阅读说明：本技术 一种涂料配比搅拌设备 (Coating ratio agitated vessel ) 是由 李春艳 于 2019-11-08 设计创作，主要内容包括：本发明涉及一种搅拌设备,更具体的说是一种涂料配比搅拌设备,包括配比搅拌机构、安全驱动机构、机身机构、过滤机构、涂料补充机构,设备能够对涂料进行配比搅拌,设备能够调节搅拌速度,设备能够保证搅拌过程的安全进行,设备能够在卸料的同时进行过滤,设备能够控制是否进行补充涂料,所述的配比搅拌机构与机身机构相连,配比搅拌机构与安全驱动机构相连,安全驱动机构与机身机构相连,机身机构与过滤机构相连,过滤机构与涂料补充机构相连,涂料补充机构与机身机构相连。(The invention relates to stirring equipment, in particular to coating proportioning stirring equipment which comprises a proportioning stirring mechanism, a safety driving mechanism, a machine body mechanism, a filtering mechanism and a coating supplementing mechanism, wherein the equipment can be used for proportioning and stirring coatings, can be used for adjusting the stirring speed, can ensure the safe operation of the stirring process, can be used for filtering while discharging, and can be used for controlling whether to supplement the coatings or not.)

1. The utility model provides a coating ratio agitated vessel, includes ratio rabbling mechanism (1), safe actuating mechanism (2), fuselage mechanism (3), filter mechanism (4), coating supplement mechanism (5), its characterized in that: ratio rabbling mechanism (1) link to each other with fuselage mechanism (3), ratio rabbling mechanism (1) links to each other with safe actuating mechanism (2), safe actuating mechanism (2) link to each other with fuselage mechanism (3), fuselage mechanism (3) link to each other with filtering mechanism (4), filtering mechanism (4) link to each other with coating complementary unit (5), coating complementary unit (5) link to each other with fuselage mechanism (3).

2. A paint proportioning stirring apparatus as claimed in claim 1, wherein: the proportioning stirring mechanism (1) comprises a limiting mechanism (1-1), a ratchet wheel (1-2), a belt trough disc (1-3), a friction disc (1-4), a raised head (1-5), a rotating step disc (1-6), a stirring shaft (1-7), stirring blades (1-8), a bottom rotating disc (1-9), an opening (1-10) and a connecting shaft (1-11), wherein the limiting mechanism (1-1) is matched with the ratchet wheel (1-2), the ratchet wheel (1-2) is connected with the connecting shaft (1-11), the connecting shaft (1-11) is connected with the bottom rotating disc (1-9), the opening (1-10) is formed in the bottom rotating disc (1-9), the friction disc (1-4) is connected with the stirring shaft (1-7), the stirring shaft (1-7) is connected with the rotating stepped disk (1-6), the rotating stepped disk (1-6) is connected with the raised head (1-5), and the stirring shaft (1-7) is connected with the stirring blade (1-8); the limiting mechanism (1-1) comprises a bent arm support (1-1-1), a step rod (1-1-2), a spring (1-1-3) and a wedge block (1-1-4), the bent arm support (1-1-1) is in sliding connection with the step rod (1-1-2), the step rod (1-1-2) is connected with the wedge block (1-1-4), the spring (1-1-3) is sleeved on the step rod (1-1-2), one end of the spring (1-1-3) abuts against the bent arm support (1-1-1), and the other end of the spring (1-1-3) abuts against the wedge block (1-1-4).

