CN214244986U - Workbench, clothes treatment equipment and workbench mold - Google Patents

Abstract

The utility model discloses a workstation, clothing treatment facility and workstation mould, workstation injection moulding spare as an organic whole, workstation have the clothing and put in the mouth, and the workstation includes: the utility model provides a workstation curb plate, the one side surface of workstation curb plate thickness direction is the outward appearance face, the workstation curb plate has width direction's one end and the other end, the other end terminal surface of workstation curb plate width direction is equipped with at least one workstation runner molding zone that is suitable for and corresponds with the workstation runner of workstation mould, the workstation curb plate has wall thickness region such as workstation, wall thickness region such as workstation extends in the whole width direction of workstation curb plate, wall thickness region such as workstation is equipped with workstation runner molding zone, other regions outside the wall thickness region such as workstation of workstation curb plate are the workstation variable wall thickness region, the wall thickness in wall thickness region such as workstation is not less than the regional maximum wall thickness of workstation variable wall thickness. According to the utility model discloses a workstation is favorable to reducing the flow line of workstation curb plate.

Description

Workbench, clothes treatment equipment and workbench mold

Technical Field

The utility model belongs to the technical field of clothing treatment facility technique and specifically relates to a workstation, clothing treatment facility and workstation mould are related to.

Background

Generally, a laundry treatment apparatus such as a table for a pulsator washing machine is an important component of the pulsator washing machine, and has dual requirements of function and appearance.

In the related art, the flow line defect is easy to appear on the product when the workbench is injection molded, and when the heavier flow line appears on the appearance surface of the product, the product has low qualification rate and high cost, and the use requirement of a user cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. To this end, an object of the present invention is to provide a work table of a laundry treating apparatus, which is high in yield.

The utility model also provides a clothing treatment facility, including foretell workstation.

The utility model discloses still provide a workstation mould that is used for the foretell workstation of shaping.

According to the utility model discloses clothing treatment facility's workstation, workstation injection moulding spare as an organic whole, the workstation has the clothing and puts in the mouth, the workstation includes: the workstation curb plate, one side surface of workstation curb plate thickness direction is the outward appearance face, the workstation curb plate has width direction's one end and the other end, the width direction's of workstation curb plate other end terminal surface is equipped with at least one workstation runner molding district that is suitable for and corresponds with the workstation runner of workstation mould, the workstation curb plate has wall thickness regions such as workstation, wall thickness regions such as workstation are in the whole width direction extension of workstation curb plate, wall thickness regions such as workstation are equipped with workstation runner molding district, the workstation curb plate other regions such as workstation outside the wall thickness region become the wall thickness region for the workstation, the wall thickness in wall thickness regions such as workstation is not less than the regional maximum wall thickness of workstation variable wall thickness.

According to the utility model discloses clothes treatment facility's workstation, through locating wall thickness regions such as workstation with workstation runner shaping district, the regional wall thickness of wall thickness is not less than the regional biggest wall thickness of workstation variable wall thickness such as workstation to be favorable to reducing the flow line of workstation curb plate, improve the yield of product at least to a certain extent, satisfy user's user demand.

According to some embodiments of the utility model, the workstation includes: the workstation connecting plate, the surface of workstation connecting plate is non-outward appearance face, the width direction's of workstation curb plate one end with the periphery wall of workstation connecting plate links to each other, the workstation curb plate is in extend in the circumference of workstation connecting plate, deviating from of workstation curb plate thickness direction a side surface of workstation connecting plate is outward appearance face, follows the width direction of workstation curb plate, the regional keeping away from of workstation variable wall thickness the wall thickness of the one end of workstation connecting plate is minimum.

According to some embodiments of the invention, the wall thickness of the table variable wall thickness region is gradually reduced in a direction from the one end of the table side plate in the width direction to the other end of the table side plate in the width direction; alternatively, the wall thickness of the table variable-wall-thickness region is gradually increased and then gradually decreased in a direction from the one end of the table side plate in the width direction to the other end of the table side plate in the width direction.

