阅读说明：本技术 一种高效的卫生巾浆杂质分离机 (Efficient sanitary towel thick liquid impurity separation machine ) 是由 张芽吓 于 2020-12-31 设计创作，主要内容包括：本发明公开了一种高效的卫生巾浆杂质分离机,其结构包括底座、主体、驱动块,底座的正上方焊接有主体,驱动块位于底座的顶部侧端,且与主体活动配合,主体包括搅拌块、顶盖、分离装置、排料口,分离装置包括纸浆通口、回流槽、流水孔、导料装置、下料装置,导料装置包括转动轴、旋转叶片、导流罩,旋转叶片包括挡水片、插棉杆、挡水块、通槽、后流槽,本发明利用在回流槽的顶端安装导料装置,并且通过导流罩将转动轴的下半部分进行笼罩,使得水流集中冲击转动轴上端的旋转叶片,从而让旋转叶片进行单向旋转对棉絮进行导向,让棉絮可以集中往回流槽中进行流动,避免棉絮往外排放造成浪费材料的情况。(The invention discloses a high-efficiency sanitary towel pulp impurity separator which structurally comprises a base, a main body and a driving block, wherein the main body is welded right above the base, the driving block is positioned at the side end of the top of the base and is movably matched with the main body, the main body comprises a stirring block, a top cover, a separating device and a discharge hole, the separating device comprises a paper pulp through hole, a backflow groove, a water flowing hole, a material guiding device and a discharging device, the material guiding device comprises a rotating shaft, rotating blades and a flow guide cover, the rotating blades comprise water blocking sheets, cotton inserting rods, water blocking blocks, through grooves and a rear flow groove, the invention utilizes the top end of the backflow groove to install the material guiding device, and the lower half part of the rotating shaft is covered by the flow guide cover, so that water flow intensively impacts the rotating blades at the upper end of the rotating shaft, the rotating blades rotate unidirectionally to guide cotton wool, and the cotton, the situation that the cotton wool is discharged outwards to cause material waste is avoided.)

1. The utility model provides an efficient sanitary towel thick liquid impurity separating centrifuge, its structure includes base (1), main part (2), drive block (3), the welding has main part (2) directly over base (1), drive block (3) are located the top side of base (1), and with main part (2) clearance fit, its characterized in that:

main part (2) are including stirring piece (21), top cap (22), separator (23), bin outlet (24), the inside positive centre at main part (2) is installed to stirring piece (21), top cap (22) block is in the top of main part (2), separator (23) are located the top side end of main part (2), bin outlet (24) are connected in separator (23).

2. The efficient sanitary napkin slurry impurity separator according to claim 1, wherein: separator (23) include pulp opening (231), return flume (232), discharge orifice (233), guide device (234), unloader (235), pulp opening (231) set up the top at separator (23), return flume (232) are located the below of pulp opening (231), discharge orifice (233) are equipped with more than three, and transverse arrangement in the side of return flume (232), the upper end at return flume (232) is installed in guide device (234), unloader (235) are installed in guide device (234) below.

3. A high efficiency sanitary napkin slurry separator according to claim 2, wherein: the material guide device (234) comprises a rotating shaft (a1), rotating blades (a2) and a flow guide cover (a3), wherein the rotating shaft (a1) is clamped at the side end of the backflow groove (232), the number of the rotating blades (a2) is four, the rotating blades are arranged around the end face of the rotating shaft (a1), and the flow guide cover (a3) is embedded at the side end of the rotating shaft (a 1).

4. A high efficiency sanitary napkin slurry separator according to claim 3, wherein: the rotary vane (a2) comprises water-retaining pieces (a21), cotton inserting rods (a22), water-retaining blocks (a23), through grooves (a24) and rear flow grooves (a25), the water-retaining pieces (a21) are arranged at the rear end of the rotary vane (a2), the cotton inserting rods (a22) are more than eight in number and are transversely arranged at the front end of the water-retaining pieces (a21), the water-retaining blocks (a23) are two in number and are transversely arranged on the upper end face of the water-retaining pieces (a21), the through grooves (a24) are arranged inside the water-retaining blocks (a23), and the rear flow grooves (a25) are arranged at the rear end of the water-retaining blocks (a23) and are communicated with the through grooves (a 24).

