CN110773074A

CN110773074A - Coating mixing equipment

Info

Publication number: CN110773074A
Application number: CN201911094574.9A
Authority: CN
Inventors: 杨日秀; 于子江
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-11
Filing date: 2019-11-11
Publication date: 2020-02-11

Abstract

The invention relates to mixing equipment, in particular to coating mixing equipment which comprises a rough filtering mechanism, a feeding mechanism, a safety driving mechanism, a stirring driving mechanism and a machine body mechanism, wherein the equipment can carry out rough filtering on coatings, can control whether two coatings are added or not, can carry out emergency feeding, can carry out stirring, can carry out emergency stop on stirring work, and can control whether mixed liquid is discharged or not, the rough filtering mechanism is connected with the feeding mechanism, the feeding mechanism is connected with the safety driving mechanism, the feeding mechanism is connected with the machine body mechanism, the safety driving mechanism is connected with the machine body mechanism, and the stirring driving mechanism is connected with the machine body mechanism.

Description

Coating mixing equipment

Technical Field

The invention relates to a mixing device, in particular to a coating mixing device.

Background

When the coating mixes, traditional mixed mode can be difficult to handle the accuse to the quality of coating, mixes impurity easily, and the stirring process lacks safety protection, so designed this kind of coating mixing apparatus.

Disclosure of Invention

The invention mainly solves the technical problem of providing a coating mixing device, which can coarsely filter coatings, control whether two coatings are added or not, emergently stop feeding and stirring, and control whether mixed liquid is discharged or not.

In order to solve the technical problem, the invention relates to a mixing device, in particular to a coating mixing device which comprises a rough filtering mechanism, a feeding mechanism, a safety driving mechanism, a stirring driving mechanism and a machine body mechanism.

The rough filtering mechanism is connected with the feeding mechanism, the feeding mechanism is connected with the safe driving mechanism, the feeding mechanism is connected with the machine body mechanism, the safe driving mechanism is connected with the machine body mechanism, and the stirring driving mechanism is connected with the machine body mechanism.

As a further optimization of the technical scheme, the rough filtering mechanism of the coating mixing equipment comprises a filtering shell mechanism, a scraping plate mechanism, a filtering screen plate, a linkage rod mechanism and a hydraulic pulling mechanism, wherein the filtering shell mechanism is connected with the filtering screen plate through bolts, the filtering screen plate is in contact fit with the scraping plate mechanism, the scraping plate mechanism is hinged with the linkage rod mechanism, the linkage rod mechanism is hinged with the hydraulic pulling mechanism, and the hydraulic pulling mechanism is connected with the filtering shell mechanism; the filter shell mechanism comprises two-cavity filter shell bodies, a welding plate, a sliding rod, a reset spring, an outlet, a vertical seat and a stepped groove, wherein the two-cavity filter shell bodies are connected with the welding plate, the welding plate is connected with the sliding rod, the sliding rod is sleeved on the sliding rod, the outlet is symmetrically formed in a bottom plate of the two-cavity filter shell bodies, the vertical seat is connected with the two-cavity filter shell bodies, and the stepped groove is formed in the vertical seat; the scraper mechanism comprises a scraper body and a scraper connecting rod, the scraper body is hinged with the scraper connecting rod, and the scraper body is in contact fit with the filter screen plate; the linkage rod mechanism comprises a linkage rod body and a hinge rod, the linkage rod body is connected with the hinge rod, and the hinge rod is hinged with the scraper connecting rod; hydraulic pressure pulling mechanism includes the body of rod, sliding seat I, pneumatic cylinder, area pole supporting seat, and the body of rod is articulated mutually with sliding seat I, and sliding seat I links to each other with the pneumatic cylinder, and the pneumatic cylinder links to each other with area pole supporting seat, and area pole supporting seat links to each other with vertical seat, pneumatic cylinder and vertical seat sliding connection, sliding seat I and ladder groove sliding connection, the body of rod is articulated mutually with the hinge bar.

As a further optimization of the technical scheme, the feeding mechanism of the coating mixing device comprises a feeding shell mechanism, a passive feeding wheel mechanism and an active feeding mechanism, wherein the feeding shell mechanism is provided with two parts which are respectively connected with the passive feeding wheel mechanism and the active feeding mechanism; the feeding shell mechanism comprises a feeding shell body, a bearing seat, a feeding port and a discharging port, wherein the feeding shell body is connected with the bearing seat, the feeding port is arranged above the feeding shell body, the discharging port is arranged below the feeding shell body, the feeding port is connected with the outlet, and the feeding shell body is connected with the two-cavity filter shell body; the driven feeding wheel mechanism comprises a driven shaft, a band-pass hole wheel and a gear, the driven shaft is connected with the band-pass hole wheel, the gear is connected with the driven shaft, and the driven shaft is connected with the bearing seat in a bearing connection mode; the active feeding mechanism comprises a feeding motor, a coupler, a belt shaft active through-hole feeding wheel and a driving gear, the feeding motor is connected with the feeding shell body, the feeding motor is connected with the belt shaft active through-hole feeding wheel through the coupler, the belt shaft active through-hole feeding wheel is connected with the driving gear, and the connection mode of the belt shaft active through-hole feeding wheel and a bearing seat is bearing connection.

As a further optimization of the technical scheme, the safe driving mechanism of the coating mixing device comprises a rotating shaft mechanism, a sliding gear mechanism, a driving frame mechanism and a disconnection force transmission mechanism, wherein the rotating shaft mechanism is connected with the sliding gear mechanism, the driving frame mechanism is connected with the disconnection force transmission mechanism, and the disconnection force transmission mechanism is in contact fit with the sliding gear mechanism; the rotating shaft mechanism comprises a bearing seat A, a stepped shaft, a limiting ring and a slot, the bearing seat A is connected with the stepped shaft in a bearing mode, the stepped shaft is connected with the limiting ring, and the slot is formed in the stepped shaft; the sliding gear mechanism comprises a sliding gear body, a sliding rod I, a sliding spring and a circular ring, wherein the sliding gear body is connected with the sliding rod I, the sliding rod I is connected with the circular ring, the sliding spring is sleeved on the sliding rod I, the sliding gear body is in sliding connection with the stepped shaft, the sliding gear body is in sliding connection with the groove, the sliding rod I is in sliding connection with the limiting ring, the sliding spring abuts against the limiting ring, the sliding gear body is meshed with the gear, and the sliding gear body is meshed with the driving gear; the driving frame mechanism comprises a frame body, a driving hydraulic cylinder, a hinge block, a swing arm, a long groove, an upper chute and a cross groove, wherein the frame body is hinged with the driving hydraulic cylinder, the driving hydraulic cylinder is connected with the hinge block, the hinge block is hinged with the swing arm, the long groove is formed in the swing arm, the swing arm is hinged with the frame body, the upper chute is formed in the frame body, the cross groove is formed in the frame body, and the upper chute is communicated with the cross groove; the disconnection force transmission mechanism comprises a pushing pulley, a special-shaped pulley support and a matching stepped rod, the pushing pulley and the special-shaped pulley support are connected through a bearing, the special-shaped pulley support is connected with the matching stepped rod, the matching stepped rod is matched with the long strip groove, the special-shaped pulley support is connected with the cross groove in a sliding mode, and the pushing pulley is in contact fit with the circular ring.

As a further optimization of the technical scheme, the stirring driving mechanism of the coating mixing device comprises a stirring impeller mechanism, a disconnecting frame mechanism, a pushing hydraulic cylinder, a hinged seat I, an ejection opening wheel mechanism and a mixing driving mechanism, wherein the stirring impeller mechanism is connected with the ejection opening wheel mechanism, the ejection opening wheel mechanism is connected with the mixing driving mechanism, the disconnecting frame mechanism is hinged with the pushing hydraulic cylinder, the pushing hydraulic cylinder is connected with the hinged seat I, and the hinged seat I is hinged with the disconnecting frame mechanism; the stirring impeller mechanism comprises a driven shaft impeller, a stirring belt wheel, a stirring belt wheel A, a driving shaft impeller, a belt chamfering wheel and an opening I, wherein the driven shaft impeller is connected with the stirring belt wheel; the disconnecting frame mechanism comprises a round-angle arm, a hinged support and a cross support, the round-angle arm is hinged with the hinged support, the hinged support is connected with the cross support, the cross support is hinged with the pushing hydraulic cylinder, and the round-angle arm is hinged with the hinged seat I; the pop-up wheel mechanism comprises a pop-up wheel body, a matching head, a convex block and a stepped hole, wherein the pop-up wheel body is connected with the matching head, the matching head is matched with the opening I, the convex block is connected with the pop-up wheel body, and the stepped hole is formed in the pop-up wheel body; mix actuating mechanism and include the under bracing, agitator motor, the stirring shaft coupling, the stirring bearing frame, the slotted shaft, the spring is opened in the bullet, the sliding tray, the under bracing links to each other with agitator motor, agitator motor passes through the stirring shaft coupling with the slotted shaft and links to each other, the slotted shaft is connected for the bearing with the connected mode of stirring bearing frame, the slotted shaft links to each other with the sliding tray, the spring housing is opened in the slotted shaft in the bullet, the spring setting is opened in the shoulder hole in the bullet, spring one end is opened to support and is supported on the sliding tray at the first inner wall other end of cooperation, the lug cooperatees with the slotted shaft.