According to some embodiments of the present invention, the maximum wall thickness of the variable wall thickness region of the work table has a value range of 2.5mm to 3.5 mm; and/or the minimum wall thickness of the variable wall thickness area of the workbench ranges from 1.5mm to 2.5 mm.

According to some embodiments of the utility model, the wall thickness of workstation connecting plate is less than the workstation curb plate with the wall thickness of the one end that the workstation connecting plate links to each other.

According to some embodiments of the utility model, the value scope of the wall thickness of workstation connecting plate is 0.8mm ~ 2.2 mm.

According to some embodiments of the invention, the workstation comprises: put in the platform, put in the platform with the periphery wall of workstation connecting plate links to each other, the workstation curb plate with put in the platform edge the circumference of workstation connecting plate is arranged, the edge of workstation curb plate the both ends of the circumference of workstation connecting plate all with put in the platform and link to each other, it has to put in the platform the mouth is put in to the clothing, the clothing put in the internal perisporium of mouth the outer peripheral face of putting in the platform and the top surface of putting in the platform is the outward appearance face, be equipped with a plurality of workstation separation holes on the workstation connecting plate, it is a plurality of one of them part in the workstation separation hole is neighbouring the workstation curb plate sets up and a plurality of all the other parts in the workstation separation hole are neighbouring put in the platform setting.

According to some embodiments of the present invention, a minimum distance between the table obstructing hole adjacent to the table side plate and the table side plate is less than or equal to 20 mm; and/or the minimum distance between the workbench obstructing hole adjacent to the throwing platform and the throwing platform is less than or equal to 20 mm.

According to the utility model discloses a some embodiments, put in the platform and include: the two circumferential ends of the outer peripheral side plate are respectively connected with the two circumferential ends of the workbench side plate along the workbench connecting plate in a one-to-one correspondence manner; the annular ring plate is positioned on the inner side of the peripheral side plate, one part of the upper end of the peripheral wall of the ring plate is connected with the peripheral wall of the workbench connecting plate, and the ring plate defines the clothes throwing-in opening; the roof of U-shaped, the roof is connected the rest of the upper end of the periphery wall of collar plate with between the upper end of the internal perisporium of periphery curb plate, the terminal surface at the both ends of its circumference of edge of roof is located the radial both sides of collar plate and all with the workstation connecting plate links to each other.

According to some embodiments of the present invention, the wall thickness of the peripheral side plate is the same as the wall thickness of the variable wall thickness region of the working table, and the wall thickness variation relationship is the same.

According to some embodiments of the utility model, the value range of the wall thickness of roof is 2.3mm ~ 3.3 mm.

According to some embodiments of the invention, the collar plate is of equal wall thickness.

According to some embodiments of the present invention, the inner peripheral wall of the peripheral side plate the inner peripheral wall of the table side plate and at least one of the outer peripheral wall of the ring plate are provided with a reinforcing rib.

According to some embodiments of the present invention, a part provided with the reinforcing rib is referred to as a carrier member, at least one of the reinforcing ribs provided on the carrier member is a table connecting rib, the table connecting rib includes a table connecting rib body and a table connecting portion, and the table connecting portion is connected between the table connecting rib body and the carrier member; the thickness of the workbench connecting part is smaller than that of one end of the workbench connecting rib body connected with the workbench connecting part; and/or a part of the surface of the workbench connecting part facing the carrier part is recessed towards the direction far away from the carrier part to form a workbench through hole which penetrates through the workbench connecting part in the thickness direction of the workbench connecting part.

According to some embodiments of the invention, the thickness of the table connecting part is smaller than the thickness of the carrier part.

According to some embodiments of the utility model, the workstation is for exempting from to spray the piece, exempt from to spray the piece include the resin base member and distribute in the metal particle of resin base member.

According to the utility model discloses clothes treatment equipment, including foretell clothes treatment equipment's workstation.

