CN216779185U - Anticorrosive material spraying device based on ceramic heat preservation construction - Google Patents

Abstract

The utility model discloses an anticorrosive material spraying device based on ceramic heat insulation construction, which comprises a bottom plate, a first charging barrel arranged on the bottom plate and a second charging barrel arranged on the bottom plate, wherein a universal wheel is arranged below the bottom plate, a sliding frame is arranged on one side of the bottom plate, sliding grooves are formed in the inner walls of the two sides of the sliding frame, sliding blocks are connected inside the sliding grooves in a sliding manner, a spraying gun is arranged on the sliding blocks, and a containing kettle is communicated with the bottom of the spraying gun. And can reduce the manpower operation, reduce the advantage of labour cost.

Description

Anticorrosive material spraying device based on ceramic heat preservation construction

Technical Field

The utility model belongs to the technical field of anticorrosive material spraying, and particularly relates to an anticorrosive material spraying device based on ceramic heat preservation construction.

Background

Because the influence factors of the corrosive environment, corrosive medium and load of the pipeline in the wellhead are numerous, and the factors are often associated and interacted, the anti-corrosion and heat-preservation work in the design work of the wellhead is particularly important, and the problems in the prior art are that: the spraying material has high viscosity, so that the mixing is uneven, the spraying quality is affected, and the manual spraying is carried out by manually holding the spray gun, so that the labor intensity is high.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides an anticorrosive material spraying device based on ceramic heat preservation construction, which has the advantages that anticorrosive materials can be filtered and then added into a spray gun, so that the situation that impurities in anticorrosive paint block a nozzle to influence use is avoided, manual operation can be reduced, labor cost is reduced, and the problems that the spraying quality is influenced due to uneven mixing caused by the fact that the viscosity of the spraying materials is high, and the labor intensity is high when the spray gun is manually held by a hand in the prior art are solved.

The utility model is realized in such a way that an anticorrosive material spraying device based on ceramic heat-preservation construction comprises a bottom plate, a first charging bucket arranged on the bottom plate and a second charging bucket arranged on the bottom plate, universal wheels are arranged below the bottom plate, a sliding frame is arranged on one side of the bottom plate, sliding grooves are formed in the inner walls of the two sides of the sliding frame, a sliding block is connected inside the sliding chute in a sliding way, a spraying gun is arranged on the sliding block, a containing kettle is communicated with the bottom of the spraying gun, the bottom of the first charging barrel is communicated with a first discharging pipe, the bottom of the second charging barrel is communicated with a second discharging pipe, a feeding pipe is communicated and arranged between the first discharging pipe and the second discharging pipe, one end of the feeding pipe is communicated and provided with a screw pump, the screw pump is located above the bottom plate, the output end of the screw pump is connected with a material conveying hose, and the other end of the material conveying hose is communicated with the containing kettle.

Preferably, a support frame is arranged above the bottom plate, a first motor is arranged at the bottom of the support frame, a rotating shaft is arranged at the output end of the first motor, a first rotating rod is rotatably connected inside the first charging barrel, a second rotating rod is rotatably connected inside the second charging barrel, helical blades are arranged on the circumferential outer walls of the first rotating rod and the second rotating rod, one ends of the first rotating rod and the second rotating rod extend to the tops of the first charging barrel and the second charging barrel respectively and are movably connected with the first charging barrel and the second charging barrel, driven gears are arranged at the top ends of the first rotating rod and the second rotating rod, and driving gears meshed with the driven gears are arranged on the rotating shaft.

Preferably, the bottom plate is provided with a second motor, the second motor is located right below the sliding frame, an output end of the second motor is connected with a screw rod, and the screw rod penetrates through the sliding block and is in threaded connection with the sliding block.

Preferably, the first discharge pipe is provided with a first valve, and the second discharge pipe is provided with a second valve.

Preferably, the first discharge pipe and the second discharge pipe are provided with filter screens at ends far away from the feeding pipe.

Preferably, the spraying gun is provided with two baffles, and the two baffles are arranged oppositely.

Compared with the prior art, the utility model has the following beneficial effects:

1. the spray gun has the advantages that the spray gun can filter an anticorrosive material and add the anticorrosive material into the spray gun, the nozzle is prevented from being blocked by impurities in the anticorrosive paint, the use is prevented from being influenced, the manual operation is reduced, and the labor cost is reduced.

