CN115405843A - Combined shared steam pipeline convenient for liquid drainage - Google Patents

Abstract

The invention relates to the field of steam pipes, in particular to a combined and shared steam pipe which is convenient for liquid discharge. The technical problem is that the structure for collecting condensed water in the existing pipeline is arranged inside the steam pipeline, which blocks the transportation of steam and increases the load of the conveying fan, which is not conducive to energy saving and emission reduction. The technical solution is: a combined and shared steam pipe for liquid drainage, including a first pipe and a collection assembly; the collection assembly is connected to the first pipe. When in use, the condensed water automatically flows into the third pipe for collection by setting the first pipe inclined, and at the same time guides the steam through the first shielding block to make the steam flow in the first pipe more smooth, avoiding the existing technology The problem of excessive resistance caused by the installation of the components collecting condensed water inside the steam pipe, and the clean water at the lower part of the third pipe is used to block and intercept the steam flowing into it to avoid steam leakage. The third pipe is also used for automatic pressure relief.

Description

A Combined Shared Steam Pipe for Liquid Drainage

technical field

The invention relates to the field of steam pipes, in particular to a combined and shared steam pipe for liquid drainage.

Background technique

Existing Chinese patent: a steam pipe (CN111678047A), when the liquid level of the condensed water in the sump exceeds the height of the upper edge of the drain enclosure, the excess condensed water will enter the drain pipe, making the water in the sump The sump can be discharged in time, avoiding the impact of the water in the sump overflowing from the sump on the transportation of steam in the entire steam pipe; and the structure for collecting condensed water is arranged inside the steam pipe and occupies 30% of the inner diameter of the steam pipe Most of the positions will inevitably block the transmission of steam, increase the resistance of steam transmission, and increase the load of the transmission fan, which is not conducive to energy saving and emission reduction. In addition, there are usually multiple steam engines connected to the same steam pipeline. When individual steam engines stop working , the condensed water on the upper side of the inner wall of the steam pipe will flow into the stopped steam engine, causing unnecessary troubles.

Contents of the invention

In order to overcome the disadvantages that the structure of the existing pipes for collecting condensed water is arranged inside the steam pipes, which hinders the transportation of steam, increases the load of the conveying fan, and is not conducive to energy saving and emission reduction. pipeline.

The technical embodiment of the present invention is: a combined shared steam pipeline for liquid drainage, including a first pipeline, a heat preservation jacket, a second pipeline, a third pipeline, a first shielding block, a second shielding block, a collection assembly and The blocking assembly; the outer side of the first pipe is fixedly connected with a heat preservation sleeve; the first pipe is arranged obliquely; the lower left part of the first pipe and the lower right part are connected with a second pipe; the first pipe is connected with a A collection assembly for collecting; two third pipes are connected to the collection assembly; the lower part of the third pipe is U-shaped; the third pipe is provided with clean water, and the clean water blocks the third pipe; the two third pipes are connected to the first The pipes are connected; the inner upper parts of the two third pipes are fixed with several first shielding blocks; an inclined gap is formed between two adjacent first shielding blocks; the condensed water is collected through the third pipe, and the condensed water is collected through the first The three pipelines automatically release the pressure on the first pipeline, and guide the steam flowing above the third pipeline through the first shielding block; several second shielding blocks are connected to the collection assembly; between two adjacent second shielding blocks There is an inclined gap formed between them; the clean water splashed by the steam is blocked and limited by the second blocking block; the two second pipes are connected with a condensed water flow to the suspended steam engine Block components.

To further illustrate, the collection assembly includes a first ring, a first blade, a first gear ring, a first motor, a first gear, a replenishment unit, a storage unit, a dehumidification unit, a delivery unit and a drive unit; The first circular ring is connected to the upper part of the rotation; several first blades are fixedly connected to the inner side of the first circular ring; the first gear ring is fixedly connected to the right side of the first circular ring; the first motor is fixedly connected to the upper right part of the first pipe ; The output shaft of the first motor is fixedly connected with the first gear; the first gear meshes with the first gear ring; the right sides of the two third pipes are connected with a supplementary unit; the right sides of the two third pipes are connected with a storage unit, and the two storage units are respectively located under the adjacent supplementary unit; a dehumidification unit is connected to the two storage units; a delivery unit is connected to the inner lower part of the two second pipes; the two dehumidification units are connected Each of them is connected with one driving unit; the two driving units are respectively connected with adjacent storage units.