According to the utility model discloses clothing treatment facility, through setting up the workstation, through locating wall thickness regions such as workstation with workstation runner shaping district, the regional wall thickness of wall thickness is not less than the regional biggest wall thickness of workstation variable wall thickness such as workstation to be favorable to reducing the flow line of workstation curb plate, improve the yield of product at least to a certain extent, satisfy user's user demand.

According to the utility model discloses a workstation mould that is used for shaping clothing treatment facility's workstation, include: the workbench die core is provided with a workbench die cavity, a columnar body for forming a clothes throwing opening is arranged in the workbench die cavity, the workbench die cavity comprises a workbench side plate die cavity, the workbench side plate die cavity is provided with one end and the other end along the width direction, one side wall surface of the workbench side plate die cavity in the thickness direction is used for forming the appearance surface of a workbench side plate, the workbench die core is provided with a workbench sprue which is positioned on the other end wall surface of the workbench side plate die cavity in the width direction, the workbench side plate die cavity is provided with regions with equal thickness of a workbench, the regions with equal thickness of the workbench extend in the whole width direction of the workbench side plate die cavity, the workbench sprue is positioned in the regions with equal thickness of the workbench, and other regions of the workbench side plate die cavity outside the regions with equal thickness of the workbench are regions with variable thickness of the workbench, the thickness of the equal-thickness area of the workbench is not less than the maximum thickness of the variable-thickness area of the workbench.

According to the utility model discloses a workstation mould for shaping table, because the workstation runner is located thickness region such as workstation to thickness region's such as workstation thickness is not less than the regional maximum thickness of workstation variation in thickness, thereby is favorable to guaranteeing the stability that the material flows, thereby reduces the flow line at the workstation curb plate, improves the yield of product at least to a certain extent, satisfies user's user demand.

According to some embodiments of the utility model, the workstation die cavity includes workstation connecting plate die cavity, workstation curb plate die cavity is followed the circumference of workstation connecting plate die cavity is extended, the width direction's of workstation curb plate die cavity one end with the periphery intercommunication of workstation connecting plate die cavity is followed the width direction of workstation curb plate die cavity, the regional keeping away from of workstation thickness the thickness of the one end of workstation connecting plate die cavity is minimum.

According to some embodiments of the invention, the thickness of the table variable thickness region is gradually reduced in a direction from the one end of the table side plate cavity in the width direction to the other end of the table side plate cavity in the width direction; or, in a direction from the one end of the table side plate cavity in the width direction to the other end of the table side plate cavity in the width direction, the thickness of the variable thickness region of the table is gradually increased and then gradually decreased.

According to some embodiments of the present invention, the maximum thickness of the variable thickness region of the table has a value range of 2.5mm to 3.5 mm; and/or the minimum thickness of the variable thickness area of the workbench ranges from 1.5mm to 2.5 mm.

According to some embodiments of the utility model, the thickness of workstation connecting plate die cavity is less than the thickness of workstation curb plate die cavity with the one end that workstation connecting plate die cavity is linked together.

According to the utility model discloses a some embodiments, the value scope of the thickness of workstation connecting plate die cavity is 0.8mm ~ 2.2 mm.

According to some embodiments of the utility model, the working table cavity comprises a throwing-in table cavity, the throwing-in table cavity is communicated with the periphery of the working table connecting plate cavity, the side plate die cavity of the workbench and the die cavity of the feeding table are distributed along the circumferential direction of the connecting plate die cavity of the workbench, the two ends of the side plate die cavity of the workbench along the circumferential direction of the connecting plate die cavity of the workbench are communicated with the feeding table die cavity, a cylindrical body for forming the clothes throwing opening is arranged in the throwing table cavity, a plurality of working table cylindrical body structures extending in the whole thickness direction of the working table connecting plate cavity are arranged in the working table connecting plate cavity, the workbench column structure is used for forming a workbench blocking hole, one part of the workbench column structures is arranged close to the workbench side plate type cavity, and the rest parts of the workbench column structures are arranged close to the throwing table type cavity.

According to some embodiments of the present invention, the minimum distance between the table column structure adjacent to the table side plate cavity and the table side plate cavity is less than or equal to 20 mm; and/or the minimum distance between the workbench column structure adjacent to the releasing platform cavity and the releasing platform cavity is less than or equal to 20 mm.

