CN215661773U - Rubber cooler - Google Patents

Abstract

The utility model discloses a rubber cooler which comprises a water storage tank, a first separation assembly, a water injection assembly, a second separation assembly, a sealing assembly and a second electromagnetic valve, wherein the water storage tank is connected with the first separation assembly; a water storage tank: a T-shaped partition plate is fixed at the upper end of the inside of the water storage tank, a cooling tank is fixed on the upper side surface of the water storage tank, and a belt conveyor is installed at the left end of the upper side surface of the cooling tank; a first barrier assembly: contain fixed frame, first motor, baffler, threaded rod and gag lever post, fixed frame fixes on belt conveyor's the last side, install first motor on fixed frame's the last side, the inside threaded connection that threaded hole was seted up to baffler's back side edge has the threaded rod, the output shaft of first motor is connected to the upper end of threaded rod, the lower single-end of threaded rod rotates to be connected on belt conveyor's the last side, can cool off rubber products fast to can avoid the water waste.

Description

Rubber cooler

Technical Field

The utility model relates to the technical field of rubber production, in particular to a rubber cooler.

Background

The formed rubber is cooled and shaped immediately after leaving a machine head, otherwise, the formed rubber can deform under the action of gravity, the cooling mode is generally water cooling and comprises quenching and slow cooling according to different water temperatures, the quenching is direct cooling of cold water, the quenching is beneficial to rubber shaping, but for crystalline polymers, internal stress is easy to remain in a tissue of a squeezing layer due to rapid cooling, and cracking is caused in the using process, the slow cooling is used for reducing the internal stress of products, water with different temperatures is placed in a cooling water tank in sections, so that the products are gradually cooled and shaped, the existing cooling water tank is not provided with a backflow device, the used cooling water is directly discharged, and a water source is greatly wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides a rubber cooler which can quickly cool rubber products, can avoid water resource waste and can effectively solve the problems in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: a rubber cooler comprises a water storage tank, a first blocking assembly, a water injection assembly, a second blocking assembly, a sealing assembly and a second electromagnetic valve;

a water storage tank: a T-shaped partition plate is fixed at the upper end of the inside of the water storage tank, a cooling tank is fixed on the upper side surface of the water storage tank, and a belt conveyor is installed at the left end of the upper side surface of the cooling tank;

a first barrier assembly: the rubber belt conveyor comprises a fixed frame, a first motor, a blocking plate, a threaded rod and a limiting rod, wherein the fixed frame is fixed on the upper side surface of the belt conveyor, the first motor is installed on the upper side surface of the fixed frame, the threaded rod is connected to the internal thread of the threaded hole formed in the rear side edge part of the blocking plate, the upper end of the threaded rod is connected with the output shaft of the first motor, the lower single end of the threaded rod is rotatably connected to the upper side surface of the belt conveyor, the through hole is formed in the front side edge part of the blocking plate, the limiting rod is connected to the inside of the through hole in a sliding mode and is fixed in the fixed frame, and the flow rate of rubber is limited by arranging a first blocking assembly;

a water injection assembly: the water storage tank is internally provided with the hydraulic pump, the three-way pipe is fixed in a water outlet valve of the hydraulic pump, two ends of the three-way pipe, far away from the hydraulic pump, are respectively fixed in water inlet valves of the two first electromagnetic valves, a water outlet pipe is fixed in the water outlet valve of the first electromagnetic valve, the two water outlet pipes are both fixed on the front side surface of the cooling tank, the water outlet pipes are communicated with the inner cavity of the cooling tank, and water is injected into the T-shaped partition plate by arranging a water injection assembly;

a second barrier assembly: is arranged inside the cooling box;

a sealing component: is arranged on the right side surface of the cooling box;

a second electromagnetic valve: two water outlet pipes are fixed in the water inlet valve of the second electromagnetic valve and are correspondingly fixed on the rear side surface of the cooling tank, the water outlet pipes are communicated with the inner cavity of the cooling tank, water outlet pipes are fixed in the water outlet valve of the second electromagnetic valve and are correspondingly fixed on the rear side surface of the water storage tank, and the water outlet pipes are communicated with the inner cavity of the water storage tank;

