CN214892702U - Cooling device for petrochemical production - Google Patents

Abstract

The utility model discloses a cooling device for petrochemical production, include the cooler bin and be located the water tank of cooler bin below, the top of cooler bin is provided with the feed liquor pipe, and the bottom of cooler bin is provided with the drain pipe, be provided with the transfer line of crooked setting in the cooler bin, be provided with in the work box and be used for driving the transmission shaft and rotate and the gliding actuating mechanism of slide bar, carry out the transmission through first drive mechanism between actuating mechanism and the transmission shaft, and carry out the transmission through second drive mechanism between actuating mechanism and the slide bar. This kind of cooling device for petrochemical production can utilize the impact force when cooling water flows as power, realizes the rotation of fan, and manufacturing cost is lower, and is more energy-concerving and environment-protective, and the during operation can not produce the heat for the cooling effect is better, simultaneously, can realize atomizer's reciprocating motion, when guaranteeing cooling effect and operational reliability, it is more convenient to use, and reduces manufacturing cost.

Description

Cooling device for petrochemical production

Technical Field

The utility model belongs to the technical field of oil production, specifically speaking relates to a cooling device for petrochemical production.

Background

Petrochemical industry, petrochemical industry for short, generally refers to chemical industry using petroleum and natural gas as raw materials, and has a wide range of products, crude oil is cracked, reformed and separated to provide basic raw materials, such as ethylene, propylene, butylene, butadiene, benzene, toluene, xylene, naphthalene, etc., from which various basic organic raw materials, such as methanol, formaldehyde, ethanol, acetaldehyde, acetic acid, isopropanol, acetone, phenol, etc., can be prepared. Petrochemical production cooling device is one of indispensable device in petrochemical production, and it mainly cools off the heat that carries during to petroleum production processing to subsequent storage, it plays very important effect to the production of petroleum.

Publication number CN210242481U discloses cooling device for petrochemical production, including cooler bin and the water tank that is located the cooler bin below, the left side intercommunication at cooler bin top has the feed liquor pipe, the left side intercommunication of cooler bin bottom has the drain pipe, the intercommunication has the transfer line between feed liquor pipe and the drain pipe, the one end and the feed liquor pipe intercommunication of transfer line, the other end and the drain pipe intercommunication of transfer line, the vertical intercommunication in left side on cooler bin top has the blast pipe, the top fixed mounting in blast pipe inner chamber has the fan, the fan is located the right side of feed liquor pipe. When using, open fan, water pump and telescopic cylinder through external controller, the water pump carries the water in with the water tank to atomizer to reciprocating motion through telescopic cylinder evenly sprinkles water on the transfer line, and the surface that during blows the outside air of cooler bin to the inside transfer line of cooler bin through the fan surface heat's of transfer line volatilization with higher speed improves the cooling of the interior liquid of transfer line.

However, when the cooling device is used, the fan is used for blowing air, so that not only is the power resource wasted, but also the fan can generate heat during working, so that the cooling effect of the infusion tube is influenced, meanwhile, the telescopic cylinder is used for driving the reciprocating motion of the telescopic cylinder, the manufacturing cost is high, the telescopic cylinder is not stopped and works, the damage is often caused, the maintenance is required to be regularly carried out, and the cooling of the infusion tube is influenced.

In view of this, the present invention is provided.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in overcoming the not enough of prior art, provides a cooling device for petrochemical production, for solving above-mentioned technical problem, the utility model discloses a technical scheme's basic concept is:

a cooling device for petrochemical production comprises a cooling box and a water tank positioned below the cooling box, wherein a liquid inlet pipe is arranged at the top of the cooling box, a liquid outlet pipe is arranged at the bottom of the cooling box, a bent liquid conveying pipe is arranged in the cooling box, one end of the liquid conveying pipe is communicated with the liquid inlet pipe, the other end of the liquid conveying pipe is communicated with the liquid outlet pipe, an air supply pipe is arranged at the top end of the cooling box, a water pump is arranged on the side wall of the water tank, a mounting plate is fixedly connected to the inner side wall of the air supply pipe, a fan is rotatably connected to the side wall of the mounting plate through a transmission shaft, a sliding rod is inserted into the side wall of the air supply pipe, one end of the sliding rod penetrates into the air supply pipe and is fixedly connected with a mounting block, an atomizing nozzle is mounted on the mounting block, a support is fixedly connected to the top of the cooling box, and a working box is fixedly connected to the side wall of the support, the water outlet end fixedly connected with first pipeline of water pump, and the other end of first pipeline is fixed with the lateral wall of work box, the lateral wall fixedly connected with second pipeline that first pipeline was kept away from to the work box, and the other end of second pipeline runs through the lateral wall of blast pipe and is connected with atomizer through the hose, be provided with in the work box and be used for driving the drive shaft and rotate and the gliding actuating mechanism of slide bar, carry out the transmission through first drive mechanism between actuating mechanism and the drive shaft, and carry out the transmission through second drive mechanism between actuating mechanism and the slide bar.

The driving mechanism comprises an impeller which is rotatably connected in the work box through a first rotating shaft.

The first transmission mechanism comprises an L-shaped plate fixedly connected to the top of the cooling box, the side wall of the L-shaped plate is rotatably connected with a driven bevel gear through a second rotating shaft, one end of the first rotating shaft penetrates through the side wall of the working box and is fixedly connected with a driving bevel gear, the driving bevel gear is meshed with the driven bevel gear, the upper end of the first rotating shaft is fixedly connected with a driving belt pulley, the upper end of the transmission shaft is fixedly connected with a driven belt pulley, and the driven belt pulley and the driving belt pulley are in belt transmission.

The second drive mechanism includes that fixed connection keeps away from the rolling disc of work box one end at first pivot, the lateral wall fixedly connected with eccentric settings's of rolling disc fixed pin, and the lateral wall cover of fixed pin is equipped with the slider that the annular set up, the one end that atomizer was kept away from to the slide bar is fixed with the lateral wall of slider.

The lateral wall of blast pipe has seted up the spout, the lateral wall fixedly connected with fixed strip of slide bar, and the fixed strip slides in the spout.

And the side wall of the sliding block matched with the fixing pin is provided with a smooth film.

After the technical scheme is adopted, compared with the prior art, the utility model following beneficial effect has.

The utility model discloses a set up power unit, start water pump, water pump in with the water tank is through first pipe conveyor to the work box in to, through the atomizer blowout behind second pipeline and hose, simultaneously, when water gets into the work box, the impact makes it rotate on the surface of impeller, and the rotation of impeller makes first pivot rotate, turns into power, more energy-concerving and environment-protective with the impact force when rivers flow.

The utility model discloses a set up first drive mechanism, the rotation of first pivot drives drive bevel gear's rotation, drive bevel gear's rotation drives the rotation of driven bevel gear and second pivot, and then drive pulley's rotation, drive pulley's rotation passes through the rotation that the belt drove driven pulley and transmission shaft, and then drive the rotation of fan, blow the surface of the inside transfer line of cooler bin with the outside air of cooler bin, the volatilization of transfer line surface heat with higher speed, improve the cooling of the interior liquid of transfer line, and simultaneously, manufacturing cost is lower, and is more energy-concerving and environment-protective, and the during operation can not produce the heat, make the cooling effect better.

The utility model discloses a set up second drive mechanism, the rotation of first pivot drives the rotation of rolling disc, and the rotation of rolling disc makes the slider slide at the lateral wall of fixed pin, simultaneously, drives the slide bar along the lateral wall reciprocating sliding of blast pipe, and then drives installation piece and atomizer reciprocating motion to evenly spill water on the transfer line, when guaranteeing cooling effect and operational reliability, it is more convenient to use, and reduces manufacturing cost.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention without limitation. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of another perspective of the present invention;

FIG. 3 is a schematic view of the present invention in a partial cross-sectional structure;

fig. 4 is an enlarged schematic view of a portion a in fig. 2.

