CN218641603U

CN218641603U - Anti-adhesion operation barrel

Info

Publication number: CN218641603U
Application number: CN202223210980.7U
Authority: CN
Inventors: 闭汉军; 裴训
Original assignee: Zheming Printing Ink & Paintings Guangzhou Co ltd
Current assignee: Zheming Printing Ink & Paintings Guangzhou Co ltd
Priority date: 2022-12-01
Filing date: 2022-12-01
Publication date: 2023-03-17
Anticipated expiration: 2032-12-01

Abstract

The utility model belongs to the technical field of the shipment device, concretely relates to antiseized circulation bucket, including the circulation bucket, the fixed oblique taper pipe that is provided with of bottom integral type of circulation bucket, the bottom fixedly connected with of oblique taper pipe is used for deriving the discharging pipe of bucket interior raw materials, the middle bottom fixedly connected with of discharging pipe is liquid separation spare just, the end of discharging pipe is provided with the stifled pipe subassembly that is used for controlling the discharging pipe mediation, the fixed derivation subassembly one that is provided with of outer wall of hydrops shell, the bottom mounting of just liquid collecting pipe is provided with derives subassembly two. The utility model discloses can collect by dust pollution's coating to realize that autosegregation receives the effect of pollution coating, go back the mode that the clout was remained in the discharge again through the collection, avoid new printing ink by the mixed condition of polluting of crude oil china ink, further guarantee the quality and the purity of storing printing ink, at last, derive the mediation mode that the subassembly exempted from to dismantle, still can not produce the condition of polluting personnel's clothing.

Description

Anti-adhesion operation barrel

Technical Field

The utility model belongs to the technical field of the shipment device, concretely relates to antiseized adhesion operation bucket.

Background

The ink is an important material for printing, patterns and characters are represented on a printing stock by printing or spray painting, the ink comprises main components and auxiliary components, the main components and the auxiliary components are uniformly mixed and repeatedly rolled to form viscous colloidal fluid, the viscous colloidal fluid comprises binders (resin), pigments, fillers, auxiliaries, solvents and the like, most of the existing ink transportation modes are that the existing ink transportation modes are injected into a running barrel for transportation, and the surface of the running barrel is sprayed with a nano coating to prevent ink paint from being sticky.

The problems existing in the prior art are as follows:

when present operation bucket just injected into printing ink each time, printing ink all probably exists by the problem of other material pollution, and the pollution source has two kinds, one: dust attached to the inner wall of the operation barrel due to the long-time standing of the operation barrel; II, secondly, the method comprises the following steps: when the original ink is discharged, because of the structural limitation of the operation barrel, the residual ink remained in the gap and on the inner wall of the operation barrel exists, the two substances can directly pollute the ink, the pollution possibility and impurity content of the ink injected firstly are the maximum, but most of the existing operation barrels do not have the structure and function of separating the polluted ink and treating the original residual ink, and only the purity of the ink and the quality of a finished product are directly influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an antiseized adhesion operation bucket can collect by dust pollution's coating to realize that autosegregation receives the effect of pollution coating, still accessible collection is discharged the mode of remaining clout again, avoids new printing ink by the mixed pollution's of crude oil china ink condition, further guarantees the quality and the purity of storing printing ink, and at last, derives the mediation mode that the subassembly exempted from to dismantle, still can not produce the condition of polluting personnel's clothing.

The utility model discloses the technical scheme who takes specifically as follows:

an anti-adhesion operation barrel comprises an operation barrel, wherein an inclined conical pipe is fixedly arranged at the bottom of the operation barrel in an integrated mode, a discharge pipe used for leading out raw materials in the barrel is fixedly connected to the bottom end of the inclined conical pipe, a primary liquid separation piece is fixedly connected to the bottom of the middle of the discharge pipe, and a pipe blocking assembly used for controlling the discharge pipe to dredge is arranged at the tail end of the discharge pipe;

an seepage port is formed in the side wall of the middle bottom of the discharge pipe, the primary liquid separation piece comprises a primary liquid guide pipe connected with the seepage port, and the bottom end of the primary liquid guide pipe is integrally and fixedly connected with a primary liquid collection pipe;

the pipe blocking assembly comprises a top rotating frame arranged above the tail end of the discharging pipe, the tail end of the top rotating frame is rotatably connected with a folding rod, a pipe cover used for covering the tail end of the discharging pipe is movably installed at the bottom end of the folding rod, and a liquid accumulating shell is integrally arranged at the bottom of the pipe cover;

a first guiding component is fixedly arranged on the outer wall of the liquid accumulation shell, a second guiding component is fixedly arranged at the bottom end of the primary liquid collecting pipe, and the first guiding component is similar to the second guiding component in structure;

derive subassembly one include with hydrops shell internal connection communicating outer takeover, just outer surface movable sleeve who takes over is equipped with the overlap pipe, the terminal inner wall of outer takeover is provided with baffle one, just through-hole one has been seted up to baffle one's bottom, the inside baffle two that laminates mutually with baffle one that is provided with of end of overlap pipe, just through-hole two has been seted up to one side of baffle two.

