CN217684922U - Waste heat boiler steel structure horizontal support adjusting device - Google Patents

Abstract

The utility model discloses a horizontal supporting and adjusting device for a steel structure of a waste heat boiler, which comprises an auxiliary adjusting mechanism and a horizontal adjusting mechanism; the auxiliary adjusting mechanism is arranged at the bottom of the waste heat boiler, and the top of the auxiliary adjusting mechanism is in contact with the waste heat boiler; the horizontal adjusting mechanism is arranged around the waste heat boiler; the horizontal adjusting mechanism comprises a supporting cylinder, an arched beam, an upright post I, a jack, an upright post II, a supporting plate IV and a telescopic mechanism; the telescopic mechanism comprises an electric push rod, a guide plate, a bearing seat II, a bearing seat III, a connecting rod and a sliding block; the auxiliary adjusting mechanism comprises a supporting plate I, a supporting plate II, a power mechanism and a supporting mechanism; the power mechanism comprises a limiting plate, a guide shaft, a gear I, a fixing block, a threaded rod, a motor, a gear II and a mounting seat; the supporting mechanism comprises a bearing seat I, a rotating joint, a connecting rod I and a connecting rod II; the utility model discloses can adjust unbalanced exhaust-heat boiler when improving work efficiency, reduction manpower, material resources and time consumption.

Description

Waste heat boiler steel structure horizontal support adjusting device

Technical Field

The utility model belongs to the technical field of steel construction adjusting device, in particular to exhaust-heat boiler steel construction horizontal bracing adjusting device.

Background

The waste heat boiler realizes the full utilization of fuel heat, reduces the operation cost of the boiler, improves the efficiency and is widely applied to various industries. However, if the steel structure supporting device of the waste heat boiler is inclined due to the environmental problems, the installation of the waste heat boiler is influenced, the service lives of the waste heat boiler and the steel structure supporting device are shortened, and potential safety hazards can be further formed.

1) The existing horizontal supporting device for the steel structure of the waste heat boiler is generally welded before installation, and then the boiler is installed, so that the method has the defect that if the welding of the supporting device has errors and cannot realize horizontal supporting, the boiler is greatly likely to have use defects after installation, and the supporting device needs to be welded and manufactured again, so that time and material are wasted;

2) After the boiler is installed, if the ground is not tamped and the boiler support is inclined due to the phenomenon of settlement and the like, the normal use is influenced, and the maintenance is troublesome;

for conveniently adjusting the supporting balance of the steel structure supporting device of the waste heat boiler, the steel structure horizontal supporting adjusting device of the waste heat boiler is needed, and the steel structure horizontal supporting adjusting device of the waste heat boiler can meet the requirement of adjusting the supporting balance of the steel structure of the waste heat boiler while improving the working efficiency and reducing the consumption of manpower, material resources and time.

Disclosure of Invention

The utility model aims at overcoming not enough among the prior art, providing a waste heat boiler steel construction horizontal stay adjusting device, the utility model discloses can adjust unbalanced waste heat boiler when improving work efficiency, reducing manpower, material resources and time consumption.

In order to realize the purpose, the utility model discloses a technical scheme be:

a steel structure horizontal supporting and adjusting device of a waste heat boiler comprises an auxiliary adjusting mechanism and a horizontal adjusting mechanism; the auxiliary adjusting mechanism is arranged at the bottom of the waste heat boiler, and the top of the auxiliary adjusting mechanism is in contact with the waste heat boiler; the horizontal adjusting mechanism is arranged around the waste heat boiler; the horizontal adjusting mechanism comprises a supporting cylinder, an arched beam, an upright post I, a jack, an upright post II, a supporting plate IV and a telescopic mechanism; the supporting cylinder is fixedly connected to the top of the upright post I in a matched manner through bolts, and a mounting hole is formed in the bottom of the supporting cylinder; a support plate III is arranged in the support cylinder; an operation opening is formed below the supporting plate III; a guide groove is formed in the supporting cylinder, and a guide column is arranged at the bottom of the upright post II; the upright post II is arranged above the support plate IV, a slot is formed in the upright post II, a cylindrical fixture block is arranged at the top of the expansion plate, and the expansion plate is inserted in the slot; a groove is arranged below the slot, a through groove is arranged in the groove, the supporting block is fixedly connected to the top end of the through groove, and the spring is fixed on the supporting block; the arched beam is fixed at the top end of the upright post II, and the top surface of the arched beam is in contact with the waste heat boiler; the jack is arranged in the mounting hole in the supporting cylinder, and the bottom end of the jack penetrates through the mounting hole in the supporting cylinder to be in contact with the top end of the upright post I; the top of the jack is contacted with the bottom of the support plate IV.