To further illustrate, the supplementary unit located on the right includes a connecting rod, a water storage tank, the first top cover, the seventh pipeline and a solenoid valve; the upper part of the right side of the third pipeline on the right is fixedly connected with four connecting rods; A water storage tank is fixedly connected between the upper sides of the connecting rods; the upper side of the water storage tank is plugged with a first top cover; the seventh pipeline is connected between the water storage tank and the adjacent third pipeline; the seventh pipeline is installed with The electromagnetic valve.

To further illustrate, the storage unit on the right includes a fourth pipe, a cylinder, a second top cover and a refrigeration sheet; the refrigeration sheet is in the shape of a rice, and eight V-shaped grooves are formed on the refrigeration sheet; The lower part of the pipeline is divided into eight cavities, and the cooling plate divides the cylinder into eight cavities; the third pipeline on the right is connected to the fourth pipeline on the upper right side, and the fourth pipeline is located under the water storage tank; The lower part of the right side of the three pipes is fixed with a cylinder; the middle part of the lower side of the cylinder is provided with a piston; the upper side of the cylinder is fixed with a second top cover; the fourth pipe passes through the second top cover; the inner side of the cylinder is fixed with a cooling plate The refrigerating sheet is fixedly connected to the fourth pipeline; the plurality of second shielding blocks are divided into eight groups and are respectively located in the eight V-shaped grooves of the refrigerating sheet; the refrigerating sheet is fixedly connected to the plurality of second shielding blocks.

To further illustrate, the dehumidification unit on the right includes a second ring, a filter block and a fifth pipe; the upper part of the inner side of the cylinder is rotatably connected to the second ring; the drive unit is used to drive the second ring; the second ring The inner side is fixedly connected with a filter block; the upper right part of the second top cover is communicated with a fifth pipe.

To further illustrate, the conveying unit on the right includes a third ring, a second blade, a second motor, a second gear and a second gear ring; the inner lower part of the second pipeline on the right is rotatably connected to a third ring; A number of second blades are affixed to the inside of the third ring; a second motor is affixed to the lower part of the left side of the second pipeline on the right; a second gear is affixed to the output end of the second motor; the lower side of the third ring A second gear ring is fixedly connected; the second gear ring meshes with the second gear.

To further illustrate, the blocking assembly on the right includes a third shielding block, a first connecting block, a round rod, a fourth shielding block, a spring and a shielding unit; the inner upper part of the second pipe on the right is fixedly connected with a third shielding block ; The inner lower part of the third shielding block is fixedly connected with the first connecting block; the middle part of the first connecting block is slidingly connected with a round rod; the upper end of the round rod is fixedly connected with the fourth shielding block; the fourth shielding block is in contact with the third shielding block; A spring is sheathed on the rod, the lower end of the spring is fixedly connected with the first connecting block, and the upper end of the spring is fixedly connected with the fourth blocking block; the right side of the fourth blocking block is connected with a blocking unit.

To further illustrate, the shielding unit includes a second connecting block, a fifth shielding block and an eighth pipeline; the second connecting block is fixedly connected to the right side of the fourth shielding block; the fifth shielding block is fixedly connected to the right side of the second connecting block; The fifth block is slidably connected with the third block; the fifth block is slidably connected with the adjacent second pipeline; the eighth pipeline is connected between the second pipeline on the right and the third pipeline on the right; the eighth The pipe is in contact with the fifth shielding block.

To further illustrate, a through hole is opened on the upper side of the fifth shielding block.

To further illustrate, a through hole is opened in the outer middle part of the second shielding block adjacent to the cylinder.

