CN114011281B

CN114011281B - Stirring equipment for paint production

Info

Publication number: CN114011281B
Application number: CN202111209857.0A
Authority: CN
Inventors: 李雄飞; 孙业宝
Original assignee: Huizhou Xufeng New Material Manufacturing Co ltd
Current assignee: Huizhou Xufeng New Material Manufacturing Co ltd
Priority date: 2021-10-18
Filing date: 2021-10-18
Publication date: 2023-10-27
Anticipated expiration: 2041-10-18
Also published as: CN114011281A

Abstract

The invention relates to the technical field of stirring equipment, in particular to stirring equipment for paint production, which comprises an inverted trapezoid barrel shell, wherein a door-shaped plate frame is fixedly connected to the upper end of the inverted trapezoid barrel shell, a vertical shaft penetrates through the middle of the door-shaped plate frame, the lower end of the vertical shaft extends into the inverted trapezoid barrel shell, a plurality of uniformly distributed cross bars are fixedly arranged on the vertical shaft in a ring mode, and a control shell is arranged between two adjacent cross bars.

Description

Stirring equipment for paint production

Technical Field

The invention relates to the technical field of stirring equipment, in particular to stirring equipment for paint production.

Background

In the prior art, the stirring process can be involved in the paint production process, the stirring work of paint liquid has important significance on the quality of paint products, the improvement design of halving equipment is carried out, the automation degree and the stability of the halving equipment are improved, and the technology which needs to be improved is always provided.

If the stirring equipment can be invented, automatic water supply work can be realized, the water temperature can be regulated autonomously, the dependence on high-precision instruments in the prior art is reduced, and the safety and stability of the whole stirring equipment can be improved.

Disclosure of Invention

The invention aims to provide stirring equipment for paint production, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a agitated vessel is used in coating production, includes the trapezoid section of thick bamboo shell that falls, the upper end fixedly connected with door type grillage of trapezoid section of thick bamboo shell, the middle part of door type grillage runs through there is the vertical scroll, and the lower extreme of vertical scroll extends to in the trapezoid section of thick bamboo shell that falls, and the fixed ring is equipped with a plurality of evenly distributed's horizontal pole on the vertical scroll, be provided with the control shell between two upper and lower adjacent horizontal poles, the control shell pot head is on the vertical scroll, one side fixedly connected with outer pipe of control shell, the one end of outer pipe extends to the trapezoid section of thick bamboo shell outside that falls, one side of trapezoid section of thick bamboo shell is provided with the pipe assembly, and outer pipe one end and pipe assembly are connected, be fixed with interior screens section of thick bamboo in the control shell, interior screens section of thick bamboo cover is on the vertical scroll in the interior screens section of thick bamboo is equipped with a plurality of evenly distributed's sphere groove on the ring, the outer wall of control shell is equipped with a plurality of evenly distributed's interception subassembly on the ring, be provided with trachea and interception subassembly in the inner chamber of outer pipe.

Preferably, the pipe assembly includes gravity subassembly, riser and L type pipe, one side intercommunication of L type pipe has a plurality of evenly distributed's takeover outward, the one end tip of L type pipe is the shutoff state, and the other end fixedly connected with riser of L type pipe, and riser and L type pipe mutually perpendicular distribute, riser and L type pipe's butt joint department is provided with gravity subassembly, and tracheal one end is connected with interception subassembly, and interception subassembly runs through the control shell.

Preferably, the control shell is cylindrical, a cylindrical hollow layer is arranged in the shell, an inner clamping cylinder is fixed on the inner wall of a middle hole of the control shell, the inner clamping cylinder is movably sleeved in an annular groove formed in the outer wall of the vertical shaft, spherical grooves are uniformly distributed on the bottom surface of the annular groove in a ring-shaped manner, and a cutting assembly is embedded in the shell of the control shell.