As a further optimization of the technical scheme, the machine body mechanism of the coating mixing device comprises a stirring machine body mechanism, a switching-off motor belt pulley, a switching-off belt, a tensioning support mechanism, a tensioning wheel mechanism and a gate mechanism, wherein the stirring machine body mechanism is connected with the switching-off motor, the switching-off motor is connected with the switching-off motor belt pulley, the switching-off motor belt pulley is in flexible connection with the switching-off belt, the switching-off belt is in flexible connection with the gate mechanism, the gate mechanism is connected with the stirring machine body mechanism, the tensioning support mechanism is connected with the stirring machine body mechanism, and the tensioning support mechanism is in contact fit with the gate mechanism; the stirring machine body mechanism comprises a stirring machine body, a square opening, a bearing seat B, a liquid outlet pipe, a wheel groove and a semicircular outlet, the stirring machine body is connected with the lower support, the stirring machine body is connected with the hinged support, the stirring machine body is connected with the bearing seat A, the stirring machine body is connected with the frame body, the stirring machine body is connected with the feeding shell body, the square opening is formed in the stirring machine body, the bearing seat B is connected with the stirring machine body, the liquid outlet pipe is connected with the stirring machine body, the wheel groove is formed in the liquid outlet pipe, the semicircular outlet is communicated with an inner cavity of the stirring machine body, and the square opening is connected with the discharge port; the tensioning support mechanism comprises a T-shaped seat, a stepped rod A, a tensioning spring and a limiting wedge block, the T-shaped seat is connected with the stepped rod A in a sliding mode, the stepped rod A is connected with the limiting wedge block, the tensioning spring is sleeved on the stepped rod A, and the T-shaped seat is connected with the stirring machine body; the tensioning wheel mechanism comprises a tensioning belt wheel, a tensioning belt wheel support, a tensioning stepped sliding rod and a tensioning spring, the tensioning belt wheel is connected with the tensioning belt wheel support in a bearing mode, the tensioning belt wheel support is connected with the tensioning stepped sliding rod, the tensioning spring is sleeved on the tensioning stepped sliding rod, the tensioning stepped sliding rod is connected with a T-shaped seat in a sliding mode, the tensioning spring abuts against the T-shaped seat, and a brake opening belt is flexibly connected with the tensioning belt wheel; the gate mechanism comprises a pulley A, a belt wheel rim, a ratchet wheel and a liquid outlet A, wherein the pulley A is connected with the belt wheel rim through a bearing, the belt wheel rim is connected with the ratchet wheel, the liquid outlet A penetrates through the belt wheel rim and the ratchet wheel, the pulley A is matched with a wheel groove, a limiting wedge block is matched with the ratchet wheel, and the belt wheel rim is flexibly connected with a brake opening belt.

As a further optimization of the technical scheme, a sealing material is arranged between the belt rim and the liquid outlet pipe of the coating mixing equipment.

The coating mixing equipment has the beneficial effects that:

according to the coating mixing equipment, the equipment can be used for roughly filtering the coating, the equipment can be used for controlling whether two kinds of coatings are added or not, the equipment can be used for stopping feeding in an emergency, the equipment can be used for stirring, the equipment can be used for stopping stirring in an emergency, and the equipment can be used for controlling whether a mixed solution is discharged 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 material mixing apparatus according to the present invention.

Fig. 2 is a schematic structural view of a coating material mixing apparatus according to the present invention.

Fig. 3 is a schematic structural diagram of a coarse filtration mechanism 1 of a coating material mixing apparatus according to the present invention.

Fig. 4 is a schematic sectional structure view of a strainer mechanism 1 of a dope mixing apparatus of the present invention.

Fig. 5 is a schematic structural diagram of a filter housing mechanism 1-1 of a coating mixing device according to the present invention.

Fig. 6 is a schematic structural view of a scraper mechanism 1-2 of a coating material mixing apparatus of the present invention.

FIG. 7 is a schematic structural view of a linkage mechanism 1-4 of a coating mixing device of the present invention.

Fig. 8 is a schematic structural view of a hydraulic pulling mechanism 1-5 of a coating material mixing apparatus according to the present invention.

Fig. 9 is a schematic structural diagram of a feeding mechanism 2 of a coating material mixing apparatus according to the present invention.

Fig. 10 is a schematic sectional view of a feeding mechanism 2 of a coating material mixing apparatus according to the present invention.

Fig. 11 is a schematic structural view of a feeding housing mechanism 2-1 of a coating material mixing apparatus of the present invention.

Fig. 12 is a schematic cross-sectional view of a feed housing mechanism 2-1 of a coating material mixing apparatus of the present invention.

Fig. 13 is a schematic structural view of a passive feeding wheel mechanism 2-2 of a coating mixing device according to the present invention.

Fig. 14 is a schematic structural view of an active feed mechanism 2-3 of a coating material mixing apparatus of the present invention.

Fig. 15 is a schematic structural view of a safety driving mechanism 3 of a coating material mixing apparatus according to the present invention.

Fig. 16 is a supplementary structural view of a safety driving mechanism 3 of a coating material mixing apparatus according to the present invention.

Fig. 17 is a schematic plan view of a safety driving mechanism 3 of a coating material mixing apparatus according to the present invention.

Fig. 18 is a schematic structural view of a rotating shaft mechanism 3-1 of a dope mixing apparatus of the present invention.

Fig. 19 is a schematic structural view of a sliding gear mechanism 3-2 of a dope mixing apparatus of the present invention.

Fig. 20 is a schematic structural view of a driving rack mechanism 3-3 of a dope mixing apparatus of the present invention.

Fig. 21 is a schematic view of a break-off force transfer mechanism 3-4 of a paint mixing apparatus of the present invention.

Fig. 22 is a schematic structural view of the stirring drive mechanism 4 of the dope mixing apparatus of the present invention.

Fig. 23 is a schematic sectional view showing the structure of the stirring drive mechanism 4 of the dope mixing apparatus of the present invention.

Fig. 24 is a schematic structural view of a stirring impeller mechanism 4-1 of a dope mixing apparatus of the present invention.

Fig. 25 is a schematic structural view of a break away frame mechanism 4-2 of a paint mixing apparatus of the present invention.

FIG. 26 is a schematic diagram of the structure of the pop-up wheel mechanism 4-5 of a paint mixing apparatus of the present invention.

FIG. 27 is a schematic plan view of the ejection opening mechanism 4-5 of a paint mixing apparatus of the present invention.

FIG. 28 is a schematic diagram of the mixing drive mechanism 4-6 of a paint mixing apparatus of the present invention.

Fig. 29 is a schematic structural view of a body mechanism 5 of a paint mixing apparatus of the present invention.

Fig. 30 is a schematic view showing a complementary structure of the body mechanism 5 of a coating material mixing apparatus according to the present invention.

Fig. 31 is a schematic structural view of a stirring body mechanism 5-1 of a coating material mixing apparatus according to the present invention.

Fig. 32 is a schematic structural view of the tension support mechanism 5-5 of a coating material mixing apparatus of the present invention.

FIG. 33 is a schematic view of the tensioner mechanism 5-6 of a paint mixing apparatus of the present invention.

FIG. 34 is a schematic view showing the structure of a shutter mechanism 5-7 of a dope mixing apparatus of the present invention.

FIG. 35 is a schematic view of a complementary structure of a shutter mechanism 5-7 of a coating material mixing apparatus according to the present invention.

