CN218710097U - Energy-saving rubber regeneration tank - Google Patents

Abstract

The utility model belongs to the technical field of the rubber regeneration jar technique and specifically relates to an energy-saving rubber regeneration jar. Through at the internal inner tank that sets up of jar, and set up feeding ring canal and ejection of compact ring canal respectively at the inner tank both ends, and set up the heat exchange tube between feeding ring canal and the ejection of compact ring canal, and the external portion of jar has set up the circulating pipe that both ends connect feeding ring canal and ejection of compact ring canal respectively, the circulating pump has been set up on this circulating pipe, can realize the circulation of heat-conducting medium when the circulating pump operation, when heat-conducting medium passes through metal heating pipe, by electromagnetic induction heating coil heating, can realize the heating to the inner tank, when heat-conducting medium passes through the heat transfer case, heat-conducting medium flows in heat transfer capillary, the fan of breathing in of setting is from the top down with the air, when the board is placed through the fretwork to air, place the dry ice refrigeration on the board at the fretwork, the air after the refrigeration cools off heat transfer capillary, realize the refrigeration to heat-transferring medium, this rubber regeneration tank, heating and cooling efficiency are high, energy consumption is low.

Description

Energy-saving rubber regeneration tank

Technical Field

The utility model relates to a rubber regeneration jar technical field specifically is an energy-saving rubber regeneration jar.

Background

With the development of modern industry, a large amount of waste vulcanized rubber such as waste tires and the like is generated, so that not only is the resource wasted, but also the environment is harmed. The method for preparing reclaimed rubber from waste rubber for recycling is an effective treatment method for the existing waste rubber, a regeneration tank is usually used in the rubber recovery processing process, and the existing regeneration tank needs an independent heat exchange system for cooling and heating, so that the energy consumption is high, and the equipment cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-saving rubber regeneration tank, through at the internal inner tank that sets up of jar, and set up feeding ring canal and ejection of compact ring canal respectively at the inner tank both ends, and set up the heat exchange tube between feeding ring canal and the ejection of compact ring canal, and the external portion of jar has set up the circulating pipe that both ends connect feeding ring canal and ejection of compact ring canal respectively, the circulating pump has been set up on this circulating pipe, can realize the circulation of heat-conducting medium when the circulating pump operation, when heat-conducting medium passes through metal heating pipe, by electromagnetic induction heating coil heating, can realize the heating to the inner tank, when heat-conducting medium passes through the heat transfer case, heat-conducting medium flows in heat transfer capillary, the suction fan of setting is with the air from last down inhaling, when the air is placed the board through the fretwork, place the dry ice refrigeration on the board at the fretwork, the air after the refrigeration cools off heat transfer capillary, realize the refrigeration to heat-transferring medium, this rubber regeneration tank, heating and cooling efficiency are high, energy consumption is low, in order to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

an energy-efficient rubber regeneration tank, comprising:

the inner tank is arranged in the tank body, the bottom of the tank body is provided with a support frame, and a driving mechanism is arranged on the support frame at the left end of the tank body;

the heat exchange mechanism comprises a feeding ring pipe and a discharging ring pipe which are respectively arranged at the left end and the right end of the inner tank, a heat exchange pipe is arranged between the feeding ring pipe and the discharging ring pipe, a circulating pipe is arranged at the top of the tank body, the two ends of the circulating pipe are respectively connected with the feeding ring pipe and the discharging ring pipe, a circulating pump is arranged on the circulating pipe, and a cooling structure and a heating structure are respectively arranged on the circulating pipe;

the heating structure comprises a metal heating pipe arranged on the circulating pipe, two ends of the metal heating pipe are fixedly arranged on a top plate of the tank body through a fixing frame, and an electromagnetic induction heating coil is sleeved on the outer side of the metal heating pipe;

cooling structure, cooling structure include on the circulating pipe in the tee bend that the metal heating pipe both ends set up and set up between the tee bend outer takeover, be provided with the heat transfer case on the outer takeover, both ends all are provided with and take over the feeding case and the ejection of compact case of intercommunication with outer takeover about the heat transfer case, and are provided with the heat transfer capillary between feeding case and the ejection of compact case, and heat transfer roof portion is provided with the fretwork and places the board, and heat transfer bottom of the case portion is provided with the suction fan, and the heat transfer capillary is located the fretwork and places between board and the suction fan.

