KR101762180B1 - Installation method of plant - Google Patents

Abstract

The present invention discloses a plant construction method. A plant construction method according to an embodiment of the present invention includes a component production step S110 for producing a meter, a reactor, a condenser and an oil water separator constituting a plant, and a step S110 for assembling each component produced by the component production step S110 A component transporting step S130 for transporting each component assembled by the component assembling step S120 and an installing step S140 for installing each component transported, The reactor 1 in the component assembling step S120 includes a housing 10, a lid 20 assembled to the upper portion of the housing 10, and a cover 20 installed in the lid 20, And the mount 40 and the housing 10 are assembled to be horizontal by the horizontal aligning device 100. In this case, The horizontal aligning device 100 moves down A slider 130 slidably installed on the pillar member 120 and a slider 130 slidably mounted on the pillar member 120. The slider 130 slides on the slider 130, A grip part 140 installed on the slider 130 and capable of gripping the mount 40 of the reactor 1 and a mount part 40 located on the center of the mount 40 gripped by the grip part 140 A hydraulic cylinder 160 for providing power to vertically slide the slider 130 sliding on the pillar member 120 and a hydraulic cylinder 160 for sliding the slider 130 in the vertical direction, And a fine height adjusting unit 170 installed on four lower surfaces of the base 110 to adjust the height and tilt of the base 110 according to the rotation.

Description

[0001] INSTALLATION METHOD OF PLANT [0002]

The present invention relates to a plant construction method, and a plant construction method for manufacturing a reaction tank, a condenser and a meter constituting a plant, and making it possible to easily and easily perform the construction on a site, .

A plant is a production facility capable of manufacturing raw materials, intermediate materials, and final products intended for producers by technically installing mechanical devices and various facilities such as power plants and oil refineries. It is used for engineering / procurement / construction Construction is a complex industry, which has a high effect on industrial relations and contributes to the advancement of industrial structure.

Generally, a plant is classified into a chemical plant, a food plant, and a pharmaceutical plant. Such a plant is generally used in a petrochemical industry, a catalytic chemical reaction of methanol and ammonia, A condenser in which a gas generated in the reactor can be cooled and liquefied by utilizing the sensible heat of the cooling water, a condenser for cooling the gas generated by the condenser, A water separator for separating water and oil cooled in the condenser, and a meter for measuring the contents of the reactor, which can cause a chemical reaction, to be supplied in a predetermined amount.

Generally, a plant having such a structure is manufactured at a separate factory and then transported to the site and then assembled.

For example, a reactor may be installed in the field, and then a meter may be provided to supply the contents of the reactor so as to cause a chemical reaction. A condenser is installed on one side of the reactor, and the reactor and the condenser are connected using a connecting pipe.

Thereafter, a water-oil separator for separating water and oil cooled in the condenser is installed, and the construction of the plant is completed through the operation of connecting the condenser and the oil water separator using a separate pipe and connecting the oil water separator and the reactor do.

However, conventionally, there is a disadvantage that it is difficult to horizontally install the reactor in the method of constructing the plant.

Specifically, a stirrer is usually installed in the reactor to effectively cause the chemical reaction of the contents. At this time, if the stirrer is not located at the center of the reactor, there is a disadvantage in that the stirrer rotates and uneven vibration and noise are generated. The reactor is disadvantageously broken.

Therefore, it is very important to level the reactor in the construction of the plant, and the time required for the operation is also large.

The applicant of the present invention has thus devised a method of constructing a plant in order to solve the above-mentioned conventional problems.

According to an aspect of the present invention, there is provided a plant construction method capable of easily and horizontally aligning a horizontal position of a reactor in a plant construction, thereby reducing the overall operation time of the plant.

