CN110559963A

CN110559963A - Energy-conserving horizontal high-efficient isooctane reactor

Info

Publication number: CN110559963A
Application number: CN201910754018.3A
Authority: CN
Inventors: 王春刚; 杨眉; 张彦峰; 孙新生
Original assignee: Dongying Kede Chemical Co Ltd
Current assignee: Dongying Kede Chemical Co Ltd
Priority date: 2019-08-15
Filing date: 2019-08-15
Publication date: 2019-12-13

Abstract

The utility model provides an energy-conserving horizontal high-efficient isooctane reactor, includes the horizontal reactor body, and a bar groove is seted up to the top surface inner wall of horizontal reactor body, the left side inner wall fixed mounting motor in bar groove, the left end of the pivot right-hand member fixed connection lead screw of motor, the right-hand member of lead screw passes through the right-hand member inner wall connection in bearing and bar groove. The device has a simple structure, is convenient to use and operate, can simultaneously drive the two connecting rods to move by providing power through the motor, reduces a power source, reduces energy consumption, saves energy, and simultaneously enables the stirring rod to stir reaction raw materials by rotating the stirring rod and moving the stirring rod left and right on a horizontal position, thereby accelerating the reaction between the reaction raw materials and a catalyst, reducing reaction time, improving reaction efficiency, simultaneously enabling the reaction to be more thorough, reducing resource waste and saving production cost; the limit switch can limit the moving distance of the nut, and the collision of the stirring rods on the two connecting rods is avoided.

Description

Energy-conserving horizontal high-efficient isooctane reactor

Technical Field

The invention belongs to the field of isooctane, and particularly relates to an energy-saving horizontal high-efficiency isooctane reactor.

Background

With the continuous upgrading of oil product standards, the demand of isooctane is rapidly increased, the energy consumption is high when the existing isooctane reaction device is used, the reaction efficiency is low, the resource waste is easily caused, the production cost is increased, and the inconvenience is brought to the production of isooctane.

Disclosure of Invention

The invention provides an energy-saving horizontal high-efficiency isooctane reactor, which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme:

An energy-saving horizontal high-efficiency isooctane reactor comprises a horizontal reactor body, wherein a strip-shaped groove is formed in the inner wall of the top surface of the horizontal reactor body, a motor is fixedly installed on the inner wall of the left side of the strip-shaped groove, the right end of a rotating shaft of the motor is fixedly connected with the left end of a screw rod, the right end of the screw rod is connected with the inner wall of the right end of the strip-shaped groove through a bearing, opposite threads are formed at two ends of the screw rod, a nut is in threaded fit with the periphery of each end of the screw rod, two limit switches are fixedly installed on the inner wall of the top surface of the strip-shaped groove, the two limit switches are distributed leftwards and rightwards, strip-shaped slots are formed in the inner walls of the front end and the rear end of the strip-shaped groove, an inserting rod is fixedly installed on the front surface and the rear surface of each nut, one end of each inserting rod is inserted into, two ends of the screw rod penetrate through corresponding first through holes, a strip-shaped groove is formed in the front of the screw rod, an inserting block is fixedly installed on the front inner wall of each first through hole and inserted into the strip-shaped groove, an annular T-shaped chute is formed in the opposite surface of each first bevel gear, a plurality of T-shaped sliding blocks which are uniformly distributed are arranged in each T-shaped chute, one end of each T-shaped sliding block is fixedly connected with one side of a corresponding nut, the bottom surface of each nut is movably connected with a connecting rod through a bearing, the periphery of the bottom end of each connecting rod is fixedly connected with a plurality of stirring rods which are horizontally and uniformly distributed, a horizontal second bevel gear is fixedly installed on the periphery of the top of each connecting rod, the second bevel gear is meshed with the corresponding first bevel gear, a V-shaped plate is arranged in the horizontal reactor body and is positioned at the lower part of the horizontal reactor body, the two sides of the V-shaped plate are respectively fixedly connected with the inner walls of the two sides of the horizontal reactor body, the front end and the rear end of the V-shaped plate are respectively fixedly connected with the inner walls of the front end and the rear end of the horizontal reactor body, a plurality of uniformly distributed second through holes are arranged in the middle of the top surface of the V-shaped plate, catalysts are respectively placed on the top surfaces of the front end and the rear end of the V-shaped plate, a V-shaped stop block is arranged below the V-shaped plate, the front end of the V-shaped stop block is hinged with the front lower part of the V-shaped plate, a first electric telescopic rod is hinged with the lower part of the rear part of the V-shaped plate, a transverse plate is hinged with the bottom end of a movable rod of the first electric telescopic rod, the front end of the transverse plate is hinged with the rear part of the V-shaped stop block, the top surface of the V-shaped stop block is in contact fit with the bottom surface of the, the third through-hole is all seted up to the top surface of two concave surfaces of W template, the horizontally mounting panel of fixed mounting between the bottom surface both sides of the convex surface of W template, the vertical bracing piece of the equal fixed mounting in bottom surface both sides of mounting panel, the equal fixed mounting second electric telescopic handle in bottom of every bracing piece, two second electric telescopic handle's the extension opposite direction, the equal fixed mounting of one end of every second electric telescopic handle's movable rod is a baffle, the baffle passes the concave surface of W template and can follow the concave surface of W template and control, the fourth through-hole is seted up to top surface one side of baffle, the feed inlet is seted up on the left side upper portion of horizontal reactor body, the discharge gate is seted up to the.