5. A high efficiency sanitary napkin slurry separator according to claim 2, wherein: unloader (235) include fixing base (b1), lead cotton board (b2), rewind spring (b3), fixing base (b1) are inlayed and are fixed in the side of backward flow groove (232), lead cotton board (b2) block in fixing base (b1), the side of leading cotton board (b2) is installed in rewind spring (b 3).

6. The efficient sanitary napkin slurry impurity separator according to claim 5, wherein: the cotton guide plate (b2) comprises a fixing rod (b21), two clamping shafts (b22) and two cotton separating rods (b23), the fixing rod (b21) is cylindrical, the two clamping shafts (b22) are respectively located at two ends of the fixing rod (b21), and the cotton separating rods (b23) are more than five and transversely arranged at the front end of the fixing rod (b 21).

7. The efficient sanitary napkin slurry impurity separator according to claim 6, wherein: the cotton separating rod (b23) comprises a mounting seat (c1), a down flow hole (c2) and a protruding block (c3), wherein the mounting seat (c1) is embedded at the rear end of the cotton separating rod (b23), the number of the down flow holes (c2) is three, the three down flow holes are transversely arranged in the cotton separating rod (b23), and the three protruding blocks (c3) are arranged at the front end of the top of the down flow hole (c 2).

Technical Field

The invention relates to the field of fiber steaming and separating equipment for sanitary towels, in particular to a high-efficiency sanitary towel pulp impurity separator.

Background

Sanitary towel thick liquid layer is made by multiple fiber material and cotton material, in order to make the combination between fiber material and the cotton material more melt the consistency, puts into aqueous with fiber material and cotton material and mixes, gets rid of the impurity that contains in the raw materials in the mixed liquid when mixing, just can guarantee the quality of cotton fibre in the sanitary towel, promotes user's experience, and the impurity of mixing in the cotton fibre is mostly paper pulp.

Based on the findings of the inventor, the existing efficient sanitary towel pulp impurity separator mainly has the following defects, such as: when separating raw and other materials, the quality through paper pulp is less than the cotton fibre, lets paper pulp float on the surface of water, and when discharging paper pulp toward outside, the cotton fibre also can follow the flow of rivers and discharge from the bin outlet, leads to the cotton fibre of processing to run off, causes the condition of extravagant material.

Disclosure of Invention

Aiming at the problems, the invention provides an efficient sanitary towel pulp impurity separator.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an efficient sanitary towel thick liquid impurity separation machine, its structure includes base, main part, drive block, the welding has the main part directly over the base, the drive block is located the top side of base, and with main part clearance fit, the main part includes stirring piece, top cap, separator, bin outlet, the stirring piece is installed in the middle of the inside centre of main part, the top cap block is in the top of main part, separator is located the top side of main part, the bin outlet is connected in separator.

Further, separator includes paper pulp opening, backward flow groove, discharge orifice, guide device, unloader, the paper pulp opening sets up on separator's top, the backward flow groove is located the below of paper pulp opening, the discharge orifice is equipped with more than three, and transverse arrangement in the side of backward flow groove, guide device installs the upper end at the backward flow groove, unloader installs in the guide device below, the contained angle between discharge orifice and the horizontal plane is 60 degrees.

Further, the guide device includes axis of rotation, rotating vane, kuppe, axis of rotation block in the side of backward flow groove, rotating vane is equipped with four, and arranges in the terminal surface of axis of rotation around, the kuppe inlays the side at the axis of rotation, the kuppe carries out the cage with the latter half of axis of rotation.

Further, rotating vane includes the breakwater piece, inserts cotton pole, manger plate piece, leads to groove, back chute, the breakwater piece sets up the rear end at rotating vane, insert the cotton pole and be equipped with more than eight, and transverse arrangement in the front end of breakwater piece, the manger plate piece is equipped with two, and transverse arrangement in the up end of breakwater piece, lead to the groove setting in the inside of breakwater piece, the rear end of manger plate piece is arranged in to the back chute, and is linked together with leading to the groove, the terminal surface of breakwater piece is circular-arc.

Further, the method comprises the following steps: the blanking device comprises a fixed seat, a cotton guide plate and a backrush spring, wherein the fixed seat is fixedly embedded at the side end of the backflow groove, the cotton guide plate is clamped in the fixed seat, the backrush spring is arranged at the side end of the cotton guide plate, and the cotton guide plate is movably matched with the backrush spring.