2. According to the utility model, through the matched use of the support frame, the first motor, the rotating shaft, the first rotating rod, the second rotating rod, the helical blades, the driven gears and the driving gear, the two driven gears can be driven to rotate through the driving gear when the first motor is started, so that the first rotating rod and the second rotating rod drive the two helical blades to stir the anticorrosive materials in the first charging barrel and the second charging barrel, and the mixing uniformity is higher. The deposition of anticorrosive material is avoided.

3. According to the utility model, the second motor is arranged and the screw rod is matched for use, so that the second motor can drive the screw rod to rotate, the slide block drives the spraying gun to move up and down on the sliding frame, the manual handheld spraying gun is replaced for spraying, and the spraying efficiency is improved.

4. According to the utility model, through the cooperation of the first valve and the second valve, the first charging bucket or the second charging bucket can be independently closed, and the anticorrosive coatings in the first charging bucket or the second charging bucket can be conveniently and independently sprayed.

5. According to the utility model, through arranging the filter screen, impurities in the anticorrosive paint in the first charging bucket or the second charging bucket can be filtered, and the spraying effect is prevented from being influenced by the fact that the spraying gun is blocked by the anticorrosive material.

6. According to the spray gun, the baffle plate is arranged, so that the anticorrosive material sprayed by the spray gun can be gathered, and the spray quality is prevented from being influenced by the fact that the anticorrosive material splashes to two sides.

Drawings

FIG. 1 is a schematic isometric view of an embodiment of the present invention;

FIG. 2 is a right side view provided by an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view taken along line a-a in fig. 2 according to an embodiment of the present invention.

In the figure: 1. a base plate; 101. a first charging barrel; 102. a second charging barrel; 103. a universal wheel; 104. a carriage; 105. a chute; 106. a slider; 108. a spray gun; 109. a pot is contained; 110. a first discharge pipe; 111. a second discharge pipe; 112. a feeding pipe; 113. a screw pump; 114. a delivery hose; 2. a support frame; 201. a first motor; 202. a rotating shaft; 203. a first rotating lever; 204. a second rotating rod; 205. a helical blade; 206. a driven gear; 207. a driving gear; 3. a second motor; 301. a screw rod; 4. a first valve; 401. a second valve; 5. a filter screen; 6. and a baffle plate.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are illustrated and described in detail with reference to the accompanying drawings.

The structure of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 3, an anticorrosive material spraying apparatus based on ceramic thermal insulation construction according to an embodiment of the present invention includes a bottom plate 1, a first charging barrel 101 disposed on the bottom plate 1, and a second charging barrel 102 disposed on the bottom plate 1, a universal wheel 103 is disposed below the bottom plate 1, a sliding frame 104 is disposed on one side of the bottom plate 1, sliding grooves 105 are disposed on inner walls of both sides of the sliding frame 104, a sliding block 106 is slidably connected inside the sliding grooves 105, a spraying gun 108 is disposed on the sliding block 106, a containing pot 109 is disposed at a bottom of the spraying gun 108, a first discharging pipe 110 is disposed at a bottom of the first charging barrel 101, a second discharging pipe 111 is disposed at a bottom of the second charging barrel 102, a feeding pipe 112 is disposed between the first discharging pipe 110 and the second discharging pipe 111, and one end of the feeding pipe 112 is communicated with a screw pump 113, the screw pump 113 is located above the bottom plate 1, the output end of the screw pump 113 is connected with a delivery hose 114, and the other end of the delivery hose 114 is communicated with the containing pot 109.

Referring to fig. 3, a supporting frame 2 is arranged above the bottom plate 1, a first motor 201 is arranged at the bottom of the supporting frame 2, a rotating shaft 202 is arranged at an output end of the first motor 201, a first rotating rod 203 is rotatably connected inside the first charging barrel 101, a second rotating rod 204 is rotatably connected inside the second charging barrel 102, helical blades 205 are arranged on circumferential outer walls of the first rotating rod 203 and the second rotating rod 204, one ends of the first rotating rod 203 and the second rotating rod 204 extend to the tops of the first charging barrel 101 and the second charging barrel 102 respectively and are movably connected with the first charging barrel 101 and the second charging barrel 102, driven gears 206 are arranged at the top ends of the first rotating rod 203 and the second rotating rod 204, and a driving gear 207 meshed with the driven gears 206 is arranged on the rotating shaft 202.

