Target airless spraying produces equipment
Technical field
The present invention relates to a kind of target and produce equipment, particularly relate to a kind of target airless spraying and produce equipment.
Background technology
At building glass, the industries such as electronic product display all can carry out coating film treatment at product surface, carry out surfacecti proteon, need during plated film to use target, the kind of target is a lot, such as: be used in the sial on building glass, titanium oxide, zinc-tin, the targets such as niobium oxide, it is used in the HIGH-PURITY SILICON target on electronic product display, target production process needs its surface is sprayed, present domestic spraying equipment is all be made directly spraying in an atmosphere, raw material surface is oxidizable, micronutrient levels is uncontrollable, product quality is low, high-end customer requirement can not be met, noise is high, affect the healthy of operator, spray efficiency is low, production cost is big, production cycle is long, energy consumption is high, raw material does not reclaim, can not meet energy-conservation, the requirement of environmental protection.
Summary of the invention
The technical problem to be solved is: provide the target airless spraying that a kind of spraying effect is good to produce equipment.
In order to solve above-mentioned technical problem, the technical solution used in the present invention is: target airless spraying produces equipment, including: frame, dust-removing recovery device and numerical control water-cooling apparatus, described frame is provided with vacuum tube, target base material and plasma gun it is provided with in described vacuum tube, described vacuum tube is disposed with coating thickness detector, coating temperature measurer, spraying storehouse cooling water inlet, nitrogen protection gas feed, negative pressure QI KOU, target material surface coolant nitrogen inlet and vision monitoring mouth, described spraying storehouse cooling water inlet is connected with described numerical control water-cooling apparatus by connecting water pipe, described negative pressure QI KOU is connected with described dust-removing recovery device by negative tube, one end of described target base material is connected with one end of rotating shaft by joint, described rotating shaft is supported in described frame by some support running rollers, U-shaped cooling water pipe it is provided with in described rotating shaft, the U-shaped end of described U-shaped cooling water pipe is deep into the inside of described target base material, the other end of described U-shaped cooling water pipe is connected by swivel joint two flexible pipes respectively, described U-shaped cooling water pipe is connected by numerical control water-cooling apparatus described in two flexible pipes, described swivel joint (is connected with mobile chain by contiguous block, described mobile chain is supported on the drive sprocket and driven sprocket that cooperate with it, described drive sprocket is arranged in the rotating shaft of mobile drive motor, middle part arranged outside at described rotating shaft has rotary drive gear, described frame is provided with rotary drive motor, the rotating shaft of described rotary drive motor is provided with the rotation driving gear cooperated with described rotary drive gear.
The invention have the advantage that above-mentioned target airless spraying produces equipment, spray in vacuum chamber, avoid raw material surface oxidation, during spraying, raw material physical behavior is more stable, and micronutrient levels is controlled, meets high-end customer requirement, improve product quality, noise is low, it is ensured that operator's is healthy, and spray area is big, production cost is low, spray efficiency is high, with short production cycle, is 1st/10 to ten/5ths of conventional equipment, energy-saving and environmental protection, raw material can recycle and reuse, seal circulating cooling system, the not easily loss of water and heat.
Accompanying drawing explanation
Fig. 1 is the structural representation that target airless spraying of the present invention produces equipment.
In figure: 1, frame, 2, dust-removing recovery device, 3, numerical control water-cooling apparatus, 4, vacuum tube, 5, target base material, 6, plasma gun, 7, coating thickness detector, 8, coating temperature measurer, 9, spraying storehouse cooling water inlet, 10, nitrogen protection gas feed, 11, negative pressure QI KOU, 12, target material surface coolant nitrogen inlet, 13, vision monitoring mouth, 14, connecting water pipe, 15, negative tube, 16, joint, 17, rotating shaft, 18, support running roller, 19, U-shaped cooling water pipe, 20, swivel joint, 21, flexible pipe, 22, contiguous block, 23, mobile chain, 24, drive sprocket, 25, driven sprocket, 26, mobile drive motor, 27, rotating shaft, 28, rotary drive gear, 29, rotary drive motor, 30, rotating shaft, 31, rotate driving gear, 32, coating.