As an optimal scheme, both ends all are provided with the butt joint section of thick bamboo that stretches out the external jar about the inner tank, are provided with the (mixing) shaft that runs through the inner tank and rotate through sealed bearing and butt joint section of thick bamboo inner wall and be connected between the butt joint section of thick bamboo, are provided with the agitator on the (mixing) shaft of inner tank inside.

As a preferred scheme, the driving mechanism comprises a mounting frame arranged at the left end of the support frame and a reduction gear box and a driving motor which are sequentially arranged on the mounting frame from top to bottom, a motor shaft of the driving motor is connected with a kinetic energy access shaft of the reduction gear box through a belt, and a kinetic energy output shaft of the reduction gear box is connected with the stirring shaft through a coupling.

As a preferred scheme, the circulating pipe on the right side of the metal heating pipe and the external connecting pipe are both provided with switch valves.

As a preferred scheme, the top of the tank body is provided with a dry ice manufacturing machine, and a discharge port of the dry ice manufacturing machine extends to the position above the hollowed-out placing plate.

As a preferred scheme, be provided with the control box on the bottom panel of jar body, be provided with relay group on the inside bottom plate of control box, be provided with the PLC controller on the right side inner wall of control box, the control signal incoming end of six sets of relays in the relay group is respectively through the control signal output part of signal connection PLC controller, the electric energy output part of six sets of relays in the relay group is respectively through the electric energy incoming end of wire connection driving motor, the circulating pump, electromagnetic induction heating coil, the dry ice machine of making, the electric energy incoming end of inhaling fan and two sets of ooff valves.

As an optimal scheme, the top of the left end of the inner tank is provided with a feeding pipe extending out of the tank body, and the bottom of the right end of the inner tank is provided with a discharging pipe extending out of the tank body.

By the foregoing the utility model provides a technical scheme can see out, the utility model provides a pair of energy-saving rubber regeneration jar, beneficial effect is: the inner tank is arranged in the tank body, the two ends of the inner tank are respectively provided with the feeding ring pipe and the discharging ring pipe, a heat exchange pipe is arranged between the feeding ring pipe and the discharging ring pipe, the circulating pipe with two ends respectively connected with the feeding ring pipe and the discharging ring pipe is arranged outside the tank body, the circulating pump is arranged on the circulating pipe, when the circulating pump runs, the circulation of a heat-conducting medium can be realized, when the heat-conducting medium passes through the metal heating pipe, the heat-conducting medium is heated by the electromagnetic induction heating coil, the heating of the inner tank can be realized, when the heat-conducting medium passes through the heat exchange box, the heat-conducting medium flows in the heat exchange capillary pipe, the air is sucked downwards from the top by the arranged suction fan, when the air passes through the hollowed placing plate, the air is placed on the hollowed placing plate for refrigerating by dry ice, the refrigerated air cools the heat exchange capillary pipe, the refrigeration of the heat-conducting medium is realized, the rubber regeneration tank is high in heating and cooling efficiency, low in energy consumption, and is suitable for popularization and use.

Drawings

Fig. 1 is the overall structure schematic diagram of the energy-saving rubber regeneration tank of the utility model.

In the figure: 1. a tank body; 11. a support frame; 12. a mounting frame; 13. a drive motor; 14. a reduction gear box; 2. an inner tank; 21. a fixing frame; 22. a stirring shaft; 23. a docking barrel; 24. a stirrer; 25. sealing the bearing; 3. a feed loop; 31. a discharge ring pipe; 311. a heat exchange tube; 32. A circulation pipe; 33. a circulation pump; 34. a fixed mount; 35. a metal heating tube; 36. an electromagnetic induction heating coil; 37. an external connection pipe; 38. an on-off valve; 39. a heat exchange box; 391. a heat exchange capillary tube; 392. hollowing out the placing plate; 393. an air suction fan; 394. a dry ice maker; 4. a control box; 41. a relay group; 42. a PLC controller.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an energy-saving rubber regeneration tank, including:

the tank comprises a tank body 1, an inner tank 2 is arranged in the tank body 1, a feeding pipe extending out of the tank body 1 is arranged at the top of the left end of the inner tank 2, a discharging pipe extending out of the tank body 1 is arranged at the bottom of the right end of the inner tank 2, a supporting frame 11 is arranged at the bottom of the tank body 1, a driving mechanism is arranged on the supporting frame 11 at the left end of the tank body 1, the driving mechanism comprises an installation frame 12 arranged at the left end of the supporting frame 11 and a reduction gear box 14 and a driving motor 13 which are sequentially arranged on the installation frame 12 from top to bottom, a motor shaft of the driving motor 13 is connected with a kinetic energy access shaft of the reduction gear box 14 through a belt, and a kinetic energy output shaft of the reduction gear box 14 is connected with a stirring shaft 22 through a coupling;

the heat exchange mechanism comprises a feeding ring pipe 3 and a discharging ring pipe 31 which are respectively arranged at the left end and the right end of the inner tank 2, a heat exchange pipe 311 is arranged between the feeding ring pipe 3 and the discharging ring pipe 31, a circulating pipe 32 with two ends respectively connected with the feeding ring pipe 3 and the discharging ring pipe 31 is arranged at the top of the tank body 1, a circulating pump 33 is arranged on the circulating pipe 32, and a cooling structure and a heating structure are respectively arranged on the circulating pipe 32;

the heating structure comprises a metal heating pipe 35 arranged on the circulating pipe 32, two ends of the metal heating pipe 35 are fixedly arranged on the top plate of the tank body 1 through a fixing frame 34, and an electromagnetic induction heating coil 36 is sleeved on the outer side of the metal heating pipe 35;

cooling structure, cooling structure includes that the tee bend that sets up in metal heating pipe 35 both ends on the circulating pipe 32 and the tee bend between set up is managed 37 outward, be provided with heat transfer case 39 on managing 37 outward, both ends all are provided with and manage the feeding case and the play workbin that 37 communicate outward about heat transfer case 39, and are provided with heat transfer capillary 391 between feeding case and the play workbin, heat transfer case 39 top is provided with the fretwork and places board 392, heat transfer case 39 bottom is provided with air suction fan 393, and heat transfer capillary 391 is located the fretwork and places between board 392 and air suction fan 393.

In the above-mentioned device, both ends all are provided with the butt joint section of thick bamboo 23 that stretches out jar body 1 outside about inner tank 2, are provided with between the butt joint section of thick bamboo 23 to run through inner tank 2 and rotate the (mixing) shaft 22 of being connected through sealed bearing 25 and butt joint section of thick bamboo 23 inner wall, are provided with agitator 24 on the (mixing) shaft 22 of inner tank 2 inside.

In the above device, the circulating pipe 32 on the right side of the metal heating pipe 35 and the external pipe are both provided with the switch valves 38.

In the above device, a dry ice maker 394 is arranged on the top of the tank body 1, and a discharge port of the dry ice maker 394 extends to the position above the hollowed placing plate 392.

In the above device, a control box 4 is arranged on a bottom panel of a tank 1, a relay group 41 is arranged on a bottom plate inside the control box 4, a PLC controller 42 is arranged on the inner wall on the right side of the control box 4, control signal input ends of six groups of relays in the relay group 41 are respectively connected with a control signal output end of the PLC controller 42 through electric signals, and electric power output ends of six groups of relays in the relay group 41 are respectively connected with electric power input ends of a driving motor 13, a circulating pump 33, an electromagnetic induction heating coil 36, a dry ice maker 394, an air suction fan 393 and two groups of switch valves 38 through wires.

The utility model discloses an energy-saving rubber regeneration tank, through at the internal inner tank that sets up of jar, and set up feeding ring canal and ejection of compact ring canal respectively at inner tank both ends, and set up the heat exchange tube between feeding ring canal and the ejection of compact ring canal, and the external portion of jar has set up the circulating pipe that both ends connect feeding ring canal and ejection of compact ring canal respectively, the circulating pump has been set up on this circulating pipe, can realize the circulation of heat-conducting medium when the circulating pump operation, when heat-conducting medium passes through metal heating pipe, by electromagnetic induction heating coil heating, can realize the heating to the inner tank, when heat-conducting medium passes through the heat transfer case, heat-conducting medium flows in heat transfer capillary, the fan of breathing in of setting down inhales the air from last, when the board is placed through the fretwork to the air, place the dry ice refrigeration on placing the board, the air after the refrigeration cools off heat transfer capillary, realize the refrigeration to heat-transferring medium, this rubber regeneration tank, heating and cooling efficiency are high, energy consumption is low, suitable using widely.

