CN214288128U - Reation kettle with rotation blanking structure - Google Patents

Abstract

The utility model discloses a reaction kettle with rotary blanking structure, which comprises a reaction kettle body, wherein after raw materials are processed in a reaction cavity, the raw materials flow into a second feed inlet, a motor drives a rotary gear to rotate, and further drives a toothed ring to rotate, and further drives a pipe body to carry out rotary blanking, the rotary speed of the pipe body can be controlled by controlling the rotation of the rotary gear, the blanking speed can be conveniently controlled, the blockage of the materials at a discharge port is avoided, the raw materials can be more fully fused by the rotation of the pipe body, when the pipe body rotates, a clearing mechanism fixedly arranged at two ends can clean the inner wall of the pipe body by the self force of the pipe body, a first fixed block is arranged in a second fixed port, a second fixed block is arranged in the first fixed port to carry out fixed installation, scrapers at two sides can be scraped in the positive rotation or the overturning of the pipe body, and the adhesion of the materials and the inner wall of the pipe body is avoided, the long-term removal of the waste water can not be realized, and the service life of the equipment is influenced.

Description

Reation kettle with rotation blanking structure

Technical Field

The utility model relates to a reation kettle unloader technical field specifically is a reation kettle with rotation blanking structure.

Background

The reaction kettle is a pressure container which has a physical or chemical reaction container, realizes the heating, evaporation, cooling and low-speed mixing functions required by the process by the structural design and parameter configuration of the container, is widely applied to petroleum, chemical engineering, rubber, pesticides, dyes, medicines and foods, and is used for completing the processes of vulcanization, nitration, hydrogenation, alkylation, polymerization, condensation and the like.

At present reation kettle when carrying out the unloading, thereby often can appear the unloading speed too fast and lead to the feed opening to pile up the problem that the material is too many to block up, it is inconvenient to use.

In order to solve the problems, a reaction kettle with a rotary blanking structure is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reation kettle with rotation blanking structure drives rotatory gear through setting up the motor and rotates, thereby it revolves the unloading to drive unloader upper end ring gear rotation, and then the rotational speed of control unloading mechanism through the slew velocity of control motor to the problem among the above-mentioned background art has been solved.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a reation kettle with rotation blanking structure, includes the reation kettle body, the reation kettle body includes reaction chamber, base, upper cover, first feed inlet and unloading mechanism, and the base is installed to the reaction chamber lower extreme, and the upper cover is installed to the reaction chamber upper end, upper cover and reaction chamber swing joint, and first feed inlet is installed to the upper cover upper end, and unloading mechanism is installed to the reaction chamber lower extreme.

Preferably, the blanking mechanism comprises a rotary pipe, a second feed inlet, a discharge outlet, a first support, a second support, a rotating mechanism and a clearing mechanism, the second feed inlet is installed at one end of the rotary pipe, the discharge outlet is installed at the other end of the rotary pipe, the second feed inlet and the discharge outlet are movably connected with the rotary pipe, the first support is installed in the middle of the rotary pipe, the second supports are installed at two ends of the rotary pipe, the rotating mechanism is installed at the lower end of the middle of the rotary pipe, and the clearing mechanism is installed in the inner cavity of the rotary pipe.

Preferably, the rotary pipe comprises a pipe body, a first clamping ring and a toothed ring, the first clamping ring is installed at the upper end of the pipe body and fixedly connected with the pipe body, and the toothed ring is installed on one side of the pipe body.

Preferably, the second feed inlet comprises a first installation body, a first installation block, a first fixed port and a first installation groove, the first installation block is installed at the upper end of the inner cavity of the first installation body, the first fixed port is formed in the upper end of the first installation block, and the first installation groove is formed in the inner cavity of the first installation body.

Preferably, the second support comprises a second mounting body, a second mounting block and a second fixing port, the second mounting block is mounted at the upper end of the inner cavity of the second mounting body, and the second fixing port is formed in the upper end of the second mounting block.

Preferably, the first support comprises a third installation body and a movable groove, and the movable groove is formed in the inner cavity of the third installation body.

Preferably, the rotating mechanism comprises a motor and a rotating gear, the rotating gear is mounted at one end of the motor, and the rotating gear is in meshing transmission with the gear ring.