In the figure: 101. a cooling tank; 102. a liquid inlet pipe; 103. a liquid outlet pipe; 104. a transfusion tube; 105. a water tank; 106. an air supply pipe; 107. a water pump; 2. a support; 3. a work box; 4. a second conduit; 501. a first rotating shaft; 502. an impeller; 601. rotating the disc; 602. a fixing pin; 603. a slider; 701. an L-shaped plate; 702. a second rotating shaft; 703. a driven bevel gear; 704. a drive bevel gear; 705. a drive pulley; 706. a belt; 707. a driven pulley; 8. a first conduit; 9. mounting a plate; 10. a drive shaft; 11. a slide bar; 12. mounting blocks; 13. a hose; 14. a fan; 15. an atomizing spray head.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept by those skilled in the art with reference to specific embodiments.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments, and the following embodiments are used for illustrating the present invention, but do not limit the scope of the present invention.

As shown in fig. 1 to 4, a cooling device for petrochemical production comprises a cooling box 101 and a water tank 105 located below the cooling box 101, wherein a liquid inlet pipe 102 is arranged at the top of the cooling box 101, a liquid outlet pipe 103 is arranged at the bottom of the cooling box 101, a bent liquid conveying pipe 104 is arranged in the cooling box 101, one end of the liquid conveying pipe 104 is communicated with the liquid inlet pipe 102, the other end of the liquid conveying pipe 104 is communicated with the liquid outlet pipe 103, an air supply pipe 106 is arranged at the top end of the cooling box 101, a water pump 107 is arranged on the side wall of the water tank 105, an installation plate 9 is fixedly connected to the inner side wall of the air supply pipe 106, the side wall of the installation plate 9 is rotatably connected with a fan 14 through a transmission shaft 10, a sliding rod 11 is inserted into the side wall of the air supply pipe 106, one end of the sliding rod 11 penetrates into the air supply pipe 106 and is fixedly connected with an installation block 12, an atomizing nozzle 15 is arranged on the installation block 12, a support 2 is fixedly connected to the top of the cooling box 101, the side wall of the bracket 2 is fixedly connected with the working box 3, the water outlet end of the water pump 107 is fixedly connected with the first pipeline 8, the other end of the first pipeline 8 is fixed with the side wall of the working box 3, the side wall of the working box 3 far away from the first pipeline 8 is fixedly connected with the second pipeline 4, the other end of the second pipeline 4 penetrates through the side wall of the blast pipe 106 and is connected with the atomizing nozzle 15 through the hose 13, a driving mechanism for driving the transmission shaft 10 to rotate and the sliding rod 11 to slide is arranged in the working box 3, the driving mechanism and the transmission shaft 10 are driven through the first transmission mechanism, and the driving mechanism and the sliding rod 11 are driven through the second transmission mechanism, the impact force generated when cooling water flows can be used as power, the rotation of the fan 14 is realized, the manufacturing cost is lower, the energy is more energy-saving and environment-friendly, no heat is generated during the work, so that the cooling effect is better, meanwhile, the reciprocating motion of the atomizing nozzle 15 can be realized, the cooling effect and the working reliability are guaranteed, the use is more convenient, and the manufacturing cost is reduced.

The driving mechanism comprises an impeller 502 which is rotatably connected in the working box 3 through a first rotating shaft 501, when water enters the working box 3, the impeller 502 is impacted on the surface of the impeller 502 to rotate, the first rotating shaft 501 rotates due to the rotation of the impeller 502, the impact force generated when the water flows is converted into power, and the water-saving and environment-friendly water-saving device is more energy-saving and environment-friendly.