The present invention has the following advantages: the condensed water automatically flows into the third pipe for collection by setting the first pipe obliquely, and at the same time guides the steam through the first shielding block to make the steam flow in the first pipe smoother. To avoid the problem of excessive resistance caused by the existing technology that the components for collecting condensed water are arranged inside the steam pipe, and the clean water in the lower part of the third pipe is used to block and intercept the steam flowing into it, so as to avoid steam leakage;

When the air pressure inside the first pipe suddenly increases, the high-pressure steam inside the first pipe is automatically discharged through the third pipe to achieve the effect of automatic pressure relief, greatly improving safety, and cooling the clear water in the cylinder through the cooling plate. In this way, the temperature of the outflowing steam is lowered, avoiding the direct outflow of high-temperature steam, and improving safety, and the steam is divided into eight parts by the cooling sheet and flowed into the clear water in the eight cavities of the cylinder, so that the contact between the steam and the clear water is more uniform, thereby Improve the cooling effect, absorb the moisture in the steam through the filter block, achieve the effect of dehumidification, avoid the excessive air humidity in the factory building and affect the use of electrical equipment, and further improve safety. Rotating the filter block can make all parts absorb water more evenly ;

During the pressure relief process, the clean water is blocked by the second blocking block to avoid the phenomenon that the clean water in the eight cavities splashes upwards into the adjacent cavity due to the rushing into the steam, thereby avoiding the mutual transfer of the clean water in the eight cavities As a result of uneven cooling of the steam, the second shielding block is also used to prevent water from directly splashing onto the filter block, so as to avoid reducing the water absorption effect of the filter block;

In addition, it is also realized that the condensed water on the upper side of the inner wall of the first pipe is prevented from flowing into the stopped steam engine through the third shielding block and the fourth shielding block.

Description of drawings

Fig. 1 is the first structure schematic diagram of the combined shared steam pipeline for liquid drainage in the present invention;

Fig. 2 is the second structure schematic diagram of the combined shared steam pipeline for liquid drainage in the present invention;

Fig. 3 is a partial structural schematic diagram of the combined shared steam pipeline for liquid drainage in the present invention;

Fig. 4 is a schematic diagram of the first partial structure of the collection assembly of the present invention;

Fig. 5 is a schematic diagram of the second partial structure of the collection assembly of the present invention;

Fig. 6 is a schematic diagram of the third partial structure of the collection assembly of the present invention;

Fig. 7 is a schematic diagram of the fourth partial structure of the collection assembly of the present invention;

Fig. 8 is a schematic diagram of the fifth partial structure of the collection assembly of the present invention;

Fig. 9 is a schematic structural diagram of a second shielding block of the present invention;

Fig. 10 is an enlarged view of the combined shared steam pipe A of the present invention which is convenient for liquid discharge;

Fig. 11 is a schematic diagram of the first structure of the blocking assembly of the present invention;

Fig. 12 is a schematic diagram of the second structure of the blocking assembly of the present invention.

The marks of each part in the accompanying drawings are as follows: 1-the first pipe, 2-insulation cover, 3-the second pipe, 201-the first ring, 202-the first blade, 203-the first gear ring, 204-the first 1 motor, 205-first gear, 206-third pipe, 207-first block, 208-connecting rod, 209-water storage tank, 2010-first top cover, 2011-fourth pipe, 2012-cylinder , 2013-Second Top Cover, 2014-Refrigeration Sheet, 2015-Second Ring, 2016-Filter Block, 2017-Fifth Pipe, 2018-Second Block, 2019-Third Ring, 2020-Second Blade , 2021-second motor, 2022-second gear, 2023-second gear ring, 2024-third motor, 2025-third gear, 2026-third gear ring, 2027-seventh pipe, 2028-solenoid valve, 301-the third blocking block, 302-the first connecting block, 303-the round rod, 304-the fourth blocking block, 305-the spring, 306-the second connecting block, 307-the fifth blocking block, 308-the eighth pipe.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Example 1

