CN218609377U - Reaction kettle - Google Patents

Abstract

The utility model relates to the technical field of reaction kettles, in particular to a reaction kettle, which comprises an outer box, an inner cavity, a heating plate, a feeding channel, a bidirectional stirring mechanism and a discharging assembly; the discharging assembly comprises a discharging channel, a rotating gear table, a scraper, a driving member, an opening and closing member and a pressurizing member; discharging channel and outer container fixed connection, it rotates with discharging channel to rotate the gear platform and is connected, the scraper blade with rotate gear platform fixed connection, driving member is connected with the outer container, the component that opens and shuts is connected with the outer container, the pressurized component is connected with the outer container, thereby realized clearing up the passageway inner wall of ejection of compact through the component that is equipped with, thereby resin is attached to the condition that causes the discharging pipe jam at the discharging pipe inner wall when avoiding the ejection of compact, very big increase whole finished product exhaust efficiency.

Description

Reaction kettle

Technical Field

The utility model relates to a reation kettle technical field especially relates to a reation kettle.

Background

When resin is produced, the through grooves are formed by pouring materials into the reaction cavity of the reaction kettle for relaxation, the traditional reaction kettle is single in stirring mode and can only stir along one direction, and therefore the mixing effect of the final resin raw materials is poor.

The prior patent CN217313389U discloses a reaction kettle for resin production, which can complete the sufficient stirring and mixing of raw materials through two sets of stirring sets with opposite rotation directions, and then complete the discharging of finished resin through a discharging pipe arranged at the bottom.

However, in the above manner, when the finished resin is discharged, the resin is easily adhered to the sidewall of the introduced tapping pipe due to its own viscosity, and since some of the resin is kept in a solid state or a semi-solid state at normal temperature, the resin is easily clogged after being adhered to the sidewall of the tapping pipe, thereby affecting the efficiency of discharging the whole finished product.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reaction kettle can clear up the passageway inner wall of the ejection of compact through the component that is equipped with, thereby the resin adheres to the condition that causes the discharging pipe jam at the discharging pipe inner wall when avoiding the ejection of compact, very big increase whole finished product exhaust efficiency.

In order to achieve the purpose, the utility model provides a reaction kettle, which comprises an outer box, an inner cavity, a heating plate, a feeding channel and a bidirectional stirring mechanism, wherein the inner cavity is arranged in the outer box, the heating plate is arranged between the outer box and the inner cavity, the feeding channel is arranged on one side of the outer box, the bidirectional stirring mechanism is arranged on one side of the outer box, and the reaction kettle also comprises a discharging component;

the discharging assembly comprises a discharging channel, a rotating gear table, a scraping plate, a driving member, an opening and closing member and a pressurizing member; the discharging channel is fixedly connected with the outer box and located on one side of the outer box, the rotating gear table is rotatably connected with the discharging channel and located on one side of the discharging channel, the scraper is fixedly connected with the rotating gear table and located on one side of the discharging channel, the driving component is connected with the outer box, the opening and closing component is connected with the outer box, and the pressurizing component is connected with the outer box.

The driving component comprises a fixed frame, a rotating shaft, a rotating motor and a driving gear, and the fixed frame is fixedly connected with the outer box and is positioned on one side of the outer box; the rotating shaft is rotatably connected with the fixed frame and is positioned on one side of the fixed frame; an output shaft of the rotating motor is connected with the rotating shaft, and the rotating motor is fixedly arranged on one side of the fixed frame; the driving gear is engaged with the rotating gear table and is fixedly installed on one side of the rotating shaft.

The opening and closing component comprises a sliding baffle, an installation frame, a sliding screw and a sliding motor, wherein the sliding baffle is connected with the outer box in a sliding manner and is positioned on one side of the outer box; the mounting rack is fixedly connected with the outer box and is positioned on one side of the outer box; the sliding screw rod is in threaded connection with the sliding baffle and is rotatably arranged on one side of the mounting rack; the output shaft of the sliding motor is connected with the sliding screw, and the sliding motor is fixedly installed on one side of the installation frame.