wherein: still include PLC controller, temperature sensor and semiconductor refrigeration piece, the PLC controller is installed on the leading flank of water storage box, install two corresponding temperature sensor on the inside back lateral wall of water storage box, evenly distributed's installation cavity is seted up to the side of water storage box, the internally mounted of installation cavity has the semiconductor refrigeration piece, external power source's output is connected to the input electricity of PLC controller, the input of belt conveyor, first motor, hydraulic pump, first solenoid valve, semiconductor refrigeration piece and second solenoid valve is connected to the output electricity respectively of PLC controller, the PLC controller is connected with the two-way electricity of temperature sensor.

Further, second separation subassembly contains electric telescopic handle, fixed plate and baffle, the middle part of side on the cooler bin is fixed to the fixed plate, install electric telescopic handle on the last side of fixed plate, electric telescopic handle's flexible arm is fixed on the side of baffle, the output of PLC controller is connected to electric telescopic handle's input electricity.

Further, seal assembly contains fixed block, apron and second motor, be fixed with two corresponding fixed blocks on the right flank of cooler bin, rotate on the corresponding medial surface of two fixed blocks and be connected with the apron, install the second motor on the leading flank of the fixed block of front side, the output shaft of second motor is fixed on the leading flank of apron, the output of PLC controller is connected to the input electricity of second motor.

The four connecting plates are correspondingly fixed on the upper side surface of the belt conveyor.

Further, still include the support frame, the support frame is provided with two, and two corresponding fixes on the downside of belt conveyor of support frame, and the right side of two support frames is fixed on the right flank of cooler bin, supports belt conveyor through setting up the support frame.

Compared with the prior art, the utility model has the beneficial effects that: this rubber cooler has following benefit:

firstly, placing uncooled rubber on the upper side surface of a belt conveyor, then controlling the belt conveyor to work through a PLC (programmable logic controller), wherein the belt conveyor works to drive the rubber to move rightwards to enter the left end inside a cooling box, at the moment, water at the left end inside a T-shaped partition plate can carry out primary cooling on the rubber, the water at the left end inside the T-shaped partition plate can rise along with the temperature of time in the primary cooling process, at the moment, a temperature sensor at the left end inside a water storage box continuously measures the temperature of the water at the left end inside the T-shaped partition plate, when the temperature of the water is too high, the PLC automatically controls a first motor to work, the first motor works to drive the partition plate to move downwards to block the rubber, so that the flow of the rubber is reduced, the PLC automatically opens a hydraulic pump, a first electromagnetic valve at the left side and a second electromagnetic valve at the left side, after the first electromagnetic valve at the left side is opened, the water in the water storage box enters the left end inside the T-shaped partition plate through a three-way pipe, therefore, the temperature of the water at the left end in the T-shaped partition plate is reduced, the redundant water enters the water storage tank along the water outlet pipe at the left side after the second electromagnetic valve at the left side is opened, and the rubber product can be rapidly cooled by the device and the waste of water resources can be avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a first barrier assembly according to the present invention;

FIG. 3 is a schematic view of a water injection assembly according to the present invention;

figure 4 is a schematic view of a second barrier assembly according to the present invention.

In the figure: the device comprises a water storage tank 1, a cooling tank 2, a belt conveyor 3, a first blocking component 4, a fixed frame 41, a first motor 42, a blocking plate 43, a threaded rod 44, a limiting rod 45, a water injection component 5, a hydraulic pump 51, a three-way pipe 52, a first electromagnetic valve 53, a second blocking component 6, an electric telescopic rod 61, a fixed plate 62, a baffle 63, a sealing component 7, a fixed block 71, a cover plate 72, a second motor 73, a PLC 8, a connecting plate 9, a support frame 10, a temperature sensor 11, a semiconductor refrigerating sheet 12, a T-shaped partition plate 13, a water outlet pipe 14, a second electromagnetic valve 15 and a water outlet pipe 16.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a rubber cooler, its characterized in that: the water storage tank comprises a water storage tank 1, a first blocking component 4, a water injection component 5, a second blocking component 6, a sealing component 7 and a second electromagnetic valve 15;