A combined shared steam pipeline for easy liquid drainage, as shown in Figure 1-11, includes a first pipeline 1, a heat preservation jacket 2, a second pipeline 3, a third pipeline 206, a first shield block 207, a second shield Block 2018, collection assembly and blocking assembly; the outer side of the first pipe 1 is fixedly connected with a heat preservation sleeve 2; the first pipe 1 is arranged obliquely; the lower left part and the lower right part of the first pipe 1 are connected with a second pipe 3 ; The first pipeline 1 is connected with the collection assembly; the collection assembly is connected with two third pipelines 206; the third pipeline 206 bottom is U-shaped; the third pipeline 206 is provided with clean water, and the clean water blocks the third pipeline 206 ; The two third pipelines 206 are all connected with the first pipeline 1; the inner upper parts of the two third pipelines 206 are welded with several first shielding blocks 207; a slope is formed between two adjacent first shielding blocks 207 Gaps; several second shielding blocks 2018 are connected to the collection assembly; inclined gaps are formed between two adjacent second shielding blocks 2018; two second pipes 3 are connected to a blocking assembly.

The collection assembly includes a first ring 201, a first blade 202, a first gear ring 203, a first motor 204, a first gear 205, a supplementary unit, a storage unit, a dehumidification unit, a delivery unit and a driving unit; a first pipeline The right part of the inside of 1 is rotatably connected with a first circular ring 201; the inside of the first circular ring 201 is welded with several first blades 202; the right side of the first circular ring 201 is welded with a first gear ring 203; The first motor 204 is affixed to the top; the output shaft of the first motor 204 is affixed with a first gear 205; the first gear 205 is meshed with the first gear ring 203; the right sides of the two third pipes 206 are connected with a complementary A storage unit is connected to the right side of the two third pipelines 206, and the two storage units are respectively located below the adjacent supplementary unit; a dehumidification unit is connected to the two storage units; two second pipelines 3 The inner lower part is connected with a conveying unit; the two dehumidification units are connected with a driving unit; the two driving units are respectively connected with the adjacent storage units.

The supplementary unit on the right includes a connecting rod 208, a water storage tank 209, a first top cover 2010, a seventh pipe 2027 and a solenoid valve 2028; the upper right side of the third pipe 206 on the right is welded with four connecting rods 208 A water storage tank 209 is welded between the upper sides of the four connecting rods 208; the upper side of the water storage tank 209 is plugged with a first top cover 2010; the water storage tank 209 communicates with the adjacent third pipeline 206 with a seventh The pipeline 2027; the seventh pipeline 2027 is equipped with a solenoid valve 2028.

The storage unit on the right includes a fourth pipe 2011, a cylinder 2012, a second top cover 2013, and a refrigeration sheet 2014; the refrigeration sheet 2014 is in the shape of a rice, and eight V-shaped grooves are formed on the refrigeration sheet 2014; The sheet 2014 divides the lower part of the fourth pipeline 2011 into eight cavities, and the cooling plate 2014 divides the cylinder 2012 into eight cavities; the third pipeline 206 on the right is connected to the fourth pipeline 2011 on the upper right side, and The fourth pipe 2011 is located below the water storage tank 209; the lower part of the third pipe 206 is welded with a cylinder 2012; the middle part of the lower side of the cylinder 2012 is provided with a piston; The pipeline 2011 passes through the second top cover 2013; the inner side of the cylinder 2012 is fixed with a cooling plate 2014; the cooling plate 2014 is fixed with the fourth pipeline 2011; In the eight V-shaped grooves; the cooling plate 2014 is fixedly connected with several second shielding blocks 2018.

A through hole is opened in the outer middle part of the second shielding block 2018 adjacent to the cylinder 2012 .

The dehumidification unit on the right includes a second ring 2015, a filter block 2016 and a fifth pipe 2017; the inner upper part of the cylinder 2012 is rotatably connected to the second ring 2015; the drive unit is used to drive the second ring 2015; The inner side of the second ring 2015 is fixedly connected with a filter block 2016; the upper right part of the second top cover 2013 communicates with a fifth pipe 2017.

The filter block 2016 is an absorbent cotton block.

The delivery unit on the right includes a third ring 2019, a second blade 2020, a second motor 2021, a second gear 2022 and a second gear ring 2023; the inner lower part of the second pipeline 3 on the right is connected with a third Ring 2019; the inner side of the third ring 2019 is welded with several second blades 2020; the lower part of the left side of the second pipeline 3 on the right is fixedly connected with a second motor 2021; the output end of the second motor 2021 is fixedly connected with a second The gear 2022 ; the second ring gear 2023 is welded on the lower side of the third ring 2019 ; the second ring gear 2023 meshes with the second gear 2022 .

