CN109987657B - Dye sectional type preliminary treatment pipe for printing and dyeing - Google Patents

Abstract

The invention discloses a sectional dye pretreatment pipe for printing and dyeing, which comprises a water inlet pipe, wherein a first fiber interception pipeline is arranged on one side of the water inlet pipe and comprises an upper pipe shell and a lower pipe shell, when wastewater is introduced into the sectional dye pretreatment pipe for printing and dyeing, an interception plate in the first fiber interception pipeline floats up, filamentous fibers are blocked by an arc-shaped end head of the interception plate, and interception nets on the two sides can also intercept the filamentous fibers, so that the interception effect is greatly improved, when the wastewater is not introduced, the interception plate can turn over through a rotating shaft and is in a vertical state due to downward gravity, the shaking off of the filamentous fibers is avoided, the filamentous fibers are greatly convenient to take out, when the wastewater passes through the second fiber interception pipeline, velvet-shaped fiber substances can be intercepted by a hook block, and when the water pressure is reduced, the velvet-shaped fiber substances can be hooked by a curved sharp hook on a cross hook, avoiding the separation.

Description

Dye sectional type preliminary treatment pipe for printing and dyeing

Technical Field

The invention relates to the technical field of printing and dyeing wastewater treatment, in particular to a sectional type pretreatment pipe for a dye for printing and dyeing.

Background

In the printing and dyeing process, waste water is generated in the dye, and the general pretreatment is to remove suspended matters and pumice slag in the waste water to reach the discharge or reuse standard and then carry out deep treatment, but the sectional type pretreatment pipe for the dye for printing and dyeing still has a plurality of defects in the use process. The current dye sectional type pretreatment pipe for printing and dyeing can not perform sectional treatment on filamentous and velvet fibrous substances, so that the subsequent advanced treatment is influenced.

Disclosure of Invention

The invention mainly solves the technical problems in the prior art and provides a sectional type pretreatment pipe for dye for printing and dyeing.

The technical problem of the invention is mainly solved by the following technical scheme: a dye sectional type pretreatment pipe for printing and dyeing comprises a water inlet pipe, wherein a first fiber interception pipeline is installed on one side of the water inlet pipe and comprises an upper pipe shell and a lower pipe shell, the upper pipe shell and the lower pipe shell are fixedly connected to one side of the water inlet pipe through bolts, the upper pipe shell is positioned at the top end of the lower pipe shell, vertical plates are installed at the central positions inside the upper pipe shell and the lower pipe shell, rotating shafts are installed on the vertical plates, interception plates are fixedly connected to two ends of each rotating shaft respectively, interception nets are installed on two sides of each interception plate, a gravel interception pipeline is installed on one side, far away from the water inlet pipe, of the first fiber interception pipeline and comprises a first U-shaped pipe and a second U-shaped pipe, one end of the first U-shaped pipe is connected with the first fiber interception pipeline, and the other end of the first U-shaped pipe is connected with the second U-shaped pipe, the bottom ends of the U-shaped pipe I and the U-shaped pipe II are both in threaded connection with screw caps, circular plates are arranged inside the screw caps through bearings, the top end of the circular plate is connected with an interception block through a spring, the surface of the interception block is provided with dense small holes, a second fiber interception pipeline is arranged on one side of the U-shaped pipe II, which is far away from the U-shaped pipe I, the second fiber interception pipeline comprises a top plate and a pipe sleeve, the top plate is arranged at the top end of the pipe sleeve through a bolt, and the inner wall of the top plate is provided with a vertical rod, one side of the vertical rod facing the gravel interception pipeline is provided with a hook block, the fiber holds back pipeline two and keeps away from one of gravel holding back pipeline and serves and install the drain pipe, the support frame is all installed to the bottom that pipeline and drain pipe were held back to inlet tube, gravel, and the cross-section of holding back plate is oval structure, and the one end of axis of rotation is kept away from to the inside of holding back plate has seted up the cavity.

Preferably, the interception net is inclined towards the rotation axis, and the included angle between the interception net and the interception plate is 30 degrees.

Preferably, the interior of the intercepting block is of a hollow structure, the bottom end of the intercepting block is provided with a clamping block, the top end of the circular plate is provided with a clamping block, and the clamping block is connected with the clamping block in a clamping mode.