Preferably, the interception subassembly includes piston post, pressure subassembly, control bucket, bellows one, pneumatic subassembly and interception ring, the control bucket is one end open-ended cylindrical shell form, and the control bucket other end is the pointed end form, piston post and bellows one have been cup jointed in the inner chamber of control bucket to the activity, bellows one-to-one is fixed on the inner chamber bottom surface of control bucket, bellows one's the other end fixedly connected with piston post, the one end of piston post extends to the control bucket outside, and cup jointed bellows two and screens section of thick bamboo on the piston post tip, bellows two and screens section of thick bamboo set up in the ring channel of seting up on the lateral wall of piston post, the piston post runs through the through-hole of seting up on the control shell body, and the piston post runs through the post hole of seting up on the screens section of thick bamboo, piston post one end extends to in the sphere groove, bellows two one end is fixed on the piston post, the other end of bellows is fixed with screens section of thick bamboo, fixed sleeve has the interception ring on the pointed end of control bucket, interception ring shape is equipped with evenly distributed for the annular ring on the annular ring, and a plurality of pneumatic subassembly are equipped with evenly distributed in the annular ring, the one end is equipped with a plurality of evenly distributed to the pneumatic subassembly on the pneumatic subassembly.

Preferably, the pressure component includes spring leaf and interception piece, the pressure component sets up in the spout of seting up on the lateral wall of piston post, the one end contact of interception piece has wave platelike spring leaf, and the interception piece is fixed on the control bucket, pneumatic component includes accuse flow subassembly, stereoplasm pipe and seal assembly, the stereoplasm pipe embedding is in the control bucket, and the one end of stereoplasm pipe extends to in the bellows one, and the stereoplasm pipe other end extends to the control bucket outside, and stereoplasm pipe end connection has seal assembly, seal assembly's one end extends to in the through-hole of interception ring, be provided with accuse flow subassembly in the inner chamber of stereoplasm pipe.

Preferably, the flow control assembly comprises a flow control cylinder, a support column, a supporting column and a rubber pad, wherein the flow control cylinder is fixed on the inner wall of the hard pipe, a plurality of evenly distributed through pipe cavities are annularly arranged on a shell of the flow control cylinder, a plurality of evenly distributed support columns are fixedly arranged on the side wall of the supporting column in a surrounding mode, one end of each support column is fixed on the flow control cylinder, a T-shaped disc-shaped rubber pad is arranged on one side of the flow control cylinder, and a middle protruding part of the rubber pad is fixedly embedded into the supporting column.

Preferably, the seal assembly comprises a pressure rod, a third corrugated pipe, a supporting ring, a limiting plate and a sealing disc, one end of the pressure rod extends into an inner cavity of the hard pipe, the sealing disc is fixedly connected with the other end of the pressure rod, the third corrugated pipe and the supporting ring are sleeved on the pressure rod outside the hard pipe, one end of the third corrugated pipe is fixed on the hard pipe, the other end of the third corrugated pipe is fixed on the supporting ring, the supporting ring is fixed on the pressure rod, the limiting plate is fixed between the supporting ring and the sealing disc, the pressure rod penetrates through a through hole of the intercepting ring, and the limiting plate protrudes into a sliding groove formed in the inner wall of the through hole of the intercepting ring.

Preferably, the gravity subassembly includes the gravity post, lifts a section of thick bamboo, guide cylinder, interior post, bellows fourth, heat conduction shell and bottom plate, guide cylinder is cylindric and barrel one end tip is the varus binding off form, interior post and bellows fourth have been cup jointed in the inner chamber of guide cylinder to the activity, the one end of bellows fourth is fixed on the binding off casing of guide cylinder, the other end of bellows fourth is fixed with the interior post, the upper end of interior post extends to the guide cylinder outside, and interior post end fixing has the gravity post, the gravity post shape is cylinder bottom body coupling round platform, and the ring is equipped with a plurality of evenly distributed's through-tube chamber on the gravity post, guide cylinder outside cover has lifts a section of thick bamboo, guide cylinder bottom fixing has the heat conduction shell, the heat conduction shell is hollow column casing form, the heat conduction shell lower extreme is fixed with the bottom plate, it sets up between heat conduction shell and gravity post to lift a section of thick bamboo, it fixes on the inner wall of riser to lift a section of thick bamboo, the bottom plate is fixed on the inner wall of L type pipe.

Preferably, the cutting-off assembly comprises a sealing cylinder, a sealing ball, a first spring, a partition plate and an inner connecting cylinder, one end of the inner connecting cylinder extends into a hollow layer of the control shell, the other end of the inner connecting cylinder extends to the outside of the control shell, the sealing cylinder, the sealing ball, the first spring and the partition plate are arranged in an inner cavity of the inner connecting cylinder, the sealing cylinder and the partition plate are fixed on the inner wall of the inner connecting cylinder, the partition plate is in the shape of a circular plate, a plurality of through holes which are uniformly distributed are formed in the upper ring of the plate body, one end of the first spring is contacted with the partition plate, the other end of the first spring is contacted with the sealing ball, and one side, opposite to the first spring, of the sealing ball is provided with the sealing cylinder.