The driving unit on the right includes a third motor 2024, a third gear 2025 and a third gear ring 2026; the upper part of the right side of the cylinder 2012 is fixed with a third motor 2024; the output end of the third motor 2024 is fixed with a third The gear 2025 ; the third gear ring 2026 is fixedly connected to the inner lower part of the second ring 2015 ; the third gear ring 2026 meshes with the third gear 2025 .

Adjacent first pipes 1 are communicated through horizontal pipes. When preparing for work, connect the output end of the steam engine to the second pipe 3. The steam generated by the steam engine flows into the second pipe 3, and the second motor 2021 is started. The second motor 2021 drives the second gear 2022 to rotate, the second gear 2022 drives the second gear ring 2023 to rotate, the second gear ring 2023 drives the third ring 2019 to rotate, and the third ring 2019 drives the second blade 2020 on it to rotate, thereby turning the The steam is transported upwards into the first pipeline 1, the first motor 204 is started, the first motor 204 drives the first gear 205 to rotate, the first gear 205 drives the first gear ring 203 to rotate, and the first gear ring 203 drives the first ring 201 Rotate, the first ring 201 drives the first blade 202 on it to rotate, thereby transporting the steam in the first pipeline 1 to the right, during the process of transporting steam, the first pipeline 1 is insulated through the insulation cover 2, and the steam from the source Reduce the generation of condensed water; when condensed water is generated, because the first pipeline 1 is set at an angle, the condensed water flows obliquely to the left along the inner bottom of the first pipeline 1, and when the condensed water flows to the first shielding block 207 , the slanted first shielding block 207 intercepts the condensed water, so that the condensed water flows into the third pipe 206 from the gap between the first shielding blocks 207, when the liquid level in the third pipe 206 is higher than the fourth When inside the pipe 2011, the water in the third pipe 206 flows into the cylinder 2012 through the fourth pipe 2011 for collection. When in use, the condensed water automatically flows into the third pipe 206 for collection by setting the first pipe 1 obliquely. At the same time, the steam is diverted through the first shielding block 207, so that the steam flow in the first pipeline 1 is smoother, and the problem of excessive resistance caused by the arrangement of the components collecting condensed water inside the steam pipeline in the prior art is avoided, And through the clear water in the lower part of the third pipeline 206, the steam flowing into it is blocked and intercepted to avoid steam leakage; when the amount of steam generated by the abnormal operation of the steam engine suddenly increases, the air pressure inside the first pipeline 1 suddenly increases, and the air pressure pushes The liquid in the lower part of the third pipeline 206 flows into the cylinder 2012. Since the refrigeration plate 2014 divides the lower part of the fourth pipeline 2011 into eight cavities, the liquid is divided into eight parts and flows into the eight chambers of the refrigeration plate 2014 and the cylinder 2012. In the cavity, when the liquid in the third pipeline 206 is exhausted, the high-pressure steam in the first pipeline 1 flows into the cylinder 2012 through the third pipeline 206 and the fourth pipeline 2011, and then flows upward from the bottom of the cylinder 2012 through The liquid in it flows into the outside air through the fifth pipeline 2017, and when the air pressure in the first pipeline 1 returns to normal, the fifth pipeline 2017 stops exhausting, opens the electromagnetic valve 2028, and the clear water in the water storage tank 209 passes through the seventh pipeline 1. The pipeline 2027 supplies clean water to the inner side of the third pipeline 206, and closes the electromagnetic valve 2028. After that, during maintenance, the maintenance personnel will open the first top cover 2010, and then replenish liquid to the water storage tank 209. The high-pressure steam inside the first pipe 1 is discharged to achieve the effect of automatic pressure relief, which greatly improves safety; during the pressure relief process, the steam flows upward from the bottom of the cylinder 2012 through the liquid in it, and then flows into the outside air through the fifth pipe 2017 The clear water in the cylinder 2012 is cooled by the refrigerating sheet 2014, thereby cooling the outflowing steam, avoiding the direct outflow of high-temperature steam, and improving safety, and the steam is divided into eight parts by the refrigerating sheet 2014, and the eight parts of steam flow into the The clear water in the eight cavities of the cylinder 2012 makes the contact between the steam and the clear water more uniform, thereby improving the cooling effect. At the same time, the second blocking block 2018 blocks the clear water to prevent the clear water in the eight cavities from being washed into the steam. The phenomenon of splashing upward into the adjacent cavity, so as to avoid the phenomenon of uneven cooling of the steam caused by the transfer of clean water in the eight cavities; during the pressure relief process, since the fifth pipe 2017 is located on one side of the cylinder 2012, Make the steam flowing through the filter block 2016 uneven, start the third motor 2024 at this time, the third motor 2024 drives the third gear 2025 to rotate, the third gear 2025 drives the third gear ring 2026 to rotate, and the third gear ring 2026 drives the second gear ring 2026 to rotate. The ring 2015 rotates, the second ring 2015 drives the filter block 2016 to rotate, the cooled gas passes through the filter block 2016 and is discharged from the fifth pipe 2017, and the moisture in the gas is absorbed by the filter block 2016 to achieve the dehumidification effect. Avoid excessive air humidity in the factory building from affecting the use of electrical equipment, and further improve safety. During this process, the second shielding block 2018 is also used to prevent clear water from directly splashing onto the filter block 2016, so as to avoid reducing the water absorption effect of the filter block 2016. The filter block 2016 can make its various parts absorb water more evenly.

