CN214382696U - Anti-oxidation coating production system - Google Patents

Abstract

The utility model discloses an anti-oxidation coating production system, which comprises a supporting column and a side support, wherein the side support is provided with two bottom plates, round holes are arranged on the bottom plates, the supporting column is connected between the two bottom plates and between a lower bottom plate and the ground, a storage tank is arranged on the upper bottom plate, a metering device is arranged on the lower bottom plate, an emulsion tank is arranged on the ground at the lower part of the lower bottom plate, the side support is of a three-dimensional frame structure and is provided with a lifting plate in a sliding manner in the frame, the top of the side support is provided with an electric hoist, and the electric hoist is connected with the lifting plate through a steel wire rope; an object of the utility model is to provide an anti-oxidation coating production system to expect to improve anti-oxidation coating production efficiency.

Description

Anti-oxidation coating production system

Technical Field

The utility model relates to a chemical industry technical field, concretely relates to anti-oxidant coating production system.

Background

The antioxidant paint is a water-based special protective agent consisting of various inorganic materials and a high-temperature binder, and can form a compact inorganic protective layer at high temperature. Be applicable to alloy steel, tool and die steel, heat-resistant steel, stainless steel, prevent high temperature oxidation and decarbonization when thermal treatment, forging and pressing heating, the utility model aims at providing an anti-oxidation coating production system to improve anti-oxidation coating production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an anti-oxidation coating production system to expect to improve anti-oxidation coating production efficiency.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the anti-oxidation coating production system comprises a support column and a side support, wherein two bottom plates are arranged on the side portion of the side support, round holes are formed in the bottom plates, the support column is connected between the two bottom plates and between a lower bottom plate and the ground, a storage tank is arranged on an upper bottom plate, a metering device is arranged on the lower bottom plate, an emulsifying tank is arranged on the ground at the lower portion of the lower bottom plate, the side support is of a three-dimensional frame structure, a lifting plate is arranged in the side support in a sliding mode, an electric hoist is arranged at the top of the side support, and the electric hoist is connected with the lifting plate through a steel wire rope;

the storage tank comprises a storage tank body, wherein a rectangular hole is formed in the upper surface of the storage tank body, a trapezoidal shell cover with the bottom surface removed is arranged at the top of the storage tank body, a rectangular feed port is formed in the inclined surface of the trapezoidal shell cover, a door plate is hinged to the rectangular feed port, a vertical baffle is arranged in the trapezoidal shell cover and located on one side of the rectangular hole, an ash blocking inclined plate is hinged to the inner side of the rectangular feed port, the lower edge of the ash blocking inclined plate is connected with the inner wall of the trapezoidal shell cover through a spring, a dust suction device is arranged at the top of the trapezoidal shell cover, and a discharge port of the storage tank is connected to the circular hole of the upper bottom plate and connected with a first valve;

the metering device comprises a conical hopper, a partition plate is arranged in the conical hopper, a first flowmeter is connected onto the partition plate, the upper part of the first flowmeter is connected with a feeding pipe, a second valve is arranged on the feeding pipe, the feeding pipe penetrates out of the top of the conical hopper, and the feeding pipe is communicated with a round hole of an upper bottom plate through a guide pipe;

the emulsification tank includes the emulsification tank body, and emulsification tank body top central authorities are provided with the low-speed motor, and emulsification tank body top one side is provided with high-speed motor, and low-speed motor is opposite just with high-speed motor's direction of rotation all be provided with the third pivot on high-speed motor and the low-speed motor, and this is internal for the emulsification tank is stretched into in the third pivot, is located to be provided with stirring vane in the third pivot at middle part, is located to be provided with the emulsification fluted disc in the third pivot of side, and stirring vane and the mutual staggered arrangement of emulsification fluted disc, this internal heating rod that still is provided with of emulsification tank.

Furthermore, the bottom plate edge is provided with the guardrail, is provided with the cat ladder between ground and the lower part bottom plate and between two bottom plates.

Furthermore, dust extraction one side is provided with the magnetism and inhales the sloping block that is used for adsorbing the door plant, dust extraction passes through the dust absorption pipeline and is connected with the suction hood, and the suction hood sets up in the internal top of storage tank.