Compared with the prior art, the invention has the beneficial effects that:

1. the structure design of the invention realizes that the supply of warm water can be automatically realized in the process of stirring paint in the inverted ladder-shaped cylinder shell, and a plurality of warm water flows uniformly spread in the inverted ladder-shaped cylinder shell, so that the warm water can be efficiently fused into the paint for working, in addition, if the water temperature is too high, the water flow can be automatically regulated before being injected into an external connecting pipe, and the neutralization of cold and hot water flows is realized, so that the whole water supply work is automatically controlled;

2. according to the invention, the sensitive gas with thermal expansion and cold contraction in the prior art is stored in the heat conducting shell, so that the induction work on hot water flow is realized, and the stable and efficient temperature control effect is realized on the whole gravity assembly through the cooperation of exquisite parts.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of an inverted ladder type cartridge housing;

FIG. 3 is a schematic view of the structure of the inner detent cartridge;

FIG. 4 is a schematic diagram of a control housing structure;

FIG. 5 is a schematic view of a tube assembly;

FIG. 6 is a schematic view of the structure shown in FIG. 3A;

FIG. 7 is a schematic diagram of an interception element;

FIG. 8 is a schematic diagram of a flow control assembly;

FIG. 9 is a schematic view of a seal assembly;

FIG. 10 is a schematic view of a seal disk structure;

FIG. 11 is a schematic diagram of a control barrel structure;

fig. 12 is a schematic diagram of a gravity assembly structure.

In the figure: the device comprises an inverted ladder-shaped cylinder shell 1, a door-shaped plate frame 2, a vertical shaft 3, a cross rod 4, a control shell 5, an external connecting pipe 6, a pipe assembly 7, an interception assembly 8, an inner clamping cylinder 9, a spherical groove 10, an interception assembly 11, an air pipe 12, a gravity assembly 13, a vertical pipe 14, an L-shaped pipe 15, a sealing cylinder 16, a sealing ball 17, a spring I18, a baffle 19, an internal connecting cylinder 20, a piston column 21, a pressure assembly 22, a control cylinder 23, a corrugated pipe I24, a pneumatic assembly 25, an interception ring 26, a clamping cylinder 27, a corrugated pipe II 28, a flow control assembly 29, a hard pipe 30, a sealing assembly 31, a pressure rod 32, a corrugated pipe III 33, a supporting ring 34, a limiting plate 35, a sealing disk 36, a gravity column 37, a lifting cylinder 38, a guide cylinder 39, an inner column 40, a corrugated pipe IV 41, a heat conducting shell 42, a bottom plate 43, a lifting block 44, a positioning ring 45, a bolt 46, a spring piece 221, an interception block 222, a flow control cylinder 291, a support 292, a supporting column 293 and a rubber pad 294.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. Based on the technical solutions of the present invention, all other embodiments obtained by a person skilled in the art without making any creative effort fall within the protection scope of the present invention.

Referring to fig. 1 to 12, the present invention provides a technical solution: the utility model provides a agitated vessel for paint produce, including falling trapezoidal section of thick bamboo shell 1, the upper end fixedly connected with door type grillage 2 of falling trapezoidal section of thick bamboo shell 1, the middle part of door type grillage 2 runs through and has vertical scroll 3, the lower extreme of vertical scroll 3 extends to in the falling trapezoidal section of thick bamboo shell 1, and fixed ring is equipped with a plurality of evenly distributed horizontal poles 4 on the vertical scroll 3, be provided with control shell 5 between two upper and lower adjacent horizontal poles 4, control shell 5 movable sleeve is on vertical scroll 3, control shell 5 one side fixedly connected with external pipe 6, the one end of external pipe 6 extends to the outside of falling trapezoidal section of thick bamboo shell 1, one side of falling trapezoidal section of thick bamboo shell 1 is provided with pipe assembly 7, external pipe 6 one end and pipe assembly 7 are connected, be fixed with inside the control shell 5 and inside the screens section of thick bamboo 9, inside screens section of thick bamboo 9 cover is on vertical scroll 3, the vertical scroll 3 in inside screens section of thick bamboo 9 is gone up to be equipped with a plurality of evenly distributed spherical grooves 10, the outer wall of control shell 5 is gone up to be equipped with a plurality of evenly distributed cut-off assembly 11, be provided with trachea 12 and subassembly 8 in the inner chamber of external pipe 6, the one end of trachea 12 is connected with intercept assembly 8, one end of trachea 12 is connected with intercept assembly, control shell 8 runs through 5 and outside in the drive mechanism is fixed to the vertical scroll 3 in the control frame 3, the side is connected with outside in the control mechanism, the control frame 3, the drive mechanism is connected to the outside in the control frame 3, the control mechanism is understood to be connected with the outside in the control frame 3.