In the figure: a coarse filtration mechanism 1; a filter housing mechanism 1-1; a two-cavity filter shell body 1-1-1; welding the plates 1-1-2; 1-1-3 slide bars; 1-1-4 of a return spring; an outlet 1-1-5; 1-1-6 of a vertical seat; 1-1-7 parts of a stepped groove; a scraper mechanism 1-2; a scraper body 1-2-1; a scraper connecting rod 1-2-2; 1-3 parts of a filter screen plate; 1-4 of a linkage rod mechanism; 1-4-1 of a linkage rod body; hinge rods 1-4-2; 1-5 of a hydraulic pulling mechanism; 1-5-1 of a rod body; a sliding seat I1-5-2; 1-5-3 of a hydraulic cylinder; 1-5-4 of a support seat with a rod; a feeding mechanism 2; a feeding shell mechanism 2-1; a feeding shell body 2-1-1; a bearing seat 2-1-2; 2-1-3 of a feed inlet; 2-1-4 of a discharge port; a passive feed wheel mechanism 2-2; 2-2-1 of a driven shaft; a band-pass hole wheel 2-2-2; 2-2-3 of gear; an active feeding mechanism 2-3; a feeding motor 2-3-1; 2-3-2 of a coupler; a belt shaft driving belt through hole feeding wheel 2-3-3; a driving gear 2-3-4; a safety drive mechanism 3; a rotating shaft mechanism 3-1; bearing seat A3-1-1; a stepped shaft 3-1-2; 3-1-3 parts of a limiting ring; 3-1-4 of grooving; a sliding gear mechanism 3-2; a sliding gear body 3-2-1; the sliding rod I3-2-2; a sliding spring 3-2-3; 3-2-4 of a circular ring; a driving frame mechanism 3-3; 3-3-1 of a frame body; driving a hydraulic cylinder 3-3-2; a hinge block 3-3-3; swing arms 3-3-4; 3-3-5 of long grooves; 3-3-6 of an upper chute; 3-3-7 parts of a cross groove; disconnecting the force transmission mechanism 3-4; pushing a pulley 3-4-1; 3-4-2 of a special-shaped pulley support; matching with the ladder bar 3-4-3; a stirring drive mechanism 4; a stirring impeller mechanism 4-1; a driven shaft impeller 4-1-1; a stirring belt pulley 4-1-2; stirring a belt 4-1-3; an agitating pulley A4-1-4; 4-1-5 of driving belt shaft impeller; 4-1-6 of a chamfering wheel; opening I4-1-7; a disconnecting frame mechanism 4-2; 4-2-1 with a fillet arm; a hinged support 4-2-2; 4-2-3 of a cross brace; pushing a hydraulic cylinder 4-3; the hinge seat I4-4; 4-5 of an elastic opening wheel mechanism; 4-5-1 of the flick wheel body; 4-5-2 of a matching head; 4-5-3 of a bump; 4-5-4 of a stepped hole; 4-6 parts of a hybrid driving mechanism; 4-6-1 of lower support; 4-6-2 parts of a stirring motor; 4-6-3 of a stirring coupler; 4-6-4 parts of a stirring bearing seat; 4-6-5 of a grooved shaft; spring-open spring 4-6-6; 4-6-7 of a sliding disk; a body mechanism 5; a stirring machine body mechanism 5-1; 5-1-1 of a stirring machine body; 5-1-2 of square opening; bearing seat B5-1-3; 5-1-4 of a liquid outlet pipe; 5-1-5 of wheel groove; 5-1-6 of a semicircular outlet; a switching-off motor 5-2; 5-3 of a belt pulley of a brake opening motor; 5-4 of a brake opening belt; tensioning and supporting mechanisms 5-5; 5-5-1 of a T-shaped seat; the ladder bar A5-5-2; 5-5-3 of a tension spring; 5-5-4 parts of a limiting wedge block; 5-6 of a tensioning wheel mechanism; 5-6-1 of a tensioning belt pulley; a tensioning pulley support 5-6-2; tensioning a stepped sliding rod 5-6-3; 5-6-4 of a tension spring; 5-7 of a gate mechanism; pulley A5-7-1; 5-7-2 parts of a belt rim; 5-7-3 parts of ratchet wheel; and liquid outlet A5-7-4.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, fig. 29, fig. 30, fig. 31, fig. 32, fig. 33, fig. 34, and fig. 35, the invention relates to mixing equipment, in particular to coating mixing equipment which comprises a rough filtering mechanism 1, a feeding mechanism 2, a safety driving mechanism 3, a stirring driving mechanism 4 and a machine body mechanism 5.

The rough filtering mechanism 1 is connected with the feeding mechanism 2, the feeding mechanism 2 is connected with the safety driving mechanism 3, the feeding mechanism 2 is connected with the machine body mechanism 5, the safety driving mechanism 3 is connected with the machine body mechanism 5, and the stirring driving mechanism 4 is connected with the machine body mechanism 5.

The second embodiment is as follows:

the embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, fig. 29, fig. 30, fig. 31, fig. 32, fig. 33, fig. 34, and fig. 35, the embodiment includes a coarse filter mechanism 1 including a filter housing mechanism 1-1, a scraper mechanism 1-2, a filter screen plate 1-3, a linkage rod mechanism 1-4, and a hydraulic pulling mechanism 1-5, the filter housing mechanism 1-1 is connected with the filter screen plate 1-3 by bolts, the filter screen plate 1-3 is in contact with the scraper mechanism 1-2, the scraper mechanism 1-2 is hinged with the linkage rod mechanism 1-4, the linkage rod mechanism 1-4 is hinged with the hydraulic pulling mechanism 1-5, and the hydraulic pulling mechanism 1-5 is connected with the filter shell mechanism 1-1; the filtering shell mechanism 1-1 comprises a two-cavity filtering shell body 1-1-1, a welding plate 1-1-2, a sliding rod 1-1-3, a reset spring 1-1-4, an outlet 1-1-5, a vertical seat 1-1-6 and a stepped groove 1-1-7, wherein the two-cavity filtering shell body 1-1-1 is connected with the welding plate 1-1-2, the welding plate 1-1-2 is connected with the sliding rod 1-1-3, the sliding rod 1-1-3 is sleeved on the sliding rod 1-1-3, the outlet 1-1-5 is symmetrically arranged on a bottom plate of the two-cavity filtering shell body 1-1-1, the vertical seat 1-1-6 is connected with the two-cavity filtering shell body 1-1-1, the stepped grooves 1-1-7 are formed in the vertical seats 1-1-6; the scraper mechanism 1-2 comprises a scraper body 1-2-1 and a scraper connecting rod 1-2-2, wherein the scraper body 1-2-1 is hinged with the scraper connecting rod 1-2-2, and the scraper body 1-2-1 is in contact fit with the filter screen plate 1-3; the linkage rod mechanism 1-4 comprises a linkage rod body 1-4-1 and a hinged rod 1-4-2, the linkage rod body 1-4-1 is connected with the hinged rod 1-4-2, and the hinged rod 1-4-2 is hinged with the scraper connecting rod 1-2-2; the hydraulic pulling mechanism 1-5 comprises a rod body 1-5-1, a sliding seat I1-5-2, a hydraulic cylinder 1-5-3 and a support seat with a rod 1-5-4, wherein the rod body 1-5-1 is hinged with the sliding seat I1-5-2, the sliding seat I1-5-2 is connected with the hydraulic cylinder 1-5-3, the hydraulic cylinder 1-5-3 is connected with the support seat with the rod 1-5-4, the support seat with the rod 1-5-4 is connected with the vertical seat 1-1-6, the hydraulic cylinder 1-5-3 is connected with the vertical seat 1-1-6 in a sliding way, the sliding seat I1-5-2 is connected with the stepped groove 1-1-7 in a sliding way, and the rod body 1-5-1 is hinged with the rod 1-4-2, adding two kinds of coatings from two sides of a filter screen plate 1-3 respectively, so that the coatings are coarsely filtered by the filter screen plate 1-3 and then fall into two cavities of a filter shell body 1-1-1 of two cavities respectively, impurities on the filter screen plate 1-3 are accumulated to be more after a period of time, injecting hydraulic oil into a hydraulic cylinder 1-5-3, so that the hydraulic cylinder 1-5-3 drives a sliding seat I1-5-2 to move towards the direction close to the hydraulic cylinder 1-5-3, the sliding seat I1-5-2 moves a rod body 1-5-1 to pull a hinge rod 1-4-2, the hinge rod 1-4-2 pulls a scraper body 1-2-1 through a scraper connecting rod 1-2-2, and the scraper body 1-2-1 slides along a sliding rod 1-1-3, the filter screen plate 1-3 can be cleaned in the sliding process, then hydraulic oil is reversely injected into the hydraulic cylinder 1-5-3, and the scraper body 1-2-1 can reset under the action of oil pressure and the resilience of the reset spring 1-1-4.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, fig. 29, fig. 30, fig. 31, fig. 32, fig. 33, fig. 34, and fig. 35, and the present embodiment further describes the first embodiment, where the feeding mechanism 2 includes a feeding shell mechanism 2-1, a passive feeding wheel mechanism 2-2, and an active feeding mechanism 2-3, and the feeding shell mechanism 2-1 is provided with two connecting portions to the passive feeding wheel mechanism 2-2 and the active feeding mechanism 2-3, respectively; the feeding shell mechanism 2-1 comprises a feeding shell body 2-1-1, a bearing seat 2-1-2, a feeding port 2-1-3 and a discharging port 2-1-4, wherein the feeding shell body 2-1-1 is connected with the bearing seat 2-1-2, the feeding port 2-1-3 is arranged above the feeding shell body 2-1-1, the discharging port 2-1-4 is arranged below the feeding shell body 2-1-1, the feeding port 2-1-3 is connected with an outlet 1-1-5, and the feeding shell body 2-1-1 is connected with a two-cavity filter shell body 1-1-1; the driven feeding wheel mechanism 2-2 comprises a driven shaft 2-2-1, a band-pass hole wheel 2-2-2 and a gear 2-2-3, the driven shaft 2-2-1 is connected with the band-pass hole wheel 2-2-2, the gear 2-2-3 is connected with the driven shaft 2-2-1, and the driven shaft 2-2-1 is connected with a bearing seat 2-1-2 in a bearing way; the active feeding mechanism 2-3 comprises a feeding motor 2-3-1, a coupling 2-3-2, a shaft-provided active feed wheel with a through hole 2-3-3 and a driving gear 2-3-4, the feeding motor 2-3-1 is connected with a feeding shell body 2-1-1, the feeding motor 2-3-1 is connected with the shaft-provided active feed wheel with a through hole 2-3-3 through the coupling 2-3-2, the shaft-provided active feed wheel with a through hole 2-3-3 is connected with the driving gear 2-3-4, the shaft-provided active feed wheel with a through hole 2-3-3 is connected with a bearing seat 2-1-2 in a bearing connection mode, and the coupling 2-3-2 is driven to rotate by the operation of the feeding motor 2-3-1, the rotation of the coupler 2-3-2 can drive the feeding wheel 2-3-3 with the driving through hole of the belt shaft to rotate, the rotation of the feeding wheel 2-3-3 with the driving through hole of the belt shaft can drive the driving gear 2-3-4 to rotate, the rotation of the driving gear 2-3-4 can drive the sliding gear body 3-2-1 to rotate, the rotation of the sliding gear body 3-2-1 can drive the gear 2-2-3 to rotate, the rotation of the gear 2-2-3 can drive the driven shaft 2-2-1 to rotate, the rotation of the driven shaft 2-2-1 can drive the wheel 2-2-2 to rotate, the synchronous rotation of the wheel 2-2-2-2 with the feeding wheel 2-3 with the driving through hole of the belt shaft can drive the wheel 2-2-2 with the belt hole 2 and a through hole on a belt shaft driving through hole feeding wheel 2-3-3 intermittently communicates the feeding port 2-1-3 with the discharging port 2-1-4, the frequency of communicating the feeding port 2-1-3 with the discharging port 2-1-4 can be changed by changing the running speed of the feeding motor 2-3-1, so as to change the speed of adding the coating, and simultaneously, whether the feeding port 2-1-3 is communicated with the discharging port 2-1-4 can be controlled according to the time when the feeding motor 2-3-1 stops running, and when the feeding motor is not communicated, the coating stops flowing downwards.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, fig. 29, fig. 30, fig. 31, fig. 32, fig. 33, fig. 34, and fig. 35, and will be further described, the safety driving mechanism 3 comprises a rotating shaft mechanism 3-1, a sliding gear mechanism 3-2, a driving frame mechanism 3-3 and a disconnection force transmission mechanism 3-4, wherein the rotating shaft mechanism 3-1 is connected with the sliding gear mechanism 3-2, the driving frame mechanism 3-3 is connected with the disconnection force transmission mechanism 3-4, and the disconnection force transmission mechanism 3-4 is in contact fit with the sliding gear mechanism 3-2; the rotating shaft mechanism 3-1 comprises a bearing seat A3-1-1, a stepped shaft 3-1-2, a limiting ring 3-1-3 and a slot 3-1-4, the bearing seat A3-1-1 and the stepped shaft 3-1-2 are connected in a bearing mode, the stepped shaft 3-1-2 is connected with the limiting ring 3-1-3, and the slot 3-1-4 is formed in the stepped shaft 3-1-2; the sliding gear mechanism 3-2 comprises a sliding gear body 3-2-1, a sliding rod I3-2-2, a sliding spring 3-2-3 and a circular ring 3-2-4, wherein the sliding gear body 3-2-1 is connected with the sliding rod I3-2-2, the sliding rod I3-2-2 is connected with the circular ring 3-2-4, the sliding spring 3-2-3 is sleeved on the sliding rod I3-2-2, the sliding gear body 3-2-1 is connected with the stepped shaft 3-1-2 in a sliding way, the sliding gear body 3-2-1 is connected with the open slot 3-1-4 in a sliding way, the sliding rod I3-2-2 is connected with the limiting ring 3-1-3 in a sliding way, the sliding spring 3-2-3 is supported on the limiting ring 3-1-3, the sliding gear body 3-2-1 is meshed with the gear 2-2-3, and the sliding gear body 3-2-1 is meshed with the driving gear 2-3-4; the driving frame mechanism 3-3 comprises a frame body 3-3-1, a driving hydraulic cylinder 3-3-2, a hinge block 3-3-3, a swing arm 3-3-4, a long strip groove 3-3-5, an upper chute 3-3-6 and a cross groove 3-3-7, the frame body 3-3-1 is hinged with the driving hydraulic cylinder 3-3-2, the driving hydraulic cylinder 3-3-2 is connected with the hinge block 3-3-3, the hinge block 3-3-3 is hinged with the swing arm 3-3-4, the long strip groove 3-3-5 is arranged on the swing arm 3-3-4, the swing arm 3-3-4 is hinged with the frame body 3-3-1, the upper chute 3-3-6 is arranged on the frame body 3-3-1, the cross groove 3-3-7 is arranged on the frame body 3-3-1, and the upper chute 3-3-6 is communicated with the cross groove 3-3-7; the disconnection force transmission mechanism 3-4 comprises a pushing pulley 3-4-1, a special-shaped pulley support 3-4-2 and a matching stepped rod 3-4-3, the pushing pulley 3-4-1 and the special-shaped pulley support 3-4-2 are connected in a bearing mode, the special-shaped pulley support 3-4-2 is connected with the matching stepped rod 3-4-3, the matching stepped rod 3-4-3 is matched with a long groove 3-3-5, the special-shaped pulley support 3-4-2 is in sliding connection with a cross groove 3-3-7, the pushing pulley 3-4-1 is in contact matching with a circular ring 3-2-4, when the feeding motor 2-3-1 has a fault due to the fact that coating needs to be added in an emergency stop, hydraulic oil can be injected into the driving hydraulic cylinder 3-3-2, under the drive of oil pressure, the hinge block 3-3-3 can move towards the direction close to the hydraulic cylinder 3-3-2, the hinge block 3-3-3 can move through the swing arm 3-3-4, the swing arm 3-3-4 can move through the long groove 3-3-5 to push the matching step rod 3-4-3, the matching step rod 3-4-3 can drive the push pulley 3-4-1 to push the circular ring 3-2-4, the circular ring 3-2-4 can drive the sliding gear body 3-2-1 to move, the sliding gear body 3-2-1 can be separated from the gear 2-2-3, the meshing of the driving gears 2-3-4 can realize emergency stop.