Further, storage tank body top is provided with first motor, and trapezoidal clamshell is established on first motor and is connected with first pivot on the first motor output, and during storage tank body was stretched into to first pivot, and first pivot upper portion was provided with first sieve charging tray, and first pivot lower part is provided with the pay-off spiral, and the pay-off spiral is arranged in the discharge port of storage tank.

Furthermore, the top of the conical hopper is provided with a second motor, the second motor is connected with a second rotating shaft, the second rotating shaft extends into the conical hopper and penetrates through the partition plate, the second rotating shaft is provided with a material mixing blade and a second material screening plate, and the material mixing blade and the second material screening plate are both located on the lower portion of the partition plate.

Furthermore, a second valve and a connecting flange are arranged on a discharge hole at the bottom of the conical hopper, the connecting flange is connected with a round hole of the lower-layer bottom plate through a screw, a control console is arranged on the upper portion of the conical hopper, and the control console is electrically connected with the second valve, the first flowmeter and the second motor respectively.

Further, the baffle center is provided with and is used for supplying the bearing that the second pivot wore to establish, still is provided with three inlet pipe port of being connected with first flowmeter 904 on the baffle.

Further, emulsification tank body bottom is provided with a plurality of row material nozzle stub, arranges the slope on the material nozzle stub and is connected with row material pipe, is provided with feeding takeover and feed liquor pipe at emulsification tank body top, is provided with the second flowmeter on the feed liquor pipe.

Further, the quantity of storage tank is 6, metering device's quantity is 2, and metering device is connected to three storage tank, the quantity of emulsification tank is 2.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model is provided with a storage tank, a metering device, an emulsifying tank for storing, proportioning and mixing and emulsifying raw materials, and a lifting plate is arranged on a side bracket to facilitate lifting and conveying the raw materials to a storage tank on the upper layer, a dust suction device and an ash blocking inclined plate connected by a spring are arranged on the storage tank, the floating of dust during feeding can be effectively prevented by the two measures, a first screening disc and a feeding spiral are arranged on a first rotating shaft in the storage tank to screen the raw materials and facilitate discharging the materials, three flowmeters are arranged in the metering device to facilitate metering and proportioning of different materials, a mixing blade is arranged at the lower part in a conical hopper to preliminarily mix the materials, a stirring blade rotating at low speed and an emulsifying fluted disc rotating at high speed are arranged in the emulsifying tank, the stirring blade and the emulsifying fluted disc rotate reversely, and the stirring blade and the emulsifying disc can increase the severity of the shearing motion of the materials in such a way, so as to achieve the purpose of high-efficiency emulsification. The system can effectively shorten the production period and improve the production efficiency of the antioxidant.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of a storage tank.

Fig. 3 is a schematic structural diagram of the metering device.

Fig. 4 is a schematic view of the separator of fig. 3.

Fig. 5 is a schematic diagram of the structure of the emulsification tank.

In the figure, 1-side bracket, 2-side bracket, 3-bottom plate, 4-lifting plate, 5-electric hoist, 6-guardrail, 7-ladder, 8-storage tank, 9-metering device, 10-emulsifying tank, 801-storage tank body, 802-dust-collecting device, 803-dust-collecting pipeline, 804-dust-collecting cover, 805-trapezoidal shell cover, 806-door plate, 807-dust-blocking inclined plate, 808-spring, 809-vertical baffle, 810-first motor, 811-first rotating shaft, 812-first sieve plate, 813-feeding screw, 814-first valve, 815-magnetic attraction inclined block, 901-conical hopper, 902-feeding pipe, 903-second valve, 904-first flowmeter, 905-control console, 906-guide pipe, 907-second motor, 908-mixing blade, 909-second screening disc, 910-third valve, 911-connecting flange, 912-partition plate, 912 a-feeding pipe port, 912 b-bearing, 913-second rotating shaft, 1001-emulsifying tank body, 1002-high-speed motor, 1003-low-speed motor, 1004-feeding connecting pipe, 1005-liquid inlet pipe, 1006-second flowmeter, 1007-third rotating shaft, 1008-discharging pipe, 1009-stirring blade, 1010-emulsifying fluted disc, 1011-heating rod and 1012-discharging short pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1:

referring to fig. 1, the utility model provides an antioxidant coating production system, which comprises a pillar 2 and a side bracket 1, wherein two bottom plates 3 are arranged on the side portion of the side bracket 1, round holes are arranged on the bottom plates 3, pillars are connected between the two bottom plates 3 and between the lower bottom plate 3 and the ground, a storage tank 8 is arranged on the upper bottom plate 3, a metering device 9 is arranged on the lower bottom plate 3, an emulsion tank 10 is arranged on the ground under the lower bottom plate 3, the side bracket 1 is of a three-dimensional frame structure and is provided with a lifting plate 4 in a sliding manner, an electric hoist 5 is arranged on the top of the side bracket 1, the electric hoist 5 is connected with the lifting plate 4 through a steel wire rope, the lifting plate 4 is arranged to conveniently lift materials to the upper storage tank 8, preferably, the number of the storage tanks 8 is 6, the number of the metering devices 9 is 2, the three tanks 8 are connected with one metering device 9, the metering device 9 is one big and one small, and the number of the emulsification tanks 10 is 2;

referring to fig. 2, the storage tank 8 includes a storage tank body 801, a rectangular hole is formed in the upper surface of the storage tank body 801, a trapezoidal shell 805 with a bottom removed is formed in the top of the storage tank body 801, a rectangular feed opening is formed in the inclined plane of the trapezoidal shell 805, a door plate 806 is hinged to the rectangular feed opening, the door plate 806 is opened upwards along the hinged joint to facilitate the material to be poured into the storage tank body 801 through the rectangular feed opening, a vertical baffle 809 is arranged in the trapezoidal shell 805, the vertical baffle 809 is located on one side of the rectangular hole, an ash blocking inclined plate 807 is hinged to the inner side of the rectangular feed opening, the lower edge of the ash blocking inclined plate 807 is connected with the inner wall of the trapezoidal shell 805 through a spring 808, when the spring 808 is not deformed, a gap of 0.5-1cm is formed between the lower edge of the ash blocking inclined plate 807 and the vertical baffle 809 to allow a small amount of powder to pass through, when the poured powder is too much, the spring 808 is deformed by pressure, so that the gap between the ash blocking inclined plate 807 and the vertical baffle 809 is increased, the spring 808 recovers after powder is poured into the material to prevent the dust from floating, the top of the trapezoidal shell 805 is provided with a dust suction device 802 to further absorb the dust, a discharge port of the material storage tank 8 is connected with the round hole of the upper-layer bottom plate 3, and the discharge port is connected with a first valve 814;

referring to fig. 3, the metering device 9 includes a conical hopper 901, a partition 912 is arranged in the conical hopper 901 to divide the conical hopper 901 into an upper area and a lower area, a first flow meter 904 is connected to the partition 912, a feed pipe 902 is connected to the upper portion of the first flow meter 904, a second valve 903 is arranged on the feed pipe 902, the feed pipe 902 penetrates through the top of the conical hopper 901, and the feed pipe 902 is communicated with a circular hole of the upper bottom plate 3 through a conduit 906, so that the material in the storage tank body 801 is discharged into the conical hopper 901 for proportioning mixing;

referring to fig. 5, emulsification tank 10 includes emulsification tank body 1001, emulsification tank body 1001 top center is provided with low-speed motor 1003, emulsification tank body 1001 top one side is provided with high-speed motor 1002, low-speed motor 1003 and high-speed motor 1002's rotation opposite direction just all be provided with third pivot 1007 on high-speed motor 1002 and the low-speed motor 1003, third pivot 1007 stretches into in emulsification tank body 1001, is provided with stirring vane 1009 on the third pivot 1007 that is located the middle part, is provided with emulsification fluted disc 1010 on the third pivot 1007 that is located the side, stirring vane 1009 and emulsification fluted disc 1010 staggered arrangement each other, through making powder shearing movement more violent like this, thereby make the emulsification process more high-efficient still be provided with heating rod 1011 in emulsification tank body 1001.

Example 2:

on the basis of the above embodiment, the utility model discloses another embodiment is, bottom plate 3 edge is provided with guardrail 6, is provided with cat ladder 7 between ground and the lower part bottom plate 3 and between two bottom plates 3.

