CN109046099A - A kind of bi-component gage mark coating process units with quantitative function - Google Patents

Abstract

The present invention relates to a kind of bi-component gage mark coating process units with quantitative function, including main body and feed inlet, quantitative mechanism is equipped in main body, first valve, agitator tank, rabbling mechanism and the second valve, quantitative mechanism includes feed unit and control unit, rabbling mechanism includes first gear, third motor, rotating bar, fixed plate and two rotating units, rotating unit includes limit sleeve, rotation axis, second gear, position-limiting unit, strike off unit and several paddles, the bi-component gage mark coating process units with quantitative function, pass through quantitative mechanism, the bi-component gage mark coating process units can be quantitatively adding raw material, preventing the production efficiency of the bi-component gage mark coating process units reduces, improve the market competitiveness of the bi-component gage mark coating process units, moreover, pass through rabbling mechanism, the bi-component gage mark coating Process units can quickly and effectively mixed raw material, improve the production efficiency of the bi-component gage mark coating process units.

Description

A kind of bi-component gage mark coating process units with quantitative function

Technical field

The present invention relates to bi-component gage mark coating process units field, in particular to a kind of bi-component mark with quantitative function Line coating production device.

Background technique

Two-component gage mark coating, refers to response type road surface two-component gage mark coating, when production and processing, using A, B component point Open packaging, when pavement construction, curing agent is added at A, B component scene, using special equipment, requires to carry out to mix in 98:2 according to coating Or (or outer mixed) spray, blade coating is mixed in 1:1, formed graticule curing and drying after road surface is chemically reacted is now most-often used Two-component gage mark coating be MMA class two-component gage mark coating, i.e. methyl methacrylate (MMA) monomer, drying time is controllable, Adhesive force is good, is process by MMA monomer and PMMA mixture.

But existing bi-component gage mark coating process units will not generally be quantitatively adding raw material, it is existing when raw material is very few The production efficiency of some bi-component gage mark coating process units reduces, economic benefit decline, when raw material is excessive, existing double groups Minute mark line coating production device needs more times to allow raw material fully reacting, and it is raw to reduce existing bi-component gage mark coating The production efficiency of device is produced, it moreover, could be anti-after the various raw materials of two-component gage mark coating are needed by effectively mixing The two-component gage mark coating that can be used should be generated.

Summary of the invention

The technical problem to be solved by the present invention is for overcome the deficiencies in the prior art, providing a kind of with quantitative function Bi-component gage mark coating process units.

The technical solution adopted by the present invention to solve the technical problems is: a kind of bi-component graticule painting with quantitative function Expect that process units, including main body and feed inlet, the feed inlet are arranged in the top of main body, are equipped with quantitative machine in the main body Structure, the first valve, agitator tank, rabbling mechanism and the second valve, quantitative mechanism setting is at the intracorporal top of master, and described first The lower section of quantitative mechanism is arranged in valve, and the agitator tank setting is being stirred in the intracorporal bottom of master, the rabbling mechanism setting In case, the lower section of agitator tank is arranged in second valve, and the quantitative mechanism is connect by the first valve with agitator tank, described Agitator tank is connected to by the second valve with the external of main body；

The quantitative mechanism includes feed unit and control unit, and the feed unit is arranged in the intracorporal top of master, institute State the lower section that feed unit is arranged in control unit；

The feed unit includes feed pipe, first motor, shaft and screw thread, and the feed pipe and first motor are set respectively It sets in the intracorporal two sides of master, the feed pipe is horizontally disposed, and the feed pipe is connected to by feed inlet with the external of main body, described Shaft and screw thread are arranged in feed pipe, and the shaft and feed pipe are coaxially disposed, and the first motor and rotating shaft transmission connect Connect, the spiral wound in shaft, the screw thread along shaft periphery Spiral distribution；

Described control unit includes quantity tube, the second motor, screw rod, nut, push plate and movable plate, second motor and Screw rod is separately positioned on the two sides of the lower section of feed pipe, and the screw rod is horizontally disposed, and second motor is connect with screw rod transmission, The nut is set on screw rod, and the nut is matched with screw rod, and the quantity tube is arranged in the lower section of screw rod, the push plate and Movable plate is arranged in quantity tube, and the push plate is fixed on the lower section of nut；