Preferably, the size of the first mounting groove is matched with that of the movable groove and the size of the first snap ring, and the first mounting groove is movably connected with the movable groove and the first snap ring.

Preferably, the clearing mechanism comprises a first fixing block, an installation rod, a second fixing block and scrapers, the installation rod is installed on one side of the first fixing block, the second fixing block is installed at one end of the installation rod, the scrapers are installed on two sides of the installation rod, and the directions of the scrapers on the two sides are opposite.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a pair of reation kettle with rotation blanking structure, after the reaction chamber is processed the raw materials, flow in the second feed inlet, the motor drives the rotating gear and rotates, and then drives the ring gear and rotate, and then drives the body and revolve the unloading, can be through the rotation of control rotating gear and then the slew velocity of control body, the speed of convenient control unloading avoids the material to block up at the discharge gate, and can make more abundant that the raw materials fused through the gyration of body.

2. The utility model provides a pair of reation kettle with rotation blanking structure, the second feed inlet is installed to the gyration pipe one end, and the discharge gate is installed to the gyration pipe other end, second feed inlet and discharge gate and gyration pipe swing joint, whole unloading mechanism are swing joint, compare with traditional integral type, and the split formula is carried better or is transported, and easy operation is convenient.

3. The utility model provides a pair of reation kettle with rotation blanking structure, when the body rotates, fixed mounting can clean the body inner wall to the strength through body self at the clearance mechanism at both ends, install first fixed block inside the fixed mouthful of second, install the second fixed block inside first fixed mouthful, carry out fixed mounting, the scraper of both sides all can strike off in body corotation or upset, avoid material and body inner wall adhesion, the time can't be got rid of for a long time, influence equipment life.

Drawings

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

FIG. 2 is a schematic structural view of the blanking mechanism of the present invention;

FIG. 3 is a schematic structural view of the rotary pipe and the second feed inlet of the present invention;

fig. 4 is a schematic view of a first bracket and a second bracket of the present invention;

fig. 5 is a schematic structural view of the clearing mechanism of the present invention.