The pipe assembly 7 comprises a gravity assembly 13, a vertical pipe 14 and an L-shaped pipe 15, one side of the L-shaped pipe 15 is communicated with a plurality of evenly distributed external connecting pipes 6, one end part of the L-shaped pipe 15 is in a blocking state, the other end of the L-shaped pipe 15 is fixedly connected with the vertical pipe 14, the vertical pipe 14 and the L-shaped pipe 15 are vertically distributed, and the gravity assembly 13 is arranged at the joint of the vertical pipe 14 and the L-shaped pipe 15.

The control shell 5 is cylindrical, a cylindrical hollow layer is arranged in the shell, an inner clamping cylinder 9 is fixed on the inner wall of a middle hole of the control shell 5, the inner clamping cylinder 9 is movably sleeved in an annular groove formed in the outer wall of the vertical shaft 3, spherical grooves 10 are uniformly distributed on the bottom surface of the annular groove in a surrounding mode, and a cutting-off assembly 11 is embedded in the shell of the control shell 5.

The interception component 8 comprises a piston column 21, a pressure component 22, a control barrel 23, a first corrugated pipe 24, a pneumatic component 25 and an interception ring 26, wherein the control barrel 23 is of a cylindrical shell shape with one end open, the other end of the control barrel 23 is of a tip shape, the piston column 21 and the first corrugated pipe 24 are movably sleeved in an inner cavity of the control barrel 23, one end of the first corrugated pipe 24 is fixed on the bottom surface of the inner cavity of the control barrel 23, the other end of the first corrugated pipe 24 is fixedly connected with the piston column 21, one end of the piston column 21 extends to the outside of the control barrel 23, the end of the piston column 21 is sleeved with the second corrugated pipe 28 and the clamping cylinder 27, the second corrugated pipe 28 and the clamping cylinder 27 are arranged in an annular groove formed in the outer side wall of the piston column 21, the piston column 21 penetrates through a through hole formed in the control shell 5, the piston column 21 penetrates through an inner clamping cylinder 9, one end of the piston column 21 extends into the spherical groove 10, one end of the second corrugated pipe 28 is fixed on the piston column 21, the other end of the second corrugated pipe 28 is fixedly connected with the clamping cylinder 27, one end of the clamping cylinder 27 is fixedly connected with the inner wall of the piston column 23, the second corrugated pipe 28 is uniformly distributed on the inner wall of the piston column 23 is uniformly distributed on the piston column 21, the annular plate is uniformly extends to the piston column 25, and the annular plate is uniformly distributed on the piston column 25 is uniformly extends to the piston column 25, and is uniformly distributed on the piston rod is uniformly extends to the piston column 25, and is uniformly distributed on the piston rod through the piston rod 25, and is uniformly distributed on the piston rod through the piston cylinder 21.

The pressure component 22 comprises a spring piece 221 and an interception block 222, the pressure component 22 is arranged in a chute formed in the side wall of the piston column 21, one end of the interception block 222 is contacted with the wavy plate-shaped spring piece 221, the interception block 222 is fixed on the control barrel 23, the pneumatic component 25 comprises a flow control component 29, a hard pipe 30 and a sealing component 31, the hard pipe 30 is embedded in the control barrel 23, one end of the hard pipe 30 extends into the first corrugated pipe 24, the other end of the hard pipe 30 extends to the outside of the control barrel 23, the end of the hard pipe 30 is connected with the sealing component 31, one end of the sealing component 31 extends into a through hole of the interception ring 26, and the flow control component 29 is arranged in an inner cavity of the hard pipe 30.