According to some embodiments of the utility model, put in the bench type chamber and include: the two circumferential ends of the outer circumferential side plate cavity are respectively communicated with the two circumferential ends of the workbench side plate cavity along the workbench connecting plate cavity in a one-to-one correspondence manner; the annular ring plate cavity is positioned on the inner periphery of the peripheral side plate cavity, one part of the outer periphery of one axial end of the ring plate cavity is directly communicated with the outer periphery of the workbench connecting plate cavity, and the peripheral wall of the columnar body is the inner peripheral wall of the ring plate cavity; the circular plate die comprises a U-shaped top plate die cavity, wherein the top plate die cavity is communicated between the rest part of the periphery of one axial end of the circular plate die cavity and the upper end of the inner periphery of the outer periphery side plate die cavity, and the two circumferential ends of the top plate die cavity are located on the two radial sides of the circular plate die cavity and are communicated with the workbench connecting plate die cavity.

According to some embodiments of the utility model, the thickness of periphery curb plate die cavity with the regional thickness of workstation variation in thickness is the same, and the thickness variation relation is the same.

According to some embodiments of the utility model, the value range of the thickness of roof die cavity is 2.3mm ~ 3.3 mm.

According to some embodiments of the utility model, the setting of thickness such as circle board die cavity.

According to some embodiments of the invention, the workbench cavity comprises: and at least one of the inner periphery of the outer periphery side plate cavity, the inner periphery of the workbench side plate cavity and the outer periphery of the ring plate cavity is communicated with the reinforcing rib cavity.

According to some embodiments of the present invention, a structure communicated with the reinforcing rib cavity is referred to as a carrier part cavity, at least one reinforcing rib cavity communicated with the carrier part cavity is a workbench connecting rib cavity, the workbench connecting rib cavity comprises a workbench connecting rib body cavity and a workbench connecting part cavity, and the workbench connecting part cavity is communicated between the workbench connecting rib body cavity and the carrier part cavity; the thickness of the workbench connecting part cavity is smaller than that of one end of the workbench connecting rib body cavity communicated with the workbench connecting part cavity; and/or, the workbench connecting part cavity is provided with a workbench stand column structure for forming a workbench through hole, and the workbench stand column structure extends in the whole thickness direction of the workbench connecting part cavity.

According to some embodiments of the invention, the thickness of the workbench connecting part cavity is smaller than the thickness of the carrier part cavity.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of a table according to some embodiments of the present invention;

fig. 2 is a schematic view of another orientation of a table according to some embodiments of the present invention;

FIG. 3 is a sectional view taken along the line A1-A1 shown in FIG. 2;

FIG. 4 is an enlarged view of the circled portion at A2 shown in FIG. 3;

FIG. 5 is an enlarged view of the circled portion at A3 shown in FIG. 2;

fig. 6 is a schematic view of yet another orientation of a table according to some embodiments of the present invention;

FIG. 7 is a sectional view in the direction of A4-A4 shown in FIG. 6, in which the arrow width D1 is the width direction of the table side plate and the arrow thickness D1 is the thickness direction of the table side plate;

FIG. 8 is an enlarged view of the circled portion at A5 shown in FIG. 7;

fig. 9 is a schematic view of yet another orientation of a table according to some embodiments of the present invention;

FIG. 10 is an enlarged view of the circled portion at A6 shown in FIG. 9;

FIG. 11 is an enlarged view of a circled portion at A7 shown in FIG. 9, in which an arrow thickness D2 is a thickness direction of the table attachment portion;

FIG. 11a is a schematic view of another orientation of a table according to an embodiment of the game of the present invention;

FIG. 11b is an enlarged view of the encircled portion at A12 in FIG. 11 a;

FIG. 11c is an enlarged view of the encircled portion at A13 in FIG. 11 a;

FIG. 11d is an enlarged view of the encircled portion at A14 in FIG. 11 a;