Example 2

On the basis of Embodiment 1, as shown in Figures 1-3 and Figures 11-12, the blocking assembly on the right includes a third blocking block 301, a first connecting block 302, a round rod 303, and a fourth blocking block 304 , a spring 305 and a shielding unit; the upper part of the inner side of the second pipeline 3 on the right is welded with a third shielding block 301; the inner lower part of the third shielding block 301 is welded with a first connecting block 302; the middle part of the first connecting block 302 is slidably connected with a circle The rod 303; the upper end of the round rod 303 is welded with a fourth shielding block 304; the fourth shielding block 304 is in contact with the third shielding block 301; the round rod 303 is provided with a spring 305, and the lower end of the spring 305 is welded with the first connecting block 302, The upper end of the spring 305 is welded to the fourth shielding block 304; the right side of the fourth shielding block 304 is connected with a shielding unit.

The shielding unit includes a second connecting block 306, a fifth shielding block 307 and an eighth pipe 308; the right side of the fourth shielding block 304 is welded with a second connecting block 306; the right side of the second connecting block 306 is welded with a fifth shielding block 307 ; The fifth blocking block 307 is slidingly connected with the third blocking block 301; the fifth blocking block 307 is slidingly connected with the adjacent second pipeline 3; between the second pipeline 3 on the right and the third pipeline 206 on the right An eighth pipeline 308 is communicated; the eighth pipeline 308 is in contact with the fifth shielding block 307 .

A through hole is opened on the upper side of the fifth shielding block 307 .

When the steam is delivered to the first pipeline 1 through the second pipeline 3, the steam hits the fourth blocking block 304 and moves upward, and the fourth blocking block 304 drives the round rod 303 to move upward, and stretches the spring 305, and the steam flows from the fourth blocking block 304 to move upward. 304 and the third blocking block 301 to flow upwards in the gap, while the fourth blocking block 304 drives the second connecting block 306 to move upward, and the second connecting block 306 drives the fifth blocking block 307 to move upward, so that the fifth blocking block 307 will move the first The eight pipelines 308 are used to block. When the steam engine under the second pipeline 3 stops working, the spring 305 rebounds and drives the fourth blocking block 304 to move downward to return to its original position, and cooperate with the third blocking block 301 to block the first pipeline 1. The four blocking blocks 304 drive the second connecting block 306 to move back to the original position, and the second connecting block 306 drives the fifth blocking block 307 to move downward and return to the original position, and then the inner top of the first pipeline 1 stops being impacted by the high-speed steam, so that the first pipeline 1. Condensed water begins to condense on the top of the inner side, and the condensed water falls to the upper side of the third shielding block 301 and the fourth shielding block 304, and then flows into the third pipe 206 through the through hole of the fifth shielding block 307 and the eighth pipe 308 for collection , to prevent the condensed water on the upper side of the inner wall of the first pipe 1 from flowing into the stopped steam engine.