Example 3:

on the basis of the above-mentioned embodiment, the utility model discloses a another embodiment is, dust extraction 802 one side is provided with the magnetism that is used for adsorbing door plant 806 and inhales sloping block 815, can inhale it and inhale when door plant 806 upwards opens and inhale and go on fixing on the sloping block 815, dust extraction 802 is connected with suction hood 804 through dust absorption pipeline 803, and suction hood 804 sets up top in storage tank body 801. Storage tank body 801 top is provided with first motor 810, trapezoidal shell cover 805 covers and establishes on first motor 810 and be connected with first pivot 811 on the first motor 810 output, first pivot 811 stretches into in storage tank body 801, and first pivot 811 upper portion is provided with first sieve charging tray 812, thereby sieve the powder, with the particulate matter in the powder of detaching, first pivot 811 lower part is provided with pay-off spiral 813, pay-off spiral 813 is located storage tank 8's row material port, thereby prevent that the powder from blockking up row material port and do benefit to the smooth discharge of powder.

Example 4:

on the basis of the above embodiment, the utility model discloses a another embodiment is, toper fill 901 top is provided with second motor 907, is connected with second pivot 913 on the second motor 907, and second pivot 913 stretches into toper fill 901 in and passes baffle 912, is provided with compounding blade 908 and second sieve charging tray 909 in second pivot 913 to filter once more and preliminary mixing stirring the powder of joining in marriage, compounding blade 908 and second sieve charging tray 909 all are located baffle 912 lower part. A third valve 910 and a connecting flange 911 are arranged on a discharge opening at the bottom of the conical hopper 901, the connecting flange 911 is connected with a round hole of the lower bottom plate 3 through a screw, a control console 905 is arranged on the upper portion of the conical hopper 901, and the control console 905 is electrically connected with the third valve 910, the second valve 903, the first flow meter 904 and the second motor 907 respectively.

Example 5:

referring to fig. 4, the partition 912 is centrally provided with a bearing 912b for the second rotating shaft 913 to pass through, and the partition 912 is further provided with three feed pipe ports 912a connected to the first flow meter 904.

Example 6:

on the basis of the above-mentioned embodiment, the utility model discloses a further embodiment is, because the antioxidant has certain viscidity, in order to facilitate the emission of antioxidant, emulsion tank body 1001 bottom is provided with a plurality of row material nozzle stub 1012, it has row material pipe 1008 to incline to be connected with on row material nozzle stub 1012, be provided with row material valve on arranging material pipe 1008, be provided with feeding takeover 1004 and feed liquor pipe 1005 at emulsion tank body 1001 top, feeding takeover 1004 is connected through pipeline and the round hole department that is located lower floor's bottom plate 3, thereby with the material after the preliminary mixing in the toper fill 901 let in emulsion tank body 1001, be used for letting in the emulsion in feed liquor pipe 1005, be provided with second flowmeter 1006 on feed liquor pipe 1005, in order to facilitate the monitoring the volume that lets in the emulsion.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts or arrangements, other uses will also be apparent to those skilled in the art.

Claims (9)

1. Anti-oxidant coating production system, including pillar (2), side support (1), its characterized in that: the side support is characterized in that two bottom plates (3) are arranged on the side portion of the side support (1), round holes are formed in the bottom plates (3), pillars are connected between the two bottom plates (3) and between the lower bottom plate (3) and the ground, a storage tank (8) is arranged on the upper bottom plate (3), a metering device (9) is arranged on the lower bottom plate (3), an emulsifying tank (10) is arranged on the ground at the lower portion of the lower bottom plate (3), the side support (1) is of a three-dimensional frame structure and is provided with a lifting plate (4) in a sliding mode, an electric hoist (5) is arranged at the top of the side support (1), and the electric hoist (5) is connected with the lifting plate (4) through a steel wire rope;

the storage tank (8) comprises a storage tank body (801), a rectangular hole is formed in the upper surface of the storage tank body (801), a trapezoidal shell cover (805) with the bottom removed is arranged at the top of the storage tank body (801), a rectangular feed port is formed in the inclined surface of the trapezoidal shell cover (805), a door plate (806) is hinged to the rectangular feed port, a vertical baffle (809) is arranged in the trapezoidal shell cover (805), the vertical baffle (809) is located on one side of the rectangular hole, an ash blocking inclined plate (807) is hinged to the inner side of the rectangular feed port, the lower edge of the ash blocking inclined plate (807) is connected with the inner wall of the trapezoidal shell cover (805) through a spring (808), a dust suction device (802) is arranged at the top of the trapezoidal shell cover (805), and a discharge port of the storage tank (8) is connected to the circular hole of the upper bottom plate (3) and is connected with a first valve (814);