FIG. 11e is an enlarged view of the encircled portion at A15 in FIG. 11 a;

FIG. 11f is an enlarged view of the encircled portion at A16 in FIG. 11 a;

FIG. 11g is an enlarged view of the encircled portion at A17 in FIG. 11 a;

FIG. 11h is an enlarged view of the encircled portion at A18 in FIG. 11 a;

FIG. 11i is a schematic cross-sectional view at A11-A11 as shown in FIG. 11 a;

FIG. 11j is an enlarged view of the encircled portion at A19 in FIG. 11 i;

FIG. 11k is an enlarged view of the encircled portion at A20 in FIG. 11 i;

fig. 12 is a schematic view of a platen mold according to some embodiments of the present invention;

FIG. 13 is a cross-sectional view taken in the direction A8-A8 shown in FIG. 12;

FIG. 14 is a sectional view taken in the direction A9-A9 shown in FIG. 12;

FIG. 15 is a sectional view taken in the direction of A10-A10 shown in FIG. 12;

FIG. 16 is an enlarged view of the circled portion at A11 shown in FIG. 15;

fig. 17 is a schematic view of the flow of material within a platen-type chamber of a work bench according to some embodiments of the present invention;

fig. 18 is a schematic view of the flow of material within a work platform side plate type cavity according to further embodiments of the present invention;

fig. 19 is a schematic view of the flow of material within a panel side plate cavity according to further embodiments of the present invention;

fig. 20 is a schematic view of the flow of material within a panel side plate cavity according to further embodiments of the present invention;

fig. 21 is a schematic view showing the flow of the material in the cavity in the related art.

Reference numerals:

a work table 50; a workbench connecting plate 501; the table dam hole 5011; a table side plate 502; a platen gate molding zone 5021; a drop platform 503; an outer peripheral side plate 5031; an outer periphery side plate gate-forming land 50311; a ring plate 5032; a ring plate gate-forming land 50321; a top plate 5033; a variable wall thickness region 5023 of the workbench; a workbench equal wall thickness region 5024; a table attachment rib 504; table through hole 50421; a laundry input port 505;

a table die 5; a worktable insert 5; the workbench is connected with the plate cavity 511; a table side plate cavity 512; a table variable thickness region 5121; a drop table cavity 513; an outer peripheral side plate-shaped chamber 5131; a ring plate cavity 5132; a top plate cavity 5133; and a cylindrical body 514.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The work table 50 for a laundry treatment apparatus such as a pulsator washing machine is an important component of the pulsator washing machine, and has dual requirements of functions and appearance.

Generally, the manufacturing process of the workbench 50 is mostly injection molding and spraying process, the sprayed workbench 50 has gorgeous metal appearance effect, but the spraying process has the defects of high pollution, high cost, low qualification rate, unrecyclable after scrapping and the like, seriously influences the environment and the health of production personnel, and is not in accordance with the concept of green manufacturing. In order to overcome the defects of the spraying process, the spraying-free thermoplastic engineering material is produced at the right moment, and the spraying-free injection molding can give the metal appearance effect to the product, so that the spraying process is cancelled, the aim of reducing the production cost is fulfilled, and meanwhile, the emission of pollutants in the spraying process is avoided.

Regardless of whether the spraying-free material is adopted to manufacture the workbench 50 or the injection molding and spraying process is adopted to manufacture the workbench 50, for a material with poor fluidity, especially a spraying-free material containing metal particles, due to the fact that substances such as the metal particles exist in the spraying-free material, the metal particles are unevenly distributed when the material is obstructed in the flowing process in the injection molding process, so that light scattering occurs under the irradiation of light when a product is injected, flow marks are visually formed on the product, the flow mark defect occurs on the product, and when the flow marks occur on the appearance surface of the product, the product qualification rate is low, and the use requirements of users cannot be met. In the following description, a spray-free material containing metal particles is taken as an example, that is, the working table 50 may be a spray-free member including a resin matrix and metal particles distributed in the resin matrix. Optionally, the metal particles are copper, aluminum or silver.

