CN221387451U

CN221387451U - Impurity filtering device for building coating processing

Info

Publication number: CN221387451U
Application number: CN202323449108.2U
Authority: CN
Inventors: 高磊; 王子龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-12-18
Filing date: 2023-12-18
Publication date: 2024-07-23
Anticipated expiration: 2033-12-18

Abstract

The utility model discloses an impurity filtering device for building coating processing, which belongs to the technical field of building coating processing and comprises a charging barrel, a sealing chamber, a motor and a filtering box, wherein the sealing chamber is arranged at the top of the interior of the charging barrel, the motor is arranged at the top of the charging barrel close to the position right above the sealing chamber, an output shaft of the motor extends to the interior of the sealing chamber, and an impurity removing mechanism capable of efficiently screening and filtering impurities doped in powder materials of the building coating and an anti-blocking mechanism capable of carrying out anti-blocking blanking operation on the powder materials in the blanking process are arranged in the filtering box. According to the utility model, the impurity removing mechanism is arranged, impurities in the powder material body of the building coating can be screened through the cooperation among the screen shell, the vibration motor, the material guide plate, the material discharge valve, the spiral feeder, the material discharge pipe and the material feeding pipe, and the screened material body can be subjected to cyclic screening again by using the spiral feeder, so that the impurity removing efficiency and the quality of the material body are effectively improved.

Description

Impurity filtering device for building coating processing

Technical Field

The utility model belongs to the technical field of building coating processing, and particularly relates to an impurity filtering device for building coating processing.

Background

The paint can be coated on the surface of an object, can be well bonded with a matrix material and forms a complete and tough protective film, is called building paint, and the function of the paint can be summarized in three aspects: the protective effect, the decorative effect and the special function effect require sieving to remove impurities before the paint is mixed.

The building coating raw material screening device comprises a screening box, wherein a feed inlet is formed in the top end of the screening box, fixing frames are installed at two ends, close to the feed inlet, of the screening box, screening frames are installed on the fixing frames, screens are arranged on the screening frames, notches are formed in two sides, close to the screens, of the screening frames, and the novel building coating raw material screening device has the effects of being convenient to manage uniformly and improving working efficiency; the disadvantages are as follows:

According to research and analysis, the device can screen paint raw materials, but due to the lack of a circulating component, the device can screen paint only once, the screening efficiency is general, in the process of processing paint, the screened material body and water are required to be mixed and stirred to be made into paint, the device can screen the material body only, the function of the device is single, in the process of discharging the screened material body, the accumulation of particles easily causes the difficulty in discharging the material body, and the discharge opening is blocked, so that the discharging efficiency is reduced.

Disclosure of utility model

The utility model aims at: in order to solve the problems of low unloading efficiency, single function and low screening efficiency, the impurity filtering device for processing the building coating is provided.

The technical scheme adopted by the utility model is as follows: the utility model provides an impurity filter equipment is used in building coating processing, includes feed cylinder, seal chamber, motor, rose box, the inside top of feed cylinder is provided with the seal chamber, and the discharge tube of feed cylinder is connected with outside stripper, the feed cylinder top is close to the seal chamber and installs the motor directly over, and the output shaft of motor extends to the seal chamber inside, and the junction of two is sealed through rotatory sealing washer, the filter box is installed through the support to the opposite side of feed cylinder top, the rose box is inside to be provided with can carry out the impurity removal mechanism of high-efficient screening filtration to the impurity doped in the powder material of building coating and can prevent blockking up the anti-blocking mechanism of unloading work to the powder material of unloading in-process, the inside rabbling mechanism that can carry out high-efficient homogenization to building coating that is provided with of feed cylinder;

