CN111360526B

CN111360526B - Chemical industry reaction tower calibration erection equipment

Info

Publication number: CN111360526B
Application number: CN202010218235.3A
Authority: CN
Inventors: 赵燕莺; 王传福
Original assignee: Xuzhou Wilma Technology Co ltd
Current assignee: Xuzhou Wilma Technology Co.,Ltd.
Priority date: 2020-03-25
Filing date: 2020-03-25
Publication date: 2021-11-23
Anticipated expiration: 2040-03-25
Also published as: CN111360526A

Abstract

The invention provides a chemical reaction tower calibration installation device, which comprises an embedded base, a driving device, four sliding frame groups and a detection calibration device, wherein the embedded base is provided with a plurality of sliding frame groups; four sliding frame groups are uniformly arranged at the upper end of the embedded base along the circumferential direction of the embedded base, a detection and calibration device is uniformly arranged on each sliding frame group, and a driving device is arranged between each sliding frame group and the detection and calibration device; the invention can solve the problems that when the reaction tower is installed in a hoisting mode, the reaction tower is slightly inclined after being placed on the ground, the deviation direction and the angle of the reaction tower are difficult to observe by naked eyes due to small inclination angle, great difficulty is given to an installer, the later-stage reaction treatment of the reaction tower is influenced by installation after the angle is not calibrated, and the like.

Description

Chemical industry reaction tower calibration erection equipment

Technical Field

The invention relates to the technical field of chemical reaction tower installation, in particular to a calibration installation device for a chemical reaction tower.

Background

Chemical industry reaction tower is the comparatively extensive reaction unit of application in the chemical industry, and reaction material reacts under the even state of mixture in the tower body, and then obtains required reaction product, and the reaction tower needs perpendicular installation when the installation, because reaction tower's volume is great, traditional mounting means installs it in the assigned position through the mode of handling, but, often can have following difficult problem in actual operation:

when using the mode installation of handling, the condition that slightly inclines can appear behind ground is placed to the reaction tower, because inclination is less, the skew direction and the angle of reaction tower are difficult to observe to the naked eye, give the great degree of difficulty of installer, do not influence the reaction treatment in reaction tower later stage to its angle calibration after-mounting.

Disclosure of Invention

In order to solve the problems, the invention provides a calibration installation device for a chemical reaction tower, which can solve the problems that when the reaction tower is installed in a hoisting mode, the reaction tower is slightly inclined after being placed on the ground, the deviation direction and the angle of the reaction tower are difficult to observe by naked eyes due to small inclination angle, the installation personnel are difficult to give, the later-stage reaction treatment of the reaction tower is influenced when the reaction tower is installed after the angle is calibrated, and the like.

In order to achieve the purpose, the invention adopts the following technical scheme that the chemical reaction tower calibration installation equipment comprises an embedded base, a driving device, four sliding frame groups and a detection calibration device; four sliding frame groups are uniformly arranged at the upper end of the embedded base along the circumferential direction of the embedded base, a detection and calibration device is uniformly arranged on each sliding frame group, and a driving device is arranged between each sliding frame group and the detection and calibration device;

the driving device comprises two arc-shaped plates, two racks, a gear and a motor, wherein the two arc-shaped plates are connected in an embedded mode, the two arc-shaped plates are connected in an embedded mode to form a circular plate, the rack is arranged at the edge of each arc-shaped plate, the rack and the gear are in a meshed state, the gear is connected with an output shaft of the motor, and the motor is installed on the side wall of the embedded base.

The carriage group include carriage, mounting panel and patchhole, the carriage passes through sliding fit's mode and is connected with the embedding base, the mounting panel is installed to the inner of carriage, evenly seted up the patchhole on the mounting panel, concrete during operation, when the carriage group was synchronous inside and outside removed, drive gear through the motor and rotate to drive the ring board and rotate, drive the synchronous inside or outside removal of carriage group with the help of the three-jaw chuck principle.