According to an aspect of the present invention, there is provided a method of manufacturing a product, including the steps of producing a component for producing a meter, a reactor, a condenser, and a water separator, the components being assembled, And a mounting step of mounting the respective components transported, wherein the reactor in the component assembling step includes a housing, a cover assembled on the upper portion of the housing, Wherein the mount and the housing are assembled so as to be horizontal by a horizontal aligning device. The horizontal aligning device is provided with a moving device Shaped base provided with an in-wheel, and a column fixedly installed on the base A slider provided on the slider so as to be slidable; a grasping portion provided on the slider and capable of grasping a reaction mount; and a grasping portion positioned at the center of the mount grasped by the grasping portion to irradiate the beam A hydraulic cylinder for providing power to vertically slide the slider slidably in the column member; and a control unit installed on four lower surfaces of the base to adjust the height and tilt of the base according to rotation The present invention provides a method of constructing a plant including a fine height adjustment unit.

The embodiments of the present invention can easily and easily install the reactor during the construction of the plant, thereby reducing the time required for the work and improving the working efficiency.

In addition, since the reactor can be installed accurately, noise and vibration due to rotation of the stirrer in the reactor can be minimized, and further, damage of the reactor can be minimized.

1 is a process diagram schematically illustrating a plant construction method according to an embodiment of the present invention.
2 is a view schematically showing a horizontal alignment of a conventional reactor.
3 is a view schematically showing a reactor assembly procedure of a plant construction method according to an embodiment of the present invention.
4 is a schematic view illustrating a horizontal aligning apparatus used in a plant construction method according to an embodiment of the present invention.
5 is a side view of Fig.
6 is a view schematically showing a grip portion of the horizontal aligning device used in an embodiment of the present invention.
FIG. 7 is a view schematically showing a process of assembling a reactor using a horizontal aligning device used in a plant construction method according to an embodiment of the present invention.

Hereinafter, a plant construction method according to embodiments of the present invention will be described in detail with reference to the drawings.

The present invention relates to a reactor used in a conventional catalytic chemical reaction in which a chemical reaction is allowed to proceed through stirring or contact heating while liquid such as a raw material flows, A condenser for cooling and liquefying the gas using the sensible heat of the cooling water, a water separator connected to the condenser for separating the water and the oil cooled in the condenser, and a material capable of causing a chemical reaction in the reactor And a meter capable of metering and supplying a predetermined amount.

1 is a process diagram schematically illustrating a plant construction method according to an embodiment of the present invention.

Referring to FIG. 1, a method of constructing a plant according to an embodiment of the present invention starts with a step of producing a component (S110) for producing a meter, a reactor, a condenser, and an oil separator.

In other words, the production process is carried out in the factory to manufacture the components necessary for the plant construction in accordance with the desired standard.

Thereafter, the component assembling step (S120) for assembling each component is performed.

That is, in the case of the components (meter, condenser, oil separator, reactor, etc.) necessary for the plant construction, since the size of the product itself is large, the components are assembled by welding after being manufactured.

In the case of the components constituting the ordinary plant, the assembling or the bolting operation can be carried out without difficulty in the case of the meter, the condenser, the oil water separator, etc. In the case of the reactor 1, the stirrer 30 is located inside , There was a discomfort that was difficult to assemble.

That is, in the case of the conventional reactor 1, the housing 10, the lid 20 assembled to the upper portion of the housing 10, and the stirrer 30 installed in the lid 20, Such a conventional reactor 1 typically comprises a mount 40 attached to a lid 20 and a lid 20 with a mount 40 attached thereto, ) To the housing (10).

At this time, when the lid 20 and the mount 40 are engaged, the mount 40 should be level with respect to the lid 20 so that the stirrer 30 is positioned in the housing 10. That is, since the stirrer 30 is fixedly coupled to the mount 40, the operation of aligning the lid 20 and the mount 40 is performed, so that no noise or noise is generated during rotation of the blades of the stirrer 30 in the housing 10 The vibration must be minimized.

Therefore, conventionally, as shown in FIG. 2A, the cover 20 is placed on the upper surface of the large platen 2, and then an available soldering is performed to weld the mount 40 and the cover 20 part by piece. After mounting the cover 20 and the mount 40, the horizontal bar 3 is placed on the top of the mount 40 and the height of the left and right sides of the base 2 and the horizontal bar 3 is measured. And the lid 20 are assembled to be horizontal, and then the stirrer 30 is assembled to the mount 40 as shown in FIG. 2B.