The stirring mechanism comprises a stirring rod, a stirring ring frame, bevel gears A, stirring frames, stirring rods and bevel gears B, wherein the stirring rod is arranged in the stirring cylinder in a rotating mode, the stirring ring frame is welded on the outer side of the stirring rod, the stirring frame is arranged in a rotating mode on the outer side of the stirring rod, the stirring rods are arranged on the inner side of the stirring frame, the stirring ring frame and the corresponding stirring rods are arranged in a staggered mode, the bevel gears are arranged on the top end of the stirring frame through welding of a support, the bevel gears extend to the inside of a sealing chamber, the joint of the bevel gears and the sealing chamber is sealed through a rotary sealing ring, one side of the inside of the sealing chamber is provided with bevel gears B in a rotating mode, teeth of the bevel gears B are meshed with teeth of the bevel gears B, the bevel gears A are welded on the outer side of an output shaft of the motor, and teeth of the bevel gears A are meshed with teeth of the bevel gears B.

Wherein, edulcoration mechanism includes sieve shell, vibrating motor, stock guide, discharge valve, screw feeder, discharge tube, pan feeding pipe, wherein, inside elastic connection of rose box has the sieve shell, and sieve shell bottom is provided with the sieve, and the sieve is netted setting, and the sieve front end is provided with the baffle, and the junction of baffle and sieve shell is provided with the fluting, and the rose box is inside to be close to the baffle top and to have placed the waste tank, vibrating motor is all installed to sieve shell both sides, inside the being provided with of sieve shell stock guide, the rose box opposite side has screw feeder through support mounting, both sides are supporting to be provided with discharge tube and pan feeding pipe respectively about screw feeder one side, and the pan feeding mouth opposite side of sieve shell is provided with the opening, and the discharge tube end department passes through hose and open connection, the discharge valve is all installed to the discharge opening department of the feed cavity of rose box inside top and the discharge opening department of pan feeding pipe bottom, and the discharge valve of the feed cavity department and the inside top of rose box is connected with the pan feeding pipe.

The anti-blocking mechanism comprises a movable plate A, an electric cylinder B and a movable plate B, wherein the movable plate A is installed on one side of the bottom inside the filter box through a rotating shaft, the electric cylinder A is installed on the inner wall below one side of the filter box through the rotating shaft, the movable plate A is connected with the front end of the electric cylinder A through the rotating shaft, the movable plate B is installed on the inner wall below the other side of the filter box through the electric cylinder B, and the movable plate A and the movable plate B are connected with the inner wall of the filter box through elastic connecting surfaces.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. according to the utility model, by arranging the stirring mechanism, through the cooperation of the stirring rod, the stirring ring frame, the bevel gear A, the stirring frame, the stirring rod and the bevel gear B, the stirring rod can be driven to rotate by the motor and simultaneously drive the stirring frame to reversely rotate, and the stirring rod and the stirring frame cooperate to efficiently homogenize the building coating, so that the stirring efficiency is effectively improved.

2. According to the utility model, the impurity removing mechanism is arranged, impurities in the powder material body of the building coating can be screened through the cooperation among the screen shell, the vibration motor, the material guiding plate, the material discharging valve, the screw feeder, the material discharging pipe and the material feeding pipe, and the screw feeder can be utilized to circularly screen the screened material body again, so that the impurity removing efficiency and the quality of the material body are effectively improved.

3. According to the utility model, by arranging the anti-blocking mechanism and matching the movable plate A, the electric cylinder B and the movable plate B, the situation that the blanking opening is blocked to cause unsmooth blanking in the blanking process of the powder material of the building coating can be prevented, and the blanking efficiency is effectively improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of an enlarged structure at A in FIG. 1 according to the present utility model;

FIG. 3 is a schematic diagram of an enlarged structure at B in FIG. 1 according to the present utility model;

fig. 4 is a schematic diagram of a partial perspective view of the present utility model.