The detection and calibration device comprises a frame body, an embedded column, a locking cap, a contact frame, an alarm mechanism, a linkage rod and an angle measurement mechanism, wherein the embedded column is installed at the lower end of the frame body, the middle part of the embedded column is positioned in an insertion hole, the lower end of the embedded column is in threaded fit connection with the locking cap, the inner part of the frame body is connected with the contact frame in a sliding fit mode, the alarm mechanism is arranged at the outer end of the contact frame, the alarm mechanism is installed in the frame body, the contact frame and the lower end face of the linkage rod are in a close fit state, the linkage rod is connected with the frame body in a sliding fit mode, the upper end of the linkage rod is attached to the angle measurement mechanism, the angle measurement mechanism is positioned at the upper end inside the frame body, the detection and calibration device is driven to synchronously push inwards according to a three-jaw chuck principle, so that the detection and calibration device is wound around a reaction tower, the detection and calibration device after being pushed inwards can form a ring, and the arrangement of the detection and calibration device enables personnel to know the inclination angle and the inclined position of the reaction tower, the lifting and supporting device is convenient for personnel to lift and support.

The angle measuring mechanism comprises a sliding rod, a connecting rod, an alignment plate, a matching rod, a connecting rod, a protractor and a return spring, the connecting rod is connected with the frame body in a sliding fit mode, the return spring is connected between the lower end of the connecting rod and the frame body, the sliding rod is installed at the inner end of the connecting rod, the alignment plate is connected with the inner end of the sliding rod and the inner end of the matching rod through a pin shaft, the connecting rod is connected with the outer end of the matching rod through a pin shaft, the protractor is installed on the side wall of the connecting rod, when the angle measuring mechanism works specifically, the sliding frame drives the angle measuring mechanism to move inwards under the action of thread fit, after the angle measuring mechanism moves inwards to a designated position, the outer wall of the reaction tower inclined towards one side can be contacted with the contact frame and extrude the contact frame outwards, under the linkage extrusion of the linkage rod, the sliding rod is extruded inwards to enable the alignment plate to be tightly attached to the outer wall of the reaction tower, under the principle of a four-bar mechanism, the alignment plate in the inclined state drives the connecting rod to incline synchronously, and at the moment, personnel can check the inclination angle according to the protractor.

Preferably, the outer end of the sliding frame is of a plane thread structure, and the outer end of the sliding frame is in thread fit connection with the lower end face of the arc-shaped plate.

Preferably, the inner end of the contact frame is of an arc structure, the upper end of the contact frame is provided with an extrusion groove, and the inner end surface of the extrusion groove is of a gradually inward inclined structure from bottom to top.

Preferably, alarm mechanism include the wire, the group battery, the siren, two copper billets, the protection tube, built-in spring, copper contact post and insulating frame, the insulating frame is installed in the frame, the group battery is installed to the upper end of insulating frame, the siren is installed in the outside of insulating frame, two copper billets are installed at the upper and lower both ends of insulating frame inboard, and be the separation state between two copper billets, the group battery, the siren, connect through the wire series connection between two copper billets, be connected for sliding fit between insulating frame and the copper contact post, connect through built-in spring between the inner of copper contact post and the insulating frame, and the outside parcel of copper contact post has the protection tube.

Preferably, the upper end of the linkage rod is provided with an extrusion block, and the inner end surface of the extrusion block is of a structure which gradually inclines outwards from bottom to top.

Preferably, the outer side of the lower end of the sliding rod is provided with an inner groove, the inner concave eraser is internally provided with a squeezing roller, and the squeezing roller is tightly attached to the inner end face of the squeezing block.

Preferably, the embedding base is embedded and connected by two semicircular plates, and the lower ends of the semicircular plates are provided with embedding cones.