The fifth concrete implementation mode:

the present embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, fig. 29, fig. 30, fig. 31, fig. 32, fig. 33, fig. 34, and fig. 35, wherein the stirring drive mechanism 4 includes a stirring impeller mechanism 4-1, a disconnecting frame mechanism 4-2, a pushing hydraulic cylinder 4-3, an articulated seat I4-4, an ejecting wheel mechanism 4-5, and a mixing drive mechanism 4-6, the stirring impeller mechanism 4-1 is connected to the ejecting wheel mechanism 4-5, the ejecting wheel mechanism 4-5 is connected to the mixing drive mechanism 4-6, the disconnecting frame mechanism 4-2 is hinged with the pushing hydraulic cylinder 4-3, the pushing hydraulic cylinder 4-3 is connected with the hinged seat I4-4, and the hinged seat I4-4 is hinged with the disconnecting frame mechanism 4-2; the stirring impeller mechanism 4-1 comprises a driven belt shaft impeller 4-1-1, a stirring belt pulley 4-1-2, a stirring belt 4-1-3, a stirring belt pulley A4-1-4, a driving belt shaft impeller 4-1-5, a chamfering wheel 4-1-6 and a hole I4-1-7, wherein the driven belt shaft impeller 4-1-1 is connected with the stirring belt pulley 4-1-2, the stirring belt pulley 4-1-2 is flexibly connected with the stirring belt 4-1-3, the stirring belt 4-1-3 is flexibly connected with the stirring belt pulley A4-1-4, the stirring belt pulley A4-1-4 is connected with the driving belt shaft impeller 4-1-5, the driving belt shaft impeller 4-1-5 is connected with the chamfering wheel 4-1-6, the opening I4-1-7 is formed on the belt chamfering wheel 4-1-6; the disconnecting frame mechanism 4-2 comprises a round-cornered arm 4-2-1, a hinged support 4-2-2 and a cross support 4-2-3, the round-cornered arm 4-2-1 is hinged with the hinged support 4-2-2, the hinged support 4-2-2 is connected with the cross support 4-2-3, the cross support 4-2-3 is hinged with a pushing hydraulic cylinder 4-3, and the round-cornered arm 4-2-1 is hinged with a hinged seat I4-4; the flick wheel mechanism 4-5 comprises a flick wheel body 4-5-1, a matching head 4-5-2, a bump 4-5-3 and a stepped hole 4-5-4, the flick wheel body 4-5-1 is connected with the matching head 4-5-2, the matching head 4-5-2 is matched with an opening I4-1-7, the bump 4-5-3 is connected with the flick wheel body 4-5-1, the stepped hole 4-5-4 is arranged on the flick wheel body 4-5-1, if the active shaft-bearing impeller 4-1-5 is blocked by a foreign body, in order to protect the stirring motor 4-6-2, hydraulic oil can be injected into the push hydraulic cylinder 4-3, under the driving of the oil pressure, the push hydraulic cylinder 4-3 can push the hinge seat I4-4 to move downwards, the hinged seat I4-4 moves downwards to drive the arm 4-2-1 with the fillet to swing downwards, the arm 4-2-1 with the fillet pushes the flick wheel body 4-5-1 towards the stirring motor 4-6-2, so that the matching head 4-5-2 is disengaged from the opening I4-1-7, the torque of the stirring motor 4-6-2 cannot be influenced by the driving shaft-carrying impeller 4-1-5, and the stirring motor 4-6-2 can be protected; the mixing driving mechanism 4-6 comprises a lower support 4-6-1, a stirring motor 4-6-2, a stirring coupler 4-6-3, a stirring shaft bearing 4-6-4, a grooved shaft 4-6-5, an ejection spring 4-6-6 and a sliding disc 4-6-7, wherein the lower support 4-6-1 is connected with the stirring motor 4-6-2, the stirring motor 4-6-2 is connected with the grooved shaft 4-6-5 through the stirring coupler 4-6-3, the grooved shaft 4-6-5 is connected with the stirring shaft bearing 4-6-4 through a bearing, the grooved shaft 4-6-5 is connected with the sliding disc 4-6-7, the ejection spring 4-6-6 is sleeved on the grooved shaft 4-6-5, an ejection spring 4-6-6 is arranged in the stepped hole 4-5-4, one end of the ejection spring 4-6-6 is abutted against the inner wall of the matching head 4-5-2, the other end of the ejection spring is abutted against the sliding disc 4-6-7, the lug 4-5-3 is matched with the grooved shaft 4-6-5, the stirring shaft coupling 4-6-3 is driven to rotate by the operation of the stirring motor 4-6-2, the grooved shaft 4-6-5 is driven to rotate by the rotation of the stirring shaft coupling 4-6-3, the ejection wheel mechanism 4-5 is driven to rotate by the rotation of the grooved shaft 4-6-5, the ejection wheel mechanism 4-5 is driven to rotate by the rotation of the ejection wheel mechanism 4-1-6, and the driving shaft-provided impeller 4-1-5 is driven to enter into the stepped hole 4-5-6 The stirring belt wheel A4-1-4 is driven to rotate by the rotation of the driving belt shaft impeller 4-1-5, the stirring belt wheel A4-1-4 rotates to drive the stirring belt wheel 4-1-2 to rotate through the stirring belt 4-1-3, the driven belt shaft impeller 4-1-1 is driven to rotate by the rotation of the stirring belt wheel 4-1-2, and the two coatings entering the stirring machine body 5-1-1 from the discharge port 2-1-4 are stirred and mixed by the rotation of the driven belt shaft impeller 4-1-1 and the driving belt shaft impeller 4-1-5.

The sixth specific implementation mode:

the present embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, in the following description of the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 28, 29, 30, 31, 32, 33, 34, 35, wherein the present embodiment further describes the first embodiment, the mixer body mechanism 5 includes a mixer body mechanism 5-1, an opening motor 5-2, an opening motor pulley 5-3, an opening belt 5-4, a tension support mechanism 5-5, a tension wheel mechanism 5-6, and a gate mechanism 5-7, the mixer body mechanism 5-1 is connected to the opening motor 5-2, the opening motor 5-2 is connected to the opening motor, the connection mode of the brake opening motor belt pulley 5-3 and the brake opening belt 5-4 is flexible connection, the brake opening belt 5-4 is flexibly connected with the gate mechanism 5-7, the gate mechanism 5-7 is connected with the stirring machine body mechanism 5-1, the tensioning support mechanism 5-5 is connected with the stirring machine body mechanism 5-1, and the tensioning support mechanism 5-5 is in contact fit with the gate mechanism 5-7; the stirring machine body mechanism 5-1 comprises a stirring machine body 5-1-1, a square opening 5-1-2, a bearing seat B5-1-3, a liquid outlet pipe 5-1-4, a wheel groove 5-1-5 and a semicircular outlet 5-1-6, wherein the stirring machine body 5-1-1 is connected with a lower support 4-6-1, the stirring machine body 5-1-1 is connected with a hinged support 4-2-2, the stirring machine body 5-1-1 is connected with a bearing seat A3-1-1, the stirring machine body 5-1-1 is connected with a frame body 3-3-1, the stirring machine body 5-1-1 is connected with a feeding shell body 2-1-1, the square opening 5-1-2 is opened on the stirring machine body 5-1-1, the bearing seat B5-1-3 is connected with the stirring machine body 5-1-1, the liquid outlet pipe 5-1-4 is connected with the stirring machine body 5-1-1, the wheel groove 5-1-5 is arranged on the liquid outlet pipe 5-1-4, the semicircular outlet 5-1-6 is communicated with the inner cavity of the stirring machine body 5-1-1, and the square opening 5-1-2 is connected with the discharge port 2-1-4; the tensioning support mechanism 5-5 comprises a T-shaped seat 5-5-1, a step rod A5-5-2, a tensioning spring 5-5-3 and a limiting wedge block 5-5-4, the T-shaped seat 5-5-1 is in sliding connection with the step rod A5-5-2, the step rod A5-5-2 is connected with the limiting wedge block 5-5-4, the tensioning spring 5-5-3 is sleeved on the step rod A5-5-2, and the T-shaped seat 5-5-1 is connected with the stirring machine body 5-1-1; the tension pulley mechanism 5-6 comprises a tension pulley 5-6-1, a tension pulley support 5-6-2, a tension stepped slide rod 5-6-3 and a tension spring 5-6-4, the connection mode of the tensioning belt pulley 5-6-1 and the tensioning belt pulley support 5-6-2 is that a bearing is connected, the tensioning belt pulley support 5-6-2 is connected with a tensioning stepped sliding rod 5-6-3, a tensioning spring 5-6-4 is sleeved on the tensioning stepped sliding rod 5-6-3, the tensioning stepped sliding rod 5-6-3 is connected with a T-shaped seat 5-5-1 in a sliding mode, the tensioning spring 5-6-4 abuts against the T-shaped seat 5-5-1, and an opening belt 5-4 is flexibly connected with the tensioning belt pulley 5-6-1; the gate mechanism 5-7 comprises a pulley A5-7-1, a belt rim 5-7-2, a ratchet wheel 5-7-3 and a liquid outlet A5-7-4, the pulley A5-7-1 is connected with the belt rim 5-7-2 by a bearing, the belt rim 5-7-2 is connected with the ratchet wheel 5-7-3, the liquid outlet A5-7-4 penetrates through the belt rim 5-7-2 and the ratchet wheel 5-7-3, the pulley A5-7-1 is matched with a wheel groove 5-1-5, a limiting wedge 5-5-4 is matched with the ratchet wheel 5-7-3, the belt rim 5-7-2 is flexibly connected with a brake-opening belt 5-4, when mixed liquid needs to be discharged, the opening motor 5-2 can drive the opening motor belt pulley 5-3 to rotate anticlockwise, the opening motor belt pulley 5-3 can drive the belt rim 5-7-2 to rotate through the opening belt 5-4 when rotating, the belt rim 5-7-2 can enable the liquid outlet A5-7-4 to be communicated with the semicircular outlet 5-1-6 when rotating, and therefore liquid can be discharged, and the limiting wedge block 5-5-4 can prevent the liquid outlet A5-7-4 from being communicated with the semicircular outlet 5-1-6 by mistake when the opening motor 5-2 rotates reversely due to the fact that the positive and negative poles of the opening motor 5-2 are connected by mistake.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, fig. 27, fig. 28, fig. 29, fig. 30, fig. 31, fig. 32, fig. 33, fig. 34, and fig. 35, and the present embodiment further describes the first embodiment in which a sealing material is provided between the belt rim 5-7-2 and the liquid outlet pipe 5-1-4.