The telescopic mechanism is arranged inside the stand column II and comprises an electric push rod, a guide plate, a bearing seat II, a bearing seat III, a connecting rod and a sliding block; the bottom end of the guide plate is fixedly connected with the support plate IV, and the sliding block is in sliding connection with the guide plate; the connecting rod penetrates through the through groove to be hinged with a bearing seat II fixed on the bottom surface of the telescopic plate and a bearing seat III on the sliding block; a certain distance is arranged between the electric push rod and the sliding block, the electric push rod is arranged above the sliding block, and the bottom of the electric push rod is fixedly connected with the stand column II.

The auxiliary adjusting mechanism comprises a supporting plate I, a supporting plate II, a power mechanism and a supporting mechanism; the supporting plate I and the supporting plate II are arranged below the waste heat box, and clamping grooves are formed in the supporting plate I and the supporting plate II; the supporting mechanism is arranged in the clamping grooves on the supporting plate I and the supporting plate II; the supporting mechanism comprises a bearing seat I, a rotating joint, a connecting rod I and a connecting rod II; the bearing seat I is arranged between the support plate I and the support plate II; connecting rod I and connecting rod II pass through rotation joint cross connection, and I both ends of connecting rod are connected with II both ends of connecting rod rotation in bearing frame I.

The power mechanism is arranged on one side of the supporting mechanism; the power mechanism comprises a limiting plate, a guide shaft, a gear I, a fixing block, a threaded rod, a motor, a gear II and a mounting seat; the fixed blocks are provided with a pair of fixed blocks which are respectively fixed at two sides of the through shaft in the middle of the rotating joint; one end of the mounting seat is rotatably connected with the connecting rod I and the connecting rod II, a pair of threaded rods is arranged, one end of each threaded rod is in threaded connection with the fixed block, and the other end of each threaded rod penetrates through a through hole in the mounting seat and is fixedly connected with the gear I; a gear II is fixed at the output end of the motor, the gear II is meshed with the gear I, bearing blocks at the upper end and the lower end of the supporting mechanism are respectively connected with a clamping groove on the supporting plate I and a clamping groove on the supporting plate II in a sliding manner, through holes are formed in mounting seats at two sides of the motor, a guide shaft penetrates through the through holes in the mounting seats at two sides of the motor to be connected with the mounting seats in a sliding manner, and one end of the guide shaft is fixedly connected with the supporting plate II; and a limiting plate is arranged at the other end of the guide shaft.

Compared with the prior art, the utility model beneficial effect shows:

1) The support plate III is used for supporting the upright post II; the guide post penetrates through the guide groove and slides up and down in the guide groove, so that the effect of limiting the rotation of the stand column II in the support cylinder is achieved; the expansion plate is matched with a supporting plate III to support an upright post II; when the stand column II moves upwards, the telescopic plate is extruded by the support plate III to retract into the groove, when the telescopic plate crosses the support plate III, the spring rebounds to extend the telescopic plate, and the extended telescopic plate is matched with the support plate III to support the stand column II;

2) The lifting of the jack is controlled through an operation port on the supporting cylinder, the mounting hole plays a role in preventing the jack from generating displacement, and the jack stretches and retracts to play a role in lifting the supporting upright post II; a certain distance is arranged between the electric push rod and the sliding block, so that the electric push rod is prevented from influencing the upward sliding of the sliding block; the electric push rod pushes the sliding block, and the connecting rod connected with the sliding block drives the telescopic plate to be retracted into the groove, so that the height of the stand column II can be conveniently adjusted downwards;