the metering device (9) comprises a conical hopper (901), a partition plate (912) is arranged in the conical hopper (901), a first flow meter (904) is connected onto the partition plate (912), a feeding pipe (902) is connected to the upper portion of the first flow meter (904), a second valve (903) is arranged on the feeding pipe (902), the feeding pipe (902) penetrates out of the top of the conical hopper (901), and the feeding pipe (902) is communicated with a round hole of the upper bottom plate (3) through a guide pipe (906);

emulsification tank (10) are including emulsification tank body (1001), emulsification tank body (1001) top center is provided with low-speed motor (1003), emulsification tank body (1001) top one side is provided with high-speed motor (1002), low-speed motor (1003) just with the rotation direction of high-speed motor (1002) opposite all be provided with third pivot (1007) on high-speed motor (1002) and low-speed motor (1003), third pivot (1007) stretch into emulsification tank body (1001), be provided with stirring vane (1009) on third pivot (1007) that are located the middle part, be provided with emulsification fluted disc (1010) on third pivot (1007) that are located the side, stirring vane (1009) and emulsification fluted disc (1010) staggered arrangement each other, still be provided with heating rod (1011) in emulsification tank body (1001).

2. The oxidation-resistant paint production system according to claim 1, characterized in that: the guardrail (6) is arranged at the edge of the bottom plate (3), and the crawling ladder (7) is arranged between the ground and the bottom plate (3) and between the two bottom plates (3).

3. The oxidation-resistant paint production system according to claim 1, characterized in that: one side of the dust suction device (802) is provided with a magnetic attraction inclined block (815) for attracting the door plate (806), the dust suction device (802) is connected with a dust hood (804) through a dust suction pipeline (803), and the dust hood (804) is arranged at the top in the material storage tank body (801).

4. The oxidation-resistant paint production system according to claim 1, characterized in that: the top of the storage tank body (801) is provided with a first motor (810), a trapezoidal shell cover (805) covers the first motor (810) and is connected with a first rotating shaft (811) at the output end of the first motor (810), the first rotating shaft (811) extends into the storage tank body (801), a first screening plate (812) is arranged on the upper portion of the first rotating shaft (811), a feeding screw (813) is arranged on the lower portion of the first rotating shaft (811), and the feeding screw (813) is located in a discharging port of the storage tank (8).

5. The oxidation-resistant paint production system according to claim 1, characterized in that: the top of the conical hopper (901) is provided with a second motor (907), the second motor (907) is connected with a second rotating shaft (913), the second rotating shaft (913) extends into the conical hopper (901) and penetrates through the partition plate (912), the second rotating shaft (913) is provided with a mixing blade (908) and a second screening plate (909), and the mixing blade (908) and the second screening plate (909) are both located on the lower portion of the partition plate (912).

6. The oxidation-resistant paint production system according to claim 1, characterized in that: the device is characterized in that a third valve (910) and a connecting flange (911) are arranged on a discharge opening at the bottom of the conical hopper (901), the connecting flange (911) is connected with a round hole of the lower bottom plate (3) through a screw, a control console (905) is arranged on the upper portion of the conical hopper (901), and the control console (905) is electrically connected with the third valve (910), the second valve (903), the first flowmeter (904) and the second motor (907) respectively.

7. The oxidation-resistant paint production system according to claim 1, characterized in that: the center of the clapboard (912) is provided with a bearing (912b) for the second rotating shaft (913) to penetrate through, and the clapboard (912) is also provided with three feeding pipe ports (912a) connected with the first flowmeter (904).

8. The oxidation-resistant paint production system according to claim 1, characterized in that: the bottom of the emulsification tank body (1001) is provided with a plurality of material discharging short pipes (1012), the material discharging short pipes (1012) are connected with a material discharging pipe (1008) in an inclined mode, the top of the emulsification tank body (1001) is provided with a material feeding connecting pipe (1004) and a liquid feeding pipe (1005), and the liquid feeding pipe (1005) is provided with a second flowmeter (1006).

9. The oxidation-resistant paint production system according to claim 1, characterized in that: the quantity of storage tank (8) is 6, metering device (9) is 2, and metering device (9) is connected in three storage tank (8), the quantity of emulsification tank (10) is 2.

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