The working principle of the device is as follows: the device can carry out rough filtration on the coating, two coatings are respectively added from two sides of the filter screen plate 1-3, so that the coating is rough-filtered by the filter screen plate 1-3 and then respectively falls into two cavities of the two-cavity filter shell body 1-1-1, impurities on the filter screen plate 1-3 are accumulated to be more after a period of time, hydraulic oil is injected into the hydraulic cylinder 1-5-3, the hydraulic cylinder 1-5-3 drives the sliding seat I1-5-2 to move towards the direction close to the hydraulic cylinder 1-5-3, the sliding seat I1-5-2 moves the rod body 1-5-1 to pull the hinge rod 1-4-2, the hinge rod 1-4-2 pulls the scraper body 1-2-1 through the scraper connecting rod 1-2-2, the scraper body 1-2-1 can slide along the slide bar 1-1-3, the filter screen plate 1-3 can be cleaned in the sliding process, then hydraulic oil is reversely injected into the hydraulic cylinder 1-5-3, and under the action of oil pressure and resilience of the return spring 1-1-4, the scraper body 1-2-1 can be reset; the equipment can control whether two coatings are added or not, the feeding motor 2-3-1 runs to drive the coupler 2-3-2 to rotate, the coupler 2-3-2 rotates to drive the belt shaft driving feed wheel with through holes 2-3-3 to rotate, the belt shaft driving feed wheel with through holes 2-3-3 rotates to drive the driving gear 2-3-4 to rotate, the driving gear 2-3-4 rotates to drive the sliding gear body 3-2-1 to rotate, the sliding gear body 3-2-1 rotates to drive the gear 2-2-3 to rotate, the gear 2-2-3 rotates to drive the driven shaft 2-2-1 to rotate, and the driven shaft 2-2-1 rotates to drive the belt wheel with through holes 2-2-2 to rotate The synchronous rotation of the band-pass hole wheel 2-2-2 and the band shaft driving band through hole feeding wheel 2-3-3 can lead the through hole on the band-pass hole wheel 2-2-2 and the band shaft driving band through hole feeding wheel 2-3-3 to intermittently communicate the feeding hole 2-1-3 with the discharging hole 2-1-4, the frequency of the communication between the feed inlet 2-1-3 and the discharge outlet 2-1-4 can be changed by changing the running speed of the feed motor 2-3-1, thereby changing the speed of adding the coating, simultaneously, according to the time of stopping the operation of the feeding motor 2-3-1, the feed inlet 2-1-3 and the discharge outlet 2-1-4 can be controlled to be communicated or not, and when the feed inlet and the discharge outlet are not communicated, the coating stops flowing downwards; the device can stop feeding emergently, when coating needs to be added emergently and the feeding motor 2-3-1 has a fault, hydraulic oil can be injected into the driving hydraulic cylinder 3-3-2, the hinged block 3-3-3 can move towards the direction close to the hydraulic cylinder 3-3-2 under the driving of the hydraulic oil pressure, the hinged block 3-3-3 can move through the swinging arm 3-3-4, the swinging arm 3-3-4 can move through the long groove 3-3-5 to push the matching stepped rod 3-4-3, the matching stepped rod 3-4-3 can drive the pushing pulley 3-4-1 to push the circular ring 3-2-4, and the circular ring 3-2-4 can drive the sliding gear body 3-2-1 to move, the sliding gear body 3-2-1 can be disengaged from the gear 2-2-3 and the driving gear 2-3-4, so that emergency scram can be realized; the equipment can stir, the stirring shaft coupling 4-6-3 is driven to rotate by the operation of the stirring motor 4-6-2, the grooved shaft 4-6-5 is driven to rotate by the rotation of the stirring shaft coupling 4-6-3, the grooved shaft 4-6-5 is driven to rotate by the rotation of the grooved shaft 4-5, the chamfered wheel 4-1-6 is driven to rotate by the rotation of the elastic wheel mechanism 4-5, the chamfered wheel 4-1-6 is driven to rotate the driving shaft impeller 4-1-5, the driving shaft impeller 4-1-5 is driven to rotate the stirring belt pulley A4-1-4, the stirring belt pulley A4-1-4 rotates and the stirring belt pulley 4-1-2 is driven to rotate by the stirring belt 4-1-3 The stirring belt wheel 4-1-2 rotates to drive the driven belt shaft impeller 4-1-1 to rotate, and the driven belt shaft impeller 4-1-1 and the driving belt shaft impeller 4-1-5 rotate to stir and mix two coatings entering the stirring machine body 5-1-1 from the discharge port 2-1-4; the equipment can carry out emergency stop on stirring work, if the driving shaft impeller 4-1-5 is blocked by foreign matters, in order to protect the stirring motor 4-6-2, hydraulic oil can be injected into the pushing hydraulic cylinder 4-3, the pushing hydraulic cylinder 4-3 can push the hinged seat I4-4 to move downwards under the driving of the hydraulic oil, the hinged seat I4-4 moves downwards to drive the arm with the round angle 4-2-1 to swing downwards, the arm with the round angle 4-2-1 can push the flicking wheel body 4-5-1 to the direction of the stirring motor 4-6-2, so that the matching head 4-5-2 is separated from the opening I4-1-7, and the torque of the stirring motor 4-6-2 cannot be influenced by the driving shaft impeller 4-1-5, thus, the stirring motor 4-6-2 can be protected; the device can control whether the mixed liquid is discharged or not, when the mixed liquid needs to be discharged, the brake-opening motor 5-2 can drive the brake-opening motor belt pulley 5-3 to rotate anticlockwise, the brake-opening motor belt pulley 5-3 can drive the belt rim 5-7-2 to rotate through the brake-opening belt 5-4, the belt rim 5-7-2 can rotate to enable the liquid outlet A5-7-4 to be communicated with the semicircular outlet 5-1-6, therefore, the liquid can be discharged, the arrangement of the limiting wedge 5-5-4 can prevent the reverse rotation of the switching-off motor 5-2 caused by the wrong connection of the anode and the cathode of the switching-off motor 5-2, erroneous connection of outlet a5-7-4 with semicircular outlet 5-1-6 can be prevented.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a coating mixing equipment, includes coarse filter mechanism (1), feed mechanism (2), safe actuating mechanism (3), stirring actuating mechanism (4), fuselage mechanism (5), its characterized in that: the coarse filtration mechanism (1) is connected with the feeding mechanism (2), the feeding mechanism (2) is connected with the safe driving mechanism (3), the feeding mechanism (2) is connected with the machine body mechanism (5), the safe driving mechanism (3) is connected with the machine body mechanism (5), and the stirring driving mechanism (4) is connected with the machine body mechanism (5).