The outer wall of the operation barrel is fixedly provided with pillars for supporting the barrel body in an annular array manner, and one side of the top end of the operation barrel is fixedly connected with a material injection pipe.

The folding rod is characterized in that a handle is fixedly arranged at the top of the folding rod in an integrated mode, the top of the top rotating frame is movably screwed with a screw rod through a screw pipe, and the tail end of the screw rod is rotatably connected with a supporting block used for supporting the folding rod.

The outer wall of the liquid accumulation shell is positioned above the external connecting pipe and is fixedly provided with a guide frame, the inside of the guide frame is movably inserted and connected with an inserting rod in a penetrating and movable mode, and the outer wall of the bottom of the inserting rod is provided with a baffle.

A notch is formed in one end of the sleeve rotating pipe, and the bottom end of the inserting rod is movably clamped into the notch.

The inner diameter of the primary liquid collecting pipe is larger than that of the primary liquid eduction pipe.

The operation bucket, the discharging pipe, just liquid separation spare, stifled pipe subassembly, derive subassembly one and derive all whole surfaces of subassembly two all spray and have the nanometer coating that is used for preventing that ink coating from gluing.

The utility model discloses the technological effect who gains does:

(1) The utility model discloses, inject into the printing ink coating in the operation bucket earlier and can fully contact with the inner wall of operation bucket, consequently usable its washes away dust and debris on the operation bucket inner wall, and the coating that receives dust pollution will be collected by the leading-in inside of just liquid collecting pipe to this realizes the coating that autosegregation received the pollution, guarantees the finished product quality of printing ink coating greatly, avoids containing the use of the too high influence printing ink of miscellaneous volume.

(2) The utility model discloses, treat that coating discharges complete back, in the in-process that stews of operation bucket, the remaining coating of operation bucket inner wall can be constantly to the terminal gathering of discharging pipe under the effect of doing of gravity, the gathering that the discharging pipe of conical taper pipe and slope all helps remaining coating is removed, before annotating the material next time, emit the remaining clout of collection in advance, through the mode of collecting remaining coating, can avoid remaining coating drippage wantonly, cause the condition of storing on-the-spot ground and remaining the ink droplet, reduce the degree of difficulty to clean work area ground, in addition, emit the clout of collecting last time before annotating the material next time, can avoid new printing ink by the condition of crude oil ink mixed pollution, further guarantee the quality and the purity of storing printing ink.

(3) The utility model discloses, the mediation mode of derivation subassembly one and derivation subassembly two has changed the tradition and has utilized the tube cap to plug up the mode of mouth of pipe, need not the dismouting of any part, avoids the unexpected condition that drops of other parts, in addition, operating personnel holds the cover and changes the mediation that can realize the outer takeover, and this process can avoid discharged printing ink to directly spout to operating personnel's palm, solves the problem that pollutes staff's clothing in the printing ink process of putting; when the external pipe is closed, in order to avoid the accidental rotation caused by the accidental contact of the sleeve rotating pipe, the bottom end of the inserted rod can be clamped into the notch of the end head of the sleeve rotating pipe, so that the accidental dredging of the external pipe caused by the accidental contact can be avoided.

Drawings

Fig. 1 is a three-dimensional structure diagram of a running barrel according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an assembly of a tapping pipe and a plugging assembly according to an embodiment of the present invention;

FIG. 3 is a sectional view of a discharge tube according to an embodiment of the present invention;

fig. 4 is a partially enlarged structural view of a in fig. 3.

In the drawings, the components represented by the respective reference numerals are listed below:

1. operating the barrel; 101. a pillar; 102. injecting a material pipe; 103. an oblique taper pipe; 2. a discharge pipe; 201. an effusion port; 3. a primary liquid separation member; 301. a primary liquid delivery pipe; 302. a primary liquid collecting pipe; 4. a pipe plugging assembly; 401. a top rotating frame; 402. folding the rod; 403. a tube cover; 404. a grip; 405. a solenoid; 406. a screw; 407. a resisting block; 408. a liquid accumulation shell; 5. a first export component; 501. an external connection pipe; 502. sleeving and rotating the pipe; 503. a first baffle plate; 504. a second baffle plate; 505. a first through hole; 506. a second through hole; 507. a guide frame; 508. a rod is inserted; 509. a baffle plate; 6. and a second export component.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims specifically claimed.