3. A paint proportioning stirring apparatus as claimed in claim 1, wherein: the safety driving mechanism (2) comprises a supporting mechanism (2-1), a safety catch mechanism (2-2), a bent arm mechanism (2-3), a hydraulic cylinder (2-4), a sliding seat (2-5), a stepped groove (2-6), a linkage arm mechanism (2-7), a driving mechanism (2-8), a rotating shaft mechanism (2-9) and a rotating friction wheel mechanism (2-10), wherein the supporting mechanism (2-1) is connected with the safety catch mechanism (2-2), the safety catch mechanism (2-2) is matched with the bent arm mechanism (2-3), the bent arm mechanism (2-3) is hinged with the supporting mechanism (2-1), the hydraulic cylinder (2-4) is connected with the rotating shaft mechanism (2-9), and the hydraulic cylinder (2-4) is connected with the sliding seat (2-5) in a sliding way, the sliding seat (2-5) is connected with the rotating shaft mechanism (2-9), the stepped groove (2-6) is formed in the sliding seat (2-5), the linkage arm mechanism (2-7) is connected with the stepped groove (2-6) in a sliding mode, the linkage arm mechanism (2-7) is hinged with the driving mechanism (2-8), the driving mechanism (2-8) is connected with the rotating shaft mechanism (2-9) in a sliding mode, the rotating shaft mechanism (2-9) is connected with the rotating friction wheel mechanism (2-10), and the driving mechanism (2-8) is connected with the rotating friction wheel mechanism (2-10) in a friction mode; the supporting mechanism (2-1) comprises a supporting arm A (2-1-1), a welding hole (2-1-2), a corner support (2-1-3), a hinged seat I (2-1-4), a step groove I (2-1-5) and a unthreaded hole (2-1-6), wherein the welding hole (2-1-2) is formed in the supporting arm A (2-1-1), the corner support (2-1-3) is connected with the hinged seat I (2-1-4), the hinged seat I (2-1-4) is connected with the supporting arm A (2-1-1), the step groove I (2-1-5) is formed in the supporting arm A (2-1-1), the unthreaded hole (2-1-6) is formed in the supporting arm A (2-1-1), the stepped groove I (2-1-5) is communicated with the unthreaded hole (2-1-6); the safety pin mechanism (2-2) comprises an insulating handle (2-2-1), an inserted rod with a boss (2-2-2) and a reset spring (2-2-3), wherein the insulating handle (2-2-1) is connected with the inserted rod with the boss (2-2-2), the reset spring (2-2-3) is sleeved on the inserted rod with the boss (2-2-2), the inserted rod with the boss (2-2-2) is in sliding connection with a corner support (2-1-3), the inserted rod with the boss (2-2-2) is in sliding connection with a hinge base I (2-1-4), and the reset spring (2-2-3) abuts against the corner support (2-1-3); the bent arm mechanism (2-3) comprises a pulley (2-3-1), a limiting hole (2-3-2) and a bent arm body (2-3-3), the pulley (2-3-1) and the bent arm body (2-3-3) are connected in a bearing mode, the limiting hole (2-3-2) is formed in the bent arm body (2-3-3), the bent arm body (2-3-3) is hinged with a hinging seat I (2-1-4), and the limiting hole (2-3-2) is matched with an inserted rod (2-2-2) with a boss; the linkage arm mechanism (2-7) comprises a step seat I (2-7-1) and a linkage arm (2-7-2), the step seat I (2-7-1) is connected with the linkage arm (2-7-2), the step seat I (2-7-1) is matched with the step groove (2-6), and the sliding seat (2-5) is connected with the step seat I (2-7-1); the driving mechanism (2-8) comprises a driving arm (2-8-1), a motor (2-8-2) and a coupling (2-8-3), the driving device comprises driving wheels (2-8-4) and driving connecting shafts (2-8-5), driving arms (2-8-1) are connected with motors (2-8-2), the motors (2-8-2) are connected with the driving connecting shafts (2-8-5) through couplers (2-8-3), the driving connecting shafts (2-8-5) are connected with the driving arms (2-8-1) through bearings, the driving wheels (2-8-4) are connected with the driving connecting shafts (2-8-5), and the driving arms (2-8-1) are hinged with linkage arms (2-7-2); the rotating shaft mechanism (2-9) comprises a limiting slide rod (2-9-1), a sliding spring (2-9-2), a step seat II (2-9-3), a bearing seat I (2-9-4), a sliding hole I (2-9-5), a sliding groove (2-9-6), a shaft A (2-9-7) and a unthreaded hole I (2-9-8), wherein the sliding spring (2-9-2) is sleeved on the limiting slide rod (2-9-1), the limiting slide rod (2-9-1) is connected with the step seat II (2-9-3), the step seat II (2-9-3) is connected with the bearing seat I (2-9-4), the sliding hole I (2-9-5) is arranged on the bearing seat I (2-9-4), the sliding groove (2-9-6) is formed in the shaft A (2-9-7), the unthreaded hole I (2-9-8) is communicated with the sliding groove (2-9-6), the limiting sliding rod (2-9-1) is matched with the unthreaded hole (2-1-6), the sliding spring (2-9-2) is arranged in the unthreaded hole (2-1-6), the sliding spring (2-9-2) abuts against the supporting arm A (2-1-1), the bearing seat I (2-9-4) is in contact fit with the pulley (2-3-1), and the stepped seat II (2-9-3) is in sliding connection with the stepped groove I (2-1-5); the rotating friction wheel mechanism (2-10) comprises a step slide bar (2-10-1), a supporting spring I (2-10-2) and a special-shaped friction wheel (2-10-3), the step slide bar (2-10-1) is connected with the special-shaped friction wheel (2-10-3), the supporting spring I (2-10-2) is sleeved on the step slide bar (2-10-1), the step slide bar (2-10-1) is connected with a unthreaded hole I (2-9-8) in a sliding mode, the supporting spring I (2-10-2) abuts against a shaft A (2-9-7), and the special-shaped friction wheel (2-10-3) is connected with a driving wheel (2-8-4) in a friction mode.