Preferably, the openings at the bottom ends of the first U-shaped pipe and the second U-shaped pipe are both square structures, and the bottom surface of the interception block is matched with the openings at the bottom ends of the first U-shaped pipe and the second U-shaped pipe.

Preferably, the drainage pipelines of the U-shaped pipe I and the U-shaped pipe II are internally provided with baffle rings, the inner rings of the baffle rings are concave downwards, and the outer rings of the baffle rings are convex upwards.

Preferably, the hook block comprises a cross rod and a cross hook, and the cross hook is welded on the inner side of the cross rod.

The invention has the following beneficial effects:

1. this dyestuff sectional type preliminary treatment pipe of printing and dyeing usefulness when letting in waste water, the holding back plate that the fibre held back in pipeline one can float, blocks filamentous fibre through the curved end of holding back plate, and the net of holding back of both sides can also intercept filamentous fibre, has improved greatly and has held back the effect, and when no longer letting in waste water, the holding back plate can pass through the axis of rotation upset to because gravity is down, be in the state of erectting, avoid filamentous fibre shake off, made things convenient for taking out filamentous fibre greatly.

2. This grit of dyestuff sectional type preliminary treatment pipe of printing and dyeing usefulness intercepts pipeline comprises two U type pipes, when waste water carries the grit and passes through, most grit can be held back by the clutch piece, less grit can be blocked to the aperture on surface, it is more when the grit gathers more, the clutch piece can descend because the overweight, and make buckle piece and clutch piece block fixed, simultaneously when waste water is no longer through, when water pressure descends, be in the intra-annular grit of keeping off and can fall, glide to on the clutch piece, the effect of holding back to the grit has been improved greatly.

3. When waste water passes through the fiber interception pipeline II in the dye sectional type pretreatment pipe for printing and dyeing, the velvet-shaped fiber substances can be intercepted by the hook block, and when the water pressure is reduced, the velvet-shaped fiber substances can be hooked by the curved sharp hooks on the cross hooks, so that the velvet-shaped fiber substances are prevented from being separated.

Drawings

FIG. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic diagram of a first embodiment of a fiber-retention duct of the present invention;

FIG. 3 is a schematic diagram of a configuration of the trap of the present invention;

FIG. 4 is a schematic view of a U-shaped tube according to the present invention;

FIG. 5 is a schematic view of a screw cap according to the present invention;

FIG. 6 is a schematic view of a bottom end of a U-shaped tube according to the present invention;

FIG. 7 is a schematic view of a second embodiment of the fiber-retaining conduit of the present invention;