As shown in fig. 1 to 4, an anti-adhesion operation barrel comprises an operation barrel 1, wherein pillars 101 for supporting a barrel body are fixedly installed on the outer wall of the operation barrel 1 in an annular array manner, a material injection pipe 102 is fixedly connected to one side of the top end of the operation barrel 1, and an inclined conical pipe 103 is fixedly arranged at the bottom of the operation barrel 1 in an integrated manner.

Referring to fig. 2 and fig. 3, the bottom fixedly connected with of oblique taper pipe 103 is used for exporting discharging pipe 2 of raw materials in the bucket, infiltration mouth 201 has been seted up to the middle part bottom side wall of discharging pipe 2, the first liquid separator 3 of middle bottom fixedly connected with of discharging pipe 2, first liquid separator 3 includes the first liquid eduction tube 301 that is connected with infiltration mouth 201, and the bottom integral type fixedly connected with of first liquid eduction tube 301 is first liquid collecting tube 302, the internal diameter size of first liquid collecting tube 302 is greater than the internal diameter size of first liquid eduction tube 301.

According to the structure, when the ink paint is injected into the operation barrel 1 through the material injection pipe 102, the firstly injected ink paint can be fully contacted with the inner wall of the operation barrel 1, and the firstly injected ink paint can preferentially penetrate through the seepage port 201 to enter the interior of the primary liquid collecting pipe 302, after the primary liquid collecting pipe 302 and the primary liquid guide-out pipe 301 are filled, the discharging pipe 2 and the operation barrel 1 can be filled, and because the firstly injected ink paint can be fully contacted with the inner wall of the operation barrel 1, dust and impurities on the inner wall of the operation barrel 1 can be washed away by the firstly injected ink paint, the paint polluted by the dust can be guided into the primary liquid collecting pipe 302 to be collected, so that the polluted paint can be automatically separated, the finished quality of the ink paint is greatly ensured, and the situation that the use of the ink is influenced by the excessively high impurity content is avoided.

Referring to fig. 2 and fig. 3, the end of discharging pipe 2 is provided with stifled pipe assembly 4 that is used for controlling the mediation of discharging pipe 2, stifled pipe assembly 4 is including setting up the top revolving rack 401 in the terminal top of discharging pipe 2, and the end of top revolving rack 401 rotates and is connected with folding rod 402, folding rod 402's bottom movable mounting has and is used for covering the terminal tube cap 403 of discharging pipe 2, folding rod 402's the fixed handle 404 that is provided with of top integral type, the top of top revolving rack 401 has screw rod 406 through the screwed pipe 405 activity spiro union that sets up, and the end rotation of screw rod 406 is connected with the piece 407 that supports that is used for supporting folding rod 402, the bottom integral type of tube cap 403 is provided with hydrops shell 408.

According to the above structure, the folding rod 402 is rotated to cover the end of the discharging pipe 2 with the pipe cap 403, and then the screw 406 is rotated to move the abutting block 407 until the abutting block 407 abuts against the folding rod 402, so as to limit the rotation of the folding rod 402 and complete the fixing of the pipe cap 403.

Referring to fig. 2, a first guiding-out assembly 5 is fixedly arranged on the outer wall of the effusion casing 408, a second guiding-out assembly 6 is fixedly arranged at the bottom end of the primary liquid collecting pipe 302, and the first guiding-out assembly 5 and the second guiding-out assembly 6 are similar in structure.

According to the structure, after the coating is completely discharged, the coating can be discharged through the discharging pipe 2 after the pipe cover 403 is opened, the pipe cover 403 is covered, the guiding assembly II 6 is dredged, the coating which is polluted by dust firstly is discharged, the coating can be recycled and filtered and then put into the conveying pipe, in addition, in the standing process of the subsequent conveying barrel 1, the coating remained on the inner wall of the conveying barrel 1 can be continuously accumulated towards the tail end of the discharging pipe 2 under the action of gravity, wherein the tapered oblique cone pipe 103 and the oblique discharging pipe 2 are beneficial to moving and accumulating of the residual coating, most of the accumulated coating can flow into the primary liquid collecting pipe 302, the minimum part can flow into the liquid accumulating shell 408, before next material injection, the residual coating in the primary liquid collecting pipe 302 and the liquid accumulating shell 408 can be collected by dredging the guiding assembly I5 and the guiding assembly II 6 in advance, the situation of residual ink drops on the storage site can be avoided, the difficulty of the ground in a clean working area is reduced, in addition, the residual coating can be discharged before next time, the situation of ink and the ink quality and the ink pollution can be further guaranteed.