That is, when the mount 40 and the lid 20 are in contact with each other, the level is measured using the horizontal rod 3 and the surface plate 2, and if not horizontal, the welded portion is removed, 40 are rotated and re-contacted with each other, the mount 40 and the lid 20 are aligned horizontally, which is inconvenient and troublesome.

Even if the lid 20 and the mount 40 are aligned horizontally as described above, since the lid 20 and the housing 10 are not assembled later, the stirrer 30 is fixed to be inclined There is a disadvantage that the blades of the stirrer 30 are inclined in the housing 10 or the like.

Accordingly, the present invention provides a horizontal aligning device (100) capable of leveling the reactor (1). That is, the mount 40 can be quickly and accurately assembled to the lid 20 by using the horizontal aligning apparatus 100.

Specifically, in the embodiment of the present invention, the mount 40 is assembled to the lid 20 in a state where the housing 10 and the lid 20 of the reactor 1 are primarily assembled and fixed.

Referring to Fig. 3, the assembling procedure of the reactor 1 will be described. First, the housing 10 is firmly fixed to the lid 20 by welding or the like while lying down. Then, the mount 40 is fixed to the lid 20. In this case, in the embodiment of the present invention, the mount 40 is fixed to the horizontal aligning device 100, and then the center of the mount 40 and the center of the housing 10 are kept horizontal by using a beam Since the mount 40 and the housing 10 are assembled, the assembly can be assembled quickly and easily.

4 and 5, the horizontal aligning apparatus 100 includes a base 110, a pillar 120 vertically fixed to the base 110, and the pillar 120 A slider 130 slidably installed on the slider 130 and a grasping portion 140 installed on the slider 130 to grasp the mount 40 of the reactor 1, A horizontal aligning member 150 positioned at the center of the mount 40 gripped by the slider and irradiating a beam and a slider 130 slidably supporting the slider 130 are vertically slidable And a fine height adjusting unit 170 installed on four lower surfaces of the base 110 to control the height and tilt of the base 110 according to the rotation.

The base 110 is formed in a plate shape and has a predetermined area so that the column member 120 can be stably supported. In addition, a wheel 112, which is a moving means, may be installed in the lower portion so as to smoothly move.

The pillar member 120 is fixedly installed on the base 110. The pillar member 120 is provided with a pair of rails 122 parallel to the longitudinal direction on one side thereof and a fixing plate 124 on the upper side thereof.

The slider 130 is slidably coupled to the rail 122 so as to be vertically movable. The slider 130 includes a sliding member 132 on one surface thereof, which is slidably engaged with the pair of rails 122 .

Further, a grip portion 140 is provided on the other surface of the slider 130 whose one surface is coupled with the rail of the pillar member 120. The grip portion 140 is provided to grip the mount 40 of the reactor 1 and adjust its position. The grip portion 140 is fixed to the slider 130 and has a hollow inside, A grip member 145 which is slidably coupled to the upper and lower sides of the bracket 143 so as to be slidable and curved so as to correspond to the outer circumferential surface of the mount 40 so as to be able to grip the mount 40, And first and second rods 144a and 144b provided on both sides of the bracket 143 and having the same surfaces as the first and second rods 144a and 144b which are slid in the vertical direction The first rod 144a and the second rod 144b are respectively engaged with the first rod 144a by raising or lowering the first rod 144a and the second rod 144b according to the rotation of the support member 146 and the bracket 143 , And the other end is engaged with the second rod 144b To provide the power to rotate the needle gear 147 and the needle gear 147 may include a motor 148 that is fixedly coupled to the slider (130).

6, the motor 148 is driven in a state in which the mount 40 is positioned between the gripping members 140 so that the needle gear 147 is rotated. Thereafter, the first rod 144a and the second rod 144b are lowered or raised, respectively, in accordance with the rotation of the needle gear 147, so that the gripping member 145 grasps the mount 40. At this time, the mount 40 has one surface of the mount 40 on the supporting surfaces of the first rod 144a and the second rod 144b, and the supporting member 146 protruding from both sides of the bracket 143 So that the gripping member 145 grasps the mount 40 in a state in which the gripping member 145 is brought into contact.

