CN215103708U - Distribution plate assembly for producing terylene semi-dull cations - Google Patents

Abstract

A distribution plate assembly for producing terylene semi-dull cations comprises a first distribution plate and a second distribution plate, wherein the first distribution plate is arranged on the second distribution plate through a bayonet structure; the first distribution plate is divided into an upper layer, an interlayer and a lower layer; the upper layer is fixedly connected with the lower layer, the interlayer is arranged between the upper layer and the lower layer, the upper surface of the interlayer is tightly attached to the lower surface of the upper layer, the lower surface of the interlayer is tightly attached to the upper surface of the lower layer, and the number of the interlayer penetrating through the flow guide through holes in the first distribution plate is different when the interlayer is turned to different positions; the utility model provides a break plate subassembly for producing half extinction cation of dacron, only need to rotate under the condition that can not totally dismantle spinneret assembly on the break plate on the interbedded position can be in order to change out the silk volume, the practicality is stronger.

Description

Distribution plate assembly for producing terylene semi-dull cations

Technical Field

The utility model relates to a chemical fiber production technical field especially relates to a break plate subassembly for producing half extinction cation of dacron.

Background

In the production process of the composite fiber, the spinneret plate component directly determines the type of the composite fiber and even the product performances such as stability, strength and the like; the distribution plate is a part of the spinneret plate assembly and is used for distributing the molten slurry to facilitate the further compounding of the molten slurry to form a spinning yarn; in order to meet the requirements of individual production, spinneret plate assemblies with different filament output quantities are sometimes needed, and the distribution plates on the spinneret plate assemblies are all required to be disassembled at the moment, and generally, the spinneret plate assemblies are composed of a series of distribution plates and filter plates, so that the disassembly and the replacement are troublesome.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In view of the above, the present invention provides a distribution plate assembly for producing semi-dull polyester cation, which can directly change the filament output to meet the individual production requirement by changing the conducting number of the flow guiding through holes of a single distribution plate when the spinning plate assembly is not completely disassembled.

(II) technical scheme

A distribution plate assembly for producing terylene semi-dull cations comprises a first circular distribution plate and a second circular distribution plate, wherein a plurality of flow guide through holes which can be correspondingly and continuously arranged are formed in the first distribution plate and the second distribution plate, and the first distribution plate is arranged on the second distribution plate through a first fixing piece; the middle part of the first distribution plate is provided with an interlayer capable of rotating around the axis, and the interlayer is provided with an adjusting piece for rotating along with the interlayer so as to adjust the flow of the flow guide through hole on the first distribution plate entering the flow guide through hole on the second distribution plate.

Furthermore, the upper part of the first distribution plate is provided with an upper layer, and the lower part of the first distribution plate is provided with a lower layer; the upper layer is fixedly connected with the lower layer, the interlayer is arranged between the upper layer and the lower layer, the upper surface of the interlayer is tightly attached to the lower surface of the upper layer, and the lower surface of the interlayer is tightly attached to the upper surface of the lower layer.

Furthermore, an annular through hole penetrating through the interlayer is formed in the interlayer, the flow guide through holes are all located on the same circumference, the circumference where the through hole is located corresponds to the circumference surrounded by the flow guide through holes, the adjusting piece is a plurality of adjusting baffles fixedly arranged in the through hole, and the adjusting baffles correspond to the flow guide through holes located on the upper layer so as to be used for plugging the flow guide through holes located on the upper layer.

Furthermore, every adjusting baffle face all is perpendicular with the water conservancy diversion through-hole that is located the upper strata, and every adjusting baffle size all with the aperture adaptation that switches on the through-hole.

Furthermore, a group of first mounting holes which take the circle center of the first distribution plate as a symmetrical point are formed in the upper layer and the lower layer, so that the first distribution plate and the second distribution plate can be fixedly connected.

Furthermore, a first fixing piece for fixedly connecting the first distribution plate and the second distribution plate penetrates through the first mounting hole.

Furthermore, the first mounting hole is a threaded hole, and the first fixing piece is of a bolt structure in threaded connection with the first mounting hole.

Furthermore, the upper layer is provided with a second mounting hole, and the interlayer is provided with a third mounting hole for relatively fixing the upper layer and the interlayer.

Furthermore, the second mounting hole and the third mounting hole are threaded holes, and a second fixing piece in threaded connection with the second mounting hole and the third mounting hole is arranged in the second mounting hole and the third mounting hole in a penetrating mode.

(III) advantageous effects

1. The utility model discloses a single distribution board adds interbedded design, can be under the condition of incompletely dismantling spinneret assembly, thereby the quantity that directly changes the water conservancy diversion through-hole on the distribution board changes the play silk volume of one set of spinneret assembly, more satisfies individualized production's demand.

2. The utility model discloses fixed mode between intermediate layer and the break plate is the bayonet lock, the professional staff's of being more convenient for operation when the play silk volume of spinneret subassembly is changed to needs, and the practicality is stronger, optimizes production technology.