Referring to fig. 3 and 4, the first guiding-out assembly 5 includes an external connection pipe 501 connected and communicated with the interior of the liquid collecting shell 408, an external surface of the external connection pipe 501 is movably sleeved with a sleeve pipe 502, a first baffle 503 is arranged on an inner wall of a tail end of the external connection pipe 501, a first through hole 505 is formed in the bottom of the first baffle 503, a second baffle 504 attached to the first baffle 503 is arranged inside the tail end of the sleeve pipe 502, and a second through hole 506 is formed in one side of the second baffle 504; the outer wall of the liquid accumulation shell 408 is fixedly provided with a guide frame 507 above the outer connecting pipe 501, the inner part of the guide frame 507 is movably inserted with an insertion rod 508 through a movable insertion, the outer wall of the bottom of the insertion rod 508 is provided with a baffle 509, one end of the sleeve rotating pipe 502 is provided with a notch, and the bottom end of the insertion rod 508 is movably clamped in the notch.

According to the structure, taking the first guiding-out component 5 as an example, the dredging process is that the sleeve rotating pipe 502 is rotated to enable the sleeve rotating pipe and the external connecting pipe 501 to rotate relatively, after the first through hole 505 and the second through hole 506 are overlapped, the external connecting pipe 501 is in a dredging state, and the excess materials can be guided out through the external connecting pipe 501 at the moment, so that the mode of dredging the external connecting pipe 501 is changed, the traditional mode of blocking the pipe orifice by using a pipe cover is not needed, the situation that other parts fall accidentally is avoided, in addition, an operator can realize the dredging of the external connecting pipe 501 by holding the sleeve rotating pipe 502 and rotating, and the process can avoid the discharged ink from being directly sprayed to the palm of the operator, and the problem that the clothes of the operator are polluted in the ink discharging process is solved; when the external pipe 501 is closed, in order to avoid accidental rotation caused by mistaken contact with the sleeve rotating pipe 502, the bottom end of the insertion rod 508 can be inserted into the notch of the end head of the sleeve rotating pipe 502, so that accidental dredging of the external pipe 501 caused by mistaken contact is avoided, and the operation modes of the second guiding-out assembly 6 are the same.

Referring to the attached drawing 1, all the whole surfaces of the operation barrel 1, the discharge pipe 2, the primary liquid separation member 3, the pipe blocking assembly 4, the first derivation assembly 5 and the second derivation assembly 6 are coated with a nano coating for preventing ink paint from being sticky.

The utility model discloses a theory of operation does: when ink paint is injected into the operation barrel 1 through the material injection pipe 102, the folding rod 402 is rotated to enable the pipe cover 403 to cover the tail end of the material discharge pipe 2, then the screw 406 is rotated to enable the abutting block 407 to move until the abutting block 407 abuts against the folding rod 402, the rotation of the folding rod 402 can be limited, and the fixing of the pipe cover 403 is completed, the paint which is firstly contacted with the inner wall of the operation barrel 1 in the material injection process can firstly flow to the material discharge pipe 2, the firstly injected ink paint can preferentially pass through the seepage port 201 to enter the interior of the primary liquid collection pipe 302, when the primary liquid collection pipe 302 and the primary liquid guide pipe 301 are fully filled, the material discharge pipe 2 and the operation barrel 1 can be filled, and as the firstly injected ink paint can be fully contacted with the inner wall of the operation barrel 1, the dust and sundries on the inner wall of the operation barrel 1 can be washed away by the initially injected ink paint, and the paint polluted by the dust can be guided into the primary liquid collection pipe 302 for collection;

after the pipe cover 403 is opened and the paint is discharged through the discharge pipe 2, after the paint is completely discharged, the pipe cover 403 is covered, the second guiding assembly 6 is dredged and the paint polluted by dust firstly is discharged, the part of the paint is recycled, filtered and put into the operation, in addition, in the standing process of the subsequent operation barrel 1, the residual paint on the inner wall of the operation barrel 1 can be continuously accumulated towards the tail end of the discharge pipe 2 under the action of gravity, wherein the tapered oblique cone pipe 103 and the oblique discharge pipe 2 are both beneficial to moving and accumulating of the residual paint, most of the accumulated paint flows into the primary liquid collection pipe 302, and the minimum part of the accumulated paint flows into the liquid accumulation shell 408;