The flow control assembly 29 comprises a flow control cylinder 291, a support column 292, a supporting column 293 and a rubber pad 294, wherein the flow control cylinder 291 is fixed on the inner wall of the hard pipe 30, a plurality of evenly distributed through pipe cavities are annularly arranged on a shell of the flow control cylinder 291, 239 and the support column 292 are arranged in an inner cavity of the flow control cylinder 291, a plurality of evenly distributed support columns 292 are fixedly annularly arranged on the side wall of the supporting column 293, one end of the support column 292 is fixed on the flow control cylinder 291, a T-shaped rubber pad 294 is arranged on one side of the flow control cylinder 291, and a middle protruding part of the rubber pad 294 is fixedly embedded into the supporting column 293.

The seal assembly 31 comprises a pressure rod 32, a corrugated pipe III 33, a supporting ring 34, a limiting plate 35 and a sealing disc 36, one end of the pressure rod 32 extends into an inner cavity of the rigid pipe 30, the other end of the pressure rod 32 is fixedly connected with the sealing disc 36, the corrugated pipe III 33 and the supporting ring 34 are sleeved on the pressure rod 32 outside the rigid pipe 30, one end of the corrugated pipe III 33 is fixed on the rigid pipe 30, the other end of the corrugated pipe III 33 is fixed on the supporting ring 34, the supporting ring 34 is fixed on the pressure rod 32, the limiting plate 35 is fixed between the supporting ring 34 and the sealing disc 36, the pressure rod 32 penetrates through a through hole of the interception ring 26, the limiting plate 35 is partially protruded into a sliding groove formed in the inner wall of the through hole of the interception ring 26, the right side part of the interception ring 26 is the sealing disc 36, the sealing disc 36 moves close to the interception ring 26, the through hole of the interception ring 26 can be blocked, the limiting plate 35 plays a role in limiting, the sealing disc 36 moves stably within a certain range, the corrugated pipe III 33 plays a role in sealing and isolating different media, and all the sealing effects in the axial isolating the corrugated pipes are isolated by the axial isolating effect.

The gravity component 13 comprises a gravity column 37, a lifting cylinder 38, a guide cylinder 39, an inner column 40, a corrugated tube four 41, a heat conducting shell 42 and a bottom plate 43, wherein the guide cylinder 39 is cylindrical, one end part of one cylinder body is in an inward-turned closing shape, the inner column 40 and the corrugated tube four 41 are movably sleeved in the inner cavity of the guide cylinder 39, one end of the corrugated tube four 41 is fixed on the closing shell of the guide cylinder 39, the other end of the corrugated tube four 41 is fixed with the inner column 40, the upper end of the inner column 40 extends to the outside of the guide cylinder 39, the end part of the inner column 40 is fixed with the gravity column 37, the gravity column 37 is integrally connected with a round table at the bottom end of the cylinder, a plurality of evenly distributed through tube cavities are annularly arranged on the gravity column 37, the lifting cylinder 38 is sleeved outside the guide cylinder 39, the heat conducting shell 42 is fixed at the bottom end of the guide cylinder 39, the heat conducting shell 42 is hollow column shell, the bottom plate 43 is fixed at the lower end of the heat conducting shell 42, the lifting cylinder 38 is arranged between the heat conducting shell 42 and the gravity column 37, the lifting cylinder 38 is fixed on the inner wall of the vertical pipe 14, the bottom plate 43 is fixed on the inner wall of the L-shaped pipe 15, a plurality of uniformly distributed lifting blocks 44 are fixedly arranged on the gravity column 37 in a ring mode, and the lifting blocks 44 are partially protruded into sliding grooves formed in the shell of the vertical pipe 14, so that the lifting movement of the gravity column 37 is limited to a certain range, the heat conducting shell 42 is supported and positioned through the bottom plate 43, the guide cylinder 39 is controlled by the heat conducting shell 42, and gas which sensitively generates thermal expansion and cold contraction in the prior art is stored in the heat conducting shell 42, so that the effect of air pressure pushing the inner column 40 is achieved, and the inner column 40 is lifted to drive the gravity column 37.