Finally, it should be noted that: the above is only a preferred embodiment of the present invention, and is not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, for those skilled in the art, it still It is possible to modify the technical solutions recorded in the foregoing embodiments, or to perform equivalent replacements on some of the technical features. Any modifications, equivalent replacements, improvements, etc. within the spirit and principles of the present invention shall be included in the within the protection scope of the present invention.

Claims (10)

1. A combined shared steam pipeline for easy liquid drainage, including a first pipeline (1), a thermal insulation sleeve (2) and a second pipeline (3); the outer side of the first pipeline (1) is fixedly connected with a thermal insulation sleeve (2 ); the first pipeline (1) is inclined; the lower left part and the lower right part of the first pipeline (1) are connected with a second pipeline (3); the feature is: it also includes a third pipeline (206 ), the first shielding block (207), the second shielding block (2018), the collection assembly and the blocking assembly; the first pipe (1) is connected with a collection assembly for collecting condensed water; the collection assembly is connected with two The third pipeline (206); the lower part of the third pipeline (206) is U-shaped; the third pipeline (206) is provided with clean water, and the clean water blocks the third pipeline (206); the two third pipelines (206) are connected with The first pipes (1) are connected; the inner upper parts of the two third pipes (206) are fixedly connected with several first shielding blocks (207); there is an inclination formed between two adjacent first shielding blocks (207) Gaps; the condensed water is collected through the third pipe (206), the first pipe (1) is automatically depressurized through the third pipe (206), and the flow through the third pipe (206) is convected through the first blocking block (207) The upper steam is diverted; several second shielding blocks (2018) are connected to the collection assembly; an inclined gap is formed between two adjacent second shielding blocks (2018); through the second shielding block (2018) The clear water splashed due to the rushing into the steam is blocked and limited; the two second pipes (3) are connected with a blocking assembly for intercepting the condensed water flowing into the suspended steam engine. 2. According to claim 1, a combined shared steam pipe for liquid drainage is characterized in that: the collection assembly includes a first ring (201), a first vane (202), a first toothed ring (203 ), the first motor (204), the first gear (205), the supplementary unit, the storage unit, the dehumidification unit, the delivery unit and the drive unit; the first pipe (1) is connected with the first ring (201 ); the inner side of the first ring (201) is affixed with several first blades (202); the right side of the first annulus (201) is affixed with the first gear ring (203); the upper side of the first pipe (1) The right part is fixedly connected with the first motor (204); the output shaft of the first motor (204) is fixedly connected with the first gear (205); the first gear (205) is meshed with the first ring gear (203); two The right side of the third pipeline (206) is connected with a supplementary unit; the right side of the two third pipelines (206) is connected with a storage unit, and the two storage units are respectively located under the adjacent supplementary unit; the two storage units A dehumidification unit is connected to the top; a conveying unit is connected to the inner lower part of the two second pipes (3); a drive unit is connected to the two dehumidification units; the two drive units are respectively connected to the adjacent storage unit connected. 3. According to claim 2, a combined shared steam pipe for liquid drainage is characterized in that: the supplementary unit on the right includes a connecting rod (208), a water storage tank (209), a first top cover (2010), the seventh pipeline (2027) and the solenoid valve (2028); the upper part of the right side of the third pipeline (206) on the right is fixed with four connecting rods (208); the upper side of the four connecting rods (208) A water storage tank (209) is fixedly connected between them; the upper side of the water storage tank (209) is plugged with a first top cover (2010); the water storage tank (209) communicates with the adjacent third pipe (206) There is a seventh pipeline (2027); an electromagnetic valve (2028) is installed on the seventh pipeline (2027). 