the water storage tank 1: a T-shaped partition plate 13 is fixed at the upper end of the interior, a cooling tank 2 is fixed on the upper side surface of the water storage tank 1, and a belt conveyor 3 is installed at the left end of the upper side surface of the cooling tank 2;

first barrier assembly 4: the rubber flow rate limiting device comprises a fixed frame 41, a first motor 42, a blocking plate 43, a threaded rod 44 and a limiting rod 45, wherein the fixed frame 41 is fixed on the upper side face of a belt conveyor 3, the first motor 42 is installed on the upper side face of the fixed frame 41, the threaded rod 44 is connected to the internal thread of a threaded hole formed in the rear side edge part of the blocking plate 43, the upper end of the threaded rod 44 is connected with the output shaft of the first motor 42, the lower single end of the threaded rod 44 is rotatably connected to the upper side face of the belt conveyor 3, a through hole is formed in the front side edge part of the blocking plate 43, the limiting rod 45 is connected to the internal sliding part of the through hole, the limiting rod 45 is fixed inside the fixed frame 41, and the flow rate of rubber is limited by arranging a first blocking component 4;

a water injection assembly 5: the water storage tank comprises a hydraulic pump 51, a three-way pipe 52 and first electromagnetic valves 53, the hydraulic pump 51 is installed inside the water storage tank 1, the three-way pipe 52 is fixed in a water outlet valve of the hydraulic pump 51, two ends, far away from the hydraulic pump 51, of the three-way pipe 52 are respectively fixed in water inlet valves of the two first electromagnetic valves 53, a water outlet pipe is fixed in the water outlet valve of the first electromagnetic valve 53, the two water outlet pipes are fixed on the front side surface of the cooling tank 2, the water outlet pipe is communicated with the inner cavity of the cooling tank 2, and water is injected into the T-shaped partition plate 13 through the water injection assembly 5;

second barrier assembly 6: the second blocking assembly 6 comprises an electric telescopic rod 61, a fixing plate 62 and a baffle 63, the fixing plate 62 is fixed in the middle of the upper side face of the cooling box 2, the electric telescopic rod 61 is installed on the upper side face of the fixing plate 62, a telescopic arm of the electric telescopic rod 61 is fixed on the side face of the baffle 63, and the input end of the electric telescopic rod 61 is electrically connected with the output end of the PLC 8;

the sealing component 7: the sealing assembly 7 comprises fixing blocks 71, a cover plate 72 and a second motor 73, the two corresponding fixing blocks 71 are fixed on the right side surface of the cooling box 2, the cover plate 72 is rotatably connected to the corresponding inner side surfaces of the two fixing blocks 71, the second motor 73 is installed on the front side surface of the front fixing block 71, the output shaft of the second motor 73 is fixed on the front side surface of the cover plate 72, and the input end of the second motor 73 is electrically connected with the output end of the PLC 8;

second electromagnetic valve 15: two water outlet pipes 16 are fixed in the water inlet valve of the second electromagnetic valve 15, the two water outlet pipes 16 are correspondingly fixed on the rear side surface of the cooling box 2, the water outlet pipes 16 are communicated with the inner cavity of the cooling box 2, the water outlet valve of the second electromagnetic valve 15 is internally fixed with a water outlet pipe 14, the two water outlet pipes 14 are correspondingly fixed on the rear side surface of the water storage box 1, and the water outlet pipe 14 is communicated with the inner cavity of the water storage box 1;

wherein: still include PLC controller 8, temperature sensor 11 and semiconductor refrigeration piece 12, PLC controller 8 is installed on the leading flank of water storage box 1, install two corresponding temperature sensor 11 on the inside back lateral wall of water storage box 1, evenly distributed's installation cavity is seted up to the side of water storage box 1, the internally mounted of installation cavity has semiconductor refrigeration piece 12, external power source's output is connected to PLC controller 8's input electricity, belt conveyor 3 is connected to PLC controller 8's output electricity respectively, first motor 42, hydraulic pump 51, first solenoid valve 53, the input of semiconductor refrigeration piece 12 and second solenoid valve 15, PLC controller 8 is connected with 11 two-way electricity of temperature sensor.

