An automatic pigment drying and cooling integrated device

Abstract

The utility model discloses an automatic integration device of pigment drying and cooling, including drying mechanism and the cooling mechanism of assembly in the bottom of drying mechanism, the drying mechanism includes drying jar, the inside of drying jar is provided with drying chamber, the outside of drying chamber is provided with heating chamber, the utility model relates to pigment production and processing technical field. This automatic integration device of pigment drying and cooling can carry out integrated drying and cooling treatment to pigment production through the cooperation between drying jar and cooling box, increase the functionality of device, can control the moving speed when pigment cooling through the cooperation of conveyer belt and cleaning brush, avoid the situation that the cooling quality is not high because of the too fast moving speed when pigment cooling, increase the adjustability of device when pigment cooling, can clean the surface of conveyer belt simultaneously, avoid the waste situation that the residual pigment on conveyer belt leads.

Description

Technical Field

[0001] This utility model relates to the field of pigment production and processing technology, specifically to an automated integrated device for pigment drying and cooling. Background Technology

[0002] Pigment production is an interdisciplinary field of chemical engineering and materials science, encompassing multiple stages such as natural extraction, chemical synthesis, physical processing, and precision manufacturing. Its core objective is to achieve a balance between color stability, weather resistance, and environmental safety through scientific formulation and process control. Pigments require drying treatment after production and processing.

[0003] The "High-Efficiency Pigment Drying Device" disclosed in publication number "CN220582995U" includes a device shell, a hot air blower, and a feed inlet. The feed inlet is opened at the upper end of the device shell, a stirring motor is installed at the upper end of the device shell, a stirring shaft is installed at the lower end of the stirring motor, stirring blades are installed on the outer side of the stirring shaft, filter screens are installed on both sides of the support plate, hot air blowers are installed on both sides of the device shell, a connecting pipe is installed at the upper end of the hot air blower, and one end of the connecting pipe is connected to the inside of the device shell.

[0004] Traditional equipment has a relatively simple overall structure and can only perform a single drying process on the pigments after production. After the pigments are dried, subsequent equipment is needed to cool them, which increases the number of pigment production steps, production time, and production costs. To address these issues, we have designed an automated pigment drying and cooling integrated device. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides an automated pigment drying and cooling integrated device, which solves the problem that pigments can only be dried after production is completed, and subsequent equipment is required to cool them after drying, which increases the number of pigment production steps, production time, and production costs.

[0006] To achieve the above objectives, this utility model is implemented through the following technical solution: an automated pigment drying and cooling integrated device, including a drying mechanism and a cooling mechanism assembled at the bottom of the drying mechanism;

[0007] The drying mechanism includes a drying tank, an internal drying chamber, an external heating chamber, a heating rod fixedly installed inside the heating chamber, a feed pipe fixedly installed on one side of the top of the drying tank, and a discharge pipe fixedly installed at the center of the bottom of the drying tank.

[0008] The cooling mechanism includes a cooling box, an installation pipe connected to a discharge pipe is fixedly installed on one side of the cooling box, cooling fans are fixedly installed at equal intervals on the top of the cooling box, and a discharge plate is fixedly installed on the other side of the cooling box.

[0009] A conveyor belt is rotatably mounted on the bottom of the cooling box, a cleaning plate is assembled on the discharge plate, and a cleaning brush is fixedly mounted on the top of the cleaning plate.

[0010] Preferably, a mixing motor is fixedly installed at the center of the top of the drying tank, and the output end of the mixing motor extends into the drying chamber and is fixedly installed with a mixing slurry.

[0011] Preferably, a feeding motor is fixedly installed at the bottom of the mounting tube, and the output end of the feeding motor passes through the mounting tube and is fixedly installed with a feeding auger extending into the drying chamber.

[0012] Preferably, a drive motor is fixedly installed on one side of the front of the cooling box, and the output end of the drive motor is fixedly connected to the conveyor belt.

[0013] Preferably, both ends of the cleaning plate are fixedly installed with mounting shafts, and the front and back of the discharge plate are provided with adjustment grooves that cooperate with the mounting shafts.

[0014] Preferably, a dustproof net is fixedly installed on the top of each cooling fan.

[0015] This invention provides an automated pigment drying and cooling integrated device. Compared with the prior art, it has the following advantages:

[0016] Beneficial effects:

[0017] (1) This automated pigment drying and cooling integrated device can perform integrated drying and cooling treatment on pigments after production by cooperating between the drying tank and the cooling box, which increases the functionality of the device, reduces the number of pigment processing steps, and improves the efficiency of pigment processing.