The rabbling mechanism includes first gear, third motor, rotating bar, fixed plate and two rotating units, and described One gear is fixed on the top in agitator tank, and the third motor is fixed on the lower section of first gear, and the rotating bar setting exists The lower section of third motor, the third motor and rotating bar are sequentially connected, and two rotating units are separately positioned on the two of rotating bar End, the fixed plate are set on third motor, and the fixed plate and third motor coaxle are arranged, the fixed plate and third electricity Machine interference fit；

The rotating unit includes limit sleeve, rotation axis, second gear, position-limiting unit, strikes off unit and several paddles, institute Limit sleeve is stated to be fixedly connected with rotating bar, the rotation axis is vertically arranged, the rotation axis pass through limit sleeve, the rotation axis with Limit sleeve clearance fit, the second gear are fixed on the top of rotation axis, and each paddle is circumferentially evenly distributed on the periphery of shaft, The first gear is engaged with second gear, and the lower section of second gear is arranged in the position-limiting unit.

Preferably, main body is slided in order to prevent, set below the main body there are four supporting block, four supporting blocks are distinguished The surrounding of the lower section of main body is set.

Preferably, in order to accurately control the working condition of the second motor, the side of the close movable plate of the push plate is set There are pressure sensor and PLC, the pressure sensor is electrically connected with PLC, and second motor and the first valve are electrically connected with PLC It connects.

Preferably, being coated with lubrication between the screw rod and nut to reduce the transmission loss between screw rod and nut Oil.

Preferably, the raw material in agitator tank is back to quantity tube in order to prevent, first valve is check-valves.

Preferably, in order to enhance mixing effect, the paddle is equipped with several through-holes.

Preferably, in order to enable first motor, the second motor and third motor can precise and stable work for a long time, institute Stating first motor, the second motor and third motor is servo motor.

Preferably, rotation axis tilts in order to prevent, the position-limiting unit includes fixed link, metal frame and idler wheel, described Fixed link is vertically arranged, and the bottom end of the fixed link is fixedly connected with fixed plate, and top and the metal frame of the fixed link are fixed Connection, the idler wheel are arranged in metal frame, the idler wheel and second gear against.

Preferably, scraping to stir the raw material adhered on chamber interior wall, the unit that strikes off includes connecting rod and scrapes Plate, the connecting rod is horizontally disposed, and one end of the connecting rod is fixedly connected with limit sleeve, and the scraper plate is fixed on connecting rod The inner wall of the other end, the scraper plate and agitator tank against.

Preferably, in order to accurately control the switch of the second valve, second valve is solenoid valve.

The invention has the advantages that this has the bi-component gage mark coating process units of quantitative function, pass through quantitative machine Structure, the bi-component gage mark coating process units can be quantitatively adding raw material, prevent the life of the bi-component gage mark coating process units Producing efficiency reduces, and improves the market competitiveness of the bi-component gage mark coating process units, and compared with existing quantitative mechanism, this is fixed The additive amount of measuring mechanism is more accurate, and moreover, by rabbling mechanism, which can be quick Effective mixed raw material improves the production efficiency of the bi-component gage mark coating process units, should compared with existing rabbling mechanism The mixing speed of rabbling mechanism is very fast, and mixing effect is preferable.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the structural schematic diagram of the bi-component gage mark coating process units with quantitative function of the invention；

Fig. 2 is the structural representation of the feed unit of the bi-component gage mark coating process units with quantitative function of the invention Figure；

Fig. 3 is the structural representation of the control unit of the bi-component gage mark coating process units with quantitative function of the invention Figure；

Fig. 4 is the structural representation of the rabbling mechanism of the bi-component gage mark coating process units with quantitative function of the invention Figure；

Fig. 5 is the structural representation of the position-limiting unit of the bi-component gage mark coating process units with quantitative function of the invention Figure；

In figure: 1. main bodys, 2. feed inlets, 3. feed pipes, 4. first motors, 5. shafts, 6. screw threads, 7. quantity tubes, 8. Two motors, 9. screw rods, 10. nuts, 11. push plates, 12. movable plates, 13. first valves, 14. agitator tanks, 15. second valves, 16. Supporting block, 17. first gears, 18. third motors, 19. rotating bars, 20. limit sleeves, 21. rotation axis, 22. second gears, 23. Paddle, 24. through-holes, 25. connecting rods, 26. scraper plates, 27. fixed plates, 28. fixed links, 29. metal frames, 30. idler wheels.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates basic structure of the invention, therefore it only shows the composition relevant to the invention.