The invention has the beneficial effects that:

according to the chemical reaction tower calibration installation equipment, the detection and calibration devices are driven to synchronously push inwards according to the three-jaw chuck principle, so that the detection and calibration devices move inwards at equal intervals, the alarm and angle measurement are integrally arranged on the inclined position and the angle of the reaction tower in a linkage type extrusion mode, a small inclined angle can be measured through mechanical detection, and the position of the inclined direction can be reflected through alarm sound;

the driving device and the four sliding frame groups move by adopting the principle of a three-jaw chuck, and the detection of the reaction tower by the detection and calibration device is facilitated by the equidistant movement;

the detection and calibration device provided by the invention can make an alarm sound and measure the angle after being contacted and extruded with an inclined reaction tower, the arrangement of the surrounding detection and calibration device can know the inclined position of the reaction tower, and the design of the four-bar mechanism controls the synchronous angle adjustment of the alignment plate and the connecting rod, so that personnel can see the accurate inclined angle of the reaction tower.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a cross-sectional view of the arc, rack, carriage assembly and test calibration assembly of the present invention;

FIG. 3 is a schematic perspective view of the angle measuring mechanism of the present invention;

fig. 4 is a schematic view of the installation of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 4, a chemical reaction tower calibration installation device comprises an embedded base 1, a driving device 2, four sliding frame groups 3 and a detection calibration device 4, wherein the four sliding frame groups 3 are uniformly arranged at the upper end of the embedded base 1 along the circumferential direction of the embedded base, the detection calibration device 4 is uniformly arranged on each sliding frame group 3, and the driving device 2 is arranged between each sliding frame group 3 and the detection calibration device 4;

the driving device 2 comprises two arc-shaped plates 21, two racks 22, a gear 23 and a motor 24, the two arc-shaped plates 21 are connected in an embedded mode to form a circular plate, the rack 22 is arranged on the edge of each arc-shaped plate 21, the racks 22 and the gear 23 are in a meshed state, the gear 23 is connected with an output shaft of the motor 24, and the motor 24 is installed on the side wall of the embedded base 1.

Sliding frame group 3 include carriage 31, mounting panel 32 and patchhole 33, carriage 31 is connected with embedding base 1 through sliding fit's mode, mounting panel 32 is installed to carriage 31's the inner, patchhole 33 has evenly been seted up on the mounting panel 32, concrete during operation, during sliding frame group 3 was synchronous inside and outside removed, drive gear 23 through motor 24 and rotate to drive the ring plate and rotate, drive sliding frame group 3 with the help of three-jaw chuck principle and move in step or outside.

The detection and calibration device 4 comprises a frame body 41, an embedded column 42, a locking cap 43, a contact frame 44, an alarm mechanism 45, a linkage rod 46 and an angle measurement mechanism 47, wherein the embedded column 42 is installed at the lower end of the frame body 41, the middle part of the embedded column 42 is positioned in the insertion hole 33, the lower end of the embedded column 42 is in threaded fit connection with the locking cap 43, the interior of the frame body 41 is connected with the contact frame 44 in a sliding fit manner, the outer end of the contact frame 44 is provided with the alarm mechanism 45, the alarm mechanism 45 is installed in the frame body 41, the lower end faces of the contact frame 44 and the linkage rod 46 are in a close-fitting state, the linkage rod 46 is connected with the frame body 41 in a sliding fit manner, the upper end of the linkage rod 46 is attached with the angle measurement mechanism 47, the angle measurement mechanism 47 is positioned at the upper end inside the frame body 41, the detection and calibration device 4 is driven to synchronously push inwards according to the three-jaw chuck principle, so that the detection and calibration device 4 is surrounded to a reaction tower, the detection calibrating device 4 after the inner pushing can form a ring, and the arrangement of the detection calibrating device 4 enables personnel to know the inclination angle and the inclined position of the reaction tower, so that the personnel can conveniently lift and right the reaction tower.

The angle measuring mechanism 47 comprises a sliding rod 471, a connecting rod 472, an alignment plate 473, a matching rod 474, a connecting rod 475, a protractor 476 and a return spring 477, the connecting rod 472 is connected with the frame 41 in a sliding fit manner, the return spring 477 is connected between the lower end of the connecting rod 472 and the frame 41, the sliding rod 471 is installed at the inner end of the connecting rod 472, the alignment plate 473 is connected with the inner end of the sliding rod 471 and the inner end of the matching rod 474 through a pin shaft, the connecting rod 475 is connected with the outer end of the matching rod 474 and the outer end of the connecting rod 472 through a pin shaft, the protractor 476 is installed on the side wall of the connecting rod 472, during specific work, under the action of threaded fit, the sliding frame 31 drives the angle measuring mechanism 47 to move inwards, after the angle measuring mechanism 47 moves inwards to a designated position, the outer wall of the reaction tower inclined towards one side can be contacted with the contact frame 44 and extrude the contact frame outwards, under the linkage extrusion of the linkage rod 46, the sliding rod 471 is squeezed inwards to enable the alignment plate 473 to cling to the outer wall of the reaction tower, under the principle of the four-bar mechanism, the inclined alignment plate 473 drives the connecting rod 475 to incline synchronously, and at the moment, a person can check the inclination angle according to the protractor 476.