Furthermore, the cotton guide plate comprises fixing rods, clamping shafts and cotton separating rods, the fixing rods are cylindrical, the two clamping shafts are respectively located at two ends of the fixing rods, the cotton separating rods are more than five and are transversely arranged at the front ends of the fixing rods, and the fixing rods are staggered with the cotton inserting rods in the material guide device.

Further, divide cotton pole to include mount pad, down-flow hole, protruding piece, the mount pad inlays admittedly at the rear end of dividing cotton pole, the down-flow hole is equipped with threely, and transverse arrangement in dividing cotton pole, the protruding piece is equipped with threely, and installs at the top front end of down-flow hole, the terminal surface of protruding piece is circular-arc.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the material guide device is arranged at the top end of the reflux groove, and the lower half part of the rotating shaft is covered by the flow guide cover, so that water flow intensively impacts the rotating blades at the upper end of the rotating shaft, the rotating blades rotate in a single direction to guide cotton wool, the cotton wool can intensively flow into the reflux groove, and the condition that the waste of materials is caused by the fact that the cotton wool is discharged outwards is avoided.

2. According to the invention, the cotton guide plate is movably matched with the rewind spring, and the rewind spring is reset to drive the cotton guide plate to swing upwards, so that cotton wool attached in the material guide device is guided downwards, the cotton wool can flow into the main body through the reflux groove, and the condition that the material is wasted due to the fact that the cotton wool is discharged outwards is avoided.

Drawings

Fig. 1 is a schematic front view of a high-efficiency sanitary napkin slurry impurity separator according to the present invention.

Fig. 2 is a schematic sectional structure view of the main body of the present invention.

Fig. 3 is a schematic sectional structure view of the separation device of the present invention.

Fig. 4 is a schematic cross-sectional structure view of the material guiding device of the present invention.

FIG. 5 is a schematic top view of a rotary blade according to the present invention.

Fig. 6 is a schematic sectional structure view of the blanking device of the present invention.

Fig. 7 is a schematic front view of the cotton guide plate of the present invention.

FIG. 8 is a schematic sectional view of the cotton separating rod of the present invention.

In the figure: the device comprises a base 1, a main body 2, a driving block 3, a stirring block 21, a top cover 22, a separating device 23, a discharge outlet 24, a pulp through hole 231, a backflow groove 232, a water flowing hole 233, a material guide device 234, a blanking device 235, a rotating shaft a1, a rotating blade a2, a flow guide cover a3, a water retaining sheet a21, a cotton inserting rod a22, a water retaining block a23, a through groove a24, a rear flow groove a25, a fixed seat b1, a cotton guide plate b2, a rewinding spring b3, a fixed rod b21, a clamping shaft b22, a cotton separating rod b23, a mounting seat c1, a downstream hole c2 and a convex block c 3.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows: referring to fig. 1-5, the embodiments of the present invention are as follows:

its structure includes base 1, main part 2, drive block 3, the welding has main part 2 directly over base 1, drive block 3 is located base 1's top side, and with main part 2 clearance fit, main part 2 includes stirring piece 21, top cap 22, separator 23, bin outlet 24, stirring piece 21 is installed in the middle of main part 2's inside is positive, top cap 22 block is in main part 2's top, separator 23 is located main part 2's top side, bin outlet 24 is connected in separator 23.

Separator 23 includes paper pulp opening 231, backward flow groove 232, discharge orifice 233, guide device 234, unloader 235, paper pulp opening 231 sets up the top at separator 23, backward flow groove 232 is located the below of paper pulp opening 231, discharge orifice 233 is equipped with more than three, and transverse arrangement in the side of backward flow groove 232, guide device 234 installs the upper end at backward flow groove 232, unloader 235 installs in guide device 234 below, contained angle between discharge orifice 233 and the horizontal plane is 60 degrees, is favorable to letting rivers drive the bottom of cotton fibre toward backward flow groove 232 and flows to the cotton fibre that will flow outwards is down brought back to in main part 2.

Guide device 234 includes axis of rotation a1, rotating vane a2, kuppe a3, axis of rotation a1 block in the side of backward flow groove 232, rotating vane a2 is equipped with four, and arranges in the terminal surface of axis of rotation a1 around, kuppe a3 inlays the side at axis of rotation a1, kuppe a3 carries out the cage with the latter half of axis of rotation a1, is favorable to letting rivers concentrate the rotating vane a2 that strikes axis of rotation a1 upper end to let rotating vane a2 carry out unidirectional rotation, lead the cotton fibre.