3. The utility model discloses can realize the different play silk volume of two kinds of quantity on same set of spinneret subassembly, reduce the cost of production spinneret subassembly.

Drawings

FIG. 1 is a schematic diagram of a distribution plate assembly for producing semi-dull polyester cation;

FIG. 2 is a schematic view of the upper layer structure of the first distributor plate;

FIG. 3 is a schematic view of a sandwich structure in a first distributor plate;

FIG. 4 is a schematic view of the lower layer structure of the first distributor plate;

FIG. 5 shows the corresponding situation of the flow guiding through holes when the interlayer is at the first position;

fig. 6 shows the corresponding situation of the flow guiding through holes when the interlayer is located at the second position.

Description of reference numerals: 100. a first distribution plate; 101. a first mounting hole; 102. a flow guide through hole; 103. a through hole; 104. adjusting the baffle; 110. an upper layer; 111. a second mounting hole; 1111. a second mounting hole A; 1112. a second mounting hole B; 120. an interlayer; 121. a third mounting hole; 1211. a third mounting hole A; 1212. a third mounting hole B; 122. a fourth mounting hole; 130. a lower layer; 200. a second distribution plate.

Detailed Description

The following description of the present invention will be made in further detail with reference to the accompanying drawings 1 to 6 and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention;

as shown in fig. 1, a distribution plate assembly for producing semi-dull cations for polyester comprises a first distribution plate 100 and a second distribution plate 200, wherein the first distribution plate 100 is mounted on the second distribution plate 200 by a bolt structure; the first distribution plate 100 and the second distribution plate 200 are both provided with a flow guide rail, and flow guide through holes 102 are arranged in the flow guide rails; the molten slurry prepared in the spinning process flows into the flow guide through holes 102 through the flow guide rails.

The first distributing plate 100 is provided with an interlayer 120 which can rotate freely, the number of the flow guide through holes 102 penetrating through the first distributing plate 100 is different when the interlayer 120 rotates to different positions, and the number of the flow guide through holes 102 directly influences the number of the pre-drawn yarns, namely, the yarn output amount can be changed without disassembling the whole group of distributing plate components.

Specifically, as shown in fig. 1 to 4, the first distribution plate 100 is divided into an upper layer 110, an interlayer 120 and a lower layer 130, the interlayer 120 is installed between the upper layer 110 and the lower layer 130, an upper surface of the interlayer 120 is closely attached to a lower surface of the upper layer 110, a lower surface of the interlayer 120 is closely attached to an upper surface of the lower layer 130, and the interlayer 120 can rotate around the center of the first distribution plate 100.

The second distribution plate 200 has a single-layer structure.

The upper layer 110 and the lower layer 130 are both provided with flow guide through holes 102, the flow guide through holes 102 are the same in number and correspond to each other in position one by one, and the interlayer 120 is also provided with flow guide through holes 102.

The upper layer 110 and the lower layer 130 are respectively provided with a first mounting hole 101, the positions of the first mounting holes 101 of the upper layer 110 and the lower layer 130 correspond to each other, so that the positions of the flow guide through holes 102 also completely correspond to each other, the second distribution plate 200 is also provided with the first mounting holes 101 at corresponding positions, the first mounting holes 101 are circular holes, and a first fixing member, i.e., a screw rod, penetrates through the first mounting holes 101, so that the upper layer 110 and the lower layer 130 are fixed and further fixed on the second distribution plate 200, so that the first distribution plate 100 and the second distribution plate 200 are assembled into an integral assembly.

The upper layer 110 is further provided with two second mounting holes 111, and the two second mounting holes 111 are a second mounting hole a1111 and a second mounting hole B1112.

As shown in fig. 3, the interlayer 120 is provided with two third mounting holes 121, which are a third mounting hole a1211 and a third mounting hole B1212, respectively, the interlayer 120 is provided with a through hole 103 penetrating through the thickness of the interlayer 120, the through hole 103 is provided with an adjusting baffle 104 having a radius the same as that of the flow guide through hole 102, and the flow guide through holes 102 on the upper layer 110 all fall into the through hole 103 to ensure normal filament discharge.

As shown in fig. 5, when the interlayer 120 rotates to the first position, that is, the interlayer 120 is relatively fixed to the upper layer 110 through the third mounting hole a1211 on the interlayer 120, at this time, the third mounting hole a1211 on the interlayer 120 corresponds to the second mounting hole a1111 on the upper layer 110, the second fixing member passes through the second mounting hole a1111 and the third mounting hole a1211 to relatively fix the interlayer 120 to the upper layer 110, at this time, part of the flow guide through holes 102 on the upper layer 110 are completely shielded by the adjusting baffle 104 on the interlayer 120, the number of the flow guide through holes 102 penetrating the first distribution plate is reduced, that is, the number of the wire outlet holes is reduced, at this time, a connection line between the center of the third mounting hole B1212 on the interlayer 120 and the shaft center of the interlayer 120 projects on the upper layer 110, and the formed projection line forms an angle of 16 degrees with a connection line between the center of the second mounting hole B1112 on the upper layer 110 and the shaft center of the upper layer 110.