The cutting assembly 11 comprises a sealing cylinder 16, a sealing ball 17, a first spring 18, a partition plate 19 and an inner connecting cylinder 20, one end of the inner connecting cylinder 20 extends into a hollow layer of the control shell 5, the other end of the inner connecting cylinder 20 extends to the outside of the control shell 5, the sealing cylinder 16, the sealing ball 17, the first spring 18 and the partition plate 19 are arranged in an inner cavity of the inner connecting cylinder 20, the sealing cylinder 16 and the partition plate 19 are fixed on the inner wall of the inner connecting cylinder 20, the partition plate 19 is a circular plate, a plurality of evenly distributed through holes are formed in a ring on a plate body, one end of the first spring 18 is contacted with the partition plate 19, the other end of the first spring 18 is contacted with the sealing ball 17, and one side, opposite to the first spring 18, of the sealing ball 17 is provided with the sealing cylinder 16.

Working principle: the bottom end of the inverted ladder-shaped cylinder shell 1 is plugged with a valve mechanism in the prior art, so that when the stirring operation in the inverted ladder-shaped cylinder shell 1 is finished, the valve can be opened to discharge, the vertical shaft 3 rotates to drive the cross rod 4, the cross rod 4 stirs coating liquid in the inverted ladder-shaped cylinder shell 1, during stirring, high-temperature water is discharged outwards through the control shell 5, one end of the L-shaped pipe 15 is connected with a high-temperature water supply mechanism in the prior art, the high-temperature water is supplied to the L-shaped pipe 15, the upper end of the vertical pipe 14 is connected with a cold water tank, water flow is automatically injected into the L-shaped pipe 15 by utilizing the characteristic of underwater flow, cold water flow can be intercepted at the position of the gravity component 13, and only when the temperature of the high-temperature water flowing in the L-shaped pipe 15 is too high, the cold water flow can be converged into the L-shaped pipe 15, because gas in the heat conducting shell 42 is heated and expanded, and the air pressure acts on the inner column 40, the inner column 40 rises to drive the gravity column 37, the gravity column 37 rises away from the lifting cylinder 38, so that the lifting cylinder 38 does not block the through pipe cavity on the gravity column 37, and cold water flows downwards through the through pipe cavity on the gravity column 37, then flows into the heat conducting shell 42 through the inner cavity of the lifting cylinder 38, so that water flow supplied into the outer tube 6 is warm water flow with proper temperature, the warm water flow is blocked at the blocking ring 26, the sealing disc 36 is forced to block the through hole on the blocking ring 26 because the water flow drives the sealing disc 36, the sealing disc 36 can move away from the blocking ring 26 only when the vertical shaft 3 rotates, so that the warm water flow can be inserted in the through hole on the blocking ring 26, particularly when the vertical shaft 3 rotates, the piston column 21 encounters the spherical groove 10, because the spring piece 221 rebounds to push the piston column 21, and after missing the spherical groove 10, the piston column 21 is forced to be ejected, in this way, the piston column 21 reciprocates, during the movement process of the piston column 21, the piston column 21 presses the first corrugated pipe 24, gas in the first corrugated pipe 24 is extruded, part of the gas is discharged outside through the gas pipe 12, part of the gas is injected into the pneumatic assembly 25 without the time of discharging, so that the gas pressure in the hard pipe 30 lifts the pressure rod 32, the pressure rod 32 moves to drive the sealing disc 36, the sealing disc 36 is controlled to be far away from the interception ring 26, the smooth passage of the outer connecting pipe 6 can be realized, the high gas pressure in the hard pipe 30 can last for a certain time, the gas pressure mainly plays a role of unidirectional flow guide through the flow control assembly 29 because the gas flow is required to quickly pass through the flow control assembly 29, only the gas flow lifts the rubber pad 294, the main channel is blocked by the rubber pad 294 by the air flow back flow through the inner cavity of the flow control cylinder 291, the air flow can slowly flow back through the through pipe cavity on the flow control cylinder 291, so that the hard pipe 30 can keep a high air pressure state for a certain time, if no air flow is supplied to the hard pipe 30 and the purpose that the air pressure can not be maintained to support the sealing disc 36 is achieved, after the vertical shaft 3 stops rotating, the warm water discharging operation on the control shell 5 can be automatically stopped, the cutting-off assembly 11 plays a role of intercepting the liquid coating in the inverted ladder-shaped cylinder shell 1, and the sealing ball 17 is jacked up by the water flow during water supply, so that the sealing cylinder 16 is directly blocked by the sealing ball 17 by the rebound of the spring 18 after water supply is stopped, so that the effect of automatically controlling and cutting-off the fluid is achieved.