The outer end of the sliding frame 31 is of a plane thread structure, and the outer end of the sliding frame 31 is in thread fit connection with the lower end face of the arc-shaped plate 21.

The inner end of the contact frame 44 is of an arc-shaped structure, the upper end of the contact frame 44 is provided with an extrusion groove, and the inner end surface of the extrusion groove is of a gradually inward inclined structure from bottom to top, so that the difficulty of extruding the lower end of the linkage rod 46 by the inner end surface of the extrusion groove is reduced.

The alarm mechanism 45 comprises a wire 451, a battery pack 452, an alarm 453, two copper blocks 454, a protection pipe 455, an inner spring 456, a copper contact column 457 and an insulation frame 458, wherein the insulation frame 458 is installed in the frame body 41, the battery pack 452 is installed at the upper end of the insulation frame 458, the alarm 453 is installed outside the insulation frame 458, the two copper blocks 454 are installed at the upper end and the lower end of the inner side of the insulation frame 458, the two copper blocks 454 are in a separated state, the battery pack 452, the alarm 453 and the two copper blocks 454 are connected in series through the wire 451, the insulation frame 458 is connected with the copper contact column 457 in a sliding fit manner, the inner end of the copper contact column 457 is connected with the insulation frame 458 through the inner spring 456, the protection pipe 455 wraps the outer portion of the copper contact column 457, during specific work, the sliding frame 31 drives the angle measurement mechanism 47 to move inwards under the action of threaded fit, after the angle measurement mechanism 47 moves inwards to a designated position, the outer wall of the reaction tower inclined to one side is in contact with the contact frame 44 and presses the contact frame outwards, so that the copper contact column 457 is pressed to move outwards, the copper contact column 457 is in contact with the two copper blocks 454, the alarm mechanism 45 is integrally connected in series, the alarm 453 sounds after being electrified, and personnel can judge the inclined position according to the sound.

The upper end of the linkage rod 46 is provided with an extrusion block, and the inner end surface of the extrusion block is of a structure which gradually inclines outwards from bottom to top, so that the extrusion effect is achieved.

An inner groove is formed in the outer side of the lower end of the sliding rod 471, a squeezing roller is arranged in the inner concave wiper, the difficulty of squeezing with the inner end face of the squeezing block is reduced due to the arrangement of the squeezing roller, and the squeezing roller is tightly attached to the inner end face of the squeezing block.

The embedding base 1 is embedded and connected by two semicircular plates, can be detachably connected, is convenient for the detection and then is detached and taken out from the reaction tower after the installation is finished, and the lower ends of the semicircular plates are provided with embedding cones, so that the embedding cones can be conveniently inserted into the ground.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a chemical industry reaction tower calibration erection equipment, includes embedding base (1), drive arrangement (2), four sliding bracket groups (3) and detection calibrating device (4), its characterized in that: four sliding frame groups (3) are uniformly arranged at the upper end of the embedded base (1) along the circumferential direction of the embedded base, a detection and calibration device (4) is uniformly arranged on each sliding frame group (3), and a driving device (2) is arranged between each sliding frame group (3) and the detection and calibration device (4);

the driving device (2) comprises two arc-shaped plates (21), two racks (22), a gear (23) and a motor (24), the two arc-shaped plates (21) are connected in an embedded mode, the rack (22) is arranged on the edge of each arc-shaped plate (21), the racks (22) and the gear (23) are in a meshed state, the gear (23) is connected with an output shaft of the motor (24), and the motor (24) is installed on the side wall of the embedded base (1);