According to the energy-saving horizontal high-efficiency isooctane reactor, the connecting rod is an electric telescopic rod.

According to the energy-saving horizontal high-efficiency isooctane reactor, the two support rods are fixedly connected through the horizontal first fixing rod.

According to the energy-saving horizontal high-efficiency isooctane reactor, two sides of the top surface of the mounting plate are fixedly connected with one end of an inclined second fixing rod, and the other end of each second fixing rod is fixedly connected with the bottom surface of the W-shaped plate.

According to the energy-saving horizontal high-efficiency isooctane reactor, the inner wall of one side of each third through hole is fixedly provided with one scraper, and the bottom surface of each scraper is in contact fit with the top surface of the baffle.

According to the energy-saving horizontal high-efficiency isooctane reactor, the inner walls of the two sides of each strip-shaped slot are fixedly provided with the elastic pads.

The invention has the advantages that: the invention has simple structure and convenient use and operation, and by using the invention, reaction raw materials are firstly added into a horizontal reactor body through a feed inlet, then a motor is operated, a rotating shaft of the motor rotates to drive a screw rod to rotate, a nut is in threaded connection with the screw rod, an inserted link limits the rotation of the nut, the two nuts move relatively, the nut moves to drive a T-shaped slide block to move, the T-shaped slide block moves to drive a first bevel gear to move, the nut moves to drive a connecting rod to move, the connecting rod moves to drive a stirring rod to move, the screw rod rotates to drive the inserted link to rotate, the inserted link rotates to drive the first bevel gear to rotate, the first bevel gear rotates to drive the T-shaped slide block to rotate along a T-shaped chute, the first bevel gear rotates to drive a second bevel gear to rotate, the second bevel gear rotates to drive the connecting rod to rotate, the reaction between the reaction raw materials and the catalyst is accelerated, the reaction efficiency is improved, then the first electric telescopic rod extends, the first electric telescopic rod extends to drive the transverse plate to move downwards, the transverse plate moves to drive the V-shaped stop block to turn forwards around the hinge point as a turning center, isooctane obtained after the reaction raw materials and the catalyst react falls on the top surface of the W-shaped plate through the second through hole, then the second electric telescopic rod contracts, the second electric telescopic rod contracts to drive the two baffle plates to move relatively until the fourth through hole corresponds to the third through hole, the isooctane flows out from the third through hole, the collection of the isooctane is completed, the device provides power through one motor, can simultaneously drive the two connecting rods to move, reduces the power source, reduces the energy consumption, saves the energy, and simultaneously, the stirring rods stir the reaction raw materials through the rotation of the stirring rods and the left-right movement on the horizontal, the reaction between the reaction raw materials and the catalyst is accelerated, the reaction time is shortened, the reaction efficiency is improved, the reaction is more thorough, the resource waste is reduced, and the production cost is saved; by controlling the shrinkage of the second electric telescopic rod, the corresponding position between the third through hole and the fourth through hole can be controlled, the discharging speed of isooctane can be further controlled, the phenomenon that isooctane is splashed out due to too high flow speed of isooctane, waste is caused, and convenience is brought to the production of isooctane; the limit switch can limit the moving distance of the nut, and the collision of the stirring rods on the two connecting rods is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention; 3 FIG. 32 3 is 3 an 3 enlarged 3 view 3 of 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 of 3 FIG. 31 3; 3 FIG. 3 is an enlarged view of the view of FIG. 1 taken along line B; FIG. 4 is an enlarged view of the view of FIG. 3 in the direction C; FIG. 5 is a view in the direction D of FIG. 2; FIG. 6 is an enlarged view of a portion of I of FIG. 1; FIG. 7 is an enlarged view of the view of FIG. 3 from direction E; fig. 8 is an enlarged view of the baffle 23.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. 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.