As shown in fig. 6, when the interlayer 120 rotates to the second position, that is, when the interlayer 120 is fixed to the upper layer 110 through the third mounting hole B1212 of the interlayer 120, at this time, the third mounting hole B1212 of the interlayer 120 exactly corresponds to the second mounting hole B1112 of the upper layer 110, the second fixing member passes through the second mounting hole B1112 and the third mounting hole B1212, so that the interlayer 120 is fixed to the upper layer 110 relatively, at this time, the adjusting baffle 104 of the interlayer 120 exactly staggers from all the flow guiding through holes 102 of the upper layer 110, and at this time, the number of the flow guiding through holes 102 that can be penetrated through the first distribution plate 100 is equal to the number of the flow guiding through holes 102 of the upper layer 110.

As shown in fig. 3, the interlayer 120 is further provided with a fourth mounting hole 122, so that the first fixing member can pass through the interlayer 120.

The working principle is as follows: the distribution plate assembly for producing the semi-dull cation of the terylene comprises a first distribution plate 100 and a second distribution plate 200, wherein the first distribution plate 100 is arranged above the second distribution plate 200 through a first mounting hole 101; be provided with intermediate layer 120 on first distribution plate 100, intermediate layer 120 is rotatable, when intermediate layer 120 is fixed in the second position, the quantity of the water conservancy diversion through-hole 102 that link up this moment is the quantity of water conservancy diversion through-hole 102 on upper 110, when needs change the silk volume, tear down the second mounting earlier, and rotate intermediate layer 120 to the first position, thereby adjusting baffle 104 on the intermediate layer 120 covers the partial water conservancy diversion through-hole 102 on upper 110 and reduces the quantity of the water conservancy diversion through-hole 102 that link up first distribution plate 100 this moment, under the condition that need not dismantle the distribution plate subassembly promptly, can change the silk volume, the practicality is stronger.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (9)

1. A distribution plate assembly for producing terylene semi-dull cations comprises a first circular distribution plate and a second circular distribution plate, wherein a plurality of flow guide through holes which can be correspondingly and continuously arranged are formed in the first distribution plate and the second distribution plate, and the first distribution plate is arranged on the second distribution plate through a first fixing piece; the flow-guiding device is characterized in that an interlayer capable of rotating around the axis is arranged in the middle of the first distribution plate, and an adjusting piece is arranged on the interlayer and used for rotating along with the interlayer so as to adjust the flow of the flow-guiding through holes in the first distribution plate entering the flow-guiding through holes in the second distribution plate.

2. The distribution plate assembly for producing semi-dull cation of terylene according to claim 1, wherein the first distribution plate is provided with an upper layer at the upper part and a lower layer at the lower part; the upper layer is fixedly connected with the lower layer, the interlayer is arranged between the upper layer and the lower layer, the upper surface of the interlayer is tightly attached to the lower surface of the upper layer, and the lower surface of the interlayer is tightly attached to the upper surface of the lower layer.

3. The distribution plate assembly for producing semi-dull terylene cations according to claim 2, wherein the interlayer is provided with an annular through hole penetrating through the interlayer, the plurality of flow guide through holes are all positioned on the same circumference, the circumference of the through hole corresponds to the circumference surrounded by the plurality of flow guide through holes, the adjusting part is a plurality of adjusting baffles fixedly arranged in the through hole, and the plurality of adjusting baffles correspond to the plurality of flow guide through holes positioned on the upper layer so as to block the plurality of flow guide through holes positioned on the upper layer.

4. The distribution plate assembly for producing semi-dull terylene cations according to claim 3, wherein each adjusting baffle plate is perpendicular to the flow guiding through holes on the upper layer, and the size of each adjusting baffle plate is matched with the aperture of each through hole.

5. The distribution plate assembly for producing semi-dull cation of terylene according to claim 4, wherein each of the upper layer and the lower layer is provided with a set of first mounting holes with the center of the first distribution plate as a symmetry point for fixedly connecting the first distribution plate and the second distribution plate.

6. The distribution plate assembly for producing semi-dull cation of terylene according to claim 5, wherein the first fixing member is inserted into the first mounting hole to fixedly connect the first distribution plate and the second distribution plate.

7. The distribution plate assembly for producing semi-dull cation of terylene according to claim 6, wherein the first mounting hole is a threaded hole, and the first fixing member is a bolt structure screwed in the first mounting hole.

8. The distribution plate assembly for producing semi-dull cation of terylene according to claim 7, wherein said upper layer is provided with second mounting holes, and said interlayer is provided with third mounting holes for fixing the upper layer and the interlayer relatively.

9. The distribution plate assembly for producing semi-dull cation of terylene according to claim 8, wherein the second and third mounting holes are threaded holes, and a second fixing piece is threaded in the second and third mounting holes.

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