The embodiments of the present invention will be described in further detail below with reference to the attached drawings:

please refer to fig. 1, including the tank 1, the tank 1 is internally provided with an inner tank 2, the top of the left end of the inner tank 2 is provided with a feeding pipe extending out of the tank 1, the bottom of the right end of the inner tank 2 is provided with a discharging pipe extending out of the tank 1, the bottom of the tank 1 is provided with a support frame 11, the left end of the support frame 11 is provided with a mounting frame 12, the mounting frame 12 is sequentially provided with a reduction gear box 14 and a driving motor 13 from top to bottom, a motor shaft of the driving motor 13 is connected with a kinetic energy input shaft of the reduction gear box 14 through a belt, a kinetic energy output shaft of the reduction gear box 14 is connected with a stirring shaft 22 through a coupler, the left end and the right end of the inner tank 2 are respectively provided with a feeding ring pipe 3 and a discharging ring pipe 31, a heat exchange pipe 311 is arranged between the feeding ring pipe 3 and the discharging ring pipe 31, the top of the tank 1 is provided with a circulating pipe 32 having two ends respectively connected with the feeding ring pipe 3 and the discharging ring 31, and a circulating pump 33 is arranged on the circulating pipe 32, and a heating structure are respectively arranged on the circulating pipe 32, two ends of the circulating pipe 32 are provided with a metal heating pipe 35, two ends of the metal heating pipe, two ends of the circulating pipe 35 are fixedly arranged on the top of the tank 1, the capillary tube 35, the capillary tube is provided with a heat exchange box 393, the outer heat exchange box 37, the outer heat exchange box 39 and a suction box, the outer box 393, the outer heat exchange box 39 and a suction box, the outer heat exchange box is arranged on the outer heat exchange box 393, and a suction box, the outer heat exchange box 393, and a discharge box, the outer heat exchange box 39, the outer heat exchange box, the outer box is arranged on the capillary tube 39, the capillary tube 39 and the capillary tube.

Referring to fig. 1, the left and right ends of the inner tank 2 are provided with a docking barrel 23 extending out of the tank body 1, a stirring shaft 22 penetrating through the inner tank 2 and rotatably connected with the inner wall of the docking barrel 23 through a seal bearing 25 is arranged between the docking barrels 23, a stirrer 24 is arranged on the stirring shaft 22 inside the inner tank 2, and the stirrer 24 can stir the material in the inner tank 2 under the driving of the driving motor 13. The heating and mixing of the regenerated rubber are realized, and after the regenerated rubber is mixed and stirred, the heat exchange box 39 can be quickly utilized to quickly cool the regenerated rubber.

Referring to fig. 1, the circulating pipe 32 on the right side of the metal heating pipe 35 and the external pipe are both provided with a switch valve 38, and the switch valve 38 can realize the fast switching between heating and cooling.

Referring to fig. 1, a dry ice maker 394 is disposed on the top of the tank 1, a discharge port of the dry ice maker 394 extends above the hollow placement plate 392, and the dry ice maker 394 guides the dry ice made onto the hollow placement plate 392 to rapidly cool the passing air.

Referring to fig. 1, a control box 4 is disposed on a bottom panel of a tank 1, a relay group 41 is disposed on a bottom plate inside the control box 4, a PLC controller 42 is disposed on an inner wall on the right side of the control box 4, control signal input ends of six relays in the relay group 41 are respectively connected to a control signal output end of the PLC controller 42 through electrical signals, and power output ends of six relays in the relay group 41 are respectively connected to power input ends of a driving motor 13, a circulating pump 33, an electromagnetic induction heating coil 36, a dry ice maker 394, an air suction fan 393 and two sets of switching valves 38 through wires.

Further, a gap between the tank body 1 and the inner tank 2 is filled with a heat-conducting medium.

The working principle of the embodiment is as follows: through at the internal inner tank that sets up of jar, and set up feeding ring canal and ejection of compact ring canal respectively at inner tank both ends, and set up the heat exchange tube between feeding ring canal and the ejection of compact ring canal, and jar external portion has set up the circulating pipe that both ends connect feeding ring canal and ejection of compact ring canal respectively, the circulating pump has been set up on this circulating pipe, can realize the circulation of heat-conducting medium when the circulating pump operation, when heat-conducting medium passes through metal heating pipe, be heated by electromagnetic induction heating coil, can realize the heating to the inner tank, when heat-conducting medium passes through the heat transfer case, heat-conducting medium flows in heat transfer capillary, the fan of breathing in that sets up inhales air from the top down, when the board is placed through the fretwork to air, place the dry ice refrigeration on the board is placed to the fretwork, air after the refrigeration cools off heat transfer capillary, realize the refrigeration to heat-transferring medium.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an energy-saving rubber regeneration jar which characterized in that: the method comprises the following steps:

the tank comprises a tank body (1), wherein an inner tank (2) is arranged in the tank body (1), a support frame (11) is arranged at the bottom of the tank body (1), and a driving mechanism is arranged on the support frame (11) at the left end of the tank body (1);

the heat exchange mechanism comprises a feeding ring pipe (3) and a discharging ring pipe (31) which are respectively arranged at the left end and the right end of an inner tank (2), a heat exchange pipe (311) is arranged between the feeding ring pipe (3) and the discharging ring pipe (31), a circulating pipe (32) with two ends respectively connected with the feeding ring pipe (3) and the discharging ring pipe (31) is arranged at the top of the tank body (1), a circulating pump (33) is arranged on the circulating pipe (32), and a cooling structure and a heating structure are respectively arranged on the circulating pipe (32);

the heating structure comprises a metal heating pipe (35) arranged on the circulating pipe (32), two ends of the metal heating pipe (35) are fixedly arranged on a top plate of the tank body (1) through a fixing frame (34), and an electromagnetic induction heating coil (36) is sleeved on the outer side of the metal heating pipe (35);

the cooling structure comprises a circulating pipe (32), a tee joint and an outer connecting pipe (37) are arranged between the tee joint and the outer connecting pipe, the outer connecting pipe (37) is provided with a heat exchange box (39), the left end and the right end of the heat exchange box (39) are provided with a feeding box and a discharging box which are communicated with the outer connecting pipe (37), a heat exchange capillary tube (391) is arranged between the feeding box and the discharging box, the top of the heat exchange box (39) is provided with a hollowed-out placing plate (392), the bottom of the heat exchange box (39) is provided with an air suction fan (393), and the heat exchange capillary tube (391) is located between the hollowed-out placing plate (392) and the air suction fan (393).

2. An energy-saving rubber regeneration tank according to claim 1, characterized in that: both ends all are provided with and stretch out a jar body (1) outer butt joint section of thick bamboo (23) about inner tank (2), be provided with between butt joint section of thick bamboo (23) and run through inner tank (2) and rotate (mixing) shaft (22) of being connected through sealed bearing (25) and butt joint section of thick bamboo (23), be provided with agitator (24) on (mixing) shaft (22) of inner tank (2) inside.

3. An energy-saving rubber regeneration tank according to claim 1, characterized in that: actuating mechanism includes speed reduction gear box (14) and driving motor (13) that down set gradually from the top on mounting bracket (12) and mounting bracket (12) that support frame (11) left end set up, the kinetic energy that speed reduction gear box (14) were connected through the belt to the motor shaft of driving motor (13) inserts the axle, the kinetic energy output shaft of speed reduction gear box (14) passes through coupling joint (mixing) shaft (22).

4. An energy-saving rubber regeneration tank according to claim 1, characterized in that: and the circulating pipe (32) on the right side of the metal heating pipe (35) and the external connecting pipe are both provided with switch valves (38).

5. An energy-saving rubber regeneration tank according to claim 1, characterized in that: a dry ice maker (394) is arranged at the top of the tank body (1), and a discharge hole of the dry ice maker (394) extends to the position above the hollowed placing plate (392).

6. An energy-saving rubber regeneration tank according to claim 1, characterized in that: be provided with control box (4) on the bottom panel of the jar body (1), be provided with relay group (41) on the inside bottom plate of control box (4), be provided with PLC controller (42) on the right side inner wall of control box (4), the control signal incoming end of six sets of relays passes through the control signal output of signal connection PLC controller (42) respectively in relay group (41), the electric energy output of six sets of relays passes through the wire respectively in relay group (41) and connects driving motor (13), circulating pump (33), electromagnetic induction heating coil (36), dry ice maker (394), the electric energy incoming end of inhaling fan (393) and two sets of ooff valves (38).

7. An energy-saving rubber regeneration tank according to claim 1, characterized in that: inner tank (2) left end top is provided with the inlet pipe that stretches out outside jar body (1), inner tank (2) right-hand member bottom is provided with the discharging pipe that stretches out outside jar body (1).

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