An energy-saving horizontal high-efficiency isooctane reactor comprises a horizontal reactor body 1, wherein a strip-shaped groove 2 is formed on the inner wall of the top surface of the horizontal reactor body 1, a motor 3 is fixedly arranged on the inner wall of the left side of the strip-shaped groove 2, the right end of a rotating shaft of the motor 3 is fixedly connected with the left end of a screw rod 4, the right end of the screw rod 4 is connected with the inner wall of the right end of the strip-shaped groove 2 through a bearing, opposite threads are formed on the two ends of the screw rod 4, the threads on the two ends of the screw rod 4 are uniformly distributed by taking the middle part of the screw rod 4 as a center, the peripheries of the two ends of the screw rod 4 are in threaded fit with a nut 5, two limit switches 35 are fixedly arranged on the inner wall of the top surface of the strip-shaped groove 2, the left side and the right side of the two limit switches 35 are distributed, strip-shaped slots 31 are formed on the inner, two ends of a screw rod 4 are respectively provided with a vertical first bevel gear 6, two nuts 5 are positioned between the two first bevel gears 6, one side of each first bevel gear 6 is provided with a first through hole 7, the two ends of the screw rod 4 penetrate through the corresponding first through holes 7, the front of the screw rod 4 is provided with a strip-shaped groove 8, the strip-shaped groove 8 cannot influence the threaded fit of the nuts 5 and the screw rod 4, the front inner wall of each first through hole 7 is fixedly provided with an insert block 9, the insert blocks 9 are inserted into the strip-shaped grooves 8, the opposite surfaces of the two first bevel gears 6 are respectively provided with an annular T-shaped chute 10, a plurality of T-shaped sliding blocks 11 which are uniformly distributed are arranged in each T-shaped chute 10, one end of each T-shaped sliding block 11 is fixedly connected with one side of the corresponding nut 5, the bottom surface of each nut 5 is movably connected with a connecting rod 12 through a bearing, the periphery of the bottom end of each connecting rod 12 is fixedly connected with a plurality of stirring rods 13 which, a horizontal second bevel gear 14 is fixedly arranged on the periphery of the top of each connecting rod 12, the second bevel gears 14 are engaged with the corresponding first bevel gears 6, a V-shaped plate 15 is arranged in the horizontal reactor body 1, the V-shaped plate 15 is positioned at the lower part of the horizontal reactor body 1, two sides of the V-shaped plate 15 are respectively fixedly connected with the inner walls of two sides of the horizontal reactor body 1, the front end and the rear end of the V-shaped plate 15 are respectively fixedly connected with the inner walls of the front end and the rear end of the horizontal reactor body 1, a plurality of uniformly distributed second through holes 16 are arranged in the middle of the top surface of the V-shaped plate 15, catalysts are respectively arranged on the top surfaces of the front end and the rear end of the V-shaped plate 15, a V-shaped block 17 is arranged below the V-shaped plate 15, the front end of the V-shaped block 17 is hinged with the lower part in front of the V-shaped plate, a transverse plate 19 is hinged at the bottom end of a movable rod of a first electric telescopic rod 18, the front end of the transverse plate 19 is hinged with the back of a V-shaped stop block 17, the top surface of the V-shaped stop block 17 is in contact fit with the bottom surface of a V-shaped plate 15, a W-shaped plate 33 is arranged below the V-shaped stop block 17, two sides of the W-shaped plate 33 are respectively and fixedly connected with the inner walls of two sides of a horizontal reactor body 1, the front end and the back end of the W-shaped plate 33 are respectively and fixedly connected with the inner walls of the front end and the back end of the horizontal reactor body 1, third through holes 30 are respectively formed on the top surfaces of two concave surfaces of the