CN218139152U - Automatic temperature control system of BMC kneading machine - Google Patents

Abstract

The utility model discloses a BMC kneader automatic temperature control system, the on-line screen storage device comprises a base, press from both sides the cover, a singlechip for mediating the agitator of BMC material and be used for controlling the agitator, a plurality of recesses have been seted up to agitator inner wall surface, every inside temperature sensor that all is equipped with of recess, it establishes at the agitator outer wall to press from both sides the cover, be equipped with hot-water cylinder and the cold water jar of controlling the distribution on the base, it is equipped with the first suction pump that is used for sucking liquid in hot-water cylinder and the cold water jar to press from both sides the cover bottom, the intercommunication has the feed liquor pipe between first suction pump and the cover, be linked together through pipe assembly between first suction pump and hot-water cylinder and the cold water jar, the inside fixed heating element who is used for the water heating that is equipped with of hot-water cylinder, the fixed cooling subassembly that is used for the water-cooling that is equipped with in cold water jar rear end, hot-water cylinder and cold water tank top all are linked together through infusion subassembly and clamp cover inside. The utility model discloses a BMC kneading machine automatic temperature control system accuse temperature is accurate, and the operation is stable.

Description

Automatic temperature control system of BMC kneading machine

Technical Field

The utility model relates to a BMC kneading machine automatic temperature control system belongs to BMC kneading machine accuse temperature technical field.

Background

The BMC material is bulk molding compound, often called unsaturated polyester bulk molding compound, and is a material bulk prepreg prepared by fully mixing main raw materials of chopped glass fiber, unsaturated resin, filler calcium carbonate and various additives.

In the existing BMC material production process, a kneader needs to be used, the kneader is a special mixing and stirring device, two sigma blades are adopted most commonly, the two sigma blades are arranged in a side-by-side tangent differential mode, namely, the speed of one stirring paddle is high, the speed of one stirring paddle is low, so that a shearing force is generated, the mixing material can be rapidly sheared at different paddle speeds, and the material can be uniformly mixed.

When an existing BMC kneader is used for producing BMC materials, temperature control is a key point, initial kneading temperatures are different due to different seasons and weather, overall temperature rising conditions caused by kneading heating are different, but temperature control of the conventional BMC kneader depends on manual judgment, cooling water is started according to different temperatures and actually measured temperatures, the temperature is not too high, and fine management control cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a BMC kneading machine automatic temperature control system that the accuse temperature is accurate, and the operation is stable.

The utility model discloses a solve above-mentioned technical problem and provide a technical scheme is: the utility model provides a BMC kneader automatic temperature control system, includes base, clamp cover, is used for mediating the churn of BMC material and is used for controlling the singlechip of churn, a plurality of recesses have been seted up to churn inner wall surface, and every recess is inside all to be equipped with temperature sensor, the clamp cover is established at the churn outer wall.

The base is provided with a hot water tank and a cold water tank which are distributed from left to right, the bottom end of the jacket is provided with a first suction pump used for sucking liquid in the hot water tank and the cold water tank, a liquid inlet pipe is communicated between the first suction pump and the jacket, and the first suction pump is communicated with the hot water tank and the cold water tank through a pipeline assembly.

The hot-water cylinder is internally and fixedly provided with a heating component for heating water, the rear end of the cold-water cylinder is fixedly provided with a cooling component for cooling water, and the tops of the hot-water cylinder and the cold-water cylinder are communicated with the inside of the jacket through infusion components.

The pipeline component comprises a three-way pipe, the three-way pipe is respectively communicated with the first suction pump, the hot water tank and the cold water tank, and the three-way pipe is provided with electromagnetic valves at the positions where the hot water tank and the cold water tank are connected.

Infusion subassembly includes second suction pump and transfer line, the second suction pump is equipped with two, and two second suction pumps are fixed respectively on hot-water tank, cold water tank top and are linked together with hot-water tank, cold water tank are inside respectively, the transfer line is equipped with two, and two second suction pumps are linked together through two transfer lines that correspond and jacket are inside.