The pressurizing component comprises an air inlet channel, an electric heating plate, a blower and a pressure stabilizing component, wherein the air inlet channel is connected with the outer box and is positioned on one side of the outer box; the electric heating plate is connected with the air inlet channel and is positioned on one side of the air inlet channel; the air blower is connected with the air inlet channel and is fixedly arranged on one side of the outer box; the pressure stabilizing member is connected to the outer case.

The pressure stabilizing component comprises a communication sleeve, a pressing block and an extrusion spring, and the communication sleeve is connected with the outer box and is positioned on one side of the outer box; the pressing block is connected with the communicating sleeve in a sliding mode and is positioned in the communicating sleeve; the two sides of the extrusion spring are respectively connected with the pressing block and the communicating sleeve, and the extrusion spring is located in the communicating sleeve.

The utility model discloses a reaction kettle passes through feedstock channel accomplishes the interpolation of raw materials, then passes through the hot plate with two-way rabbling mechanism accomplishes the mixture and the processing of raw materials, in the course of working, can pass through slide damper will the discharging hole that outer container bottom was equipped with shelters from, works as after processing is accomplished, slide damper alright remove under slide screw's the drive, and then accomplish logical groove and discharging hole's on the slide damper cooperation makes the inside raw materials of inner chamber can enter into through discharging channel in the discharging channel, when discharging channel carries out the ejection of compact, the rotation gear platform can driving motor with drive gear's effect drives down the scraper blade rotates, makes the adnexed finished product resin of discharging channel lateral wall can break away from under the effect of scraper blade, thereby guarantees the discharge speed of major ingredient passageway has realized can clearing up the passageway inner wall of ejection of compact through the component that is equipped with, thereby the resin adheres to the condition that causes the discharging pipe jam at the discharging pipe inner wall when avoiding the ejection of compact, very big increase whole finished product discharge's efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of the entire reaction vessel according to the first embodiment of the present invention.

Fig. 2 is an enlarged view of fig. 1 a according to the first embodiment of the present invention.

Fig. 3 is a schematic view of the internal structure of the inner chamber according to the first embodiment of the present invention.

Fig. 4 is a schematic structural view of the entire reaction vessel according to the second embodiment of the present invention.

Fig. 5 is a schematic view of the internal structure of the air inlet channel and the communicating sleeve according to the second embodiment of the present invention.

In the figure: 101-outer box, 102-inner cavity, 103-heating plate, 104-feeding channel, 105-bidirectional stirring mechanism, 106-discharging channel, 107-rotating gear table, 108-scraper, 109-fixing frame, 110-rotating shaft, 111-rotating motor, 112-driving gear, 113-sliding baffle, 114-mounting frame, 115-sliding screw, 116-sliding motor, 201-air inlet channel, 202-electric heating plate, 203-blower, 204-communicating sleeve, 205-pressing block, 206-extrusion spring.

Detailed Description

The embodiments of the invention will be described in detail hereinafter, examples of which are illustrated in the accompanying drawings, and the embodiments described hereinafter with reference to the drawings are exemplary and intended to be illustrative of the invention and should not be construed as limiting the invention.

The first embodiment of the present application is:

referring to fig. 1 to 3, fig. 1 is a schematic structural view of the entire reaction kettle, fig. 2 is an enlarged view of a point a of fig. 1, and fig. 3 is a schematic structural view of an inner cavity 102.

The utility model provides a reaction kettle: the resin discharge device comprises an outer box 101, an inner cavity 102, a heating plate 103, a feeding channel 104, a bidirectional stirring mechanism 105 and a discharge assembly, wherein the discharge assembly comprises a discharge channel 106, a rotary gear table 107, a scraper 108, a driving member, an opening and closing member and a pressurizing member, the driving member comprises a fixed frame 109, a rotary shaft 110, a rotary motor 111 and a driving gear 112, and the opening and closing member comprises a sliding baffle 113, a mounting frame 114, a sliding screw 115 and a sliding motor 116.