Adopt above-mentioned scheme: through setting up support frame 2, first motor 201, pivot 202, first bull 203, second bull 204, helical blade 205, driven gear 206 and driving gear 207's cooperation is used, can make when first motor 201 starts drive two driven gear 206 rotations through driving gear 207, thereby make first bull 203 and second bull 204 drive two helical blade 205 in first charging bucket 101 and second charging bucket 102 to anticorrosive material stirring from bottom to top, the coating splashes, make its mixing uniformity degree higher, avoid anticorrosive material to deposit.

Referring to fig. 3, a second motor 3 is disposed on the bottom plate 1, the second motor 3 is located right below the sliding frame 104, an output end of the second motor 3 is connected with a lead screw 301, and the lead screw 301 penetrates through the sliding block 106 and is in threaded connection with the sliding block 106.

Adopt above-mentioned scheme: through the cooperation that sets up second motor 3 and lead screw 301 and use, can make second motor 3 drive lead screw 301 and rotate to make slider 106 drive spraying gun 108 reciprocate on carriage 104, replace artifical handheld spraying gun 108 to carry out the spraying, improve spraying efficiency.

Referring to fig. 3, the first discharge pipe 110 is provided with a first valve 4, and the second discharge pipe 111 is provided with a second valve 401.

The scheme is adopted: through the cooperation that sets up first valve 4 and second valve 401, can close first charging bucket 101 or second charging bucket 102 alone, conveniently carry out independent spraying with the anticorrosive paint in first charging bucket 101 or the second charging bucket 102, carry out after 15-30 minutes are accomplished in the first layer spraying of last step construction, it is decided according to well temperature and ambient temperature to it is suitable not to be stained with coating to touch.

Referring to fig. 3, the first discharging pipe 110 and the second discharging pipe 111 are provided with a filter screen 5 at ends thereof far away from the feeding pipe 112.

Adopt above-mentioned scheme: through setting up filter screen 5, can filter the impurity in the anticorrosive coating in first charging bucket 101 or the second charging bucket 102, avoid anticorrosive material to block up spraying gun 108, influence the spraying effect.

Referring to fig. 3, the coating gun 108 is provided with two baffles 6, and the two baffles 6 are arranged oppositely.

Adopt above-mentioned scheme: through setting up baffle 6, can gather together the anticorrosive material that spray gun 108 erupted, avoid anticorrosive material to splash to both sides, influence the spraying quality.

The working principle of the utility model is as follows:

when the anti-corrosion coating machine is used, the first motor 201 is started to drive the rotating shaft 202 to rotate, the rotating shaft 202 drives the driving gear 207 and the driven gear 206 to rotate, so that the driven gear 206 drives the first rotating rod 203 and the second rotating rod 204 to rotate, the anti-corrosion materials in the first charging barrel 101 and the second charging barrel 102 are uniformly stirred through the helical blades 205, the anti-corrosion materials in the first charging barrel 101 and the second charging barrel 102 are continuously stirred upwards to avoid precipitation and are uniformly mixed, the second valve 401 is closed, the anti-corrosion materials in the first charging barrel 101 are conveyed into the containing kettle 109 through the conveying hose 114 through the screw pump 113, the model of the screw pump 113 is G25-2, and then the anti-corrosion materials are sprayed out through the spraying gun 108 to form a firm thin layer on the spraying surface, so that the adhesive force of the coating is enhanced, a good foundation is laid for subsequent construction, and after the first-layer spraying of the previous construction is finished for 15-30 minutes, the first valve 4 is closed, the second valve 401 is opened, the anticorrosive material in the second charging barrel 102 is conveyed into the containing kettle 109 through the conveying hose 114 by the screw pump 113 for secondary spraying, a heat-insulating protective layer with a certain thickness is formed on the spraying surface, the heat loss of a medium in a pipeline is reduced, heat radiation can be reflected, a good heat-insulating effect is achieved, the second motor 3 can be started to drive the screw rod 301 to rotate during spraying, the sliding block 106 drives the spraying gun 108 to move up and down, the manual handheld spraying gun 108 is replaced for spraying, and the spraying efficiency is improved.