2. A paint mixing apparatus as claimed in claim 1, wherein: the coarse filtering mechanism (1) comprises a filtering shell mechanism (1-1), a scraping plate mechanism (1-2), a filtering screen plate (1-3), a linkage rod mechanism (1-4) and a hydraulic pulling mechanism (1-5), the filtering shell mechanism (1-1) is connected with the filtering screen plate (1-3) through bolts, the filtering screen plate (1-3) is in contact fit with the scraping plate mechanism (1-2), the scraping plate mechanism (1-2) is hinged with the linkage rod mechanism (1-4), the linkage rod mechanism (1-4) is hinged with the hydraulic pulling mechanism (1-5), and the hydraulic pulling mechanism (1-5) is connected with the filtering shell mechanism (1-1); the filtering shell mechanism (1-1) comprises two-cavity filtering shell bodies (1-1-1), a welding plate (1-1-2), a sliding rod (1-1-3), a return spring (1-1-4), an outlet (1-1-5), a vertical seat (1-1-6) and a stepped groove (1-1-7), wherein the two-cavity filtering shell bodies (1-1-1) are connected with the welding plate (1-1-2), the welding plate (1-1-2) is connected with the sliding rod (1-1-3), the sliding rod (1-1-3) is sleeved on the sliding rod (1-1-3), the outlet (1-1-5) is symmetrically arranged on a bottom plate of the two-cavity filtering shell bodies (1-1-1), the vertical seat (1-1-6) is connected with the two-cavity filter shell body (1-1-1), and the stepped groove (1-1-7) is arranged on the vertical seat (1-1-6); the scraper mechanism (1-2) comprises a scraper body (1-2-1) and a scraper connecting rod (1-2-2), wherein the scraper body (1-2-1) is hinged with the scraper connecting rod (1-2-2), and the scraper body (1-2-1) is in contact fit with the filter screen plate (1-3); the linkage rod mechanism (1-4) comprises a linkage rod body (1-4-1) and a hinged rod (1-4-2), the linkage rod body (1-4-1) is connected with the hinged rod (1-4-2), and the hinged rod (1-4-2) is hinged with the scraper connecting rod (1-2-2); the hydraulic pulling mechanism (1-5) comprises a rod body (1-5-1), a sliding seat I (1-5-2), a hydraulic cylinder (1-5-3) and a support seat with a rod (1-5-4), wherein the rod body (1-5-1) is hinged with the sliding seat I (1-5-2), the sliding seat I (1-5-2) is connected with the hydraulic cylinder (1-5-3), the hydraulic cylinder (1-5-3) is connected with the support seat with the rod (1-5-4), the support seat with the rod (1-5-4) is connected with a vertical seat (1-1-6), the hydraulic cylinder (1-5-3) is connected with the vertical seat (1-1-6) in a sliding way, the sliding seat I (1-5-2) is connected with a stepped groove (1-1-7) in a sliding way, the rod body (1-5-1) is hinged with the hinge rod (1-4-2).

3. A paint mixing apparatus as claimed in claim 1, wherein: the feeding mechanism (2) comprises a feeding shell mechanism (2-1), a passive feeding wheel mechanism (2-2) and an active feeding mechanism (2-3), wherein the feeding shell mechanism (2-1) is provided with two parts which are respectively connected with the passive feeding wheel mechanism (2-2) and the active feeding mechanism (2-3); the feeding shell mechanism (2-1) comprises a feeding shell body (2-1-1), a bearing seat (2-1-2), a feeding port (2-1-3) and a discharging port (2-1-4), wherein the feeding shell body (2-1-1) is connected with the bearing seat (2-1-2), the feeding port (2-1-3) is arranged above the feeding shell body (2-1-1), the discharging port (2-1-4) is arranged below the feeding shell body (2-1-1), the feeding port (2-1-3) is connected with an outlet (1-1-5), and the feeding shell body (2-1-1) is connected with a two-cavity filter shell body (1-1-1); the driven feeding wheel mechanism (2-2) comprises a driven shaft (2-2-1), a band-pass hole wheel (2-2-2) and a gear (2-2-3), the driven shaft (2-2-1) is connected with the band-pass hole wheel (2-2-2), the gear (2-2-3) is connected with the driven shaft (2-2-1), and the driven shaft (2-2-1) is connected with the bearing seat (2-1-2) in a bearing mode; the active feeding mechanism (2-3) comprises a feeding motor (2-3-1) and a coupling (2-3-2), the feeding device comprises a feeding wheel (2-3-3) with a shaft driving through hole and a driving gear (2-3-4), wherein a feeding motor (2-3-1) is connected with a feeding shell body (2-1-1), the feeding motor (2-3-1) is connected with the feeding wheel (2-3-3) with the shaft driving through hole through a coupler (2-3-2), the feeding wheel (2-3-3) with the shaft driving through hole is connected with the driving gear (2-3-4), and the feeding wheel (2-3-3) with the shaft driving through hole is connected with a bearing seat (2-1-2) in a bearing connection mode.

4. A paint mixing apparatus as claimed in claim 1, wherein: the safety driving mechanism (3) comprises a rotating shaft mechanism (3-1), a sliding gear mechanism (3-2), a driving frame mechanism (3-3) and a disconnection force transmission mechanism (3-4), the rotating shaft mechanism (3-1) is connected with the sliding gear mechanism (3-2), the driving frame mechanism (3-3) is connected with the disconnection force transmission mechanism (3-4), and the disconnection force transmission mechanism (3-4) is in contact fit with the sliding gear mechanism (3-2); the rotating shaft mechanism (3-1) comprises a bearing seat A (3-1-1), a stepped shaft (3-1-2), a limiting ring (3-1-3) and a slot (3-1-4), the bearing seat A (3-1-1) is connected with the stepped shaft (3-1-2) in a bearing mode, the stepped shaft (3-1-2) is connected with the limiting ring (3-1-3), and the slot (3-1-4) is formed in the stepped shaft (3-1-2); the sliding gear mechanism (3-2) comprises a sliding gear body (3-2-1), a sliding rod I (3-2-2), a sliding spring (3-2-3) and a circular ring (3-2-4), the sliding gear body (3-2-1) is connected with the sliding rod I (3-2-2), the sliding rod I (3-2-2) is connected with the circular ring (3-2-4), the sliding spring (3-2-3) is sleeved on the sliding rod I (3-2-2), the sliding gear body (3-2-1) is connected with the stepped shaft (3-1-2) in a sliding manner, the sliding gear body (3-2-1) is connected with the open groove (3-1-4) in a sliding manner, the sliding rod I (3-2-2) is connected with the limit ring (3-1-3) in a sliding manner, the sliding spring (3-2-3) is abutted against the limiting ring (3-1-3), the sliding gear body (3-2-1) is meshed with the gear (2-2-3), and the sliding gear body (3-2-1) is meshed with the driving gear (2-3-4); the driving frame mechanism (3-3) comprises a frame body (3-3-1), a driving hydraulic cylinder (3-3-2), a hinge block (3-3-3), a swing arm (3-3-4), a long groove (3-3-5), an upper chute (3-3-6) and a cross groove (3-3-7), the frame body (3-3-1) is hinged with the driving hydraulic cylinder (3-3-2), the driving hydraulic cylinder (3-3-2) is connected with the hinge block (3-3-3), the hinge block (3-3-3) is hinged with the swing arm (3-3-4), the long groove (3-3-5) is arranged on the swing arm (3-3-4), the swing arm (3-3-4) is hinged with the frame body (3-3-1), the upper chute (3-3-6) is arranged on the frame body (3-3-1), the cross-shaped groove (3-3-7) is arranged on the frame body (3-3-1), and the upper chute (3-3-6) is communicated with the cross-shaped groove (3-3-7); the disconnection force transmission mechanism (3-4) comprises a pushing pulley (3-4-1), a special-shaped pulley support (3-4-2) and a matching stepped rod (3-4-3), the pushing pulley (3-4-1) and the special-shaped pulley support (3-4-2) are connected in a bearing mode, the special-shaped pulley support (3-4-2) is connected with the matching stepped rod (3-4-3), the matching stepped rod (3-4-3) is matched with the long groove (3-3-5), the special-shaped pulley support (3-4-2) is connected with the cross groove (3-3-7) in a sliding mode, and the pushing pulley (3-4-1) is in contact matching with the circular ring (3-2-4).