The device is characterized by further comprising four connecting plates 9, wherein the four connecting plates 9 are correspondingly fixed on the upper side face of the belt conveyor 3.

Still include support frame 10, support frame 10 is provided with two, and two corresponding fixes on the downside of belt conveyor 3 of support frame 10, and the right side of two support frames 10 is fixed on the right flank of cooler bin 2, supports belt conveyor 3 through setting up support frame 10.

When in use: firstly, placing uncooled rubber on the upper side surface of a belt conveyor 3, then controlling the belt conveyor 3 to work through a PLC (programmable logic controller) 8, wherein the belt conveyor 3 drives the rubber to move rightwards to enter the left end inside a cooling box 2, at the moment, water at the left end inside a T-shaped partition plate 13 carries out primary cooling on the rubber, the water at the left end inside the T-shaped partition plate 13 rises along with the temperature of time in the primary cooling process, at the moment, a temperature sensor 11 at the left end inside a water storage box 1 continuously measures the temperature of the water at the left end inside the T-shaped partition plate 13, when the temperature of the water is overhigh, the PLC 8 automatically controls a first motor 42 to work, the first motor 42 works to drive a baffle plate 43 to move downwards to baffle the rubber, so that the flow of the rubber is reduced, and the PLC 8 automatically opens a hydraulic pump 51, a first electromagnetic valve 53 at the left side and a second electromagnetic valve 15 at the left side, the inside water of left first solenoid valve 53 opening back water storage box 1 enters into the inside left end of T shape baffle 13 through three-way pipe 52, thereby reduce the temperature of the inside left end water of T shape baffle 13, the left unnecessary water will enter into the inside of water storage box 1 along left outlet pipe 14 after left second solenoid valve 15 opens, then start semiconductor refrigeration piece 12 and lower the temperature to the inside water of water storage box 1, rubber starts electric telescopic handle 61 after the primary cooling, electric telescopic handle 61 drives baffle 63 rebound after starting, baffle 63 rebound makes through the inside right-hand member of cooling tank 2 that moves to the right side of primary cooling's rubber, the water that lies in the inside right side of T shape baffle 13 this moment carries out further cooling to rubber.

It is to be noted that the specific model of the PLC controller 8 disclosed in this embodiment is siemens S7-200, the belt conveyor 3, the first motor 42, the hydraulic pump 51, the first electromagnetic valve 53, the electric telescopic rod 61, the second motor 73, the temperature sensor 11, the semiconductor refrigeration piece 12, and the second electromagnetic valve 15 may be freely configured according to an actual application scenario, and the PLC controller 8 controls the belt conveyor 3, the first motor 42, the hydraulic pump 51, the first electromagnetic valve 53, the electric telescopic rod 61, the second motor 73, the second electromagnetic valve 15, and the semiconductor refrigeration piece 12 to work by using a method commonly used in the prior art.

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 (5)

1. A rubber cooler, its characterized in that: comprises a water storage tank (1), a first blocking component (4), a water injection component (5), a second blocking component (6), a sealing component (7) and a second electromagnetic valve (15);

water storage tank (1): a T-shaped partition plate (13) is fixed at the upper end of the inside of the water storage tank, a cooling tank (2) is fixed on the upper side surface of the water storage tank (1), and a belt conveyor (3) is installed at the left end of the upper side surface of the cooling tank (2);