4. A paint proportioning stirring apparatus as claimed in claim 1, wherein: the machine body mechanism (3) comprises a bottom plate (3-1), a flow pipe (3-2), a sliding groove I (3-3), a box body (3-4), a connecting hole (3-5), a bearing seat (3-6), a second bearing seat (3-7), a water inlet pipe (3-8), a clamping arm (3-9), a threaded cylinder (3-10), an internal thread ring (3-11), a partition plate (3-12) and an inlet hole (3-13), wherein the bottom plate (3-1) is connected with the box body (3-4), the flow pipe (3-2) is connected with the box body (3-4), the sliding groove I (3-3) is opened on the box body (3-4), the connecting hole (3-5) is opened on the bearing seat (3-6), the bearing seat (3-6) is connected with the box body (3-4), the second bearing seat (3-7) is connected with the box body (3-4), the water inlet pipe (3-8) is connected with the threaded cylinder (3-10), the threaded cylinder (3-10) is hinged with the clamping arm (3-9), the clamping arm (3-9) is in contact fit with the ring (3-11) with the internal thread, the ring (3-11) with the internal thread is connected with the threaded cylinder (3-10) through the thread, the partition plate (3-12) is connected with the box body (3-4), the inlet hole (3-13) is opened on the partition plate (3-12), the water inlet pipe (3-8) is connected with the welding hole (2-1-2), the supporting arm A (2-1-1) is connected with the box body (3-4), the bottom rotating disc (1-9) is in contact with the partition plate (3-12), the connecting shaft (1-11) is connected with the bearing seat (3-6) in a bearing way, and the stirring shaft (1-7) is connected with the second bearing seat (3-7) in a bearing way.

5. A paint proportioning stirring apparatus as claimed in claim 1, wherein: the filtering mechanism (4) comprises a hydraulic cylinder frame (4-1), a hydraulic cylinder A (4-2), a welding strip (4-3), a sliding special-shaped seat (4-4) and a filtering mechanism (4-5), the hydraulic cylinder frame (4-1) is connected with the hydraulic cylinder A (4-2), the hydraulic cylinder A (4-2) is connected with the welding strip (4-3), the welding strip (4-3) is connected with the sliding special-shaped seat (4-4), the sliding special-shaped seat (4-4) is connected with the filtering mechanism (4-5), and the sliding special-shaped seat (4-4) is matched with a sliding groove I (3-3); the filtering mechanism (4-5) comprises a filtering motor (4-5-1), a filtering coupler (4-5-2), a filtering shaft (4-5-3) and a filtering blade (4-5-4), the filtering motor (4-5-1) is connected with the filtering shaft (4-5-3) through the filtering coupler (4-5-2), the filtering shaft (4-5-3) is connected with the filtering blade (4-5-4), and the filtering shaft (4-5-3) is connected with the sliding special-shaped seat (4-4) through a bearing.