A horizontal fitting member 150 is installed at the center of the bracket 143 of the gripper 140. The horizontal fitting member 150 irradiates a beam so as to discriminate whether the mount 40 held by the gripping member 145 maintains a horizontal state with respect to the housing 10.

That is, as shown in Fig. 7, the mount 40 is held by the gripping member 145 in a state where the horizontal fitting member 150 is provided at the center of the bracket 143 between the gripping members 145 . Thereafter, the beam is irradiated to the inside of the housing 10 while holding the mount 40. In this case, a sensor S capable of sensing the beam irradiated from the horizontal fitting member 150 is installed in the housing 10 so that the horizontal alignment member 150 and the sensor S So that the mount 40 and the housing 10 are assembled.

A hydraulic cylinder 160 is installed on the fixed plate 124 provided on the upper side of the pillar member 120. The hydraulic cylinder 160 is fixed to the fixed plate 124 so that the piston rod 164 is extended or contracted in response to application of a power source so that the slider 130 can be moved up and down in the vertical direction.

That is, the end of the piston rod 164 coupled with the cylinder body 162 is coupled with the slider 130 while the cylinder body 162 of the hydraulic cylinder 160 is fixed to the fixed plate 124 The mounting height of the mount 40 can be adjusted by allowing the slider 130 to move up and down along the rail 122 provided on the pillar member 120 as the piston rod 164 is extended or contracted will be.

The fine height adjuster 170 is installed at a lower portion of the base 110.

The fine height adjuster 170 is capable of fine adjustment of the position of the center of the housing 40 with the center of the mount 40 aligned with the center of the housing 10 through the hydraulic cylinder 160, And a wheel 112 installed at a lower portion of the vehicle.

7, a left-handed screw 172 protruding from the lower portion of the base 110 is installed on the lower four sides of the base 110, A right screw 176 whose one end is rotatably engaged with the other end of the rotating member 174 and a right screw 176 which is rotatably coupled to the left screw 172, And a support member 178 which is fixedly coupled to the other end and can be brought into contact with the ground.

Accordingly, the support member 178 can be held in contact with the ground surface by a simple operation of rotating the rotary member 174, so that the height of the support member 178 can be adjusted.

[0034] The assembling process of the mount 40 and the housing 10 using the horizontal aligning device 100 having the above-

First, the mount 40 is engaged with the gripping member 145 of the gripping portion 140. At this time, after the one side of the mount 40 is brought into contact with the supporting surfaces of the first and second rods 144a and 144b and the supporting member 146, the motor 148 is driven to move the first rod 144a and the 2 rod 144b is raised or lowered so that the gripping member 145 can grasp the mount 40. [

Thereafter, the hydraulic cylinder 160 is driven to raise the slider 130, and then the center height of the mount 40 is approximately matched with the center height of the housing 10 by using the horizontal fitting member 150 , The fine height adjusting unit 170 is used to precisely align the horizontals, and then the mount 40 and the housing 10 are assembled through welding.

When the assembling of each component is completed using the horizontal aligning apparatus 100, the component carrying step (S130) for carrying the component to the site is performed.

In other words, the assembled components are transported to the site where they are to be installed by using a large truck or the like.

Thereafter, the installation step S140 for installing the transported components is performed.

That is, the reactor 1 having the mount 40 and the housing 10 coupled thereto is installed, and then the reactor installing step (S140a) for fixing the stirrer 30 to the mount 40 of the reactor 1 is performed.

Thereafter, when the reactor installation step S140a is completed, a meter installation process (S140b) for connecting the meter 1 to the reactor 1 is performed so as to supply a proper amount of the contents to the housing 10 of the reactor 1.

Thereafter, a condenser installing step (S140c) for installing a condenser for condensing the gas generated by the mixing action in the reactor is performed.

At this time, the condenser is connected to the reactor through a hollow pipe having a hollow inside, and it should be level with the pipe.

That is, the connection pipe connecting the reactor and the condenser should be leveled so as to prevent the gas generated through the chemical reaction in the reactor from flowing out to the outside. Therefore, the connecting pipe connecting the reactor and the condenser is installed so as to be horizontal by using a device capable of adjusting the horizontal level.