In this embodiment, the inner cavity 102 is installed in the outer box 101, the heating plate 103 is installed between the outer box 101 and the inner cavity 102, the feeding channel 104 is installed on one side of the outer box 101, the bidirectional stirring mechanism 105 is composed of two sets of stirring paddles and a rotating device for driving the two sets of stirring paddles to rotate, the two sets of stirring paddles can complete synchronous rotation in opposite directions through meshing of corresponding gears, so as to stir raw materials in the inner cavity 102 in multiple directions, the bidirectional stirring mechanism 105 is a mature prior art, and is not repeated in this scheme, the heating plate 103 is installed on the outer wall of the inner cavity 102, so as to heat raw materials in the inner cavity 102, and the feeding channel 104 used for feeding in order to ensure the whole heating effect can be generally sealed, and the feeding channel 104 and the heating plate 103 are also a mature prior art.

The discharge passage 106 is fixedly connected with the outer box 101 and is located on one side of the outer box 101, the rotary gear table 107 is rotatably connected with the discharge passage 106 and is located on one side of the discharge passage 106, the scraper 108 is fixedly connected with the rotary gear table 107 and is located on one side of the discharge passage 106, the driving member is connected with the outer box 101, the opening and closing member is connected with the outer box 101, the pressurizing member is connected with the outer box 101, and the fixing frame 109 is fixedly connected with the outer box 101 and is located on one side of the outer box 101; the rotating shaft 110 is rotatably connected with the fixing frame 109 and is located at one side of the fixing frame 109; an output shaft of the rotating motor 111 is connected with the rotating shaft 110, and the rotating motor 111 is fixedly installed at one side of the fixing frame 109; the driving gear 112 is meshed with the rotating gear table 107 and is fixedly mounted on one side of the rotating shaft 110, the discharging channel 106 corresponds to a discharging through hole formed in the outer box 101, the rotating gear table 107 and the scraper 108 are arranged at the bottom of the discharging channel 106, the scraper 108 is in contact with the side wall of the discharging channel 106, external teeth of the rotating gear table 107 are meshed with the driving gear 112, the driving gear 112 is driven by the rotation of the rotating shaft 110 on the fixing frame 109, and the rotating shaft 110 is fixed with an output shaft of the rotating motor 111, so that when the rotating motor 111 drives the rotating shaft 110 to rotate, the rotating shaft 110 can drive the driving gear 112 and the rotating gear table 107 to rotate together, and therefore the scraper 108 is driven to rotate on the inner wall of the discharging channel 106, and raw materials are prevented from being attached to the inner wall of the main material channel during discharging.

Secondly, the sliding baffle 113 is connected with the outer box 101 in a sliding manner and is positioned on one side of the outer box 101; the mounting rack 114 is fixedly connected with the outer box 101 and is located on one side of the outer box 101; the sliding screw 115 is in threaded connection with the sliding baffle 113 and is rotatably mounted on one side of the mounting frame 114; an output shaft of the sliding motor 116 is connected with the sliding screw 115, the sliding motor 116 is fixedly installed on one side of the mounting frame 114, a through groove matched with the discharging hole of the outer box 101 is formed in the sliding baffle 113, the sliding baffle 113 is installed in a sliding groove formed in the bottom of the outer box 101, a threaded hole matched with the sliding screw 115 is formed in a boss on the outer side of the sliding baffle 113, the sliding screw 115 is fixed with the output shaft of the sliding motor 116, so that when the sliding motor 116 drives the sliding screw 115 to rotate, the sliding screw 115 can drive the sliding baffle 113 to move in a corresponding direction, when the through groove in the sliding baffle 113 is completely matched with the discharging hole of the outer box 101, raw materials in the outer box 101 can be guided into the discharging channel 106 through the discharging hole, and when the through groove of the sliding baffle 113 is completely dislocated with the discharging hole, the discharging hole can be shielded by the sliding baffle 113, so that the raw materials in the outer box 101 cannot be discharged.