6. A paint proportioning stirring apparatus as claimed in claim 1, wherein: the coating supplementing mechanism (5) comprises a feeding control mechanism (5-1) and a supplementing box mechanism (5-2), and the feeding control mechanism (5-1) is connected with the supplementing box mechanism (5-2); the feeding control mechanism (5-1) comprises a feeding hydraulic cylinder (5-1-1), a sliding block with a step block (5-1-2), a shell with a convex block (5-1-3) and a step hole (5-1-4), the feeding hydraulic cylinder (5-1-1) is connected with the sliding block with the step block (5-1-2), the sliding block with the step block (5-1-2) is connected with the shell with the convex block (5-1-3), and the step hole (5-1-4) is formed in the shell with the convex block (5-1-3); the supplement box mechanism (5-2) comprises a supplement box body (5-2-1) and a stepped groove B (5-2-2), the feeding device comprises a feeding opening (5-2-3) and an outlet pipe (5-2-4), a stepped groove B (5-2-2) is formed in a feeding box body (5-2-1), the feeding opening (5-2-3) is formed in the feeding box body (5-2-1), the outlet pipe (5-2-4) is connected with the feeding box body (5-2-1), a feeding hydraulic cylinder (5-1-1) is connected with the feeding box body (5-2-1), a sliding block (5-1-2) with a stepped block is matched with the stepped groove B (5-2-2), and a shell (5-1-3) with a convex block is matched with the stepped groove B (5-2-2).

7. A paint proportioning stirring apparatus as claimed in claim 2, wherein: the stirring blades (1-8) are made of stainless steel.

Technical Field

The invention relates to stirring equipment, in particular to coating proportioning stirring equipment.

Background

In the stirring of coating, can't control the volume of two kinds of coatings usually, and can't guarantee getting rid of impurity, can't guarantee safety in the stirring process, so designed this kind of coating ratio agitated vessel.

Disclosure of Invention

The invention mainly solves the technical problem of providing a coating proportioning and stirring device, which can be used for proportioning and stirring a coating, can be used for adjusting the stirring speed, can ensure the safe operation of the stirring process, can be used for filtering while discharging, and can be used for controlling whether to supplement the coating or not.

In order to solve the technical problem, the invention relates to a stirring device, and particularly relates to a coating proportioning stirring device which comprises a proportioning stirring mechanism, a safety driving mechanism, a machine body mechanism, a filtering mechanism and a coating supplementing mechanism.

The proportioning and stirring mechanism is connected with the machine body mechanism, the proportioning and stirring mechanism is connected with the safe driving mechanism, the safe driving mechanism is connected with the machine body mechanism, the machine body mechanism is connected with the filtering mechanism, the filtering mechanism is connected with the coating supplementing mechanism, and the coating supplementing mechanism is connected with the machine body mechanism.

As a further optimization of the technical scheme, the proportioning and stirring mechanism of the coating proportioning and stirring device comprises a limiting mechanism, a ratchet wheel, a disc with a groove, a friction disc, a raised head, a rotating stepped disc, a stirring shaft, stirring blades, a bottom rotating disc, an opening and a connecting shaft, wherein the limiting mechanism is matched with the ratchet wheel; the limiting mechanism comprises a bent arm support, a stepped rod, a spring and a wedge block, the bent arm support is connected with the stepped rod in a sliding mode, the stepped rod is connected with the wedge block, the spring is sleeved on the stepped rod, and one end of the spring abuts against the bent arm support while the other end of the spring abuts against the wedge block.

