CN112938405A

CN112938405A - Ash bucket feeding equipment for thermal power plant

Info

Publication number: CN112938405A
Application number: CN202110104189.9A
Authority: CN
Inventors: 张涛
Original assignee: DATANG HUAIBEI POWER PLANT
Current assignee: DATANG HUAIBEI POWER PLANT
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2021-06-11

Abstract

The invention discloses ash bucket feeding equipment for a thermal power plant, which comprises a base and a vibration motor, wherein a support column is fixedly arranged at the top of the base, a support plate is fixedly arranged at the top end of the support column, an ash bucket is fixedly arranged at the bottom of the support plate, an ash inlet pipe is fixedly communicated with the top of the ash bucket, an ash outlet pipe is fixedly communicated with the bottom of the ash bucket, a valve is movably arranged on one side of the ash outlet pipe, a control panel is detachably arranged at the front part of the base, and an anti-blocking mechanism is movably connected inside the ash bucket. Among the above-mentioned scheme, vibrating motor can directly transmit vibrations for the dust through second motor case, then rotating electrical machines can drive the movable rod through the bull stick, connecting rod and brush board rotate, can the dust become loose when movable rod and connecting rod rotate, and the brush board can be brushed the dust that bonds at the ash bucket inner wall down to only need less time just can accomplish the work of loosening the ash, and avoided vibrating motor vibrations ash bucket to lead to ash bucket life to reduce.

Description

Ash bucket feeding equipment for thermal power plant

Technical Field

The invention relates to the technical field of auxiliary equipment of thermal power plants, in particular to ash bucket feeding equipment for a thermal power plant.

Background

Thermal power generation is to utilize heat energy generated when solid, liquid and gas fuels such as coal, oil, natural gas and the like are combusted, heat water through the heat energy, so that the water is changed into high-temperature high-pressure water vapor, then a steam turbine is pushed by the water vapor, the steam turbine drives a generator to generate electricity, when the coal is combusted to generate electricity, a large amount of dust is generated, the dust is directly discharged to pollute the environment, therefore, the dust is collected into a dust hopper, when the dust in the dust hopper is more, the dust needs to be discharged, at present, dust is sent out by using a dust hopper feeding device, the existing feeding device has the working principle that before feeding, a vibration motor is used for vibrating the dust hopper, the dust in the dust hopper is loosened, then a valve is opened, the dust is discharged into a designated container through a dust outlet pipe, and the feeding work is finished.

When the existing feeding equipment uses a vibration motor to vibrate the ash bucket, the ash bucket can transmit vibration to the dust inside, but the dust closer to the vibration position can be subjected to larger vibration to become loose, the dust farther from the vibration position is subjected to smaller vibration and has lower loosening speed, the dust in the ash bucket can be completely loosened in a longer time, the working efficiency is lower, and the long-time vibration of the ash bucket can cause the movement of the joint of the ash bucket and the change of the metal properties forming the ash bucket, the service life of the ash bucket can be reduced, and the production cost is increased; after a part of dust is sent out of the dust hopper by the existing feeding equipment, the dust outlet pipe is closed through the valve, so that the dust does not continuously fall off, but when the valve is damaged, the dust can leak out of the dust hopper through the damaged valve and fall on the ground, so that the environmental pollution is caused, and the existing feeding equipment cannot prevent the leakage; all install the monitor of monitoring dust quantity in current ash bucket, nevertheless damage at the monitor, when can not in time monitor the quantity of dust, the dust in the ash bucket can be more, fills up the ash bucket gradually, and the dust continues to get into the ash bucket again and will lead to the ash bucket or advance the ash pipe and break, causes the incident, harms workman's health, and current feeding equipment can not be when the dust is more automatic see-off.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide an ash bucket feeding device for a thermal power plant, so as to solve the problems that the ash loosening efficiency of the existing feeding device using a vibration motor is low, the service life of an ash bucket is reduced, the existing feeding device cannot prevent leakage, and the existing feeding device cannot automatically feed out when there is much dust.