As shown in Figure 1, a kind of bi-component gage mark coating process units with quantitative function, including main body 1 and feed inlet 2, the top of main body 1 is arranged in the feed inlet 2, and quantitative mechanism is equipped in the main body 1, the first valve 13, agitator tank 14, is stirred Mechanism and the second valve 15 are mixed, the top in main body 1 is arranged in the quantitative mechanism, and first valve 13 is arranged in quantitative machine The lower section of structure, the agitator tank 14 are arranged in the bottom in main body 1, and the rabbling mechanism is arranged in agitator tank 14, and described the The lower section of agitator tank 14 is arranged in two valves 15, and the quantitative mechanism is connect by the first valve 13 with agitator tank 14, described to stir It mixes case 14 and is connected to by the second valve 15 with the external of main body 1；

Raw material enters quantitative mechanism, quantitative mechanism work from feed inlet 2, and quantitative adding raw materials are then stirred to agitator tank 14 Mechanism work is mixed, various raw materials are stirred evenly, so that quickly reacting between raw material, generates bi-component gage mark coating.

The quantitative mechanism includes feed unit and control unit, and the top in main body 1, institute is arranged in the feed unit State the lower section that feed unit is arranged in control unit；

As shown in Fig. 2, the feed unit includes feed pipe 3, first motor 4, shaft 5 and screw thread 6, the feed pipe 3 The two sides in main body 1 are separately positioned on first motor 4, the feed pipe 3 is horizontally disposed, and the feed pipe 3 passes through feed inlet 2 External with main body 1 is connected to, and the shaft 5 and screw thread 6 are arranged in feed pipe 3, and the shaft 5 is coaxially set with feed pipe 3 It sets, the first motor 4 is sequentially connected with shaft 5, and the screw thread 6 is wrapped in shaft 5, and the screw thread 6 is along the outer of shaft 5 All Spiral distributions；

As shown in figure 3, described control unit includes quantity tube 7, the second motor 8, screw rod 9, nut 10, push plate 11 and movement Plate 12, second motor 8 and screw rod 9 are separately positioned on the two sides of the lower section of feed pipe 3, and the screw rod 9 is horizontally disposed, described Second motor 8 is sequentially connected with screw rod 9, and the nut 10 is set on screw rod 9, and the nut 10 is matched with screw rod 9, described fixed The lower section of screw rod 9 is arranged in buret 7, and the push plate 11 and movable plate 12 are arranged in quantity tube 7, and the push plate 11 is fixed on The lower section of nut 10；

Feed unit works first, and raw material enters feed pipe 3 from feed inlet 2, and the rotation of 4 drive shaft 5 of first motor passes through Raw material is pressed into quantity tube 7 by screw thread 6, and then control unit works, and raw material enters quantity tube 7, squeezes movable plate 12, so that mobile Plate 12 is close to push plate 11, and when movable plate 12 is contacted with push plate 11, pressure sensor and PLC control the work of the second motor 8, driving Screw rod 9 rotates, and makes push plate 11 drive movable plate 12 mobile by nut 10, the raw material in quantity tube 7 is pushed into agitator tank 14, After the raw material in quantity tube 7 is pushed into agitator tank 14, the second motor 8 drives screw rod 9 to rotate, and makes push plate 11 remote by nut 10 From movable plate 12.

By quantitative mechanism, which can be quantitatively adding raw material, prevent the bi-component mark The production efficiency of line coating production device reduces, and improves the market competitiveness of the bi-component gage mark coating process units, and existing Quantitative mechanism compare, the additive amount of the quantitative mechanism is more accurate.

As shown in figure 4, the rabbling mechanism includes first gear 17, third motor 18, rotating bar 19, fixed plate 27 and two A rotating unit, the first gear 17 are fixed on the top in agitator tank 14, and the third motor 18 is fixed on first gear The lower section of third motor 18 is arranged in 17 lower section, the rotating bar 19, and the third motor 18 is sequentially connected with rotating bar 19, Two rotating units are separately positioned on the both ends of rotating bar 19, and the fixed plate 27 is set on third motor 18, the fixation Plate 27 and third motor 18 are coaxially disposed, and the fixed plate 27 is interference fitted with third motor 18；

The rotating unit includes limit sleeve 20, rotation axis 21, second gear 22, position-limiting unit, strikes off unit and several Paddle 23, the limit sleeve 20 are fixedly connected with rotating bar 19, and the rotation axis 21 is vertically arranged, and the rotation axis 21 passes through limit Position set 20, the rotation axis 21 and 20 clearance fit of limit sleeve, the second gear 22 are fixed on the top of rotation axis 21, each to starch The circumferential periphery for being evenly distributed on shaft 5 of leaf 23, the first gear 17 are engaged with second gear 22, the position-limiting unit setting In the lower section of second gear 22.