In summary, the following steps: this anticorrosive material spraying device based on ceramic heat preservation construction, through setting up bottom plate 1, first charging bucket 101, second charging bucket 102, universal wheel 103, carriage 104, spout 105, slider 106, spray gun 108, splendid attire kettle 109, first discharging pipe 110, second discharging pipe 111, pan feeding pipe 112, screw pump 113 and conveying hose 114's cooperation is used, possess and to add in the spray gun after filtering anticorrosive material, avoid impurity in the anticorrosive coating to block up the spout, influence the use, and can reduce manual operation, reduce labour cost's advantage, it is great to have solved current viscosity because spray material, lead to mixing inhomogeneous, influence spraying quality, and carry out manual spraying at the artifical spray gun that needs, the problem that intensity of labour is big.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (6)

1. The utility model provides an anticorrosive material spraying device based on ceramic heat preservation construction, includes bottom plate (1), locates first charging bucket (101) on bottom plate (1) and locates second charging bucket (102) on bottom plate (1), its characterized in that: the universal wheel (103) is arranged below the bottom plate (1), a sliding frame (104) is arranged on one side of the bottom plate (1), sliding grooves (105) are formed in inner walls of two sides of the sliding frame (104), a sliding block (106) is connected to the inside of the sliding groove (105) in a sliding mode, a spraying gun (108) is arranged on the sliding block (106), a containing kettle (109) is arranged at the bottom of the spraying gun (108) in a communicating mode, a first discharging pipe (110) is arranged at the bottom of a first charging barrel (101) in a communicating mode, a second discharging pipe (111) is arranged at the bottom of a second charging barrel (102) in a communicating mode, a feeding pipe (112) is arranged between the first discharging pipe (110) and the second discharging pipe (111) in a communicating mode, one end of the feeding pipe (112) is communicated with a screw pump (113), the screw pump (113) is located above the bottom plate (1), and the output end of the screw pump (113) is connected with a material conveying hose (114), the other end of the delivery hose (114) is communicated with the containing pot (109).

2. The anticorrosive material spraying device based on ceramic heat preservation construction as claimed in claim 1, characterized in that: a support frame (2) is arranged above the bottom plate (1), a first motor (201) is arranged at the bottom of the support frame (2), the output end of the first motor (201) is provided with a rotating shaft (202), a first rotating rod (203) is rotatably connected inside the first charging barrel (101), a second rotating rod (204) is rotatably connected inside the second charging barrel (102), helical blades (205) are arranged on the circumferential outer walls of the first rotating rod (203) and the second rotating rod (204), one ends of the first rotating rod (203) and the second rotating rod (204) respectively extend to the tops of the first charging bucket (101) and the second charging bucket (102) and are movably connected with the first charging bucket (101) and the second charging bucket (102), the top ends of the first rotating rod (203) and the second rotating rod (204) are both provided with a driven gear (206), and a driving gear (207) meshed with the driven gear (206) is arranged on the rotating shaft (202).

3. The anticorrosive material spraying device based on ceramic heat preservation construction as claimed in claim 1, characterized in that: be equipped with second motor (3) on bottom plate (1), second motor (3) are located carriage (104) under, the output of second motor (3) is connected with lead screw (301), lead screw (301) run through in slider (106) and with slider (106) threaded connection.

4. The anticorrosive material spraying device based on ceramic heat preservation construction as claimed in claim 1, characterized in that: a first valve (4) is arranged on the first discharging pipe (110), and a second valve (401) is arranged on the second discharging pipe (111).

5. The anticorrosive material spraying device based on ceramic heat preservation construction as claimed in claim 1, characterized in that: and filter screens (5) are arranged at the ends, far away from the feeding pipe (112), of the first discharging pipe (110) and the second discharging pipe (111).

6. The anticorrosive material spraying device based on ceramic heat preservation construction as claimed in claim 1, characterized in that: two baffles (6) are arranged on the spraying gun (108), and the two baffles (6) are arranged oppositely.

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