the sliding frame group (3) comprises a sliding frame (31), a mounting plate (32) and insertion holes (33), the sliding frame (31) is connected with the embedded base (1) in a sliding fit mode, the mounting plate (32) is mounted at the inner end of the sliding frame (31), and the insertion holes (33) are uniformly formed in the mounting plate (32);

the detection and calibration device (4) comprises a frame body (41), an embedded column (42), a locking cap (43), a contact frame (44), an alarm mechanism (45), a linkage rod (46) and an angle measurement mechanism (47), wherein the embedded column (42) is installed at the lower end of the frame body (41), the middle part of the embedded column (42) is positioned in an insertion hole (33), the lower end of the embedded column (42) is in threaded fit connection with the locking cap (43), the inside of the frame body (41) is connected with the contact frame (44) in a sliding fit manner, the outer end of the contact frame (44) is provided with the alarm mechanism (45), the alarm mechanism (45) is installed in the frame body (41), the lower end faces of the contact frame (44) and the linkage rod (46) are in a close fit state, the linkage rod (46) is connected with the frame body (41) in a sliding fit manner, the upper end of the linkage rod (46) is attached to the angle measurement mechanism (47), the angle measuring mechanism (47) is positioned at the upper end inside the frame body (41);

angle measuring mechanism (47) include slide bar (471), connecting rod (472), aim at board (473), cooperation pole (474), connecting rod (475), protractor (476) and reset spring (477), connecting rod (472) are connected with framework (41) through sliding fit's mode, even have reset spring (477) between the lower extreme of connecting rod (472) and framework (41), slide bar (471) is installed to the inner of connecting rod (472), the inner of slide bar (471) has through selling the axle with the inner of cooperation pole (474) and aims at board (473), the outer end of cooperation pole (474) has connecting rod (475) through selling the axle with the outer end of connecting rod (472), install protractor (476) on the lateral wall of connecting rod (472).

2. The chemical reaction tower calibration installation equipment of claim 1, wherein: the outer end of the sliding frame (31) is of a plane thread structure, and the outer end of the sliding frame (31) is in thread fit connection with the lower end face of the arc-shaped plate (21).

3. The chemical reaction tower calibration installation equipment of claim 1, wherein: the inner end of the contact frame (44) is of an arc-shaped structure, the upper end of the contact frame (44) is provided with an extrusion groove, and the inner end surface of the extrusion groove is of a gradually inward inclined structure from bottom to top.

4. The chemical reaction tower calibration installation equipment of claim 1, wherein: the alarm mechanism (45) comprises a wire (451), a battery pack (452), an alarm (453), two copper blocks (454), a protection pipe (455), an internal spring (456), a copper contact column (457) and an insulation frame (458), wherein the insulation frame (458) is installed in the frame body (41), the battery pack (452) is installed at the upper end of the insulation frame (458), the alarm (453) is installed outside the insulation frame (458), the two copper blocks (454) are installed at the upper end and the lower end of the inner side of the insulation frame (458), the two copper blocks (454) are in a separated state, the battery pack (452), the alarm (453) and the two copper blocks (454) are connected in series through the wire (451), the insulation frame (458) is connected with the copper contact column (457) in a sliding fit manner, the inner end of the copper contact column (457) is connected with the insulation frame (458) through the internal spring (456), and the exterior of the copper contact column (457) is wrapped with a protection pipe (455).

5. The chemical reaction tower calibration installation equipment of claim 1, wherein: the upper end of the linkage rod (46) is provided with an extrusion block, and the inner end surface of the extrusion block is of a structure which gradually inclines outwards from bottom to top.

6. The chemical reaction tower calibration installation equipment of claim 1, wherein: an inner groove is formed in the outer side of the lower end of the sliding rod (471), a squeezing roller is arranged in the inner groove, and the squeezing roller is tightly attached to the inner end face of the squeezing block.

7. The chemical reaction tower calibration installation equipment of claim 1, wherein: the embedded base (1) is embedded and connected by two semicircular plates, and the lower ends of the semicircular plates are provided with embedded cones.