The heating assembly is an electric heating wire, and the electric heating wire is spirally fixed inside the hot water tank.

The cooling assembly comprises a box body, a refrigerating sheet and a cooling fan, the box body is fixed at the rear end of the cold water tank, and a communicating hole is formed between the box body and the cold water tank;

the intercommunicating pore is the rectangle, the refrigeration piece is the rectangle and equals with the intercommunicating pore size, the refrigeration piece is fixed in the intercommunicating pore, radiator fan establishes at the refrigeration piece rear side.

The single chip microcomputer is connected with the output end of the temperature sensor, and the single chip microcomputer is electrically connected with the input ends of the first suction pump, the second suction pump, the electromagnetic valve, the heating wire, the refrigerating sheet and the cooling fan.

The cooling fan is provided with two, and two cooling fans are distributed from top to bottom and are arranged at the rear side of the refrigerating sheet.

The hot water tank and the cold water tank are both cylindrical and are arranged adjacently.

The base is provided with a supporting seat which is used for supporting and rotating the connecting jacket.

The utility model discloses has positive effect:

(1) The utility model discloses a BMC kneader automatic temperature control system passes through the temperature in a plurality of temperature sensor real-time detection agitator, when the detection temperature is too high, the solenoid valve of three-way pipe left end is closed to the singlechip, use second suction pump and first suction pump to realize cold water and circulate between the clamp cover is inside and the cold water tank, BMC material to in the agitator cools down, when detecting the temperature and crossing low, close the solenoid valve of three-way pipe right-hand member, use second suction pump and first suction pump to realize hot water and circulate between the clamp cover is inside and the hot-water tank and flow, heat the BMC material, the realization is to the automatic temperature control of BMC kneader, the processing effect is better.

(2) The utility model discloses a BMC kneader automatic temperature control system is through at hot-water cylinder internally mounted heating wire, uses the heating wire can heat the inside hot water of hot-water cylinder automatically, installs the box in the cold water jar rear end, and the refrigeration piece in the box can absorb the heat in the cold water jar, cools down the processing to cold water, uses two radiator fan suction refrigeration piece rear side exhaust heat simultaneously, improves the radiating effect to the refrigeration piece to improve the cooling effect of refrigeration piece to cold water.

Drawings

The automatic temperature control system of the BMC kneader of the present invention will be further explained with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the overall structure of the automatic temperature control system of the BMC kneader in this embodiment;

FIG. 2 is a sectional view of the jacket of the BMC kneader automatic temperature control system of this example;

FIG. 3 is a bottom view of the first suction pump of the BMC kneader automatic temperature control system of this example;

FIG. 4 is a sectional view of a hot water tank of the automatic temperature control system of the BMC kneader;

FIG. 5 is a sectional view of the tank and the cold water tank of the automatic temperature control system of the BMC kneader in this example.

The above reference numerals are as follows:

the device comprises a base 1, a stirring cylinder 2, a groove 3, a temperature sensor 4, a jacket 5, a hot water tank 6, a cold water tank 7, a first suction pump 8, a liquid inlet pipe 9, a three-way pipe 10, an electromagnetic valve 11, a second suction pump 12, a liquid conveying pipe 13, a heating wire 14, a box body 15, a communication hole 16, a refrigerating sheet 17, a cooling fan 18 and a single chip microcomputer 19.

Detailed Description

Examples

Referring to fig. 1 to 5, the automatic temperature control system of the BMC kneader of the present embodiment includes a base 1, a jacket 5, a mixing tank 2 for kneading BMC materials, and a single chip 19 for controlling the mixing tank 2, 6 grooves 3 are provided on the surface of the inner wall of the mixing tank 2, a temperature sensor 4 is provided inside each groove 3, and the jacket 5 is sleeved on the outer wall of the mixing tank 2.

The hot-water tank 6 and the cold-water tank 7 that distribute about being equipped with on the base 1, 5 bottoms in the clamp cover are equipped with the first suction pump 8 that is used for sucking the interior liquid of hot-water tank 6 and cold-water tank 7, and the intercommunication has feed liquor pipe 9 between first suction pump 8 and the clamp cover 5, is linked together through pipe assembly between first suction pump 8 and hot-water tank 6 and the cold-water tank 7.