When the reaction kettle provided by the embodiment is used, the raw materials are added through the feeding channel 104, then the heating plate 103 and the bidirectional stirring mechanism 105 are used for mixing and processing the raw materials, in the processing process, the raw materials are shielded by the discharging through hole formed in the bottom of the outer box 101 through the sliding baffle 113, after the processing is completed, the sliding baffle 113 can be driven by the sliding screw 115 to move, so that the matching between the through groove in the sliding baffle 113 and the discharging through hole is completed, the raw materials in the inner cavity 102 can enter the discharging channel 106 through the discharging channel 106, when the discharging channel 106 discharges the materials, the rotating gear table 107 can drive the driving motor and the driving gear 112 to drive the scraper 108 to rotate, so that the finished resin attached to the side wall of the discharging channel 106 can be separated under the action of the scraper 108, the discharging speed of the main material channel is ensured, the inner wall of the discharging channel can be cleaned through the member provided with the discharging channel, the situation that the discharging pipe is blocked by the resin on the inner wall of the discharging channel is avoided, and the discharging efficiency of the whole finished product discharging pipe is greatly increased.

Second embodiment:

referring to fig. 4 and 5, fig. 4 is a schematic structural diagram of the whole reaction kettle of the second embodiment, fig. 5 is a schematic structural diagram of the air intake channel 201 and the communication sleeve 204 of the second embodiment, the pressure member provided by the present invention includes the air intake channel 201, the electric heating plate 202, the blower 203 and the pressure stabilizing component, and the pressure stabilizing component includes the communication sleeve 204, the pressing block 205 and the pressing spring 206.

The air inlet channel 201 is connected with the outer box 101 and is positioned on one side of the outer box 101; the electric heating plate 202 is connected with the air inlet channel 201 and is positioned on one side of the air inlet channel 201; the air blower 203 is connected with the air inlet channel 201 and is fixedly arranged on one side of the outer box 101; the pressure stabilizing component is connected with the outer box 101, and the communication sleeve 204 is connected with the outer box 101 and is positioned on one side of the outer box 101; the pressing block 205 is connected with the communication sleeve 204 in a sliding manner and is positioned in the communication sleeve 204; the two sides of the extrusion spring 206 are respectively connected with the pressing block 205 and the communication sleeve 204, the extrusion spring 206 is located in the communication sleeve 204, the air inlet channel 201 is arranged at the top of the outer box 101, the outer box 101 is provided with a corresponding air inlet slot at the position where the air inlet channel 201 is arranged, the air inlet channel 201 is communicated with the air outlet end of the air blower 203, and the electric heating plate 202 is also arranged in the air inlet channel 201, so that when discharging, airflow can be heated by the electric heating plate 202 through the air blower 203 and then guided into the outer box 101 and the inner cavity 102 thereof, because the top of the inner cavity 102 is in a sealed state after the processing is completed, after the air blower 203 continuously blows hot air, the air pressure at the top of the inner cavity 102 can be enhanced along with the air pressure, and further the resin in the inner cavity 102 can be extruded, so that the resin can flow on the inner cavity 102 faster, meanwhile, the top of the outer box 101 is also provided with the communication sleeve 204, the bottom of the communication sleeve 204 is communicated with the inside of the outer box 101, a circular groove in the communication sleeve 204 is matched with the pressing block 205 in shape and size, the top of the communication sleeve 204 is provided with an air outlet groove, the top of the pressing block 205 is provided with the extrusion spring 206, so that the pressing block 205 can be matched with a step in the communication sleeve 204 under the extrusion of the extrusion spring 206 in a normal state, when the air pressure in the inner cavity 102 is too high, the pressing block 205 can extrude the extrusion spring 206 under the extrusion of the air pressure, when the pressing block 205 moves up to the top of the communication sleeve 204, the air outlet groove in the communication sleeve 204 can be exposed to complete air exhaust, and when the air pressure is reduced, the pressing block 205 can reset under the action of the extrusion spring 206, so as to block the air outlet slot, so that the air pressure inside the inner cavity 102 can be stabilized by the installation of the pressing block 205 and the pressing spring 206.