3) The threaded rod is matched with the fixed block to control the support mechanism to lift, the distance between the mounting seat and the fixed block is reduced when the threaded rod is screwed, the support mechanism rises, the distance between the mounting seat and the fixed block is increased when the threaded rod is unscrewed, and the support mechanism descends;

4) The guide shaft fixes the position of the motor, and the mounting seat can move up and down along with the supporting mechanism when the supporting mechanism is lifted to generate displacement; the limiting plate is arranged at the other end of the guide shaft, and the limiting plate prevents the mounting seat from being separated from the guide shaft when moving.

Drawings

Fig. 1 is a schematic structural view of the waste heat boiler steel structure horizontal support adjusting device of the utility model;

FIG. 2 is a schematic view of the horizontal adjustment mechanism of FIG. 1;

FIG. 3 is a schematic structural view of column II of FIG. 2;

FIG. 4 is a schematic structural diagram of column II in FIG. 2;

FIG. 5 is a schematic structural view of the telescoping mechanism of FIG. 2;

FIG. 6 is a schematic structural view of the support cylinder of FIG. 2;

FIG. 7 is a schematic structural view of the auxiliary adjustment mechanism of FIG. 1;

FIG. 8 is a schematic diagram of the construction of the power mechanism and support mechanism of FIG. 7;

FIG. 9 is a schematic structural view of a connecting rod I and a connecting rod II in FIG. 8;

in the figure: 1. an auxiliary adjustment mechanism; 101. a support plate I; 102. a support plate II; 103. a power mechanism; 1031. a limiting plate; 1032. a guide shaft; 1033. a gear I; 1034. a fixed block; 1035. a threaded rod; 1036. a motor; 1037. a gear II; 1038. a mounting seat; 104. a support mechanism; 1041. a bearing seat I; 1042. a revolute joint; 1043. a connecting rod I; 1044. a connecting rod II; 2. a horizontal adjustment mechanism; 201. a support cylinder; 2011. a guide groove; 2012. a support plate III;

2013. mounting holes; 2014. an operation port; 202. an arched beam; 203. a stand column I; 204. a jack; 205. a column II;

2051. a slot; 2052. a support block; 2053. a spring; 2054. a guide post; 2055. a retractable plate; 2056. a groove;

2057. a through groove; 206. a support plate IV; 207. a telescoping mechanism; 2071. an electric push rod; 2072. a guide plate; 2073. a bearing seat II; 2074. a bearing seat III; 2075. a connecting rod; 2076. a slider; 3. a waste heat boiler; 301. a waste heat box.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further specifically described with reference to fig. 1 to 9.