4. According to claim 3, a combined shared steam pipe for liquid drainage is characterized in that: the storage unit on the right includes a fourth pipe (2011), a cylinder (2012), and a second top cover (2013) and the refrigeration sheet (2014); the refrigeration sheet (2014) is in the shape of rice, and eight V-shaped grooves are formed on the refrigeration sheet (2014); the refrigeration sheet (2014) divides the lower part of the fourth pipe (2011) Divided into eight cavities, the cooling plate (2014) divides the cylinder (2012) into eight cavities equally; the third pipeline (206) on the right is connected with the fourth pipeline (2011) on the upper right side, and the The four pipelines (2011) are located below the water storage tank (209); the cylinder (2012) is fixedly connected to the lower part of the right side of the third pipeline (206); The second top cover (2013) is fixedly connected to the side; the fourth pipe (2011) passes through the second top cover (2013); the inner side of the cylinder (2012) is fixedly connected with the cooling plate (2014); the cooling plate (2014) and the second Four pipes (2011) are firmly connected; several second shielding blocks (2018) are divided into eight groups and are respectively located in the eight V-shaped grooves of the refrigeration sheet (2014); the refrigeration sheet (2014) and several second shields Block (2018) is fixed. 5. According to claim 4, a combined shared steam pipe for liquid drainage is characterized in that: the dehumidification unit on the right includes a second ring (2015), a filter block (2016) and a fifth The pipeline (2017); the upper part of the inner side of the cylinder (2012) is rotatably connected with the second ring (2015); the drive unit is used to drive the second ring (2015); the inner side of the second ring (2015) is fixed with a filter block ( 2016); the upper right part of the second top cover (2013) communicates with the fifth pipe (2017). 6. A combined shared steam pipe for liquid drainage according to claim 5, characterized in that: the delivery unit on the right includes a third ring (2019), a second vane (2020), a second The motor (2021), the second gear (2022) and the second gear ring (2023); the inner lower part of the second pipe (3) on the right is connected with the third ring (2019); the third ring (2019) A number of second blades (2020) are affixed to the inside; a second motor (2021) is affixed to the lower part of the left side of the second pipe (3) on the right; the output end of the second motor (2021) is affixed to a second The gear (2022); the second gear ring (2023) is fixedly connected to the lower side of the third ring (2019); the second gear ring (2023) meshes with the second gear (2022). 7. According to claim 6, a combined shared steam pipe for liquid drainage is characterized in that: the blocking assembly on the right includes a third blocking block (301), a first connecting block (302), a circular The rod (303), the fourth blocking block (304), the spring (305) and the blocking unit; the upper part of the inner side of the second pipe (3) on the right is fixedly connected with the third blocking block (301); the third blocking block (301 ) is fixedly connected with the first connecting block (302) at the inner lower part; the middle part of the first connecting block (302) is slidingly connected with the round rod (303); the upper end of the round rod (303) is fixedly connected with the fourth blocking block (304); the fourth The blocking block (304) is in contact with the third blocking block (301); the round rod (303) is covered with a spring (305), the lower end of the spring (305) is fixedly connected with the first connecting block (302), and the spring (305) The upper end is fixedly connected to the fourth shielding block (304); a shielding unit is connected to the right side of the fourth shielding block (304). 8. A combined and shared steam pipe for liquid drainage according to claim 7, characterized in that: the shielding unit includes a second connecting block (306), a fifth shielding block (307) and an eighth pipe (308 ); the right side of the fourth shielding block (304) is fixedly connected with the second connecting block (306); the right side of the second connecting block (306) is fixedly connected with the fifth shielding block (307); the fifth shielding block (307) and The third block (301) is slidingly connected; the fifth block (307) is slidingly connected to the adjacent second pipe (3); the second pipe (3) on the right is connected to the third pipe (206) on the right ) is communicated with an eighth pipeline (308); the eighth pipeline (308) is in contact with the fifth blocking block (307). 9. A combined and shared steam pipe for liquid drainage according to claim 8, characterized in that: a through hole is opened on the upper side of the fifth shielding block (307). 10. According to any one of claims 4-9, a combined and shared steam pipe for liquid drainage is characterized in that: the outer middle of the second shielding block (2018) adjacent to the cylinder (2012) is provided with through hole.

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