The pipeline component comprises a three-way pipe 10, the three-way pipe 10 is respectively communicated with a first suction pump 8, a hot water tank 6 and a cold water tank 7, an electromagnetic valve 11 is arranged at the position where the three-way pipe 10 is connected with the hot water tank 6 and the cold water tank 7, and the three-way pipe 10 is used for conveniently switching hot water and cold water.

The heating assembly for heating water is fixedly arranged inside the hot water tank 6, the heating assembly is an electric heating wire 14, and the electric heating wire 14 is spirally fixed inside the hot water tank 6.

The rear end of the cold water tank 7 is fixedly provided with a cooling component for water cooling, and the tops of the hot water tank 6 and the cold water tank 7 are communicated with the inside of the jacket 5 through the infusion components.

The infusion set includes second suction pump 12 and transfer line 13, and second suction pump 12 is equipped with two, and two second suction pumps 12 are fixed respectively on hot-water tank 6, the 7 tops of cold water tank and are linked together with hot-water tank 6, the 7 insides of cold water tank respectively, and transfer line 13 is equipped with two, and two second suction pumps 12 are linked together through two transfer lines 13 that correspond and 5 insides of clamp cover, use second suction pump 12 to realize the circulation flow of hot water, cold water.

The cooling assembly comprises a box body 15, a refrigerating sheet 17 and a cooling fan 18, wherein the box body 15 is fixed at the rear end of the cold water tank 7, and a communication hole 16 is formed between the box body 15 and the cold water tank 7.

The communicating hole 16 is rectangular, the refrigerating sheet 17 is rectangular and has the same size as the communicating hole 16, the refrigerating sheet 17 is fixed in the communicating hole 16, and the cooling fan 18 is arranged at the rear side of the refrigerating sheet 17.

The single chip microcomputer 19 is connected with the output end of the temperature sensor 4, the single chip microcomputer 19 is electrically connected with the input ends of the first suction pump 8, the second suction pump 12, the electromagnetic valve 11, the heating wire 14, the refrigerating sheet 17 and the cooling fan 18, and the single chip microcomputer 19 is matched with the temperature sensor 4 to achieve automatic temperature control of the kneading machine.

Two cooling fans 18 are arranged, and the two cooling fans 18 are distributed vertically and are arranged at the rear side of the refrigerating sheet 17.

The hot water tank 6 and the cold water tank 7 are both cylindrical and adjacently arranged.

The base 1 is provided with a supporting seat for supporting and rotatably connecting the jacket 5.

When the stirring cylinder 2 and the stirring assembly are used for stirring the BMC material, the temperature inside the stirring cylinder 2 is detected in real time by using the plurality of temperature sensors 4 on the inner wall of the stirring cylinder 2, then the temperature value is sent to the single chip microcomputer 19 for judgment, when the overhigh temperature is detected, the single chip microcomputer 19 controls the electromagnetic valve 11 at the left end of the three-way pipe 10 to be closed, the cold water in the cold water tank 7 is conveyed to a position between the jacket 5 and the stirring cylinder 2 by using the second suction pump 12 at the top end of the cold water tank 7, the cold water is conveyed to the cold water tank 7 by using the first suction pump 8 at the same time, the circulating flow of the cold water is realized, the BMC material inside the stirring cylinder 2 is cooled by using the cold water, when the overhigh temperature is detected, the electromagnetic valve 11 at the right end of the three-way pipe 10 is controlled to be closed, the hot water in the hot water tank 6 is conveyed to a position between the jacket 5 and the stirring cylinder 2 by using the second suction pump 12 at the top end of the hot water tank 6, the hot water is simultaneously used for sucking the hot water to realize the circulating flow of the hot water, the BMC material is heated, the automatic temperature control of the kneading machine is realized, the temperature control of the kneading machine without manually, and the use is more convenient.