The marks in the figure: 1. a charging barrel; 101. a sealed chamber; 2. a motor; 201. a stirring rod; 202. a stirring ring frame; 203. an umbrella tooth ring; 204. a bevel gear A; 3. a stirring rack; 301. a stirring rod; 4. a bevel gear B; 5. a filter box; 501. a screen shell; 502. a vibration motor; 503. a material guide plate; 6. a discharge valve; 7. a screw feeder; 701. a discharge tube; 702. a feeding pipe; 8. a movable plate A; 801. an electric cylinder A; 9. an electric cylinder B; 901. and a movable plate B.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one:

Referring to fig. 1-4, an impurity filtering device for building coating processing comprises a charging barrel 1, a sealing chamber 101, a motor 2 and a filter box 5, wherein the sealing chamber 101 is arranged at the top of the interior of the charging barrel 1, a discharging pipe of the charging barrel 1 is connected with an external discharging plate, the motor 2 is arranged at the top of the charging barrel 1 close to the position right above the sealing chamber 101, an output shaft of the motor 2 extends to the interior of the sealing chamber 101, the joint of the charging barrel 1 and the sealing chamber is sealed through a rotary sealing ring, the filter box 5 is arranged at the other side of the top of the charging barrel 1 through a bracket, an impurity removing mechanism capable of efficiently screening and filtering impurities doped in powder materials of building coating and an anti-blocking mechanism capable of carrying out anti-blocking discharging operation on the powder materials in the discharging process are arranged in the charging barrel 1;

The stirring mechanism comprises stirring rods 201, stirring ring frames 202, bevel gear rings 203, bevel gears A204, stirring frames 3, stirring rods 301 and bevel gears B4, wherein the stirring rods 201 are rotatably arranged in a charging barrel 1, the stirring ring frames 202 are welded on the outer sides of the stirring rods 201, the stirring rods 3 are rotatably arranged on the outer sides of the stirring rods 201, the stirring rods 301 are arranged on the inner sides of the stirring frames 3, the stirring ring frames 202 and the corresponding stirring rods 301 are arranged in a staggered mode, the bevel gear rings 203 are arranged on the top ends of the stirring frames 3 through bracket welding, the bevel gear rings 203 extend into the sealing chamber 101, the joint of the bevel gear rings 203 is sealed through rotary sealing rings, one side of the sealing chamber 101 is rotatably provided with the bevel gears B4, teeth of the bevel gears B4 are meshed with teeth of the bevel gear rings 203, the bevel gears A204 are welded on the outer sides of output shafts of the motor 2, the teeth of the bevel gears A204 are meshed with teeth of the bevel gears B4, the stirring rods 201 are driven to rotate clockwise through a starting motor 2, stirring ring frames 202 are used for stirring materials and stirring the building materials, and the bevel gears A204 are driven to rotate anticlockwise, and the bevel gears A204 are driven by the bevel gears B2, and the bevel gears B204 are driven to rotate, and the bevel gears A and the bevel gears B204 are further meshed with the bevel gears B3, and the stirring ring frames 203 are driven to rotate, and the bevel gears B3 are further in a staggered mode, and the stirring ring frames are driven to rotate, and the bevel gears 204 are further in the stirring ring frames are meshed.

Referring to fig. 1, 3, 4, in this embodiment, edulcoration mechanism includes sieve shell 501, vibration motor 502, the stock guide 503, discharge valve 6, screw feeder 7, discharge tube 701, pan feeding pipe 702, wherein, filter box 5 inside elastic connection has sieve shell 501, and sieve shell 501 bottom is provided with the sieve, and the sieve is netted setting, and the sieve front end is provided with the baffle, and the junction of baffle and sieve shell 501 is provided with the fluting, and the baffle is placed near the baffle top inside filter box 5, vibration motor 502 is all installed to sieve shell 501 both sides, sieve shell 501 inside is provided with the stock guide 503, the filter box 5 opposite side is provided with screw feeder 7 through the support, screw feeder 7 one side upper and lower both sides are supporting respectively to be provided with discharge tube 701 and pan feeding pipe 702, and the pan feeding mouth opposite side of feed inlet of sieve shell 501 is provided with the opening, and discharge tube 701 end department is connected through hose and opening, the discharge valve 6 is all installed to the discharge opening department of the feed inlet cavity of filter box 5 inside top and the discharge opening department of pan feeding pipe 702, and filter box 5 inside top discharge opening 6 is placed near the baffle top has the baffle, vibration motor 502 is all installed to shake the motor 502, the inside is provided with the stock guide plate 503, the sieve body is carried out the sieve particle size is carried out to the sieve material through the inside the sieve shell body by shaking the spiral feeder 7 through the support, the spiral feeder 7, the inside the sieve body is added the sieve material is more than the top in the sieve shell's material has the sieve material size than the top material box's material is passed through the spiral feeder's material through the spiral feeder's opening's 7, and the top is passed through the top through the spiral feeder's material guide plate's opening, and the top is passed through the top through the opening.