The rotating blade a2 comprises two water blocking pieces a21, a cotton inserting rod a22, a water blocking piece a23, through grooves a24 and a rear flow groove a25, the water blocking pieces a21 are arranged at the rear end of the rotating blade a2, the cotton inserting rod a22 is more than eight and transversely arranged at the front end of the water blocking piece a21, the two water blocking pieces a23 are transversely arranged at the upper end face of the water blocking piece a21, the through groove a24 is arranged in the water blocking piece a23, the rear flow groove a25 is arranged at the rear end of the water blocking piece a23 and communicated with the through grooves a24, and the end face of the water blocking piece a23 is arc-shaped, so that resistance to water flow is increased through the water blocking piece a23, and the rotating speed of the rotating blade a2 is increased.

Based on the above embodiment, the specific working principle is as follows: when the cotton wool is discharged outwards along with the water flow to cause material waste, the separating device 23 is installed at the top side end of the main body 2, the included angle between the water flowing hole 233 and the horizontal plane is 60 degrees, the water flow can drive the cotton wool to flow towards the bottom end of the backflow groove 232, the cotton wool flowing outwards is brought back to the main body 2 downwards, the material guide device 234 is installed at the upper end of the backflow groove 232, the lower half part of the rotating shaft a1 is covered by the diversion cover a3, the water flow intensively impacts the rotating blade a2 at the upper end of the rotating shaft a1, the rotating blade a2 rotates in a single direction to guide the cotton wool, the end face of the water retaining block a23 is arc-shaped, resistance to the water flow is increased by the water retaining block a23, the rotating speed of the rotating blade a2 is accelerated, and the rotating blade a2 can continuously guide the cotton wool, make the cotton fibre can flow in the backward flow groove 232 to lead the cotton fibre to the inside of main part 2, avoid appearing the condition of extravagant material.

Example two: referring to fig. 6-8, the embodiment of the present invention is as follows:

unloader 235 includes fixing base b1, leads cotton board b2, rewind spring b3, fixing base b1 inlays the side at return channel 232, lead cotton board b2 block in fixing base b1, rewind spring b3 installs the side at leading cotton board b2, lead cotton board b2 and rewind spring b3 clearance fit, be favorable to restoring to throne through rewind spring b3 and drive and lead cotton board b2 and upwards swing to the cotton fibre that will attach in guide device 234 down leads, makes the cotton fibre can flow back in main part 2.

The cotton guide plate b2 comprises a fixing rod b21, a clamping shaft b22 and a cotton separating rod b23, the fixing rod b21 is cylindrical, the clamping shaft b22 is provided with two ends which are respectively located at two ends of a fixing rod b21, the cotton separating rod b23 is provided with more than five ends and is transversely arranged at the front end of the fixing rod b21, the fixing rod b21 and the cotton inserting rod a22 in the material guide device 234 are staggered, cotton wool attached to the cotton inserting rod a22 can be guided downwards, and the cotton wool is prevented from being wound in the cotton inserting rod a 22.

The cotton separating rod b23 comprises a mounting seat c1, a down-flow hole c2 and three convex blocks c3, the mounting seat c1 is embedded at the rear end of the cotton separating rod b23, the down-flow holes c2 are three and are transversely arranged in the cotton separating rod b23, the convex blocks c3 are three and are mounted at the front end of the top of the down-flow hole c2, the end face of the convex block c3 is arc-shaped, and the convex blocks c3 are in contact with cotton wool in the cotton inserting rod a22, so that the cotton wool is guided downwards from the cotton inserting rod a22, and the cotton wool can flow back into the main body 1.

Based on the above embodiment, the specific working principle is as follows: utilize at the below installation unloader 235 of guide device 234, recycle and lead cotton board b2 and rewind spring b3 clearance fit, it upwards swings to drive through rewind spring b3 and lead cotton board b2, thereby will attach the cotton fibre in guide device 234 down to lead, then it staggers mutually with cotton insertion rod a22 in the guide device 234 to utilize dead lever b21, can let the cotton fibre of attaching on cotton insertion rod a22 down lead, avoid the cotton fibre to twine in cotton insertion rod a22, set up to circular-arc through the terminal surface with protruding piece c3 at last, make the cotton fibre contact in protruding piece c3 and cotton insertion rod a22, thereby lead the cotton fibre from inserting cotton rod a22 down, let the cotton fibre can flow back in main part 1.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.