In the figure: 1. a reaction kettle body; 11. a reaction chamber; 12. a base; 13. an upper cover; 14. a first feed port; 15. a blanking mechanism; 151. a rotary pipe; 1511. a pipe body; 1512. a first snap ring; 1513. a toothed ring; 152. a second feed port; 1521. a first mounting body; 1522. a first mounting block; 1523. a first fixed port; 1524. a first mounting groove; 153. a discharge port; 154. a first bracket; 1541. a third mounting body; 1542. a movable groove; 155. a second bracket; 1551. a second mounting body; 1552. a second mounting block; 1553. a second fixed port; 156. a rotation mechanism; 1561. a motor; 1562. a rotating gear; 157. a clearing mechanism; 1571. a first fixed block; 1572. mounting a rod; 1573. a second fixed block; 1574. and (4) scraping the blade.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, a reaction kettle with a rotary feeding structure comprises a reaction kettle body 1, the reaction kettle body 1 comprises a reaction chamber 11, a base 12, an upper cover 13, a first feeding hole 14 and a feeding mechanism 15, the base 12 is installed at the lower end of the reaction chamber 11, the upper cover 13 is installed at the upper end of the reaction chamber 11, the upper cover 13 is movably connected with the reaction chamber 11, the first feeding hole 14 is installed at the upper end of the upper cover 13, the feeding mechanism 15 is installed at the lower end of the reaction chamber 11, the feeding mechanism 15 comprises a rotary tube 151, a second feeding hole 152, a discharging hole 153, a first bracket 154, a second bracket 155, a rotary mechanism 156 and a cleaning mechanism 157, the rotary tube 151 comprises a tube body 1511, a first snap ring 1512 and a toothed ring 1513, the first snap ring 1512 is installed at the upper end of the tube body 1511, the first snap ring 1512 is fixedly connected with the tube body 1511, the toothed ring 1513 is installed at one side of the tube body 1511, the second feeding hole 152 is installed at one end of the rotary tube 151, the second feeding hole 152 comprises a first mounting body 1521, a first mounting block 1522, a first fixing hole 1523 and a first mounting groove 1524, the first mounting block 1522 is mounted at the upper end of the inner cavity of the first mounting body 1521, the first fixing hole 1523 is formed at the upper end of the first mounting block 1522, the first mounting groove 1524 is formed in the inner cavity of the first mounting body 1521, the first mounting groove 1524 is matched with the movable groove 1542 in size with the first snap ring 1512, the first mounting groove 1524 is movably connected with the movable groove 1542 and the first snap ring 1512, the other end of the rotary pipe 151 is provided with a discharging hole 153, the second feeding hole 152 and the discharging hole 153 are movably connected with the rotary pipe 151, the first support 154 is mounted in the middle of the rotary pipe 151, the first support 154154 comprises a third mounting body 1541 and a movable groove 2, the movable groove 1542 is formed in the inner cavity of the third mounting body 1541, the second support 155 is mounted at both ends of the rotary pipe 151, the second support 155 comprises a second mounting body 1551, a second mounting block 1552 and a second fixing hole 1553, a second mounting block 1552 is mounted at the upper end of the inner cavity of the second mounting body 1551, a second fixing hole 1553 is formed at the upper end of the second mounting block 1552, a rotating mechanism 156 is mounted at the lower end of the middle part of the rotary pipe 151, the rotating mechanism 156 comprises a motor 1561 and a rotating gear 1562, one end of the motor 1561 is provided with the rotating gear 1562, the rotating gear 1562 is in meshing transmission with the gear ring 1513, a cleaning mechanism 157 is mounted in the inner cavity of the rotary pipe 151, one end of the rotary pipe 151 is provided with a second feed inlet 152, the other end of the rotary pipe 151 is provided with a discharge outlet 153, the second feed inlet 152 and the discharge outlet 153 are movably connected with the rotary pipe 151, the whole blanking mechanism 15 is movably connected, compared with the traditional integrated type, the split type blanking mechanism has the advantages of better carrying or transportation and simple and convenient operation, after the raw materials are processed in the reaction cavity 11, the raw materials flow into the second feed inlet 156152, the motor 1561 drives the rotating gear 1562 to rotate, and further drives the gear ring 1513 to rotate, and then drive body 1511 and turn round the unloading, can be through the rotation of control rotary gear 1562 and then control body 1511's slew velocity, the speed of convenient control unloading avoids the material to block up at discharge gate 153, and can make the more abundant that the raw materials fused through the gyration of body 1511.

Referring to fig. 5, the cleaning mechanism 157 includes a first fixing block 1571, a mounting rod 1572, a second fixing block 1573 and a scraper 1574, the mounting rod 1572 is installed at one side of the first fixing block 1571, the second fixing block 1573 is installed at one end of the mounting rod 1572, the scrapers 1574 are installed at two sides of the mounting rod 1572, and the directions of the scrapers 1574 at two sides are opposite, when the pipe 1511 rotates, the cleaning mechanism 157 fixedly installed at two ends can clean the inner wall of the pipe 1511 by the force of the pipe 1511 itself, the first fixing block 1571 is installed inside the second fixing port 1553, the second fixing block 1573 is installed inside the first fixing port 1523 and fixedly installed, the scrapers 1574 at two sides can be scraped by rotating or overturning the pipe 1511 forward, adhesion between the material and the inner wall of the pipe 1511 is avoided, the material cannot be removed for a long time, and the service life of the device is affected.

In summary, the following steps: the utility model provides a reaction kettle with rotary blanking structure, after the raw materials are processed in the reaction chamber 11, the raw materials flow into the second feed inlet 152, the motor 1561 drives the rotary gear 1562 to rotate, and then drives the toothed ring 1513 to rotate, and then drives the pipe 1511 to carry out rotary blanking, the rotary speed of the pipe 1511 can be controlled by controlling the rotation of the rotary gear 1562, the blanking speed can be conveniently controlled, the material is prevented from being blocked at the discharge outlet 153, and the raw materials can be more fully fused by the rotation of the pipe 1511, the second feed inlet 152 is installed at one end of the rotary pipe 151, the discharge outlet 153 is installed at the other end of the rotary pipe 151, the second feed inlet 152 and the discharge outlet 153 are movably connected with the rotary pipe 151, the whole blanking mechanism 15 is movably connected, compared with the traditional integrated type, the split type is better to carry or transport, the operation is simple and convenient, when the pipe 1511 rotates, fixed mounting can be to the strength through body 1511 self to the pipe body 1511 inner wall cleaning at the mechanism 157 of clearing at both ends, install first fixed block 1571 inside the fixed mouthful 1553 of second, install second fixed block 1573 inside first fixed mouthful 1523, carry out fixed mounting, the scraper 1574 of both sides is just changeing in body 1511 or the upset all can be scraped, avoid material and the adhesion of body 1511 inner wall, the time can't be got rid of for a long time, influence equipment life.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (9)