W-shaped plate 33, a horizontal mounting plate 20 is fixedly mounted between two sides of the bottom surface of a convex surface of the W-shaped plate 33, vertical support rods 21 are fixedly mounted on two sides of the bottom surface of the mounting plate 20, a second electric telescopic rod 22 is fixedly mounted at, the baffle 23 passes through the concave surface of the W-shaped plate 33 and can move left and right along the concave surface of the W-shaped plate 33, a fourth through hole 24 is formed in one side of the top surface of the baffle 23, a feed inlet 25 is formed in the upper portion of the left side of the horizontal reactor body 1, a discharge outlet 26 is formed in the bottom of the horizontal reactor body 1, the motor 3 and the limit switch 35 are respectively connected with a controller through a circuit, the connection mode is the prior known technology, and the description is omitted here. The invention has simple structure and convenient use and operation, and by using the invention, reaction raw materials are firstly added into a horizontal reactor body 1 through a feed inlet, then a motor 3 works, a rotating shaft of the motor 3 rotates to drive a screw rod 4 to rotate, a nut 5 is in threaded connection with the screw rod 4, an inserted rod 32 limits the rotation of the nut 5, two nuts 5 move relatively, the nut 5 moves to drive a T-shaped slide block 11 to move, the T-shaped slide block 11 moves to drive a first bevel gear 6 to move, the nut 5 moves to drive a connecting rod 12 to move, the connecting rod 12 moves to drive a stirring rod 13 to move, the screw rod 4 rotates to drive an inserted block 9 to rotate, the inserted block 9 rotates to drive the first bevel gear 6 to rotate, the first bevel gear 6 rotates to drive the T-shaped slide block 11 to rotate along a T-shaped chute 10, the first bevel gear 6 rotates to drive a second bevel gear 14 to rotate, the connecting rods 12 rotate to drive the stirring rods 13 to rotate, the stirring rods 13 rotate to stir reaction raw materials, the reaction between the reaction raw materials and catalysts is accelerated, the reaction efficiency is improved, then the first electric telescopic rod 18 extends, the first electric telescopic rod 18 extends to drive the transverse plate 19 to move downwards, the transverse plate 19 moves to drive the V-shaped stop block 17 to turn forwards around a hinge point as a turning center, isooctane obtained after the reaction of the reaction raw materials and the catalysts falls on the top surface of the W-shaped plate 18 through the second through hole 16, then the second electric telescopic rod 22 contracts, the second electric telescopic rod 22 contracts to drive the two baffle plates 23 to move relatively until the fourth through hole 24 corresponds to the third through hole 30, the isooctane flows out from the third through hole 30, the collection of the isooctane is completed, the device provides power through one motor 3, can drive the two connecting rods 12 to move simultaneously, and reduces the power source, the energy consumption is reduced, the energy is saved, and meanwhile, the stirring rod 13 is used for stirring the reaction raw materials through the rotation of the stirring rod 13 and the left and right movement on the horizontal position, so that the reaction between the reaction raw materials and the catalyst is accelerated, the reaction time is reduced, the reaction efficiency is improved, the reaction is more thorough, the resource waste is reduced, and the production cost is saved; by controlling the shrinkage of the second electric telescopic rod 22, the corresponding position between the third through hole 30 and the fourth through hole 24 can be controlled, the discharging speed of isooctane can be further controlled, the phenomenon that isooctane is splashed out due to too high flow velocity of isooctane, waste is caused, and convenience is brought to the production of isooctane; the limit switch 35 can limit the moving distance of the nut 5, and the stirring rods 13 on the two connecting rods 12 are prevented from colliding.