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Stirring equipment for paint production comprises an inverted ladder-shaped cylinder shell (1), and is characterized in that: the upper end of the inverted ladder-shaped cylinder shell (1) is fixedly connected with a gate-shaped plate frame (2), the middle part of the gate-shaped plate frame (2) is penetrated with a vertical shaft (3), the lower end of the vertical shaft (3) extends into the inverted ladder-shaped cylinder shell (1), a plurality of uniformly distributed cross bars (4) are fixedly arranged on the vertical shaft (3) in a ring manner, a control shell (5) is arranged between two adjacent cross bars (4) in the upper and lower directions, the control shell (5) is movably sleeved on the vertical shaft (3), one side of the control shell (5) is fixedly connected with an external connection tube (6), one end of the external connection tube (6) extends to the outside of the inverted ladder-shaped cylinder shell (1), one side of the inverted ladder-shaped cylinder shell (1) is provided with a pipe assembly (7), one end of an external pipe (6) is connected with the pipe assembly (7), an inner clamping cylinder (9) is fixed in the control shell (5), the inner clamping cylinder (9) is sleeved on the vertical shaft (3), a plurality of evenly distributed spherical grooves (10) are annularly arranged on the vertical shaft (3) in the inner clamping cylinder (9), a plurality of evenly distributed intercepting assemblies (11) are annularly arranged on the outer wall of the control shell (5), an air pipe (12) and an intercepting assembly (8) are arranged in the inner cavity of the external pipe (6), and the pipe assembly (7) comprises a gravity assembly (13), riser (14) and L type pipe (15), the one side intercommunication of L type pipe (15) has a plurality of evenly distributed's takeover (6), the one end tip of L type pipe (15) is the shutoff state, the other end fixedly connected with riser (14) of L type pipe (15), and riser (14) and L type pipe (15) mutually perpendicular distribute, the butt joint department of riser (14) and L type pipe (15) is provided with gravity subassembly (13), and the one end of trachea (12) is connected with interception subassembly (8), interception subassembly (8) run through control shell (5), control shell (5) are cylindric and are provided with tubular hollow layer in the casing, be fixed with interior screens section of thick bamboo (9) on the mesopore inner wall of control shell (5), in screens section of thick bamboo (9) activity cup joint in the ring channel of seting up on the outer wall of vertical scroll (3), and spherical surface groove (10) evenly encircle and set up and distribute on the ring channel bottom surface, interception subassembly (11) have been embedded in the casing of control shell (5), interception subassembly (8) are including plug subassembly (21), control shell (23), one end, control barrel (23) are cylindrical, one end (23) and one end is the control barrel (23) is the control barrel, and is the one end is the control barrel (23), a piston column (21) and a first corrugated pipe (24) are movably sleeved in the inner cavity of the control barrel (23), one end of the first corrugated pipe (24) is fixed on the bottom surface of the inner cavity of the control barrel (23), the other end of the first corrugated pipe (24) is fixedly connected with the piston column (21), one end of the piston column (21) extends to the outside of the control barrel (23), a second corrugated pipe (28) and a clamping cylinder (27) are sleeved on the end part of the piston column (21), the second corrugated pipe (28) and the clamping cylinder (27) are arranged in an annular groove formed in the outer side wall of the piston column (21), the piston column (21) penetrates through a through hole formed in the shell of the control shell (5), and the piston column (21) penetrates through a column hole formed in the inner clamping cylinder (9), one end of the piston column (21) extends into the spherical groove (10), one end of the second corrugated pipe (28) is fixed on the piston column (21), the other end of the second corrugated pipe (28) is fixedly provided with a clamping cylinder (27), the clamping cylinder (27) is fixed on the inner wall of the column hole of the inner clamping cylinder (9), an interception ring (26) is fixedly sleeved on the tip of the control cylinder (23), the interception ring (26) is in the shape of an annular plate, a plurality of evenly distributed through holes are annularly formed in the plate body, a plurality of evenly annularly arranged pneumatic assemblies (25) are connected on the interception ring (26), one end of a pneumatic component (25) extends into a control barrel (23), one end of the pneumatic component (25) is communicated with a first corrugated pipe (24), a plurality of uniformly distributed pressure components (22) are annularly arranged between a piston column (21) and the control barrel (23), the pressure components (22) comprise spring pieces (221) and interception blocks (222), the pressure components (22) are arranged in sliding grooves formed in the side walls of the piston column (21), one end of each interception block (222) is contacted with a wavy plate-shaped spring piece (221), each interception block (222) is fixed on the control barrel (23), the pneumatic component (25) comprises a flow control component (29), a hard pipe (30) and a sealing component (31), the hard pipe (30) is embedded in the control barrel (23), one end of each hard pipe (30) extends into the first corrugated pipe (24), the other end of each hard pipe (30) extends out of the control barrel (23), one end of each hard pipe (30) is connected with a sealing component (31), and one end of each hard pipe (31) extends into an inner cavity of the inner cavity (29) of the corresponding hard pipe (26);