As a further optimization of the technical scheme, the safe driving mechanism of the coating proportioning stirring equipment comprises a supporting mechanism, a safety catch mechanism, a bent arm mechanism, a hydraulic cylinder, a sliding seat, a stepped groove, a linkage arm mechanism, a driving mechanism, a rotating shaft mechanism and a rotating friction wheel mechanism, wherein the supporting mechanism is connected with the safety catch mechanism, the safety catch mechanism is matched with the bent arm mechanism, the bent arm mechanism is hinged with the supporting mechanism, the hydraulic cylinder is connected with the rotating shaft mechanism, the hydraulic cylinder is connected with the sliding seat in a sliding manner, the sliding seat is connected with the rotating shaft mechanism, the stepped groove is formed in the sliding seat, the linkage arm mechanism is connected with the stepped groove in a sliding manner, the linkage arm mechanism is hinged with the driving mechanism, the driving mechanism is connected with the rotating shaft mechanism in a sliding manner, the rotating shaft mechanism is connected with the rotating friction wheel mechanism, and the driving mechanism is connected; the support mechanism comprises a support arm A, a welding hole, a corner support, a hinge seat I, a stepped groove I and a unthreaded hole, wherein the welding hole is formed in the support arm A; the safety pin mechanism comprises an insulating handle, an inserted rod with a boss and a return spring, wherein the insulating handle is connected with the inserted rod with the boss; the bent arm mechanism comprises a pulley, a limiting hole and a bent arm body, the pulley is connected with the bent arm body in a bearing mode, the limiting hole is formed in the bent arm body, the bent arm body is hinged with the hinge base I, and the limiting hole is matched with the inserted rod with the boss; the linkage arm mechanism comprises a step seat I and a linkage arm, the step seat I is connected with the linkage arm, the step seat I is matched with the step groove, and the sliding seat is connected with the step seat I; the driving mechanism comprises a driving arm, a motor, a coupler, a driving wheel and a driving connecting shaft, wherein the driving arm is connected with the motor, the motor is connected with the driving connecting shaft through the coupler, the driving connecting shaft is connected with the driving arm in a bearing manner, the driving wheel is connected with the driving connecting shaft, and the driving arm is hinged with the linkage arm; the rotating shaft mechanism comprises a limiting slide bar, a slide spring, a step seat II, a bearing seat I, a slide hole I, a slide groove, a shaft A and a unthreaded hole I, the slide spring is sleeved on the limiting slide bar, the limiting slide bar is connected with the step seat II, the step seat II is connected with the bearing seat I, the slide hole I is formed in the bearing seat I, the slide groove is formed in the shaft A, the unthreaded hole I is communicated with the slide groove, the limiting slide bar is matched with the unthreaded hole, the slide spring is arranged in the unthreaded hole, the slide spring abuts against the support arm A, the bearing seat I is in contact fit with the pulley, and the step seat II is in slide connection with; the rotating friction wheel mechanism comprises a step slide bar, a supporting spring I and a special-shaped friction wheel, the step slide bar is connected with the special-shaped friction wheel, the supporting spring I is sleeved on the step slide bar, the step slide bar is in sliding connection with a unthreaded hole I, the supporting spring I is supported on a shaft A, and the special-shaped friction wheel is in friction connection with a driving wheel.

As a further optimization of the technical scheme, the machine body mechanism of the paint proportioning and stirring equipment comprises a bottom plate, a flow pipe, a sliding groove I, a box body, a connecting hole, a bearing seat, a second bearing seat, a water inlet pipe, a clamping arm, a threaded cylinder, a ring with internal threads, a partition plate and an inlet hole, wherein the bottom plate is connected with the box body, the flow pipe is connected with the box body, the sliding groove I is formed in the box body, the connecting hole is formed in the bearing seat, the bearing seat is connected with the box body, the second bearing seat is connected with the box body, the water inlet pipe is connected with the threaded cylinder, the threaded cylinder is hinged with the clamping arm, the clamping arm is in contact fit with the ring with the internal threads, the ring with the internal threads is in threaded connection with the threaded cylinder, the partition plate is connected with the box body, the inlet hole is formed in the partition, the connection mode of the stirring shaft and the second bearing block is bearing connection.