Thereafter, an oil water separator installation step (S140d) is carried out in which an oil water separator for separating water and oil cooled in the condenser is installed, and the condenser and the oil water separator are connected using a separate pipe, The construction of the plant is completed.

Therefore, in the embodiment of the present invention, it is possible to easily and easily assemble the assembly of the reactor described above, thereby reducing the time required for the overall construction work of the plant and accurately assembling the assembly. As a result, And noise can be minimized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Reactor 2: Plate
3: Horizontal bar 10: Housing
20: cover 30: stirrer
40: Mount 100: Horizontal alignment device
110: base 112: wheel
120: column member 122: rail
124: Fixing plate 130: Slider
132: Sliding member 140:
143: bracket 144a: first load
144b: second rod 145: grip member
146: Support member 147: Needle gear
148: motor 150: horizontal fitting member
160: Hydraulic cylinder 162: Cylinder body
164: piston rod 170: fine height regulating portion
172: left-hand thread 174: rotating member
176: Right hand screw 178: Support member
S110: Component production step S120: Component assembly step
S130: Component carrying step S140: Component mounting step

Claims (3)

A component production step S110 for producing a meter, a reactor, a condenser and an oil separator constituting the plant,
A component assembling step (S120) of assembling the respective components produced by the component producing step (S110)
A component carrying step (S130) of carrying each component assembled by the component assembling step (S120) and
(S140) for installing each of the transported components,
The reactor 1 in the component assembling step S120 includes a housing 10, a lid 20 assembled to the upper portion of the housing 10, and a cover 20 installed in the lid 20, And the mount 40 and the housing 10 are assembled to be horizontal by the horizontal aligning device 100. In this case,
The horizontal alignment device 100
A plate-shaped base 110 having a wheel as a moving means at the lower portion thereof,
A column member 120 vertically fixed to the base 110,
A slider 130 slidably installed on the pillar member 120,
A grip portion 140 installed on the slider 130 and capable of gripping the mount 40 of the reactor 1,
A horizontal fitting member 150 positioned at the center of the mount 40 gripped by the gripper unit 140 to irradiate the beam,
A hydraulic cylinder 160 for providing power to slide the slider 130 in the vertical direction to slide on the pillar member 120,
And a fine height adjusting unit 170 installed on four lower surfaces of the base 110 to adjust the height and tilt of the base 110 according to the rotation. The gripper according to claim 1, wherein the gripper (140)
A rectangular bracket 143 fixed to the slider 130 and having a hollow therein and penetrating in a vertical direction,
The bracket 143 is slidably coupled to upper and lower sides of the bracket 143 and is provided with a gripping member 145 having a curved shape corresponding to the outer circumferential surface of the mount 40 so that the mount 40 can be gripped. 1, second rods 144a, 144b,
A support member 146 provided on both sides of the bracket 143 and having a support surface formed with the same surfaces as the first and second rods 144a and 144b slidable in the vertical direction,
One end of the first rod 144a is engaged with the first rod 144a and the other end of the second rod 144b is engaged with the second rod 144b. A needle gear 147 meshing with the rod 144b,
And a motor (148) fixedly coupled to the slider (130) by providing power to rotate the needle gear (147). The method according to claim 1, wherein the component installation step (S140)
A reactor installation step S140a in which the reactor 1 having the mount 40 and the housing 10 connected thereto and then the stirrer 30 is fixed to the mount 40 of the reactor 1,
A meter installing step S140b for connecting a meter to the reactor 1 so as to supply an appropriate amount of the contents to the housing 10 of the reactor 1,
A condenser installing step (S140c) for installing a condenser for condensing the gas produced by the mixing action in the reactor, and
And an oil water separator installation step (S140d) for installing an oil water separator capable of separating oil and water cooled in the condenser,
Wherein the condenser is connected to the condenser in such a manner that the gas generated in the reactor (1) can be supplied to the condenser during the installation of the condenser (S140c) through a connection pipe, Construction method.

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