the flow control assembly (29) comprises a flow control cylinder (291), a support column (292), a supporting column (293) and a rubber pad (294), wherein the flow control cylinder (291) is fixed on the inner wall of a hard pipe (30), a plurality of evenly-distributed through pipe cavities are annularly arranged on a shell of the flow control cylinder (291), the inner cavity of the flow control cylinder (291) is provided with the support column (239) and the support column (292), a plurality of evenly-distributed support columns (292) are fixedly arranged on the side wall of the supporting column (293) in a ring mode, one end of the support column (292) is fixed on the flow control cylinder (291), one side of the flow control cylinder (291) is provided with the T-shaped disc-shaped rubber pad (294), and a middle protruding part of the rubber pad (294) is fixedly embedded into the supporting column (293);

the sealing assembly (31) comprises a pressure rod (32), a corrugated pipe III (33), a supporting ring (34), a limiting plate (35) and a sealing disc (36), one end of the pressure rod (32) extends into an inner cavity of the hard pipe (30), the other end of the pressure rod (32) is fixedly connected with the sealing disc (36), the corrugated pipe III (33) and the supporting ring (34) are sleeved on the pressure rod (32) outside the hard pipe (30), one end of the corrugated pipe III (33) is fixed on the hard pipe (30), the other end of the corrugated pipe III (33) is fixed on the supporting ring (34), the supporting ring (34) is fixed on the pressure rod (32), the limiting plate (35) is fixed between the supporting ring (34) and the sealing disc (36), the pressure rod (32) penetrates through a through hole of the interception ring (26), and the limiting plate (35) is partially protruded into a chute formed in the inner wall of the through hole of the interception ring (26).

The gravity assembly (13) comprises a gravity column (37), a lifting cylinder (38), a guide cylinder (39), an inner column (40), a corrugated pipe IV (41), a heat conduction shell (42) and a bottom plate (43), wherein the guide cylinder (39) is cylindrical, one end of the cylinder body is in an inward-turning closing shape, the inner column (40) and the corrugated pipe IV (41) are movably sleeved in an inner cavity of the guide cylinder (39), one end of the corrugated pipe IV (41) is fixed on a closing shell of the guide cylinder (39), the other end of the corrugated pipe IV (41) is fixed with the inner column (40), the upper end of the inner column (40) extends to the outside of the guide cylinder (39), the end part of the inner column (40) is fixed with the gravity column (37), the gravity column (37) is integrally connected with a circular table at the bottom end of the cylinder, a plurality of evenly distributed through cavities are annularly arranged on the gravity column (37), the outer side of the guide cylinder (39) is sleeved with the lifting cylinder (38), the bottom end of the guide cylinder (39) is fixed with the heat conduction shell (42), the heat conduction shell (42) is in a hollow cylindrical shell, the lower end of the guide cylinder (39) is fixed with the bottom plate (42), the heat conduction shell (42) is fixed between the lifting cylinder (38) and the gravity column (38), the bottom plate (43) is fixed on the inner wall of the L-shaped pipe (15);

the utility model provides a cut-off subassembly (11) including seal tube (16), sealing ball (17), first spring (18), baffle (19) and inscription section of thick bamboo (20), the one end of inscription section of thick bamboo (20) extends to in the hollow layer of control shell (5), and the other end of inscription section of thick bamboo (20) extends to control shell (5) outside, is provided with seal tube (16), sealing ball (17), first spring (18) and baffle (19) in the inner chamber of inscription section of thick bamboo (20), seal tube (16) and baffle (19) are fixed on the inner wall of inscription section of thick bamboo (20), and baffle (19) shape is the plectane and the last ring of plate is equipped with a plurality of evenly distributed's through-hole, and the one end contact of first spring (18) has baffle (19), and the other end contact of first spring (18) has sealing ball (17), and one side opposite to first spring (18) on sealing ball (17) is provided with seal tube (16).