The first transmission mechanism comprises an L-shaped plate 701 fixedly connected to the top of the cooling box 101, the side wall of the L-shaped plate 701 is rotatably connected with a driven bevel gear 703 through a second rotating shaft 702, one end of the first rotating shaft 501 penetrates through the side wall of the working box 3 and is fixedly connected with a driving bevel gear 704, the driving bevel gear 704 is meshed with the driven bevel gear 703, the upper end of the first rotating shaft 501 is fixedly connected with a driving pulley 705, the upper end of the transmission shaft 10 is fixedly connected with a driven pulley 707, the driven pulley 707 and the driving pulley 705 are transmitted through a belt 706, the rotation of the first rotating shaft 501 drives the rotation of the driving bevel gear 704, the rotation of the driving bevel gear 704 drives the rotation of the driven bevel gear 703 and the second rotating shaft 702 to further drive the rotation of the driving pulley 705, the rotation of the driving pulley 705 drives the rotation of the driven pulley 707 and the transmission shaft 10 through the belt 706 to further drive the rotation of the fan 14, blow the outside air of cooling box 101 to the surface of the inside transfer line 104 of cooling box 101, accelerate the volatilization of transfer line 104 surface heat, improve the cooling of liquid in transfer line 104, simultaneously, manufacturing cost is lower, and is more energy-concerving and environment-protective, and the during operation can not produce the heat for the cooling effect is better.

Second drive mechanism includes that fixed connection keeps away from the rolling disc 601 of work box 3 one end at first pivot 501, the lateral wall fixedly connected with eccentric settings's of rolling disc 601 fixed pin 602, and the lateral wall cover of fixed pin 602 is equipped with the slider 603 that the annular set up, the one end that atomizer 15 was kept away from to slide bar 11 is fixed with the lateral wall of slider 603, the rotation of first pivot 501 drives the rotation of rolling disc 601, the rotation of rolling disc 601 makes slider 603 slide at the lateral wall of fixed pin 602, and simultaneously, drive slide bar 11 along the lateral wall reciprocating sliding of blast pipe 106, and then drive installation piece 12 and atomizer 15 reciprocating motion, thereby evenly spill water on transfer line 104, when guaranteeing cooling effect and operational reliability, it is more convenient to use, and reduce manufacturing cost.

The lateral wall of blast pipe 106 has seted up the spout, and the lateral wall fixedly connected with fixed strip of slide bar 11, and the fixed strip slides in the spout, plays direction and limiting displacement to the slip of slide bar 11.

The side wall of the sliding block 603 matched with the fixing pin 602 is provided with a smooth film, so that the friction force during sliding is reduced, and the movement is smoother.

The utility model discloses a control mode is artifical and controls through external controller, and external controller's control circuit can realize through the simple programming of technical staff in this field, belongs to the common general knowledge in this field, with the utility model discloses no longer explain control mode and circuit connection in detail.

When the water pump is used, firstly, the water pump 107 is started through the external controller, the water pump 107 conveys water in the water tank 105 into the working tank 3 through the first pipeline 8, and the water is sprayed out through the atomizing spray head 15 after passing through the second pipeline 4 and the hose 13, meanwhile, when the water enters the working tank 3, the water impacts the surface of the impeller 502 to rotate, the rotation of the impeller 502 enables the first rotating shaft 501 to rotate, the impact force generated when the water flows is converted into power, and the water pump is more energy-saving and environment-friendly;

meanwhile, the rotation of the first rotating shaft 501 drives the rotation of the driving bevel gear 704, the rotation of the driving bevel gear 704 drives the rotation of the driven bevel gear 703 and the second rotating shaft 702, and further drives the rotation of the driving pulley 705, the rotation of the driving pulley 705 drives the rotation of the driven pulley 707 and the transmission shaft 10 through the belt 706, and further drives the rotation of the fan 14, so that the air outside the cooling box 101 is blown to the surface of the infusion tube 104 inside the cooling box 101, the volatilization of the surface heat of the infusion tube 104 is accelerated, the cooling of the liquid in the infusion tube 104 is improved, meanwhile, the manufacturing cost is lower, the energy is more environment-friendly, and the heat is not generated during the work, so that the cooling effect is better;

and, the rotation of first pivot 501 drives the rotation of rolling disc 601, and the rotation of rolling disc 601 makes slider 603 slide at the lateral wall of fixed pin 602, simultaneously, drives slide bar 11 along the lateral wall reciprocating sliding of blast pipe 106, and then drives installation piece 12 and atomizer 15 reciprocating motion to evenly spill water on transfer line 104, when guaranteeing cooling effect and operational reliability, it is more convenient to use, and reduces manufacturing cost.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and although the present invention has been disclosed with reference to the above preferred embodiment, but not to limit the present invention, any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, and any simple modification, equivalent change and modification made to the above embodiments by the technical spirit of the present invention still fall within the scope of the present invention.