When the reaction kettle of the embodiment is used, the air blower 203 arranged at the top of the outer box 101 can pass through the air flow between the electric heating plate 202 and the air inlet channel 201, so that the air pressure at the top of the inner cavity 102 is continuously increased and further extruded to enable the finished resin in the inner cavity 102 to flow more rapidly, when the air pressure is increased to a certain value, the pressing block 205 can extrude the extrusion spring 206 under the action of the air pressure, so that the air outlet groove formed in the top of the communication sleeve 204 is exposed to ensure the stability of the air pressure in the inner cavity 102, and the practicability of the whole reaction kettle is greatly enhanced.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims (5)

1. A reaction kettle comprises an outer box, an inner cavity, a heating plate, a feeding channel and a bidirectional stirring mechanism, wherein the inner cavity is arranged in the outer box, the heating plate is arranged between the outer box and the inner cavity, the feeding channel is arranged at one side of the outer box, the bidirectional stirring mechanism is arranged at one side of the outer box,

the device also comprises a discharging component;

the discharging assembly comprises a discharging channel, a rotating gear table, a scraping plate, a driving member, an opening and closing member and a pressurizing member; the discharging channel is fixedly connected with the outer box and located on one side of the outer box, the rotating gear table is rotatably connected with the discharging channel and located on one side of the discharging channel, the scraper is fixedly connected with the rotating gear table and located on one side of the discharging channel, the driving component is connected with the outer box, the opening and closing component is connected with the outer box, and the pressurizing component is connected with the outer box.

2. The reactor of claim 1,

the driving component comprises a fixed frame, a rotating shaft, a rotating motor and a driving gear, and the fixed frame is fixedly connected with the outer box and is positioned on one side of the outer box; the rotating shaft is rotatably connected with the fixed frame and is positioned on one side of the fixed frame; an output shaft of the rotating motor is connected with the rotating shaft, and the rotating motor is fixedly arranged on one side of the fixing frame; the driving gear is engaged with the rotating gear table and is fixedly installed on one side of the rotating shaft.

3. The reactor of claim 1,

the opening and closing component comprises a sliding baffle, an installation frame, a sliding screw and a sliding motor, wherein the sliding baffle is connected with the outer box in a sliding manner and is positioned on one side of the outer box; the mounting rack is fixedly connected with the outer box and is positioned on one side of the outer box; the sliding screw is in threaded connection with the sliding baffle and is rotatably arranged on one side of the mounting rack; an output shaft of the sliding motor is connected with the sliding screw rod, and the sliding motor is fixedly installed on one side of the installation rack.

4. The reactor of claim 1,

the pressurizing component comprises an air inlet channel, an electric heating plate, a blower and a pressure stabilizing component, wherein the air inlet channel is connected with the outer box and is positioned on one side of the outer box; the electric heating plate is connected with the air inlet channel and is positioned on one side of the air inlet channel; the air blower is connected with the air inlet channel and is fixedly arranged on one side of the outer box; the pressure stabilizing member is connected to the outer case.

5. The reactor of claim 4,

the pressure stabilizing component comprises a communication sleeve, a pressing block and an extrusion spring, and the communication sleeve is connected with the outer box and is positioned on one side of the outer box; the pressing block is connected with the communicating sleeve in a sliding mode and is positioned in the communicating sleeve; the two sides of the extrusion spring are respectively connected with the pressing block and the communicating sleeve, and the extrusion spring is positioned in the communicating sleeve.

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