In order to solve the technical problems, the invention provides the following technical scheme: an ash bucket feeding device for a thermal power plant comprises a base and a vibration motor, wherein a support column is fixedly installed at the top of the base, a support plate is fixedly installed at the top end of the support column, an ash bucket is fixedly installed at the bottom of the support plate, an ash inlet pipe is fixedly communicated with the top of the ash bucket, an ash outlet pipe is fixedly communicated with the bottom of the ash bucket, a valve is movably installed on one side of the ash outlet pipe, a control panel is detachably installed at the front part of the base, an anti-blocking mechanism is movably connected inside the ash bucket, a leakage-proof mechanism is movably connected to the other side and the inside of the ash outlet pipe, and ash conveying mechanisms are movably connected to two sides of the ash bucket;

the anti-blocking mechanism comprises a first motor box, a rotating motor is detachably mounted in the first motor box, the bottom of the rotating motor is rotatably connected with a rotating rod, a through groove is formed in the bottom of the first motor box, the bottom end of the rotating rod is fixedly connected with a movable rod, connecting rods are fixedly mounted on two sides of the movable rod, a brush plate is fixedly mounted at one end of each connecting rod, a first spring is fixedly connected to the bottom end of the movable rod, and a second motor box is fixedly connected to the bottom end of the first spring;

the anti-leakage mechanism comprises an anti-leakage box, a support block is fixedly arranged on one side of the bottom of an inner cavity of the anti-leakage box, an electric telescopic rod is movably arranged on one side of the inner cavity of the anti-leakage box, a blocking block is fixedly connected to one end of the electric telescopic rod, sliding blocks are fixedly connected to the top and the bottom of the blocking block, and an inductor is embedded and arranged on the inner wall of one side of the ash discharge pipe;

send grey mechanism to include the pipe chute, the fixed intercommunication in bottom of pipe chute has the ash discharge pipe, the top fixed mounting of pipe chute has the fixed block, movable groove has been seted up at the top of fixed block, the inside fixedly connected with horizontal pole in movable groove, the lantern ring has been cup jointed in the outside activity of horizontal pole, one side fixedly connected with baffle of the lantern ring, the top fixed mounting of pipe chute has the second spring.

The top of the first motor box is connected with the top of an inner cavity of the ash bucket, and the vibration motor is connected with the inside of the second motor box.

Wherein, lead to the bottom that the groove link up first motor case, the bull stick stretches out first motor case through leading to the groove, the shape that bull stick and lead to the groove sets up to be cylindrical, the diameter that leads to the groove is greater than the diameter of bull stick.

The number of the brush plates is two, the two brush plates are connected with the inner wall of the ash bucket, and the inclination angle of the brush plates is equal to that of one side of the ash bucket.

The anti-leakage box is connected with one side of the ash discharging pipe, the blocking block penetrates through the joint of the anti-leakage box and the ash discharging pipe, a sliding groove is formed in the joint of the anti-leakage box and the ash discharging pipe, and the sliding groove is matched with the sliding block.

The inner wall of the other side of the ash discharging pipe is provided with a clamping groove, the clamping groove is located on one side, far away from the inner part of the leakage-proof box, of the ash discharging pipe, the height of the clamping groove is equal to the sum of the heights of the blocking block and the sliding block, and the width of the clamping groove is equal to the width of the blocking block.

The inclined pipes are communicated with one side of the ash bucket, the number of the inclined pipes is a plurality, and the inclined pipes are uniformly distributed around the ash bucket.

The other end of the baffle is connected with the bottom of the inclined tube, and the other end of the second spring is connected with one side of the baffle.

The input ends of the vibration motor, the rotating motor and the electric telescopic rod are electrically connected with the output end of the control panel, and the output end of the inductor is electrically connected with the input end of the control panel.

The technical scheme of the invention has the following beneficial effects:

in the scheme, the vibration motor can directly transmit vibration to dust through the second motor box, then the rotating motor can drive the movable rod, the connecting rod and the brush plate to rotate through the rotating rod, the dust can become loose when the movable rod and the connecting rod rotate, and the brush plate can brush down the dust adhered to the inner wall of the dust hopper, so that the dust loosening work can be completed in a short time, and the reduction of the service life of the dust hopper caused by the vibration of the dust hopper by the vibration motor is avoided; in the scheme, when the sensor detects dust leakage, the electric telescopic rod can be automatically controlled to stretch and retract through the control panel, the blocking block is driven to slide towards the dust outlet pipe, one end of the blocking block is clamped in the clamping groove, and then the dust can be prevented from continuously leaking, so that the environment pollution caused by more dust falling on the ground is avoided; in the above scheme, when the dust height in the ash bucket constantly rises and reaches the junction of pipe chute and ash bucket, the baffle can be washed away to the dust, falls into the ash discharge pipe through the pipe chute, sends into the outside through the ash discharge pipe with the dust to avoided the dust quantity in the ash bucket constantly to increase and lead to the incident, guaranteed workman's health.