5. A paint mixing apparatus as claimed in claim 1, wherein: the stirring driving mechanism (4) comprises a stirring impeller mechanism (4-1), a disconnecting frame mechanism (4-2), a pushing hydraulic cylinder (4-3), a hinged seat I (4-4), an ejection opening wheel mechanism (4-5) and a mixing driving mechanism (4-6), wherein the stirring impeller mechanism (4-1) is connected with the ejection opening wheel mechanism (4-5), the ejection opening wheel mechanism (4-5) is connected with the mixing driving mechanism (4-6), the disconnecting frame mechanism (4-2) is hinged with the pushing hydraulic cylinder (4-3), the pushing hydraulic cylinder (4-3) is connected with the hinged seat I (4-4), and the hinged seat I (4-4) is hinged with the disconnecting frame mechanism (4-2); the stirring impeller mechanism (4-1) comprises a driven shaft impeller (4-1-1), a stirring belt wheel (4-1-2), a stirring belt (4-1-3), a stirring belt wheel A (4-1-4), a driving shaft impeller (4-1-5), a chamfering wheel (4-1-6) and a hole I (4-1-7), wherein the driven shaft impeller (4-1-1) is connected with the stirring belt wheel (4-1-2), the stirring belt wheel (4-1-2) is flexibly connected with the stirring belt (4-1-3), the stirring belt (4-1-3) is flexibly connected with the stirring belt wheel A (4-1-4), the stirring belt wheel A (4-1-4) is connected with the driving shaft impeller (4-1-5), the driving shaft impeller (4-1-5) is connected with the chamfering wheel (4-1-6), and the opening I (4-1-7) is formed in the chamfering wheel (4-1-6); the disconnecting frame mechanism (4-2) comprises a round-angle arm (4-2-1), a hinged support (4-2-2) and a cross support (4-2-3), the round-angle arm (4-2-1) is hinged with the hinged support (4-2-2), the hinged support (4-2-2) is connected with the cross support (4-2-3), the cross support (4-2-3) is hinged with the pushing hydraulic cylinder (4-3), and the round-angle arm (4-2-1) is hinged with the hinged seat I (4-4); the flick wheel opening mechanism (4-5) comprises a flick wheel body (4-5-1), a matching head (4-5-2), a convex block (4-5-3) and a stepped hole (4-5-4), the flick wheel body (4-5-1) is connected with the matching head (4-5-2), the matching head (4-5-2) is matched with the opening I (4-1-7), the convex block (4-5-3) is connected with the flick wheel body (4-5-1), and the stepped hole (4-5-4) is formed in the flick wheel body (4-5-1); the mixing driving mechanism (4-6) comprises a lower support (4-6-1), a stirring motor (4-6-2), a stirring coupling (4-6-3), a stirring bearing seat (4-6-4), a grooved shaft (4-6-5), a spring-open spring (4-6-6) and a sliding disc (4-6-7), wherein the lower support (4-6-1) is connected with the stirring motor (4-6-2), the stirring motor (4-6-2) is connected with the grooved shaft (4-6-5) through the stirring coupling (4-6-3), the grooved shaft (4-6-5) is connected with the stirring bearing seat (4-6-4) through a bearing, the grooved shaft (4-6-5) is connected with the sliding disc (4-6-7), the spring-open spring (4-6-6) is sleeved on the grooved shaft (4-6-5), the spring-open spring (4-6-6) is arranged in the stepped hole (4-5-4), one end of the spring-open spring (4-6-6) abuts against the inner wall of the matching head (4-5-2), the other end of the spring-open spring abuts against the sliding disc (4-6-7), and the bump (4-5-3) is matched with the grooved shaft (4-6-5).

6. A paint mixing apparatus as claimed in claim 1, wherein: the machine body mechanism (5) comprises a stirring machine body mechanism (5-1), a switching-off motor (5-2), a switching-off motor belt pulley (5-3), a switching-off belt (5-4), a tensioning support mechanism (5-5), a tensioning wheel mechanism (5-6) and a gate mechanism (5-7), wherein the stirring machine body mechanism (5-1) is connected with the switching-off motor (5-2), the switching-off motor (5-2) is connected with the switching-off motor belt pulley (5-3), the switching-off motor belt pulley (5-3) is flexibly connected with the switching-off belt (5-4), the switching-off belt (5-4) is flexibly connected with the gate mechanism (5-7), the gate mechanism (5-7) is connected with the stirring machine body mechanism (5-1), the tensioning support mechanism (5-5) is connected with the stirring machine body mechanism (5-1), the tensioning support mechanism (5-5) is in contact fit with the gate mechanism (5-7); the stirring machine body mechanism (5-1) comprises a stirring machine body (5-1-1), a square opening (5-1-2), a bearing seat B (5-1-3), a liquid outlet pipe (5-1-4), a wheel groove (5-1-5) and a semicircular outlet (5-1-6), wherein the stirring machine body (5-1-1) is connected with a lower support (4-6-1), the stirring machine body (5-1-1) is connected with a hinged support (4-2-2), the stirring machine body (5-1-1) is connected with the bearing seat A (3-1-1), the stirring machine body (5-1-1) is connected with a frame body (3-3-1), the stirring machine body (5-1-1) is connected with a feeding shell body (2-1-1), the square opening (5-1-2) is arranged on the stirring machine body (5-1-1), the bearing seat B (5-1-3) is connected with the stirring machine body (5-1-1), the liquid outlet pipe (5-1-4) is connected with the stirring machine body (5-1-1), the wheel groove (5-1-5) is arranged on the liquid outlet pipe (5-1-4), the semicircular outlet (5-1-6) is communicated with the inner cavity of the stirring machine body (5-1-1), and the square opening (5-1-2) is connected with the discharge opening (2-1-4); the tensioning support mechanism (5-5) comprises a T-shaped seat (5-5-1), a step rod A (5-5-2), a tensioning spring (5-5-3) and a limiting wedge block (5-5-4), the T-shaped seat (5-5-1) is in sliding connection with the step rod A (5-5-2), the step rod A (5-5-2) is connected with the limiting wedge block (5-5-4), the tensioning spring (5-5-3) is sleeved on the step rod A (5-5-2), and the T-shaped seat (5-5-1) is connected with the stirring machine body (5-1-1); the tensioning wheel mechanism (5-6) comprises a tensioning belt pulley (5-6-1), a tensioning belt pulley support (5-6-2), a tensioning stepped sliding rod (5-6-3) and a tensioning spring (5-6-4), the tensioning belt pulley (5-6-1) is connected with the tensioning belt pulley support (5-6-2) in a bearing mode, the tensioning belt pulley support (5-6-2) is connected with the tensioning stepped sliding rod (5-6-3), the tensioning spring (5-6-4) is sleeved on the tensioning stepped sliding rod (5-6-3), the tensioning stepped sliding rod (5-6-3) is connected with the T-shaped seat (5-5-1) in a sliding mode, and the tensioning spring (5-6-4) abuts against the T-shaped seat (5-5-1), the opening belt (5-4) is flexibly connected with the tensioning belt wheel (5-6-1); the gate mechanism (5-7) comprises a pulley A (5-7-1), a belt rim (5-7-2), a ratchet wheel (5-7-3) and a liquid outlet A (5-7-4), the pulley A (5-7-1) is connected with the belt rim (5-7-2) in a bearing mode, the belt rim (5-7-2) is connected with the ratchet wheel (5-7-3), the liquid outlet A (5-7-4) penetrates through the belt rim (5-7-2) and the ratchet wheel (5-7-3), the pulley A (5-7-1) is matched with a wheel groove (5-1-5), and a limiting wedge block (5-5-4) is matched with the ratchet wheel (5-7-3), the connection mode of the belt rim (5-7-2) and the brake opening belt (5-4) is flexible connection.

7. A paint mixing apparatus as claimed in claim 6, wherein: sealing materials are arranged between the belt rim (5-7-2) and the liquid outlet pipe (5-1-4).