Third motor 18 drives rotating bar 19 to rotate, and drives two rotating unit work, and rotating bar 19 passes through limit sleeve 20 So that rotation axis 21 is rotated around first gear 17, then second gear 22 is rotated around first gear 17, passes through position-limiting unit So that paddle 23 rotates, so that the raw material in agitator tank 14 is uniformly mixed.

By rabbling mechanism, the bi-component gage mark coating process units can quickly and effectively mixed raw material, improve this pair The production efficiency of component gage mark coating process units, compared with existing rabbling mechanism, the mixing speed of the rabbling mechanism is very fast, Mixing effect is preferable.

Preferably, main body 1 is slided in order to prevent, the lower section of the main body 1 is set there are four supporting block 16, four supporting blocks 16 are separately positioned on the surrounding of the lower section of main body 1.

Preferably, in order to accurately control the working condition of the second motor 8, the one of the close movable plate 12 of the push plate 11 Side is equipped with pressure sensor and PLC, and the pressure sensor is electrically connected with PLC, second motor 8 and the first valve 13 with PLC electrical connection.

Preferably, being applied between the screw rod 9 and nut 10 to reduce the transmission loss between screw rod 9 and nut 10 There is lubricating oil.

Preferably, the raw material in agitator tank 14 is back to quantity tube 7 in order to prevent, first valve 13 is non-return Valve.

Preferably, in order to enhance mixing effect, the paddle 23 is equipped with several through-holes 24.

Preferably, in order to enable first motor 4, the second motor 8 and third motor 18 being capable of the precise and stable works of long-time Make, the first motor 4, the second motor 8 and third motor 18 are servo motor.

As shown in figure 5, the position-limiting unit includes fixed link 28, metal frame 29 and idler wheel 30, the fixed link 28 is vertical Setting, the bottom end of the fixed link 28 are fixedly connected with fixed plate 27, the top of the fixed link 28 and the fixed company of metal frame 29 Connect, the idler wheel 30 is arranged in metal frame 29, the idler wheel 30 and second gear 22 against.

Preferably, the unit that strikes off includes connecting rod 25 in order to scrape the raw material adhered on 14 inner wall of agitator tank With scraper plate 26, the connecting rod 25 is horizontally disposed, and one end of the connecting rod 25 is fixedly connected with limit sleeve 20, the scraper plate 26 Be fixed on the other end of connecting rod 25, the inner wall of the scraper plate 26 and agitator tank 14 against.

Preferably, in order to accurately control the switch of the second valve 15, second valve 15 is solenoid valve.

The working principle of the bi-component gage mark coating process units with quantitative function: it is fixed that raw material enters from feed inlet 2 Measuring mechanism, quantitative mechanism work, quantitative adding raw materials to agitator tank 14 are followed by stirring for mechanism work, various raw materials are stirred equal It is even, so that quickly reacting between raw material, generate bi-component gage mark coating.

Compared with prior art, the bi-component gage mark coating process units with quantitative function should by quantitative mechanism Bi-component gage mark coating process units can be quantitatively adding raw material, prevent the production efficiency of the bi-component gage mark coating process units It reduces, improves the market competitiveness of the bi-component gage mark coating process units, compared with existing quantitative mechanism, the quantitative mechanism Additive amount it is more accurate, moreover, by rabbling mechanism, which can be quickly and effectively Mixed raw material improves the production efficiency of the bi-component gage mark coating process units, compared with existing rabbling mechanism, the blender The mixing speed of structure is very fast, and mixing effect is preferable.

Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.