A steel structure horizontal supporting adjusting device of a waste heat boiler comprises an auxiliary adjusting mechanism 1 and a horizontal adjusting mechanism 2; the auxiliary adjusting mechanism 1 is arranged at the bottom of the waste heat boiler 3, and the top of the auxiliary adjusting mechanism 1 is in contact with the waste heat boiler 3; the horizontal adjusting mechanism 2 is arranged around the waste heat boiler 3; the horizontal adjusting mechanism 2 comprises a supporting cylinder 201, an arched beam 202, an upright post I203, a jack 204, an upright post II 205, a supporting plate IV 206 and a telescopic mechanism 207; the supporting cylinder 201 is fixedly connected to the top of the upright I203 in a matched mode through bolts, and a mounting hole 2013 is formed in the bottom of the supporting cylinder 201; a supporting plate III 2012 is arranged in the supporting cylinder 201 and used for supporting the upright post II 205; an operation opening 2014 is formed below the supporting plate III 2012; a guide groove 2011 is formed in the support cylinder 201, a guide post 2054 is arranged at the bottom of the upright post II 205, and the guide post 2054 penetrates through the guide groove 2011 to slide up and down in the guide groove 2011, so that the effect of limiting the rotation of the upright post II 205 in the support cylinder 201 is achieved; the upright post II 205 is arranged above the support plate IV 206, a slot 2051 is formed in the upright post II 205, a cylindrical fixture block is arranged at the top of the telescopic plate 2055, the telescopic plate 2055 is inserted into the slot 2051, and the telescopic plate 2055 is matched with the support plate III 2012 to support the upright post II 205; a groove 2056 is formed below the slot 2051, a through groove 2057 is formed in the groove 2056, a supporting block 2052 is fixedly connected to the top end of the through groove 2057, a spring 2053 is fixed on the supporting block 2052, when the stand column II 205 moves upwards, the expansion plate 2055 is extruded by the supporting plate III 2012 and retracts into the groove 2056, when the expansion plate 2055 passes over the supporting plate III 2012, the spring 2053 rebounds to extend the expansion plate 2055, and the extended expansion plate 2055 and the supporting plate III 2012 are matched with the supporting plate II 205; the arched beam 202 is fixed at the top end of the upright post II 205, and the top surface of the arched beam 202 is in contact with the waste heat boiler 3; the jack 204 is arranged in the mounting hole 2013 in the supporting cylinder 201, the lifting of the jack is controlled through the operation port 2014, the bottom end of the jack 204 penetrates through the mounting hole 2013 in the supporting cylinder 201 to be in contact with the top end of the upright post I203, and the mounting hole 2013 plays a role in preventing the jack 204 from displacing; the top of the jack 204 is in contact with the bottom of the support plate IV 206, and the jack 204 stretches and retracts to play a role in lifting the support upright post II 205.

The telescopic mechanism 207 is arranged inside the upright post II 205, and the telescopic mechanism 207 comprises an electric push rod 2071, a guide plate 2072, a bearing seat II 2073, a bearing seat III 2074, a connecting rod 2075 and a sliding block 2076; the bottom end of the guide plate 2072 is fixedly connected with the support plate IV 206, and the slider 2076 is in sliding connection with the guide plate 2072; the connecting rod 2075 penetrates through the through groove 2057 to be hinged with a bearing seat II 2073 fixed on the bottom surface of the telescopic plate 2055 and a bearing seat III 2074 on the sliding block 2076; the electric push rod 2071 is arranged above the sliding block 2076, the bottom of the electric push rod 2071 is fixedly connected with the upright column II 205, a certain distance is arranged between the electric push rod 2071 and the sliding block 2076, and the electric push rod 2071 is prevented from influencing the upward sliding of the sliding block 2076; electric putter 2071 promotes slider 2076, and connecting rod 2075 be connected with slider 2076 drives flexible board 2055 and receives in the recess 2056, makes things convenient for II 205 of stand to adjust the height downwards.

The auxiliary adjusting mechanism 1 comprises a support plate I101, a support plate II 102, a power mechanism 103 and a support mechanism 104; the support plate I101 and the support plate II 102 are arranged below the waste heat box 301, and clamping grooves are formed in the support plate I101 and the support plate II 102; the supporting mechanism 104 is arranged between the supporting plate I101 and the supporting plate II 102; the supporting mechanism 104 comprises a bearing seat I1041, a rotating joint 1042, a connecting rod I1043 and a connecting rod II 1044; the bearing block I1041 is arranged in a clamping groove on the support plate I101 and the support plate II 102; the connecting rod I1043 and the connecting rod II 1044 are in cross connection through a rotating joint 1042, and two ends of the connecting rod I1043 are rotatably connected with two ends of the connecting rod II 1044 in the bearing seat I1041.