As further optimization of the technical scheme, the filtering mechanism of the coating proportioning stirring equipment comprises a hydraulic cylinder frame, a hydraulic cylinder A, a welding strip, a sliding special-shaped seat and a filtering mechanism, wherein the hydraulic cylinder frame is connected with the hydraulic cylinder A, the hydraulic cylinder A is connected with the welding strip, the welding strip is connected with the sliding special-shaped seat, the sliding special-shaped seat is connected with the filtering mechanism, and the sliding special-shaped seat is matched with the sliding groove I; the filtering mechanism comprises a filtering motor, a filtering coupler, a filtering shaft and a filtering blade, the filtering motor is connected with the filtering shaft through the filtering coupler, the filtering shaft is connected with the filtering blade, and the filtering shaft is connected with the sliding special-shaped seat through a bearing.

As a further optimization of the technical scheme, the coating supplementing mechanism of the coating proportioning stirring equipment comprises a feeding control mechanism and a supplementing box mechanism, wherein the feeding control mechanism is connected with the supplementing box mechanism; the feeding control mechanism comprises a feeding hydraulic cylinder, a sliding block with a step block, a shell with a convex block and a step hole, the feeding hydraulic cylinder is connected with the sliding block with the step block, the sliding block with the step block is connected with the shell with the convex block, and the step hole is formed in the shell with the convex block; supplementary punch-out equipment constructs including supplementary case body, ladder groove B, supplementary trompil, exit tube, and ladder groove B is opened on supplementary case body, and supplementary trompil is opened on supplementary case body, and the exit tube links to each other with supplementary case body, and reinforced pneumatic cylinder links to each other with supplementary case body, takes the ladder piece slider to cooperate with ladder groove B, takes the lug shell to cooperate with ladder groove B.

As a further optimization of the technical scheme, the stirring blade of the coating proportioning stirring equipment is made of stainless steel.

The coating proportioning and stirring equipment has the beneficial effects that:

according to the coating proportioning and stirring equipment, the equipment can be used for proportioning and stirring the coating, the stirring speed can be adjusted, the equipment can ensure the safe operation of the stirring process, the equipment can carry out filtering while discharging, and the equipment can control whether the coating is supplemented or not.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic sectional view of a coating proportioning stirring apparatus according to the present invention.

Fig. 2 is a schematic view of the overall structure of a coating proportioning and stirring device of the invention.

Fig. 3 is a schematic structural diagram of a proportioning and stirring mechanism 1 of a coating proportioning and stirring device of the invention.

Fig. 4 is a schematic structural diagram of a limiting mechanism 1-1 of a coating proportioning stirring device of the invention.

Fig. 5 is a schematic sectional structural view of the safety driving mechanism 2 of the paint proportioning and stirring apparatus according to the present invention.

Fig. 6 is a schematic structural diagram of a safety driving mechanism 2 of a paint proportioning and stirring apparatus according to the present invention.

Fig. 7 is a partially enlarged schematic structural diagram of the safety driving mechanism 2 of the coating material proportioning and stirring apparatus according to the present invention.

Fig. 8 is a schematic structural diagram of a supporting mechanism 2-1 of a coating proportioning stirring device of the invention.

Fig. 9 is a supplementary structural schematic diagram of a supporting mechanism 2-1 of a coating proportioning stirring apparatus of the present invention.

FIG. 10 is a schematic structural view of a safety pin mechanism 2-2 of a coating proportioning stirring apparatus according to the present invention.

Fig. 11 is a schematic structural view of a bent arm mechanism 2-3 of the coating proportioning stirring apparatus of the present invention.

FIG. 12 is a schematic structural view of linkage arm mechanisms 2-7 of a coating proportioning stirring device.

Fig. 13 is a schematic structural diagram of a driving mechanism 2-8 of a coating proportioning and stirring device of the invention.

FIG. 14 is a schematic structural diagram of a rotating shaft mechanism 2-9 of a coating proportioning and stirring apparatus according to the present invention.

FIG. 15 is a schematic structural diagram of a rotating friction wheel mechanism 2-10 of a paint proportioning and stirring device according to the present invention.

Fig. 16 is a schematic structural diagram of a body mechanism 3 of a paint proportioning and stirring apparatus according to the present invention.

Fig. 17 is a schematic cross-sectional structural view of the body mechanism 3 of the coating material proportioning and stirring apparatus of the present invention.

Fig. 18 is a supplementary structural schematic diagram of the body mechanism 3 of the coating material proportioning and stirring apparatus of the present invention.