Detailed description of the invention
The particular content of the present invention is described in detail below in conjunction with the drawings and specific embodiments.
As shown in Figure 1, target airless spraying produces equipment, including: frame 1, dust-removing recovery device 2 and numerical control water-cooling apparatus 3, described frame 1 is provided with vacuum tube 4, target base material 5 and plasma gun 6 it is provided with in described vacuum tube 4, described vacuum tube 4 is disposed with coating thickness detector 7, coating temperature measurer 8, spraying storehouse cooling water inlet 9, nitrogen protection gas feed 10, negative pressure QI KOU 11, target material surface coolant nitrogen inlet 12 and vision monitoring mouth 13, described spraying storehouse cooling water inlet 9 is connected with described numerical control water-cooling apparatus 3 by connecting water pipe 14, described negative pressure QI KOU 11 is connected with described dust-removing recovery device 2 by negative tube 15, one end of described target base material 5 is connected by one end of joint 16 with rotating shaft 17, described rotating shaft 17 is supported in described frame 1 by some support running rollers 18, it is provided with U-shaped cooling water pipe 19 in described rotating shaft 17, the U-shaped end of described U-shaped cooling water pipe 19 is deep into the inside of described target base material 5, the other end of described U-shaped cooling water pipe 19 is connected by swivel joint 20 two flexible pipes 21 respectively, described U-shaped cooling water pipe 19 is connected by numerical control water-cooling apparatus 3 described in two flexible pipes 21, described swivel joint 20 is connected with mobile chain 23 by contiguous block 22, described mobile chain 23 is supported on the drive sprocket 24 and driven sprocket 25 that cooperate with it, described drive sprocket is arranged in the rotating shaft 27 of mobile drive motor 26, middle part arranged outside at described rotating shaft 17 has rotary drive gear 28, described frame 1 is provided with rotary drive motor 29, the rotating shaft 30 of described rotary drive motor 29 is provided with the rotation driving gear 31 cooperated with described rotary drive gear 28.
As it is shown in figure 1, in the course of the work, the inside of vacuum tube 4 is carried out vac sorb by negative tube 15, negative pressure QI KOU 11 and is reclaimed by waste material by described dust-removing recovery device 2;Described numerical control water-cooling apparatus 3 is connected with U-shaped cooling water pipe 19 by two flexible pipes 21, the inside of target base material 5 is cooled down, numerical control water-cooling apparatus 3 by connecting water pipe 14 with spray storehouse cooling water inlet 9 and be connected the cavity in vacuum tube 4 is cooled down; It is arranged on the coating thickness detector 7 on vacuum tube 4 can the thickness of coating 32 be detected; the temperature of coating 32 can be detected by coating temperature measurer 8; nitrogen can be passed into by nitrogen protection gas feed 10 to the cavity in vacuum tube 4 and carry out gas shield; can passing into liquid nitrogen by target material surface coolant nitrogen inlet 12 to the cavity in vacuum tube 4 to cool down, vision monitoring mouth 13 is for observing the spraying situation in vacuum tube 4.
When above-mentioned target airless spraying produces equipment use, the surface being carried out being sprayed on target base material 5 by plasma gun 6 forms coating 32, in spraying process, at described rotary drive motor 29 by rotating shaft 30, rotation driving gear 31 is rotated driven gear 28 and rotates, thus axle 17 is rotated, joint 16 and target base material 5 rotate, mobile drive motor 26 is by rotating shaft 27, drive sprocket 24 and driven sprocket 25 rotate, so that mobile chain 23 is rotated joint 20 by contiguous block 22, rotating shaft 17, joint 16 and target base material 5 move, in moving process, rotating shaft 17 is supported on support running roller 18 and moves in frame 1.