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

In the figure: 1. a water inlet pipe; 2. a first fiber interception pipeline; 201. an upper pipe shell; 202. a pipe shell is arranged; 3. a gravel trap pipe; 301. a first U-shaped pipe; 302. a U-shaped pipe II; 4. a second fiber interception pipeline; 401. a top plate; 402. pipe sleeve; 5. a drain pipe; 6. a support frame; 7. screwing a cover; 8. a vertical plate; 9. a rotating shaft; 10. a retention plate; 11. a retention net; 12. a cavity; 13. a baffle ring; 14. an opening; 15. erecting a rod; 16. hooking the block; 1601. a cross bar; 1602. a cross hook; 17. a retention block; 18. a buckling block; 19. a clamping block; 20. a spring.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example (b): a sectional type pretreatment pipe for dye for printing and dyeing is disclosed, as shown in figures 1-8, comprising a water inlet pipe 1, a first fiber interception pipeline 2 is installed on one side of the water inlet pipe 1, the first fiber interception pipeline 2 comprises an upper pipe shell 201 and a lower pipe shell 202, the upper pipe shell 201 and the lower pipe shell 202 are fixedly connected on one side of the water inlet pipe 1 through bolts, the upper pipe shell 201 is positioned at the top end of the lower pipe shell 202, vertical plates 8 are installed at the central positions inside the upper pipe shell 201 and the lower pipe shell 202, a rotating shaft 9 is installed on the vertical plates 8, two ends of the rotating shaft 9 are respectively and fixedly connected with interception plates 10, the cross section of the interception plate 10 is an oval structure, a cavity 12 is arranged at one end, far away from the rotating shaft 9, inside the interception plate 10, the surface of the oval structure has no corner, greatly reduced the resistance of water, and cavity 12 is favorable to reducing the density of entrapment plate 10 afterbody, when waste water passes through, can float, and keep horizontal balance under the flow force of water, be favorable to holding back to filamentous fibre, entrapment net 11 is all installed to entrapment plate 10's both sides, it inclines towards axis of rotation 9 to hold back net 11, and the contained angle that holds back between net 11 and the entrapment plate 10 is 30, the existence of holding back net 11 can hold back some filamentous fibre and some pile fibre material, install grit on the one side that inlet tube 1 was kept away from to fibre entrapment pipeline 2 and hold back pipeline 3, grit holds back pipeline 3 and includes U type pipe 301 and U type pipe 302, the opening 14 department of U type pipe 301 and U type pipe 302 bottom is square structure, the bottom surface of entrapment piece 17 and the opening of U type pipe 301 and U type pipe 302 bottom open The mouth is matched, when the spiral cover is installed, the interception block 17 can be just embedded in the opening 14 to avoid water impact, the spring 20 can rock to affect interception effect, one end of the U-shaped pipe I301 is connected with the fiber interception pipeline I2, the other end of the U-shaped pipe I301 is connected with the U-shaped pipe II 302, the drainage pipelines of the U-shaped pipe I301 and the U-shaped pipe II 302 are both provided with the baffle ring 13, the inner ring of the baffle ring 13 is concave downwards, the outer ring of the baffle ring 13 protrudes upwards, the baffle ring 13 can intercept small stones, when the water pressure of waste water is reduced, the stones can fall down and slide down along the surface of the interception block 17, collection is convenient, the bottom ends of the U-shaped pipe I301 and the U-shaped pipe II 302 are both connected with the spiral cover 7 through threads, and a circular plate is installed inside the spiral cover 7 through a bearing, the top end of the circular plate is connected with an interception block 17 through a spring 20, the inside of the interception block 17 is of a hollow structure, a buckling block 18 is installed at the bottom end of the interception block 17, a buckling block 19 is installed at the top end of the circular plate, the buckling block 18 is connected with the buckling block 19 in a buckling mode, when more and more gravels on the surface of the interception block 17 exist, the pressure on the interception block 17 is increased until the spring 20 contracts, the buckling block 18 at the bottom of the interception block 17 is buckled with the buckling block 19 on the circular plate, the interception block 17 is completely located in the opening 14 and coincides with the opening 14, the right side of the interception block is just tightly attached to the opening 14 to form a perfect arc line, so that the gravels on the blocking ring 13 can slide down conveniently, dense small holes are formed in the surface of the interception block 17, and a fiber interception pipeline two 4 is installed on one side, far away from the U-shaped pipe one 301, of the U-shaped pipe two 302, the second 4 pipeline is held back to fibre includes roof 401 and pipe box 402, roof 401 passes through the bolt and installs the top at pipe box 402, and install pole setting 15 on the inner wall of roof 401, pole setting 15 is held back pipeline 3 towards the grit and is installed hook block 16 on one side, hook block 16 includes cross pole 1601 and cross hook 1602, the inboard welding of cross pole 1601 has cross hook 1602, cross pole 1601 and cross hook 1602 can play some pile form fibre and hold back the effect, the curved point hook on the cross hook 1602 can hook pile form fibre simultaneously, avoid breaking away from, the drain pipe 5 is installed to the one end that pipeline 3 was held back to the grit is kept away from to two 4 pipelines of fibre holding back, inlet tube 1, support frame 6 is all installed to the bottom that pipeline 3 and drain pipe 5 were held back to the grit.

The practical principle of the invention is as follows: waste water enters from the water inlet pipe 1, the waste water passes through the fiber interception pipeline I2, the internal water pressure is improved, the interception plate 10 is floated due to the fact that the density of one end far away from the rotating shaft 9 is small due to the cavity 12, the waste water constantly passes through the upper side and the lower side of the interception plate 10 and always keeps in a horizontal state, filamentous fibers are blocked through the arc-shaped end of the interception plate 10, the interception nets 11 on the two sides intercept the filamentous fibers, the interception effect is greatly improved, then the waste water enters the gravel interception pipeline 3, most of the waste water is intercepted by the interception block 17, small gravel can be blocked to small holes in the surface, when the interception block 17 is heavier and heavier, the small gravel descends, the buckling block 18 is buckled with the buckling block 19, and meanwhile the top end of the interception block 17 is clung to one side of the opening 14, form perfect pitch arc, when waste water pressure descends, the gravel that is located on keeping off ring 13 can slide to holding back on the piece 17, and then waste water gets into the fibre and holds back pipeline two 4, and the fibrous material of pile form can be held back by hook piece 16, and when water pressure descends, the fibrous material of pile form can avoid breaking away from because the curved sharp hook on cross hook 1602 hooks, and finally there is not the waste water of impurity to pass through via drain pipe 5, and whole workflow finishes.