Specifically, as shown in the drawings, the connecting rod 12 according to the present embodiment is an electric telescopic rod. Through electric telescopic handle's extension and shrink, can drive puddler 13 and reciprocate, and then stir the reaction raw materials of different positions, be convenient for mix and react between reaction raw materials and the catalyst.

Specifically, as shown in the drawings, the two support rods 21 according to the present embodiment are fixedly connected to each other by a horizontal first fixing rod 27. The first fixing rod 27 has a supporting function on the supporting rod 21, so that the supporting rod 21 can be prevented from tilting, and the stability of the structure is improved.

Further, as shown in the drawings, two sides of the top surface of the mounting plate 20 in the embodiment are fixedly connected to one end of an inclined second fixing rod 28, and the other end of each second fixing rod 28 is fixedly connected to the bottom surface of the W-shaped plate 33. The second fixing rod 28 enables the mounting plate 20 to be connected with the W-shaped plate 33 more firmly and stably, and the structural stability is improved.

Furthermore, as shown in the figure, a scraper 29 is fixedly installed on an inner wall of one side of each third through hole 30 in the embodiment, and a bottom surface of the scraper 29 is in contact fit with a top surface of the baffle 23. Scraper blade 29 can clear up the reaction liquid on baffle 23 top surface, has avoided the reaction liquid to pile up at baffle 23 top surface for a long time, causes the waste, has avoided the reaction liquid to cause the influence to baffle 23 top surface simultaneously.