Drawings

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

FIG. 2 is a schematic structural diagram of an anti-blocking mechanism according to the present invention;

FIG. 3 is an enlarged schematic view of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic view of the leakage prevention mechanism of the present invention;

FIG. 5 is an enlarged view of the structure at B of FIG. 4 according to the present invention;

FIG. 6 is a schematic structural view of an ash conveying mechanism of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6 at C according to the present invention;

fig. 8 is a schematic view of the fixing block structure of the present invention.

[ reference numerals ]

1. A base; 2. a support pillar; 3. a support plate; 4. an ash hopper; 5. an ash inlet pipe; 6. an ash discharging pipe; 7. a valve; 8. a vibration motor; 9. a control panel; 10. an anti-blocking mechanism; 101. a first motor case; 102. a rotating electric machine; 103. a rotating rod; 104. a through groove; 105. a movable rod; 106. a connecting rod; 107. brushing the board; 108. a first spring; 109. a second motor case; 11. a leakage prevention mechanism; 111. a leakage-proof box; 112. supporting a block; 113. an electric telescopic rod; 114. blocking; 115. a slider; 116. a chute; 117. a card slot; 118. an inductor; 12. an ash conveying mechanism; 121. an inclined tube; 122. an ash discharge pipe; 123. a fixed block; 124. a movable groove; 125. a cross bar; 126. a collar; 127. a baffle plate; 128. a second spring.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

The embodiment of the invention provides ash bucket feeding equipment for a thermal power plant as shown in the attached drawings 1 to 8, which comprises a base 1 and a vibration motor 8, wherein a support column 2 is fixedly installed at the top of the base 1, a support plate 3 is fixedly installed at the top end of the support column 2, an ash bucket 4 is fixedly installed at the bottom of the support plate 3, an ash inlet pipe 5 is fixedly communicated with the top of the ash bucket 4, an ash outlet pipe 6 is fixedly communicated with the bottom of the ash bucket 4, a valve 7 is movably installed at one side of the ash outlet pipe 6, a control panel 9 is detachably installed at the front part of the base 1, an anti-blocking mechanism 10 is movably connected inside the ash bucket 4, a leakage-proof mechanism 11 is movably connected at the other side and inside of the ash outlet pipe 6, and ash feeding mechanisms 12 are movably connected at two sides of the ash bucket 4;

the anti-blocking mechanism 10 comprises a first motor box 101, a rotating motor 102 is detachably mounted inside the first motor box 101, the bottom of the rotating motor 102 is rotatably connected with a rotating rod 103, the bottom of the first motor box 101 is provided with a through groove 104, the bottom end of the rotating rod 103 is fixedly connected with a movable rod 105, two sides of the movable rod 105 are fixedly provided with connecting rods 106, one end of each connecting rod 106 is fixedly provided with a brush plate 107, the bottom end of each movable rod 105 is fixedly connected with a first spring 108, and the bottom end of each first spring 108 is fixedly connected with a second motor box 109;

the leakage-proof mechanism 11 comprises a leakage-proof box 111, a support block 112 is fixedly installed on one side of the bottom of an inner cavity of the leakage-proof box 111, an electric telescopic rod 113 is movably installed on one side of the inner cavity of the leakage-proof box 111, a blocking block 114 is fixedly connected to one end of the electric telescopic rod 113, sliding blocks 115 are fixedly connected to the top and the bottom of the blocking block 114, and an inductor 118 is installed on the inner wall of one side of the ash discharge pipe 6 in an embedded mode;

send grey mechanism 12 to include pipe chute 121, the fixed intercommunication in bottom of pipe chute 121 has ash discharge pipe 122, the top fixed mounting of pipe chute 121 has fixed block 123, movable groove 124 has been seted up at the top of fixed block 123, the inside fixedly connected with horizontal pole 125 of movable groove 124, lantern ring 126 has been cup jointed in the outside activity of horizontal pole 125, one side fixedly connected with baffle 127 of lantern ring 126, the top fixed mounting of pipe chute 121 has second spring 128.

The top of the first motor box 101 is connected with the top of the inner cavity of the ash bucket 4, and the vibration motor 8 is connected with the inside of the second motor box 109.