Finally, it should be noted that the above embodiments are merely representative examples of the present invention. It is obvious that the invention is not limited to the above-described embodiments, but that many variations are possible. Any simple modification, equivalent change and modification made to the above embodiments in accordance with the technical spirit of the present invention should be considered to be within the scope of the present invention.

Claims (5)

1. The utility model provides a dyestuff sectional type preliminary treatment pipe of printing and dyeing usefulness, includes inlet tube (1), its characterized in that: the gravel intercepting pipeline comprises a water inlet pipe (1), and is characterized in that a first fiber intercepting pipeline (2) is installed on one side of the water inlet pipe (1), the first fiber intercepting pipeline (2) comprises an upper pipe shell (201) and a lower pipe shell (202), the upper pipe shell (201) and the lower pipe shell (202) are fixedly connected to one side of the water inlet pipe (1) through bolts, the upper pipe shell (201) is located at the top end of the lower pipe shell (202), vertical plates (8) are installed at the central positions of the interiors of the upper pipe shell (201) and the lower pipe shell (202), rotating shafts (9) are installed on the vertical plates (8), intercepting plates (10) are fixedly connected to the two ends of each rotating shaft (9), intercepting nets (11) are installed on the two sides of each intercepting plate (10), a gravel intercepting pipeline (3) is installed on one side, far away from the water inlet pipe (1), of the first fiber intercepting pipeline (2), and the gravel intercepting pipeline (3) comprises a first U-shaped pipe (301) and a second U-shaped pipe (302), one end of the U-shaped pipe I (301) is connected with the fiber interception pipeline I (2), the other end of the U-shaped pipe I (301) is connected with the U-shaped pipe II (302), the bottom ends of the U-shaped pipe I (301) and the U-shaped pipe II (302) are both in threaded connection with a spiral cover (7), a circular plate is installed inside the spiral cover (7) through a bearing, the top end of the circular plate is connected with an interception block (17) through a spring (20), dense small holes are formed in the surface of the interception block (17), a fiber interception pipeline II (4) is installed on one side, away from the U-shaped pipe I (301), of the U-shaped pipe II (302), the fiber interception pipeline II (4) comprises a top plate (401) and a pipe sleeve (402), the top plate (401) is installed at the top end of the pipe sleeve (402) through a bolt, and an upright rod (15) is installed on the inner wall of the top plate (401), pole setting (15) are towards installing hook block (16) on the gravel intercepts one side of pipeline (3), the cross-section of entrapment plate (10) is oval structure, and the inside one end of keeping away from axis of rotation (9) of entrapment plate (10) has seted up cavity (12), it inclines towards axis of rotation (9) to intercept net (11), and intercepts the contained angle between net (11) and entrapment plate (10) and be 30.

2. The segmented pretreatment tube for dyes for printing and dyeing according to claim 1, characterized in that: the interior of the intercepting block (17) is of a hollow structure, the bottom end of the intercepting block (17) is provided with a clamping block (18), the top end of the circular plate is provided with a clamping block (19), and the clamping block (18) is connected with the clamping block (19) in a clamping mode.

3. The segmented pretreatment tube for dyes for printing and dyeing according to claim 1, characterized in that: the openings (14) at the bottom ends of the first U-shaped pipe (301) and the second U-shaped pipe (302) are both square structures, and the bottom surface of the interception block (17) is matched with the openings at the bottom ends of the first U-shaped pipe (301) and the second U-shaped pipe (302).

4. The segmented pretreatment tube for dyes for printing and dyeing according to claim 1, characterized in that: and baffle rings (13) are respectively arranged in the drainage pipelines of the U-shaped pipe I (301) and the U-shaped pipe II (302), the inner ring of each baffle ring (13) is concave downwards, and the outer ring of each baffle ring (13) is convex upwards.

5. The segmented pretreatment tube for dyes for printing and dyeing according to claim 1, characterized in that: the hook block (16) comprises a cross rod (1601) and a cross hook (1602), wherein the cross hook (1602) is welded on the inner side of the cross rod (1601).

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