Referring to fig. 1 and 3, in this embodiment, the anti-blocking mechanism includes a movable plate A8, an electric cylinder a801, an electric cylinder B9, and a movable plate B901, where the movable plate A8 is installed on one side of the bottom inside the filter tank 5 through a rotating shaft, the electric cylinder a801 is installed on the inner wall below one side of the filter tank 5 through the rotating shaft, and the movable plate A8 is connected with the front end of the electric cylinder a801 through the rotating shaft, the movable plate B901 is installed on the inner wall below the other side of the filter tank 5 through the electric cylinder B9, and both the movable plate A8 and the movable plate B901 are connected with the inner wall of the filter tank 5 through elastic connection surfaces, when a material enters the feeding pipe 702, the material is discharged through starting the discharge valve 6 of the feeding pipe 702, and the discharged material enters the inside the feed cylinder 1 through a pipe, at this time, the movable plate A8 is pushed to reciprocate under the action of the rotating shaft by starting the electric cylinder a801, and meanwhile the movable plate B901 is started to reciprocate, and the material stacked on the bottom inside the filter tank 5 is discharged in an auxiliary manner.

Referring to fig. 1-3, in this embodiment, the motor 2, the vibration motor 502, the material guiding plate 503, the discharge valve 6, the screw feeder 7, the electric cylinder a801, and the electric cylinder B9 are all electrically connected to an external power supply through a switch.

Working principle: firstly, a worker adds a powder material body of building paint through a feed opening of a sieve shell 501, then starts a vibration motor 502 to drive the sieve shell 501 to shake under the action of a spring, the material body is screened through a sieve plate of the sieve shell 501 under the guide of a guide plate 503, screened larger particle impurities are guided into a waste trough through a guide plate, qualified material bodies are discharged into a feed pipe 702 through a discharge valve 6, the material bodies are sent into the sieve shell 501 again through the discharge pipe 701 to be screened again through a screw feeder 7, the material bodies are subjected to reciprocating screening, finally, when the material bodies enter the feed pipe 702, the material bodies are discharged through a discharge valve 6 of the feed pipe 702, the discharged material bodies enter the inside of a material cylinder 1 through a pipeline, the movable plate A8 is pushed to reciprocate under the action of the rotating shaft by the starting motor A801, meanwhile, the movable plate B901 is driven to reciprocate by the starting motor B9, the material body piled up at the bottom inside the filter box 5 is subjected to auxiliary discharging, finally, the material body enters the inside of the material barrel 1, at the moment, water is added into the material barrel 1 by workers, the stirring rod 201 is driven to rotate clockwise by the starting motor 2, the material body and the water of the building coating are stirred by the stirring ring frame 202, meanwhile, the bevel gear A204 is driven to rotate by the output shaft of the rotating motor 2, the stirring frame 3 is driven to rotate anticlockwise under the meshing transmission of the bevel gear A204, the bevel gear B4, and the stirring rod 301 and the stirring ring frame 202 of the stirring frame 3 are utilized to stagger and further stir the material body.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims

1. The utility model provides an impurity filter equipment is used in building coating processing, includes feed cylinder (1), sealing chamber (101), motor (2), rose box (5), inside top of feed cylinder (1) is provided with sealing chamber (101), and the discharge tube and the outside stripper of feed cylinder (1) are connected, install motor (2) directly over being close to sealing chamber (101) at feed cylinder (1) top, and the output shaft of motor (2) extends to sealing chamber (101) inside, and the two junction is sealed through rotatory sealing washer, feed cylinder (1) top opposite side is through mounting rose box (5), its characterized in that: the inside of the filter box (5) is provided with a impurity removing mechanism capable of efficiently screening and filtering impurities doped in powder materials of the building coating and an anti-blocking mechanism capable of performing anti-blocking discharging operation on the powder materials in the discharging process, and the inside of the charging barrel (1) is provided with a stirring mechanism capable of efficiently homogenizing the building coating;

the stirring mechanism comprises a stirring rod (201), a stirring ring frame (202), an umbrella tooth ring (203), a bevel gear A (204), a stirring frame (3), a stirring rod (301) and a bevel gear B (4), wherein the stirring rod (201) is arranged in the stirring cylinder (1) in a rotating mode, the stirring ring frame (202) is arranged on the outer side of the stirring rod (201) in a welding mode, the stirring frame (3) is arranged on the outer side of the stirring rod (201) in a rotating mode, the stirring rod (301) is arranged on the inner side of the stirring frame (3), the umbrella tooth ring (203) is arranged on the top end of the stirring frame (3) through bracket welding, the bevel gear B (4) is arranged on one side of the inner portion of the sealing chamber (101) in a rotating mode, and the bevel gear A (204) is arranged on the outer side of an output shaft of the motor (2) in a welding mode.

2. An architectural paint processing impurity filtering device according to claim 1, wherein: the utility model provides a edulcoration mechanism includes sieve shell (501), vibration motor (502), stock guide (503), discharge valve (6), screw feeder (7), discharge tube (701), pan feeding pipe (702), wherein, inside elastic connection of rose box (5) has sieve shell (501), vibration motor (502) are all installed to sieve shell (501) both sides, sieve shell (501) inside is provided with stock guide (503), the rose box (5) opposite side is through mounting screw feeder (7), both sides are provided with discharge tube (701) and pan feeding pipe (702) about screw feeder (7) one side respectively in a supporting way, discharge valve (6) are all installed in the discharge opening department of the material chamber of rose box (5) inside top and the discharge opening department of pan feeding pipe (702) bottom.

3. An architectural paint processing impurity filtering device according to claim 1, wherein: the anti-blocking mechanism comprises a movable plate A (8), an electric cylinder A (801), an electric cylinder B (9) and a movable plate B (901), wherein the movable plate A (8) is installed on one side of the inner bottom of the filter box (5) through a rotating shaft, the electric cylinder A (801) is installed on the inner wall below one side of the filter box (5) through the rotating shaft, and the movable plate B (901) is installed on the inner wall below the other side of the filter box (5) through the electric cylinder B (9).

4. An architectural paint processing impurity filtering device according to claim 1, wherein: teeth of the bevel gear A (204) are meshed with teeth of the bevel gear B (4), teeth of the bevel gear B (4) are meshed with teeth of the bevel gear ring (203), the bevel gear ring (203) extends to the inside of the sealing chamber (101), the joint of the bevel gear A and the bevel gear ring is sealed through a rotary sealing ring, and a staggered arrangement is formed between the stirring ring frame (202) and the corresponding stirring rod (301).

5. An architectural paint processing impurity filtering device according to claim 2, wherein: the discharge valve (6) of the discharge opening department of the material chamber of rose box (5) inside top is connected with pan feeding pipe (702) of screw feeder (7), and the pan feeding mouth opposite side of sieve shell (501) is provided with the opening, and discharge pipe (701) end department is connected with the opening through the hose, and sieve shell (501) bottom is provided with the sieve, and the sieve is netted setting, and the sieve front end is provided with the baffle, and the junction of baffle and sieve shell (501) is provided with the fluting, and the baffle box (5) inside has placed the waste bin near the baffle top.

6. An architectural paint processing impurity filtering device according to claim 3, wherein: the movable plate A (8) is connected with the front end of the electric cylinder A (801) through a rotating shaft, and the movable plate A (8) and the movable plate B (901) are connected with the inner wall of the filter box (5) through elastic connecting surfaces.