The through groove 104 penetrates through the bottom of the first motor box 101, the rotating rod 103 extends out of the first motor box 101 through the through groove 104, the rotating rod 103 and the through groove 104 are cylindrical, and the diameter of the through groove 104 is larger than that of the rotating rod 103.

The number of the brush plates 107 is two, the two brush plates 107 are in contact with the inner wall of the ash bucket 4, and the inclination angle of the brush plates 107 is equal to that of one side of the ash bucket 4.

The anti-leakage box 111 is connected with one side of the ash discharging pipe 6, the blocking block 114 penetrates through the joint of the anti-leakage box 111 and the ash discharging pipe 6, a sliding groove 116 is formed in the joint of the anti-leakage box 111 and the ash discharging pipe 6, and the sliding groove 116 is matched with the sliding block 115.

The inner wall of the other side of the ash discharging pipe 6 is provided with a clamping groove 117, the clamping groove 117 is positioned on one side of the ash discharging pipe 6 far away from the inner part of the leakage-proof box 111, the height of the clamping groove 117 is equal to the sum of the heights of the blocking block 114 and the sliding block 115, and the width of the clamping groove 117 is equal to the width of the blocking block 114.

The inclined tubes 121 are communicated with one side of the ash bucket 4, the number of the inclined tubes 121 is a plurality, and the inclined tubes 121 are uniformly distributed around the ash bucket 4.

The other end of the baffle 127 is connected to the bottom of the inclined tube 121, and the other end of the second spring 128 is connected to one side of the baffle 127.

The input ends of the vibration motor 8, the rotating motor 102 and the electric telescopic rod 113 are electrically connected with the output end of the control panel 9, and the output end of the inductor 118 is electrically connected with the input end of the control panel 9.

The brand of the vibration motor 8 is a precision department, the model of the vibration motor is M10SA, the brand of the control panel 9 is Delwey electric, the model of the control panel is KG316T220XK, the brand of the rotary motor 102 is FREED, the model of the rotary motor is PF, the brand of the electric telescopic rod 113 is TOMUU, the model of the electric telescopic rod is U7, the brand of the inductor 118 is Lenfumei, and the model of the inductor is LD 09.

The working process of the invention is as follows:

when the ash hopper 4 needs to feed materials, the valve 7 is opened, the ash hopper 4 is communicated with the ash discharge pipe 6, the vibration motor 8 is controlled to be started, the vibration motor 8 vibrates, the vibration is directly transmitted to dust through the second motor box 109, the first spring 108 can reduce the vibration on the movable rod 105, then the rotary motor 102 is controlled to drive the rotary rod 103 to rotate, the rotary rod 103 rotates in the through groove 104 and drives the movable rod 105, the connecting rod 106 and the brush plate 107 to rotate, the dust can be loosened when the movable rod 105 and the connecting rod 106 rotate, the brush plate 107 can brush down the dust adhered to the inner wall of the ash hopper 4, and the dust is fed out from the ash discharge pipe 6, so that the ash loosening work can be completed in less time, and the reduction of the service life of the ash hopper 4 caused by the vibration of the ash hopper 4 by the vibration motor 8 is avoided;

when dust is not discharged from the dust outlet pipe 6 in time, the height of the dust in the dust hopper 4 continuously rises and reaches the joint of the inclined pipe 121 and the dust hopper 4, the dust can flush the baffle 127, fall into the dust discharge pipe 122 through the inclined pipe 121, and be sent to the outside through the dust discharge pipe 122, when no dust passes through, the baffle 127 gradually rebounds under the action of the second spring 128 to drive the lantern ring 126 on the cross rod 125, and then the baffle 127 is connected with the bottom of the inclined pipe 121 to block the inclined pipe 121, so that the dust is prevented from floating, the safety accident caused by the continuous increase of the amount of the dust in the dust hopper 4 is avoided, and the health of workers is ensured;

when the dust amount is small or under other conditions, when the dust is not discharged by using the dust discharge pipe 6, the valve 7 is closed, the dust is conveyed out from the inclined pipe 121, the sensor 118 senses that the dust leaks from the dust discharge pipe 6, a signal is sent to the control panel 9, the control panel 9 controls the electric telescopic rod 113 to stretch and retract, the blocking block 114 is driven to move, the sliding block 115 is driven to slide in the sliding groove 116 when the blocking block 114 moves, the sliding block 115 and the sliding groove 116 can reduce the resistance of the blocking block 114, the blocking block 114 can enter the clamping groove 117 after continuously sliding, the dust discharge pipe 6 can be blocked, and the dust is prevented from continuously leaking, so that the environment pollution caused by more dust falling on the ground is avoided.