Claims (10)

1. a kind of bi-component gage mark coating process units with quantitative function, which is characterized in that including main body (1) and feed inlet (2), the feed inlet (2) setting be equipped in the top of main body (1), the main body (1) quantitative mechanism, the first valve (13), Agitator tank (14), rabbling mechanism and the second valve (15), the top that the quantitative mechanism is arranged in main body (1), described first The lower section of quantitative mechanism, the bottom that the agitator tank (14) is arranged in main body (1), the rabbling mechanism is arranged in valve (13) Setting is in the agitator tank (14), and in the lower section of agitator tank (14), the quantitative mechanism passes through for the second valve (15) setting One valve (13) is connect with agitator tank (14), and the agitator tank (14) is connected to by the second valve (15) with the external of main body (1)；

The quantitative mechanism includes feed unit and control unit, and the top that the feed unit is arranged in main body (1) is described The lower section of feed unit is arranged in control unit；

The feed unit includes feed pipe (3), first motor (4), shaft (5) and screw thread (6), the feed pipe (3) and One motor (4) is separately positioned on the two sides in main body (1), and the feed pipe (3) is horizontally disposed, the feed pipe (3) by into Material mouth (2) is connected to the external of main body (1), and the shaft (5) and screw thread (6) are arranged in feed pipe (3), the shaft (5) it is coaxially disposed with feed pipe (3), the first motor (4) and shaft (5) are sequentially connected, and the screw thread (6) is wrapped in shaft (5) on, the screw thread (6) along shaft (5) periphery Spiral distribution；

Described control unit includes quantity tube (7), the second motor (8), screw rod (9), nut (10), push plate (11) and movable plate (12), second motor (8) and screw rod (9) are separately positioned on the two sides of the lower section of feed pipe (3), and the screw rod (9) is horizontal Setting, second motor (8) and screw rod (9) are sequentially connected, and the nut (10) is set on screw rod (9), the nut (10) it is matched with screw rod (9), in the lower section of screw rod (9), the push plate (11) and movable plate (12) are equal for quantity tube (7) setting In quantity tube (7), the push plate (11) is fixed on the lower section of nut (10) for setting；

The rabbling mechanism includes first gear (17), third motor (18), rotating bar (19), fixed plate (27) and two rotations Unit, the first gear (17) are fixed on the top in agitator tank (14), and the third motor (18) is fixed on first gear (17) lower section, the rotating bar (19) are arranged in the lower section of third motor (18), the third motor (18) and rotating bar (19) it is sequentially connected, two rotating units are separately positioned on the both ends of rotating bar (19), and the fixed plate (27) is set in third On motor (18), the fixed plate (27) and third motor (18) are coaxially disposed, the fixed plate (27) and third motor (18) Interference fit；

The rotating unit include limit sleeve (20), rotation axis (21), second gear (22) if, position-limiting unit, strike off unit and Dry pulp leaf (23), the limit sleeve (20) are fixedly connected with rotating bar (19), and the rotation axis (21) is vertically arranged, the rotation Axis (21) passes through limit sleeve (20), the rotation axis (21) and limit sleeve (20) clearance fit, and the second gear (22) is fixed On the top of rotation axis (21), each paddle (23) is circumferentially evenly distributed on the periphery of shaft (5), the first gear (17) and the Two gears (22) engagement, lower section of the position-limiting unit setting in second gear (22).

2. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that the master It is set below body (1) there are four supporting block (16), four supporting blocks (16) are separately positioned on the surrounding of the lower section of main body (1).

3. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that described to push away The side of the close movable plate (12) of plate (11) is equipped with pressure sensor and PLC, and the pressure sensor is electrically connected with PLC, institute It states the second motor (8) and the first valve (13) is electrically connected with PLC.

4. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that the silk Lubricating oil is coated between bar (9) and nut (10).

5. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that described the One valve (13) is check-valves.

6. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that the slurry Leaf (23) is equipped with several through-holes (24).

7. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that described the One motor (4), the second motor (8) and third motor (18) are servo motor.

8. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that the limit Bit location includes fixed link (28), metal frame (29) and idler wheel (30), and the fixed link (28) is vertically arranged, the fixed link (28) bottom end is fixedly connected with fixed plate (27), and the top of the fixed link (28) is fixedly connected with metal frame (29), described Idler wheel (30) setting in the metal frame (29), the idler wheel (30) and second gear (22) against.

9. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that described to scrape Except unit includes connecting rod (25) and scraper plate (26), the connecting rod (25) is horizontally disposed, one end of the connecting rod (25) with Limit sleeve (20) is fixedly connected, and the scraper plate (26) is fixed on the other end of connecting rod (25), the scraper plate (26) and agitator tank (14) inner wall against.

10. as described in claim 1 with the bi-component gage mark coating process units of quantitative function, which is characterized in that described Second valve (15) is solenoid valve.