first barrier assembly (4): the belt conveyor with the limiting rod comprises a fixed frame (41), a first motor (42), a blocking plate (43), a threaded rod (44) and a limiting rod (45), wherein the fixed frame (41) is fixed on the upper side face of the belt conveyor (3), the first motor (42) is installed on the upper side face of the fixed frame (41), the threaded rod (44) is connected to the inner thread of the threaded hole formed in the rear side edge of the blocking plate (43), the upper end of the threaded rod (44) is connected with the output shaft of the first motor (42), the lower single end of the threaded rod (44) is rotatably connected to the upper side face of the belt conveyor (3), a through hole is formed in the front side edge of the blocking plate (43), the limiting rod (45) is connected to the inner portion of the through hole in a sliding mode, and the limiting rod (45) is fixed inside the fixed frame (41);

water injection assembly (5): the cooling water system comprises a hydraulic pump (51), a three-way pipe (52) and first electromagnetic valves (53), wherein the hydraulic pump (51) is installed inside a water storage tank (1), the three-way pipe (52) is fixed in a water outlet valve of the hydraulic pump (51), two ends, far away from the hydraulic pump (51), of the three-way pipe (52) are respectively fixed in water inlet valves of the two first electromagnetic valves (53), water outlet pipes are fixed in the water outlet valve of the first electromagnetic valve (53), the two water outlet pipes are both fixed on the front side surface of a cooling tank (2), and the water outlet pipes are communicated with an inner cavity of the cooling tank (2);

second barrier assembly (6): is arranged inside the cooling box (2);

sealing assembly (7): is arranged on the right side surface of the cooling box (2);

second electromagnetic valve (15): two water outlet pipes (16) are fixed in a water inlet valve of the second electromagnetic valve (15), the two water outlet pipes (16) are correspondingly fixed on the rear side surface of the cooling box (2), the water outlet pipes (16) are communicated with the inner cavity of the cooling box (2), a water outlet pipe (14) is fixed in a water outlet valve of the second electromagnetic valve (15), the two water outlet pipes (14) are correspondingly fixed on the rear side surface of the water storage box (1), and the water outlet pipe (14) is communicated with the inner cavity of the water storage box (1);

wherein: also comprises a PLC (programmable logic controller) controller (8), a temperature sensor (11) and a semiconductor refrigeration piece (12), the PLC controller (8) is arranged on the front side surface of the water storage tank (1), two corresponding temperature sensors (11) are arranged on the rear side wall in the water storage tank (1), the side surface of the water storage tank (1) is provided with uniformly distributed installation cavities, semiconductor refrigeration sheets (12) are installed in the installation cavities, the input end of the PLC (8) is electrically connected with the output end of an external power supply, the output end of the PLC (8) is respectively and electrically connected with the input ends of the belt conveyor (3), the first motor (42), the hydraulic pump (51), the first electromagnetic valve (53), the semiconductor refrigeration sheet (12) and the second electromagnetic valve (15), the PLC (8) is in bidirectional electric connection with the temperature sensor (11).

2. A rubber cooler according to claim 1, wherein: second separation subassembly (6) contain electric telescopic handle (61), fixed plate (62) and baffle (63), the middle part of side is fixed on cooler bin (2) in fixed plate (62), install electric telescopic handle (61) on the last side of fixed plate (62), the flexible arm of electric telescopic handle (61) is fixed on the side of baffle (63), the output of PLC controller (8) is connected to the input electricity of electric telescopic handle (61).

3. A rubber cooler according to claim 1, wherein: seal assembly (7) contain fixed block (71), apron (72) and second motor (73), be fixed with two corresponding fixed block (71) on the right flank of cooler bin (2), rotate on the corresponding medial surface of two fixed block (71) and be connected with apron (72), install second motor (73) on the leading flank of the fixed block (71) of front side, the output shaft of second motor (73) is fixed on the leading flank of apron (72), the output of PLC controller (8) is connected to the input electricity of second motor (73).

4. A rubber cooler according to claim 1, wherein: the four connecting plates (9) are correspondingly fixed on the upper side surface of the belt conveyor (3).

5. A rubber cooler according to claim 1, wherein: still include support frame (10), support frame (10) are provided with two, and two corresponding fixes on the downside of belt conveyor (3) of support frame (10), and the right side of two support frames (10) is fixed on the right flank of cooler bin (2).

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