According to the scheme, the first motor box 101, the rotating motor 102, the rotating rod 103, the through groove 104, the movable rod 105, the connecting rod 106, the brush plate 107, the first spring 108 and the second motor box 109 are matched, so that the problem that the service life of the ash hopper 4 is reduced due to the fact that the vibration motor 8 vibrates the ash hopper 4 is avoided, and the ash hopper 4 can be used for a long time and can be loosened in a short time; the leakage-proof box 111, the supporting block 112, the electric telescopic rod 113, the blocking block 114, the sliding block 115, the sliding groove 116, the clamping groove 117 and the inductor 118 are matched, so that the environment pollution caused by more dust falling on the ground is avoided, and the dust leakage can be prevented and treated in time; due to the cooperation of the inclined tube 121, the ash discharging tube 122, the fixed block 123, the movable groove 124, the cross rod 125, the lantern ring 126, the baffle 127 and the second spring 128, safety accidents caused by the fact that the amount of dust in the ash hopper 4 is increased continuously are avoided, and the health of workers is guaranteed.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims

1. An ash bucket feeding device for a thermal power plant comprises a base and a vibration motor, wherein a support column is fixedly installed at the top of the base, a support plate is fixedly installed at the top end of the support column, an ash bucket is fixedly installed at the bottom of the support plate, an ash inlet pipe is fixedly communicated with the top of the ash bucket, an ash outlet pipe is fixedly communicated with the bottom of the ash bucket, a valve is movably installed on one side of the ash outlet pipe, a control panel is detachably installed at the front part of the base, and the ash bucket feeding device is characterized in that an anti-blocking mechanism is movably connected inside the ash bucket, a leakage-proof mechanism is movably connected to the other side and the inside of the ash outlet pipe, and ash conveying mechanisms are movably connected to two sides of the ash;

2. The ash bucket feeding device for thermal power plants according to claim 1, wherein the top of the first motor box is connected with the top of the inner cavity of the ash bucket, and the vibration motor is connected with the inside of the second motor box.

3. The ash bucket feeding device for the thermal power plant according to claim 1, wherein the through groove penetrates through the bottom of the first motor box, the rotating rod extends out of the first motor box through the through groove, the rotating rod and the through groove are cylindrical in shape, and the diameter of the through groove is larger than that of the rotating rod.

4. The ash bucket feeding device for the thermal power plant according to claim 1, wherein the number of the brush plates is two, the two brush plates are connected with the inner wall of the ash bucket, and the inclination angle of the brush plates is equal to the inclination angle of one side of the ash bucket.

5. The ash bucket feeding device for the thermal power plant according to claim 1, wherein the leakage-proof box is connected with one side of the ash discharge pipe, the blocking block penetrates through a joint of the leakage-proof box and the ash discharge pipe, a sliding groove is formed in the joint of the leakage-proof box and the ash discharge pipe, and the sliding groove is matched with the sliding block.

6. The ash bucket feeding device for the thermal power plant according to claim 1, wherein a clamping groove is formed in the inner wall of the other side of the ash discharge pipe, the clamping groove is located on one side, away from the inner portion of the leakage prevention box, of the ash discharge pipe, the height of the clamping groove is equal to the sum of the heights of the blocking blocks and the sliding block, and the width of the clamping groove is equal to the width of the blocking blocks.

7. The ash bucket feeding device for the thermal power plant according to claim 1, wherein the inclined pipes are communicated with one side of the ash bucket, the number of the inclined pipes is a plurality, and the plurality of the inclined pipes are uniformly distributed around the ash bucket.

8. The ash bucket feeding device for a thermal power plant according to claim 1, wherein the other end of the baffle is connected to the bottom of the inclined tube, and the other end of the second spring is connected to one side of the baffle.

9. The ash bucket feeding device for thermal power plants according to claim 1, wherein the input ends of the vibration motor, the rotating motor and the electric telescopic rod are electrically connected with the output end of the control panel, and the output end of the inductor is electrically connected with the input end of the control panel.