The power mechanism 103 is arranged on one side of the supporting mechanism 104; the power mechanism 103 comprises a limiting plate 1031, a guide shaft 1032, a gear I1033, a fixed block 1034, a threaded rod 1035, a motor 1036, a gear II 1037 and a mounting seat 1038; the fixed blocks 1034 are provided with a pair which are respectively fixed at two sides of the through shaft in the middle of the rotating joint 1042; one end of the mounting seat 1038 is rotatably connected with the connecting rod I1043 and the connecting rod II 1044, a pair of threaded rods 1035 are arranged, one end of each threaded rod 1035 is in threaded connection with the fixed block 1034, and the other end of each threaded rod 1035 penetrates through a through hole in the mounting seat 1038 to be fixedly connected with the gear I1033; a gear II 1037 is fixed at the output end of the motor 1036, the gear II 1037 is meshed with a gear I1033, the gear II 1037 rotates to drive a threaded rod 1035 to rotate when the motor is started, the threaded rod 1035 is matched with a fixed block 1034 to control the lifting of the supporting mechanism 104, the distance between the mounting seat 1038 and the fixed block 1034 is reduced when the threaded rod 1035 is screwed, the supporting mechanism 104 is lifted, the distance between the mounting seat 1038 and the fixed block 1034 is increased when the threaded rod 1035 is unscrewed, the supporting mechanism 104 is lowered, and as bearing seats I1041 at the upper end and the lower end of the supporting mechanism 104 are respectively connected with clamping grooves in the supporting plate I101 and the supporting plate II 102 in a sliding manner, the supporting mechanism 104 is lifted and lowered, and the supporting plate I101 and the supporting plate II 102 are driven to lift; through holes are formed in the installation bases 1038 on two sides of the motor 1036, the guide shaft 1032 penetrates through the through holes in the installation bases 1038 on two sides of the motor 1036 to be connected with the installation bases 1038 in a sliding mode, one end of the guide shaft 1032 is fixedly connected with the support plate II 102, the installation bases 1038 are fixed by the guide shaft 1032, and the installation bases 1038 can move up and down along with the support mechanism 104 when the support mechanism 104 is lifted to generate displacement; the other end of the guide shaft 1032 is provided with a limit plate 1031, and the limit plate 1031 prevents the mount 1038 from being disengaged from the guide shaft 1032 when moved.

The utility model provides a horizontal support adjusting device of exhaust-heat boiler steel construction, the working process as follows:

the jack 204 ascends to push the upright II 205 to move upwards, the telescopic plate 2055 around the upright II 205 is extruded by the support plate III 2012 and contracted into the groove 2056, when the bottom end of the telescopic plate 2055 passes through the support plate III 2012, the spring 2053 rebounds to drive the telescopic plate 2055 to extend out, and the telescopic plate 2055 is clamped on the support plate III 2012 to support the upright II 205 after the upright II 205 is adjusted to a proper height; when the height of the stand column II 205 needs to be reduced, the jack 204 is required to push the stand column II 205 upwards, meanwhile, the electric push rod 2071 in the stand column II 205 pushes the slider 2076 to move downwards along the guide plate 2072 to retract the telescopic plate 2055 into the groove 2056, after the telescopic plate 2055 is retracted into the groove 2056, the jack 204 moves downwards to drive the stand column II 205 to sink, when the electric push rod 2071 is retracted when the position is adjusted to be a proper position, the spring 2053 rebounds to extend the telescopic plate 2055, and after the telescopic plate 2055 extends, the telescopic plate 2055 is matched with the support plate III 2012 to support the stand column II 205; the auxiliary adjusting mechanism 1 is arranged at the bottom of the waste heat box 301, the gear II 1037 rotates when the motor is started to drive the threaded rod 1035 to rotate, the threaded rod 1035 is matched with the fixed block 1034 to control the supporting mechanism 104 to lift, the distance between the mounting seat 1038 and the fixed block 1034 is reduced when the threaded rod 1035 is screwed, the supporting mechanism 104 rises, the distance between the mounting seat 1038 and the fixed block 1034 is increased when the threaded rod 1035 is unscrewed, the supporting mechanism 104 descends, and because the bearing seats I1041 at the upper end and the lower end of the supporting mechanism 104 are respectively connected with the clamping grooves in the supporting plate I101 and the supporting plate II 102 in a sliding mode, the supporting mechanism 104 can be driven to lift up and down while the supporting plate I101 and the supporting plate II 102 are lifted up and down.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims (4)