1. The utility model provides a reation kettle with rotation blanking structure, includes reation kettle body (1), its characterized in that: the reaction kettle body (1) comprises a reaction cavity (11), a base (12), an upper cover (13), a first feed inlet (14) and a blanking mechanism (15), the base (12) is installed at the lower end of the reaction cavity (11), the upper cover (13) is installed at the upper end of the reaction cavity (11), the upper cover (13) is movably connected with the reaction cavity (11), the first feed inlet (14) is installed at the upper end of the upper cover (13), and the blanking mechanism (15) is installed at the lower end of the reaction cavity (11).

2. The reaction kettle with rotary blanking structure as claimed in claim 1, wherein: unloading mechanism (15) are including revolving tube (151), second feed inlet (152), discharge gate (153), first support (154), second support (155), rotary mechanism (156) and clearance mechanism (157), second feed inlet (152) is installed to revolving tube (151) one end, discharge gate (153) is installed to the revolving tube (151) other end, second feed inlet (152) and discharge gate (153) and revolving tube (151) swing joint, revolving tube (151) mid-mounting has first support (154), second support (155) are all installed at revolving tube (151) both ends, rotary mechanism (156) are installed to revolving tube (151) middle part lower extreme, revolving tube (151) inner chamber is installed and is cleared away mechanism (157).

3. The reaction kettle with rotary blanking structure as claimed in claim 2, wherein: the rotary pipe (151) comprises a pipe body (1511), a first clamping ring (1512) and a gear ring (1513), wherein the first clamping ring (1512) is installed at the upper end of the pipe body (1511), the first clamping ring (1512) is fixedly connected with the pipe body (1511), and the gear ring (1513) is installed on one side of the pipe body (1511).

4. The reaction kettle with rotary blanking structure as claimed in claim 2, wherein: second feed inlet (152) include first installation body (1521), first installation piece (1522), first fixed mouthful (1523) and first mounting groove (1524), and first installation piece (1522) are installed to first installation body (1521) inner chamber upper end, and first fixed mouthful (1523) have been seted up to first installation piece (1522) upper end, and first mounting groove (1524) have been seted up to first installation body (1521) inner chamber.

5. The reaction kettle with rotary blanking structure as claimed in claim 2, wherein: the second support (155) comprises a second mounting body (1551), a second mounting block (1552) and a second fixing port (1553), the second mounting block (1552) is mounted at the upper end of the inner cavity of the second mounting body (1551), and the second fixing port (1553) is formed in the upper end of the second mounting block (1552).

6. The reaction kettle with rotary blanking structure as claimed in claim 2, wherein: the first support (154) comprises a third installation body (1541) and a movable groove (1542), and the movable groove (1542) is formed in the inner cavity of the third installation body (1541).

7. The reaction kettle with rotary blanking structure as claimed in claim 2, wherein: the rotating mechanism (156) comprises a motor (1561) and a rotating gear (1562), wherein the rotating gear (1562) is installed at one end of the motor (1561), and the rotating gear (1562) is in meshing transmission with the gear ring (1513).

8. The reaction kettle with rotary blanking structure as claimed in claim 4, wherein: the size of the first mounting groove (1524) is matched with that of the movable groove (1542) and that of the first clamping ring (1512), and the first mounting groove (1524) is movably connected with the movable groove (1542) and the first clamping ring (1512).

9. The reaction kettle with rotary blanking structure as claimed in claim 2, wherein: clear away mechanism (157) include first fixed block (1571), installation pole (1572), second fixed block (1573) and scraper (1574), and installation pole (1572) are installed to first fixed block (1571) one side, and second fixed block (1573) are installed to installation pole (1572) one end, and scraper (1574) are all installed to installation pole (1572) both sides, and both sides scraper (1574) opposite direction.

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