[0018] (2) By combining the conveyor belt and the cleaning brush, the moving speed of the pigment during cooling can be controlled, avoiding the situation where the pigment is not cooled well due to the moving speed being too fast. This increases the adjustability of the device during pigment cooling. At the same time, the surface of the conveyor belt can be cleaned, avoiding the situation where pigment residue on the conveyor belt leads to waste, and improving the stability of the device during pigment cooling. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model.

[0020] Figure 2This is a schematic cross-sectional view of the drying tank of this utility model.

[0021] Figure 3 This is a schematic diagram of the cooling box structure of this utility model.

[0022] Figure 4 This is a schematic diagram of the cross-sectional structure of the cooling box of this utility model.

[0023] Figure 5 This is a schematic diagram of the cleaning plate structure of this utility model.

[0024] In the diagram: 1. Drying mechanism; 101. Drying tank; 102. Drying chamber; 103. Heating chamber; 104. Heating rod; 105. Feed pipe; 106. Discharge pipe; 107. Mixing motor; 108. Mixing slurry; 2. Cooling mechanism; 201. Cooling box; 202. Cooling fan; 203. Conveyor belt; 204. Drive motor; 205. Discharge plate; 206. Adjustment trough; 207. Dustproof net; 3. Cleaning plate; 301. Cleaning brush; 302. Mounting shaft; 4. Mounting pipe; 401. Feeding motor; 402. Feeding auger. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present utility model.

[0026] Example 1

[0027] Please see Figures 1-5 As shown, this embodiment proposes an automated pigment drying and cooling integrated device, including a drying mechanism 1 and a cooling mechanism 2 assembled at the bottom of the drying mechanism 1. The drying mechanism 1 includes a drying tank 101, with a drying chamber 102 inside the drying tank 101 and a heating chamber 103 outside the drying chamber 102. A heating rod 104 is fixedly installed inside the heating chamber 103. A feed pipe 105 is fixedly installed on one side of the top of the drying tank 101, and a discharge pipe 106 is fixedly installed at the center of the bottom of the drying tank 101. The cooling mechanism 2 includes a cooling box 201, with an installation pipe 4 connected to the discharge pipe 106 fixedly installed on one side of the cooling box 201. Cooling fans 202 are fixedly installed at equal intervals on the top of the cooling box 201, and a discharge plate 205 is fixedly installed on the other side of the cooling box 201.

[0028] In use, after production, the pigment enters the drying chamber 102 inside the drying tank 101 through the feed pipe 105. The heating rod 104 inside the heating chamber 103 can heat and dry the drying chamber 102 and the pigment inside it. The dried pigment in the drying chamber 102 is discharged through the discharge pipe 106. The cooling box 201 is connected to the discharge pipe 106 through the installation pipe 4. The dried pigment is discharged into the cooling box 201 through the discharge pipe 106 and the installation pipe 4. The cooling fan 202 on the top of the cooling box 201 can cool the pigment inside. This allows the device to perform integrated drying and cooling of the pigment after production, increasing the integration of pigment drying and cooling, improving the functionality of the device, reducing pigment processing steps, and improving the efficiency of pigment processing.

[0029] Example 2

[0030] Based on Example 1, such as Figures 3-5 As shown, a conveyor belt 203 is rotatably mounted on the bottom of the cooling box 201, a cleaning plate 3 is assembled on the discharge plate 205, and a cleaning brush 301 is fixedly mounted on the top of the cleaning plate 3.

[0031] During use, the pigment entering the cooling box 201 flows onto the conveyor belt 203. The conveyor belt 203 can transport and move the pigment, thereby controlling the speed and quality of pigment cooling in the cooling box 201. This allows staff to adjust and control the device according to the cooling requirements of the pigment, increasing the device's adjustability and improving the quality of pigment cooling. The cleaning brush 301 on the top of the cleaning plate 3 can clean the bottom surface of the conveyor belt 203 as it rotates downwards, removing any pigment residue. This prevents pigment residue from remaining on the surface of the conveyor belt 203 and causing waste, and also prevents residual pigment from affecting the cooling box 201's ability to cool subsequent pigments.

[0032] like Figure 2 As shown, a mixing motor 107 is fixedly installed at the center of the top of the drying tank 101. The output end of the mixing motor 107 extends into the drying chamber 102 and a mixing slurry 108 is fixedly installed thereon.

[0033] In use, the mixing motor 107 drives the mixing slurry 108 to rotate inside the drying chamber 102. The rotation of the mixing slurry 108 can stir and mix the pigment inside the drying chamber 102, thereby improving the uniformity of the pigment during heating and drying inside the drying chamber 102 and improving the quality and efficiency of the device for drying pigment.

[0034] like Figure 3As shown, a feeding motor 401 is fixedly installed at the bottom of the mounting tube 4. The output end of the feeding motor 401 passes through the mounting tube 4 and is fixedly installed with a feeding auger 402 extending into the drying chamber 102.