1. A steel structure horizontal supporting and adjusting device of a waste heat boiler comprises an auxiliary adjusting mechanism and a horizontal adjusting mechanism; the waste heat boiler waste heat recovery device is characterized in that the auxiliary adjusting mechanism is arranged at the bottom of the waste heat boiler, and the top of the auxiliary adjusting mechanism is in contact with the waste heat boiler; the horizontal adjusting mechanism is arranged around the waste heat boiler;

the horizontal adjusting mechanism comprises a supporting cylinder, an arched beam, an upright post I, a jack, an upright post II, a supporting plate IV and a telescopic mechanism; the supporting cylinder is fixedly connected to the top of the upright post I in a matched manner with a bolt, and a mounting hole is formed in the bottom of the supporting cylinder; a support plate III is arranged in the support cylinder; an operation opening is arranged below the supporting plate III; a guide groove is formed in the supporting cylinder, and a guide column is arranged at the bottom of the upright post II; the upright post II is arranged above the support plate IV, a slot is formed in the upright post II, a cylindrical fixture block is arranged at the top of the expansion plate, and the expansion plate is inserted in the slot; a groove is arranged below the slot, a through groove is arranged in the groove, the supporting block is fixedly connected to the top end of the through groove, and the spring is fixed on the supporting block; the arched beam is fixed at the top end of the upright post II, and the top surface of the arched beam is in contact with the waste heat boiler; the jack is arranged in the mounting hole in the supporting cylinder, and the bottom end of the jack penetrates through the mounting hole in the supporting cylinder to be in contact with the top end of the upright post I; the top of the jack is contacted with the bottom of the support plate IV.

2. The waste heat boiler steel structure horizontal support adjusting device is characterized in that the telescopic mechanism is arranged inside the stand column II and comprises an electric push rod, a guide plate, a bearing seat II, a bearing seat III, a connecting rod and a sliding block; the bottom end of the guide plate is fixedly connected with the support plate IV, and the sliding block is in sliding connection with the guide plate; the connecting rod penetrates through the through groove to be hinged with a bearing seat II fixed on the bottom surface of the telescopic plate and a bearing seat III on the sliding block; electric putter locates the slider top, and electric putter bottom and II fixed connection of stand are equipped with the certain distance between electric putter and the slider.

3. The waste heat boiler steel structure horizontal support adjusting device as claimed in claim 1, characterized in that the auxiliary adjusting mechanism comprises a support plate I, a support plate II, a power mechanism and a support mechanism; the supporting plate I and the supporting plate II are arranged below the waste heat box, and clamping grooves are formed in the supporting plate I and the supporting plate II; the supporting mechanism is arranged between the supporting plate I and the supporting plate II; the supporting mechanism comprises a bearing seat I, a rotating joint, a connecting rod I and a connecting rod II; the bearing seat I is arranged in the clamping grooves in the support plate I and the support plate II; connecting rod I and connecting rod II pass through rotation joint cross connection, and I both ends of connecting rod are connected with II both ends of connecting rod rotation in bearing frame I.

4. The horizontal supporting and adjusting device of the waste heat boiler steel structure according to claim 3, characterized in that the power mechanism is arranged at one side of the supporting mechanism; the power mechanism comprises a limiting plate, a guide shaft, a gear I, a fixing block, a threaded rod, a motor, a gear II and a mounting seat; the fixed blocks are provided with a pair of fixed blocks which are respectively fixed at two sides of the through shaft in the middle of the rotating joint; one end of the mounting seat is rotatably connected with the connecting rod I and the connecting rod II, a pair of threaded rods is arranged, one end of each threaded rod is in threaded connection with the fixed block, and the other end of each threaded rod penetrates through a through hole in the mounting seat and is fixedly connected with the gear I; a gear II is fixed at the output end of the motor, the gear II is meshed with the gear I, bearing blocks at the upper end and the lower end of the supporting mechanism are respectively connected with a clamping groove on the supporting plate I and a clamping groove on the supporting plate II in a sliding manner, through holes are formed in mounting seats at two sides of the motor, a guide shaft penetrates through the through holes in the mounting seats at two sides of the motor to be connected with the mounting seats in a sliding manner, and one end of the guide shaft is fixedly connected with the supporting plate II; and a limiting plate is arranged at the other end of the guide shaft.

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