It should be understood that the above-described embodiments are merely examples provided for clearly illustrating the embodiments of the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. This need not be, nor should it be exhaustive of all embodiments. And such obvious changes and modifications which fall within the spirit of the invention are deemed to be covered by the scope of the invention.

Claims (9)

1. The automatic temperature control system of the BMC kneader is characterized in that: the BMC material kneading device comprises a base (1), a jacket (5), a stirring cylinder (2) for kneading BMC materials and a single chip microcomputer (19) for controlling the stirring cylinder (2), wherein a plurality of grooves (3) are formed in the surface of the inner wall of the stirring cylinder (2), a temperature sensor (4) is arranged in each groove (3), and the jacket (5) is sleeved on the outer wall of the stirring cylinder (2);

the base (1) is provided with a hot water tank (6) and a cold water tank (7) which are distributed left and right, the bottom end of the jacket (5) is provided with a first suction pump (8) for sucking liquid in the hot water tank (6) and the cold water tank (7), a liquid inlet pipe (9) is communicated between the first suction pump (8) and the jacket (5), and the first suction pump (8) is communicated with the hot water tank (6) and the cold water tank (7) through a pipeline assembly;

the inside fixed heating element who is used for the water heating that is equipped with of hot-water cylinder (6), cold water jar (7) rear end is fixed to be equipped with and is used for the water-cooled cooling subassembly, hot-water cylinder (6) and cold water jar (7) top all are linked together through infusion subassembly and clamp cover (5) inside.

2. The automatic temperature control system for the BMC kneader of claim 1, wherein: the pipeline assembly comprises a three-way pipe (10), the three-way pipe (10) is respectively communicated with a first suction pump (8), a hot water tank (6) and a cold water tank (7), and an electromagnetic valve (11) is arranged at the position where the three-way pipe (10) is connected with the hot water tank (6) and the cold water tank (7).

3. The automatic temperature control system for the BMC kneader of claim 2, wherein: infusion subassembly includes second suction pump (12) and transfer line (13), second suction pump (12) are equipped with two, and two second suction pump (12) are fixed respectively on hot-water tank (6), cold water jar (7) top and are linked together with hot-water tank (6), cold water jar (7) inside respectively, transfer line (13) are equipped with two, and two second suction pump (12) are linked together through transfer line (13) and the clamp cover (5) inside that two correspond.

4. The BMC kneader automatic temperature control system according to claim 3, characterized in that: the heating assembly is an electric heating wire (14), and the electric heating wire (14) is spirally fixed inside the hot water tank (6).

5. The automatic temperature control system for the BMC kneader according to claim 4, wherein: the cooling assembly comprises a box body (15), a refrigerating sheet (17) and a cooling fan (18), the box body (15) is fixed at the rear end of the cold water tank (7), and a communicating hole (16) is formed between the box body (15) and the cold water tank (7);

the intercommunicating pore (16) is a rectangle, the refrigeration piece (17) is the rectangle and is equal to the intercommunicating pore (16) in size, the refrigeration piece (17) is fixed in the intercommunicating pore (16), and the cooling fan (18) is arranged at the rear side of the refrigeration piece (17).

6. The BMC kneader automatic temperature control system according to claim 5, characterized in that: the single chip microcomputer (19) is connected with the output end of the temperature sensor (4), and the single chip microcomputer (19) is electrically connected with the input ends of the first suction pump (8), the second suction pump (12), the electromagnetic valve (11), the heating wire (14), the refrigerating sheet (17) and the cooling fan (18).

7. The BMC kneader automatic temperature control system according to claim 5, characterized in that: the number of the radiating fans (18) is two, and the two radiating fans (18) are distributed up and down and are arranged on the rear side of the refrigerating sheet (17).

8. The automatic temperature control system for the BMC kneader of claim 5, wherein: the hot water tank (6) and the cold water tank (7) are both cylindrical and are arranged adjacently.

9. The automatic temperature control system for the BMC kneader of claim 5, wherein: the base (1) is provided with a supporting seat which is used for supporting and rotationally connecting the jacket (5).

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