Claims (6)

1. The cooling device for petrochemical production comprises a cooling box (101) and a water tank (105) located below the cooling box (101), and is characterized in that a liquid inlet pipe (102) is arranged at the top of the cooling box (101), a liquid outlet pipe (103) is arranged at the bottom of the cooling box (101), a liquid conveying pipe (104) which is arranged in a bending mode is arranged in the cooling box (101), one end of the liquid conveying pipe (104) is communicated with the liquid inlet pipe (102), the other end of the liquid conveying pipe (104) is communicated with the liquid outlet pipe (103), an air supply pipe (106) is arranged at the top end of the cooling box (101), a water pump (107) is arranged on the side wall of the water tank (105), a mounting plate (9) is fixedly connected to the inner side wall of the air supply pipe (106), a fan (14) is rotatably connected to the side wall of the mounting plate (9) through a transmission shaft (10), and a sliding rod (11) is inserted into the side wall of the air supply pipe (106), one end of the sliding rod (11) penetrates through the inside of the air supply pipe (106) and is fixedly connected with an installation block (12), an atomizing nozzle (15) is installed on the installation block (12), the top of the cooling box (101) is fixedly connected with the support (2), the side wall of the support (2) is fixedly connected with the working box (3), the water outlet end of the water pump (107) is fixedly connected with a first pipeline (8), the other end of the first pipeline (8) is fixed with the side wall of the working box (3), the side wall of the working box (3) far away from the first pipeline (8) is fixedly connected with a second pipeline (4), the other end of the second pipeline (4) penetrates through the side wall of the air supply pipe (106) and is connected with the atomizing nozzle (15) through a hose (13), and a driving mechanism for driving the transmission shaft (10) to rotate and the sliding rod (11) to slide is arranged in the working box (3), the driving mechanism and the transmission shaft (10) are transmitted through a first transmission mechanism, and the driving mechanism and the sliding rod (11) are transmitted through a second transmission mechanism.

2. A cooling device for petrochemical production according to claim 1, wherein the driving mechanism comprises an impeller (502) rotatably connected in the work box (3) by a first rotating shaft (501).

3. The cooling device for petrochemical production according to claim 2, wherein the first transmission mechanism comprises an L-shaped plate (701) fixedly connected to the top of the cooling box (101), the side wall of the L-shaped plate (701) is rotatably connected with a driven bevel gear (703) through a second rotating shaft (702), one end of the first rotating shaft (501) penetrates through the side wall of the working box (3) and is fixedly connected with a driving bevel gear (704), the driving bevel gear (704) is meshed with the driven bevel gear (703), the upper end of the first rotating shaft (501) is fixedly connected with a driving pulley (705), the upper end of the transmission shaft (10) is fixedly connected with a driven pulley (707), and the driven pulley (707) and the driving pulley (705) are in transmission through a belt (706).

4. The cooling device for petrochemical production according to claim 2, wherein the second transmission mechanism comprises a rotating disc (601) fixedly connected to one end of the first rotating shaft (501) far away from the working box (3), an eccentrically arranged fixing pin (602) is fixedly connected to a side wall of the rotating disc (601), an annularly arranged sliding block (603) is sleeved on a side wall of the fixing pin (602), and one end of the sliding rod (11) far away from the atomizing nozzle (15) is fixed to a side wall of the sliding block (603).

5. The cooling device for petrochemical production according to claim 4, wherein a sliding groove is formed in a side wall of the air supply pipe (106), a fixing strip is fixedly connected to a side wall of the sliding rod (11), and the fixing strip slides in the sliding groove.

6. The petrochemical production cooling device according to claim 4, wherein the side wall of the sliding block (603) which is matched with the fixing pin (602) is provided with a smooth film.

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