[0035] In use, the feeding motor 401 drives the feeding auger 402 to rotate, which can discharge the dried pigment in the drying chamber 102 by driving. This allows for control of the speed at which the dried pigment is discharged. Furthermore, the feeding auger 402 can prevent the pigment from clogging when it is discharged from the drying chamber 102, ensuring the stability of the discharged pigment after drying.

[0036] like Figure 3 As shown, a drive motor 204 is fixedly installed on one side of the front of the cooling box 201, and the output end of the drive motor 204 is fixedly connected to the conveyor belt 203.

[0037] In use, the drive motor 204 can provide power to the conveyor belt 203 during operation, thereby driving the conveyor belt 203 to rotate. The drive motor 204 can also control the rotation speed of the conveyor belt 203, making it convenient for operators to control the speed of the conveyor belt 203 during operation by adjusting the drive motor 204.

[0038] like Figures 3-5 As shown, both ends of the cleaning plate 3 are fixedly installed with mounting shafts 302, and the front and back of the discharge plate 205 are provided with adjustment grooves 206 that cooperate with the mounting shafts 302.

[0039] In use, the mounting shaft 302 is installed in the adjustment groove 206, so that the cleaning plate 3 and the cleaning brush 301 can be installed and fixed through the mounting shaft 302, and the height of the mounting shaft 302 can be adjusted through the adjustment groove 206, so that the height of the cleaning plate 3 and the cleaning brush 301 can be adjusted and controlled during operation, making it convenient for the staff to adjust and control the cleaning brush 301 when it is too high during operation.

[0040] like Figures 3-4 As shown, dustproof nets 207 are fixedly installed on the top of the cooling fan 202.

[0041] When in use, the dustproof net 207 can protect the top of the cooling fan 202 from dust. The dustproof net 207 prevents foreign objects and dust from entering the cooling fan 202 and causing damage, thus ensuring the stability of the cooling fan 202 during operation.

[0042] Working principle: Pigment enters the drying chamber 102 through the feed pipe 105. The heating chamber 103 and heating rod 104 can dry the drying chamber 102 and the pigment inside it. After drying, the pigment enters the cooling box 201 through the discharge pipe 106 and the installation pipe 4. The cooling fan 202 can blow air to cool the pigment inside the cooling box 201. The conveyor belt 203 can transport and move the pigment entering the cooling box 201, thereby controlling the cooling speed and cooling quality of the pigment inside the cooling box 201. The cleaning plate 3 and the cleaning brush 301 can clean the bottom surface of the conveyor belt 203.

[0043] Although embodiments of the present invention have been shown and described, those skilled in the art will understand that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the claims and their equivalents.

Claims

1. An automated pigment drying and cooling integrated device, characterized in that: Includes a drying mechanism and a cooling mechanism assembled at the bottom of the drying mechanism; The drying mechanism includes a drying tank, an internal drying chamber, an external heating chamber, a heating rod fixedly installed inside the heating chamber, a feed pipe fixedly installed on one side of the top of the drying tank, and a discharge pipe fixedly installed at the center of the bottom of the drying tank. The cooling mechanism includes a cooling box, an installation pipe connected to a discharge pipe is fixedly installed on one side of the cooling box, cooling fans are fixedly installed at equal intervals on the top of the cooling box, and a discharge plate is fixedly installed on the other side of the cooling box. A conveyor belt is rotatably mounted on the bottom of the cooling box, a cleaning plate is assembled on the discharge plate, and a cleaning brush is fixedly mounted on the top of the cleaning plate.

2. The automated pigment drying and cooling integrated device according to claim 1, characterized in that: A mixing motor is fixedly installed at the center of the top of the drying tank, and the output end of the mixing motor extends into the drying chamber and is fixedly installed with a mixing slurry.

3. The automated pigment drying and cooling integrated device according to claim 1, characterized in that: A feeding motor is fixedly installed at the bottom of the mounting tube, and the output end of the feeding motor passes through the mounting tube and is fixedly installed with a feeding auger extending into the drying chamber.

4. The automated pigment drying and cooling integrated device according to claim 1, characterized in that: A drive motor is fixedly installed on one side of the front of the cooling box, and the output end of the drive motor is fixedly connected to the conveyor belt.

5. The automated pigment drying and cooling integrated device according to claim 1, characterized in that: The cleaning plate has mounting shafts fixedly installed at both ends, and the discharge plate has adjustment grooves on the front and back sides that cooperate with the mounting shafts.

6. The automated pigment drying and cooling integrated device according to claim 1, characterized in that: The top of each cooling fan is fixedly equipped with a dustproof net.

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