Further, as shown in the drawings, the inner walls of the two sides of each strip-shaped slot 31 are fixedly provided with elastic pads 34. The elastic pad 34 has elasticity and a buffering function, and can prevent the insertion rod 32 from colliding with the inner wall of the strip-shaped slot 31.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. An energy-conserving horizontal high-efficient isooctane reactor which characterized in that: comprises a horizontal reactor body (1), a strip-shaped groove (2) is formed in the inner wall of the top surface of the horizontal reactor body (1), a motor (3) is fixedly installed on the inner wall of the left side of the strip-shaped groove (2), the right end of a rotating shaft of the motor (3) is fixedly connected with the left end of a screw rod (4), the right end of the screw rod (4) is connected with the inner wall of the right end of the strip-shaped groove (2) through a bearing, opposite threads are formed at the two ends of the screw rod (4), a nut (5) is uniformly screwed at the periphery of the two ends of the screw rod (4), two limit switches (35) are fixedly installed on the inner wall of the top surface of the strip-shaped groove (2), the two limit switches (35) are distributed leftwards and rightwards, strip-shaped slots (31) are formed in the inner walls of the front end and the rear end of the strip-shaped groove (2), an insertion rod (32) is, the two ends of the screw rod (4) are respectively provided with a vertical first bevel gear (6), two nuts (5) are positioned between the two first bevel gears (6), one side of each first bevel gear (6) is provided with a first through hole (7), the two ends of the screw rod (4) penetrate through the corresponding first through hole (7), the front of the screw rod (4) is provided with a strip-shaped groove (8), the front inner wall of each first through hole (7) is fixedly provided with an insert block (9), the insert block (9) is inserted into the strip-shaped groove (8), the opposite surfaces of the two first bevel gears (6) are respectively provided with an annular T-shaped chute (10), each T-shaped chute (10) is internally provided with a plurality of T-shaped sliding blocks (11) which are uniformly distributed, one end of each T-shaped sliding block (11) is fixedly connected with one side of the corresponding nut (5), the bottom surface of each nut (5) is movably connected with a connecting rod (12) through a bearing, the periphery of the bottom end of each connecting rod (12) is fixedly connected with a plurality of stirring rods (13) which are horizontal and evenly distributed, the periphery of the top of each connecting rod (12) is fixedly provided with a horizontal second bevel gear (14), the second bevel gears (14) are meshed and matched with the corresponding first bevel gears (6), a V-shaped plate (15) is arranged in the horizontal reactor body (1), the V-shaped plate (15) is positioned at the lower part of the horizontal reactor body (1), two sides of the V-shaped plate (15) are respectively and fixedly connected with the inner walls of two sides of the horizontal reactor body (1), the front end and the rear end of the V-shaped plate (15) are respectively and fixedly connected with the inner walls of the front end and the rear end of the horizontal reactor body (1), a plurality of second through holes (16) which are evenly distributed are arranged in the middle of the top surface of the V-shaped plate (15), catalysts are respectively arranged on the top surfaces of the front end and the rear end of the, the front end of a V-shaped block (17) is hinged with the front lower part of a V-shaped plate (15), the rear lower part of the V-shaped plate (15) is hinged with a first electric telescopic rod (18), the bottom end of a movable rod of the first electric telescopic rod (18) is hinged with a transverse plate (19), the front end of the transverse plate (19) is hinged with the rear part of the V-shaped block (17), the top surface of the V-shaped block (17) is in contact fit with the bottom surface of the V-shaped plate (15), a W-shaped plate (33) is arranged below the V-shaped block (17), two sides of the W-shaped plate (33) are respectively fixedly connected with the inner walls of two sides of a horizontal reactor body (1), the front end and the rear end of the W-shaped plate (33) are respectively fixedly connected with the inner walls of the front end and the rear end of the reactor body (1), the top surfaces of two concave surfaces of the W-shaped plate (33) are respectively provided with a third through hole (30), a, the equal vertical bracing piece of fixed mounting in bottom surface both sides (21) of mounting panel (20), the equal fixed mounting second electric telescopic handle (22) in bottom of every bracing piece (21), the extension opposite direction of two second electric telescopic handle (22), baffle (23) of the equal fixed mounting in one end of the movable rod of every second electric telescopic handle (22), baffle (23) pass the concave surface of W template (33) and can follow the concave surface of W template (33) and remove, fourth through-hole (24) are seted up to top surface one side of baffle (23), feed inlet (25) are seted up to the left side upper portion of horizontal reactor body (1), discharge gate (26) are seted up to the bottom of horizontal reactor body (1).

2. The energy-saving horizontal high-efficiency isooctane reactor according to claim 1, wherein: the connecting rod (12) is an electric telescopic rod.

3. The energy-saving horizontal high-efficiency isooctane reactor according to claim 1, wherein: the two support rods (21) are fixedly connected through a horizontal first fixing rod (27).

4. The energy-saving horizontal high-efficiency isooctane reactor according to claim 1, wherein: the two sides of the top surface of the mounting plate (20) are fixedly connected with one end of an inclined second fixing rod (28), and the other end of each second fixing rod (28) is fixedly connected with the bottom surface of the W-shaped plate (33).

5. The energy-saving horizontal high-efficiency isooctane reactor according to claim 1, wherein: and a scraper (29) is fixedly arranged on the inner wall of one side of each third through hole (30), and the bottom surface of each scraper (29) is in contact fit with the top surface of the baffle (23).

6. the energy-saving horizontal high-efficiency isooctane reactor according to claim 1, wherein: elastic pads (34) are fixedly arranged on the inner walls of the two sides of each strip-shaped slot (31).