before the next material injection, when the colors or the types of the ink coatings are different twice, the first guiding assembly 5 and the second guiding assembly 6 are dredged in advance to discharge the residual materials in the primary liquid collecting pipe 302 and the liquid accumulating shell 408, taking the first guiding assembly 5 as an example, the dredging process is that the sleeve rotating pipe 502 is rotated to enable the sleeve rotating pipe to rotate relative to the outer pipe 501, after the first through hole 505 and the second through hole 506 are overlapped, the outer pipe 501 is in a dredging state, the residual materials can pass through the outer pipe 501 to be led out, when the outer pipe 501 is closed, in order to avoid accidental rotation caused by mistaken touch of the sleeve rotating pipe 502, the bottom end of the inserting rod 508 can be clamped into a notch at the end of the sleeve rotating pipe 502, and the operation mode of the second guiding assembly 6 is the same.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims

1. An anti-adhesion operation barrel, comprising an operation barrel (1), characterized in that: an inclined conical pipe (103) is fixedly arranged at the bottom of the operation barrel (1) in an integrated manner, a discharging pipe (2) used for leading out raw materials in the barrel is fixedly connected to the bottom end of the inclined conical pipe (103), a primary liquid separating piece (3) is fixedly connected to the bottom of the middle of the discharging pipe (2), and a pipe blocking assembly (4) used for controlling the discharging pipe (2) to dredge is arranged at the tail end of the discharging pipe (2);

an seepage port (201) is formed in the side wall of the bottom of the middle of the discharge pipe (2), the primary liquid separation piece (3) comprises a primary liquid guide pipe (301) connected with the seepage port (201), and the bottom end of the primary liquid guide pipe (301) is fixedly connected with a primary liquid collection pipe (302) in an integrated mode;

the pipe blocking assembly (4) comprises a top rotating frame (401) arranged above the tail end of the discharging pipe (2), the tail end of the top rotating frame (401) is rotatably connected with a folding rod (402), a pipe cover (403) used for covering the tail end of the discharging pipe (2) is movably installed at the bottom end of the folding rod (402), and a liquid accumulating shell (408) is integrally arranged at the bottom of the pipe cover (403);

a first guiding-out component (5) is fixedly arranged on the outer wall of the liquid accumulation shell (408), a second guiding-out component (6) is fixedly arranged at the bottom end of the primary liquid collecting pipe (302), and the first guiding-out component (5) is similar to the second guiding-out component (6) in structure;

derive subassembly (5) including with amalgamation shell (408) internal connection communicating outer takeover (501), just the surface activity cover of outer takeover (501) is equipped with cover commentaries on classics pipe (502), the terminal inner wall of outer takeover (501) is provided with baffle (503), just through-hole (505) have been seted up to the bottom of baffle (503), the terminal inside of cover commentaries on classics pipe (502) is provided with baffle two (504) of laminating mutually with baffle (503), just through-hole two (506) have been seted up to one side of baffle two (504).

2. An anti-adhesion transfer ladle as claimed in claim 1, wherein: the outer wall of the operation barrel (1) is fixedly provided with pillars (101) for supporting the barrel body in an annular array manner, and one side of the top end of the operation barrel (1) is fixedly connected with a material injection pipe (102).

3. An anti-adhesion transfer drum as defined in claim 1, wherein: the top of the folding rod (402) is integrally and fixedly provided with a handle (404), the top of the top rotating frame (401) is movably screwed with a screw rod (406) through a screw pipe (405), and the tail end of the screw rod (406) is rotatably connected with a supporting block (407) used for supporting the folding rod (402).

4. An anti-adhesion transfer ladle as claimed in claim 1, wherein: the outer wall of the liquid accumulation shell (408) is positioned above the outer connecting pipe (501) and is fixedly provided with a guide frame (507), an inserting rod (508) penetrates through the inner part of the guide frame (507) in a movable inserting mode, and a baffle (509) is arranged on the outer wall of the bottom of the inserting rod (508).

5. An anti-adhesion transfer ladle as claimed in claim 4, wherein: a notch is formed in one end of the sleeve rotating pipe (502), and the bottom end of the inserting rod (508) is movably clamped in the notch.

6. An anti-adhesion transfer ladle as claimed in claim 1, wherein: the inner diameter of the primary liquid collecting pipe (302) is larger than that of the primary liquid leading-out pipe (301).

7. An anti-adhesion transfer drum as defined in claim 1, wherein: the operation bucket (1) discharging pipe (2) just liquid separation spare (3) stifled pipe subassembly (4) derive subassembly (5) and all whole surfaces of derivation subassembly two (6) all spray have be used for preventing that printing ink coating glues glutinous nanometer coating.