is fixed in the anodic oxidation pond through a support frame.

Further, still be equipped with an inlet tube in the clean water basin, the export of inlet tube sets up between the pump body and circulating pump, still be equipped with an overflow mouth on the clean water basin.

The utility model has the advantages that: the utility model designs a continuous processing technology groove and rather than corresponding transport rail, can realize coloring in succession of titanium metal vacuum cup, improved machining efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

As shown in figure 1, the continuous surface coloring treatment equipment for the titanium metal vacuum thermos cup comprises an equipment main body, wherein the equipment main body is composed of a rectangular channel 1, an acidic cleaning solution pool 2, an alkaline cleaning solution pool 3, an anodic oxidation pool 4 and a clean water pool 5 are sequentially arranged below the channel 1 from left to right,

the lengths of the acid cleaning solution tank 2 and the alkaline cleaning solution tank 3 are equal, the length of the anodic oxidation tank 4 is twice the length of the acid cleaning solution tank 2 or the alkaline cleaning solution tank 3, and the length of the clean water tank 5 is equal to that of the anodic oxidation tank 4; the structure is mainly based on the fact that the anodic oxidation needs to be continued for a certain time, and the ideal coloring effect cannot be obtained when the length of the anodic oxidation pond 4 is too short;

the device is characterized in that a partition plate 6 corresponding to the acidic cleaning solution pool 2, the alkaline cleaning solution pool 3, the anodic oxidation pool 4 and the clean water pool 5 is further arranged in the channel 1, two ends of the channel 1 are also provided with the partition plate 6, the middle part of the clean water pool 5 is further provided with a half partition plate 7, the top of the channel 1 above the acidic cleaning solution pool 2, the alkaline cleaning solution pool 3 and the clean water pool 5 is further provided with a corresponding spray head 10, the spray heads 10 corresponding to the clean water pool 5 are all positioned at the left side of the half partition plate 7, two sides of the channel 1 at the right side of the half partition plate 7 are provided with a plurality of air outlets 8, each air outlet 8 is obliquely arranged towards the half partition plate 7 so as to avoid blowing the clean water sprayed downwards out of the channel 1, each air outlet 8 is connected with a fan through an air pipe, pump bodies 9 are further arranged in the acidic cleaning solution pool 2, the alkaline cleaning solution pool 3 and the clean water, each partition plate 6 mainly plays a role in blocking liquid sprayed by the spray header 10 and preventing excessive liquid from spraying into the adjacent tank bodies, and the tops of the acidic cleaning liquid tank 2 and the alkaline cleaning liquid tank 3 are respectively provided with a porous filter plate 11 to prevent impurities from falling into the tank bodies;

the titanium vacuum insulation cup is characterized by further comprising a conveying rail 12, wherein the conveying rail 12 is fixed in the rectangular channel 1 through a fixing frame, a conveying chain is arranged on the inner side of the conveying rail 12, the titanium vacuum insulation cup is fixed at the lower end of a hook with a plug, the hook is hung on the conveying chain, the conveying rail 12 located above the anodic oxidation pond 4 is provided with a concave slow descending section 13, the titanium vacuum insulation cup is soaked in the anodic oxidation pond 4 when passing through, and each partition plate 6 and each semi-partition plate 7 are provided with openings corresponding to the conveying rail 12;

an anode plate 14 and a cathode plate 15 are respectively arranged on two sides in the anodic oxidation pond 4, a cooling pipe 16 is further arranged at the bottom of the anodic oxidation pond 4 in a bent mode, the cooling pipe 16 is fixed in the anodic oxidation pond 4 through a support frame 17, a circulating pump 18 is further arranged in the clean water pond 5, a water inlet of the cooling pipe 16 is connected with the circulating pump 18, a water outlet of the cooling pipe 16 is communicated with the clean water pond 5, and water in the clean water pond 5 is used for cleaning a titanium metal vacuum thermal insulation cup after coloring and cooling electrolyte in the anodic oxidation pond 4;

still be equipped with a inlet tube 19 in the clean water basin 5, the export of inlet tube 19 sets up between pump body 9 and circulating pump 18, still be equipped with an overflow mouth 20 on the clean water basin 5.

The utility model discloses a theory of operation is: the titanium vacuum heat-preservation cups are filled with water and plugged with plugs, are hung on a conveying chain of a conveying rail 12 through a hook, sequentially pass through the upper parts of an acid cleaning solution pool 2 and an alkaline cleaning solution pool 3 at a constant speed, and are cleaned by spraying acid cleaning solution and alkaline cleaning solution from spray headers 10 above the acid cleaning solution pool 2 and the alkaline cleaning solution pool 3 until reaching an anode oxidation pool 4, the titanium metal vacuum thermos cup moves downwards along with the slow descending section 13 and is soaked in the electrolyte for anodic oxidation coloring, the titanium metal vacuum thermos cup after coloring continues to move forwards to the upper part of the clean water tank 5, the spray head 10 sprays water to wash away the electrolyte attached to the titanium metal vacuum thermos cup, the cleaned titanium metal vacuum thermos cup passes through the right side of the half partition plate 7, the air blown out by the air outlet 8 is dried in the air, the output channel 1 is arranged, and redundant water drops back into the clean water tank 5 in the air drying process.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. 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 the like as used herein are for illustrative purposes only and do not represent the only embodiments.

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

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a titanium metal vacuum cup continuous surface coloring treatment device, includes equipment principal, its characterized in that: the equipment main body consists of a rectangular channel, an acidic cleaning solution pool, an alkaline cleaning solution pool, an anodic oxidation pool and a clean water pool are sequentially arranged from left to right below the channel,

2. The continuous surface coloring treatment equipment for the titanium metal vacuum cup according to claim 1, characterized in that: the length of the acid cleaning liquid pool is equal to that of the alkaline cleaning liquid pool, the length of the anodic oxidation pool is twice that of the acid cleaning liquid pool or the alkaline cleaning liquid pool, and the length of the clean water pool is equal to that of the anodic oxidation pool.

3. The continuous surface coloring treatment equipment for the titanium metal vacuum cup according to claim 1, characterized in that: each air outlet is obliquely arranged towards the semi-partition plate.

4. The continuous surface coloring treatment equipment for the titanium metal vacuum cup according to claim 1, characterized in that: and the tops of the acidic cleaning solution tank and the alkaline cleaning solution tank are respectively provided with a porous filter plate.

5. The continuous surface coloring treatment equipment for the titanium metal vacuum cup according to claim 1, characterized in that: the cooling pipe is fixed in the anodic oxidation tank through a support frame.

6. The continuous surface coloring treatment equipment for the titanium metal vacuum cup according to claim 1, characterized in that: still be equipped with an inlet tube in the clean water pond, the export of inlet tube sets up between the pump body and circulating pump, still be equipped with an overflow mouth on the clean water pond.