Fig. 19 is a schematic structural diagram of a filtering mechanism 4 of a coating proportioning and stirring device according to the present invention.

Fig. 20 is a schematic structural diagram of a filtering mechanism 4-5 of a coating proportioning and stirring device of the invention.

Fig. 21 is a schematic structural diagram of a paint replenishing mechanism 5 of a paint proportioning and stirring apparatus according to the present invention.

FIG. 22 is a schematic structural diagram of a feeding control mechanism 5-1 of a coating proportioning and stirring apparatus according to the present invention.

FIG. 23 is a schematic view of a supplementary structure of a feeding control mechanism 5-1 of a coating proportioning and stirring apparatus according to the present invention.

FIG. 24 is a schematic structural view of a replenishing tank mechanism 5-2 of a coating proportioning stirring apparatus according to the present invention.

In the figure: a proportioning and stirring mechanism 1; a limiting mechanism 1-1; the bent arm supports 1-1-1; step rods 1-1-2; 1-1-3 of a spring; 1-1-4 of a wedge block; 1-2 parts of ratchet wheel; 1-3 of grooved discs; 1-4 of friction disc; 1-5 of raised head; rotating the step discs 1-6; 1-7 parts of a stirring shaft; 1-8 parts of stirring blades; bottom rotating discs 1-9; 1-10 of open pores; connecting shafts 1-11; a safety drive mechanism 2; a support mechanism 2-1; support arm A2-1-1; welding holes 2-1-2; 2-1-3 of corner brace; the hinge seat I2-1-4; a step groove I2-1-5; 2-1-6 of a light hole; a safety catch mechanism 2-2; 2-2-1 of an insulating handle; 2-2-2 of inserted link with boss; 2-2-3 of a return spring; 2-3 of a bent arm mechanism; 2-3-1 of a pulley; 2-3-2 of a limiting hole; 2-3-3 of a bent arm body; 2-4 of a hydraulic cylinder; 2-5 of a sliding seat; 2-6 of a stepped groove; 2-7 of a linkage arm mechanism; a step seat I2-7-1; 2-7-2 of a linkage arm; 2-8 of a driving mechanism; 2-8-1 of a driving arm; 2-8-2 of a motor; 2-8-3 of a coupler; 2-8-4 parts of driving wheel; driving a connecting shaft 2-8-5; 2-9 of a rotating shaft mechanism; 2-9-1 of a limiting slide bar; a sliding spring 2-9-2; a step seat II 2-9-3; bearing seat I2-9-4; a sliding hole I2-9-5; 2-9-6 of a chute; axis A2-9-7; unthreaded hole I2-9-8; 2-10 parts of a rotary friction wheel mechanism; 2-10-1 of a stepped slide bar; a supporting spring I2-10-2; 2-10-3 parts of a special-shaped friction wheel; a body mechanism 3; a bottom plate 3-1; a flow pipe 3-2; a sliding groove I3-3; 3-4 of a box body; 3-5 of connecting holes; 3-6 of a bearing seat; a second bearing block 3-7; 3-8 parts of a water inlet pipe; 3-9 of a clamping arm; 3-10 parts of a threaded cylinder; 3-11 parts of an internal thread ring; 3-12 parts of a partition board; 3-13 of an inlet hole; a filtering mechanism 4; a hydraulic cylinder frame 4-1; a hydraulic cylinder A4-2; 4-3 of a welding strip; 4-4 of sliding special-shaped seats; 4-5 of a filtering mechanism; 4-5-1 of a filter motor; 4-5-2 of a filtering coupler; 4-5-3 parts of a filtering shaft; 4-5-4 parts of filter blades; a paint replenishing mechanism 5; a feeding control mechanism 5-1; a charging hydraulic cylinder 5-1-1; a slide block 5-1-2 with a step block; 5-1-3 of a shell with a bump; 5-1-4 of a stepped hole; a replenishing box mechanism 5-2; a supplement box body 5-2-1; a stepped groove B5-2-2; a supplementary opening 5-2-3; and a pipe 5-2-4 is formed.

Detailed Description