The table 50 of the laundry treating apparatus, and the table mold 5 for the molding table 50 according to the embodiment of the present invention are described below with reference to the accompanying drawings. From this, workstation 50 is the integrative injection moulding piece, from this, the structure of an organic whole piece not only can guarantee workstation 50 structure, stability of performance to convenient shaping, manufacturing are simple, have saved unnecessary assembly part and connection process moreover, guarantee the reliability that workstation 50 connects, and moreover, the bulk strength and the stability of the structure of an organic whole formation are higher, and it is more convenient to assemble, and the life-span is longer. Optionally, the laundry treating apparatus is a washing machine, a dryer or a washer-dryer.

Specifically, as shown in fig. 1, the workbench 50 of the laundry treatment apparatus has a laundry input opening 505, and when the workbench 50 is installed in the laundry treatment apparatus, the laundry input opening 505 is aligned with a drum opening of an inner drum of the laundry treatment apparatus, so as to facilitate input of laundry into the inner drum or removal of laundry from the inner drum.

As shown in fig. 1 to 2, a work table 50 of a laundry treating apparatus according to an embodiment of the present invention includes: a table connecting plate 501 and a table side plate 502.

The surface of the table attachment plate 501 is a non-exterior surface, that is, the surface of the table attachment plate 501 is not exposed when the table 50 is used in the laundry treating apparatus.

As shown in fig. 1-2 and 11g, the table side plate 502 extends in the circumferential direction of the table connecting plate 501, the table side plate 502 forms an angle with the table connecting plate 501, one end of the table side plate 502 in the width direction is connected to the outer circumferential wall of the table connecting plate 501, and the other end face of the table side plate 502 in the width direction is provided with at least one table gate forming area 5021 suitable for corresponding to a table gate of the table mold 5. Here, it can be understood that, of the one end and the other end in the width direction of the table side plate 502, the one end in the width direction of the table side plate 502 is one end connected to the table connecting plate 501, the other end in the width direction of the table side plate 502 is one end distant from the table connecting plate 501, and an end surface of the other end in the width direction of the table side plate 502 is provided with a table gate forming region 5021.

Specifically, after the workbench mold 5 is adopted to mold the workbench 50 through injection molding and the workbench 50 is demoulded from the workbench mold 5, a part of a material at the workbench gate of the workbench mold 5 is left on the workbench 50 and forms a workbench gate forming part, and the workbench gate forming area 5021 is an area where the workbench gate forming part is located. It is understood that the workbench 50 may be reprocessed to cut or partially cut the workbench gate forming portion, and certainly, the workbench gate forming portion of the workbench 50 may also be left unprocessed, that is, the workbench 50 has the workbench gate forming portion left, which is not particularly limited to this, and may be set according to actual needs of production.

The side surface of the workbench side plate 502 facing away from the workbench connecting plate 501 in the thickness direction is an appearance surface, that is, the outer peripheral wall of the workbench side plate 502 is an appearance surface, the inner peripheral wall of the workbench side plate 502 is a non-appearance surface, and the other end of the workbench side plate 502 in the width direction, that is, the end surface of the end far away from the workbench connecting plate 501 is a non-appearance surface. The external appearance surface means that the surface is exposed when used in the laundry treating apparatus. The non-exterior surface means that the surface is not exposed when used in the laundry treating apparatus.

The table side plate 502 has a table equal wall thickness region 5024, the table equal wall thickness region 5024 extends in the entire width direction of the table side plate 502, that is, the table equal wall thickness region 5024 extends to both ends of the table side plate 502 in the entire width direction of the table side plate 502, and the wall thickness at any position of the table equal wall thickness region 5024 is equal.

As shown in fig. 7-8, the workbench equal-wall-thickness region 5024 is provided with the workbench gate forming region 5021, that is, the workbench gate forming region 5021 is located at one end of the workbench equal-wall-thickness region 5024 away from the workbench connecting plate 501, the other regions of the workbench side plate 502 except the workbench equal-wall-thickness region 5024 are workbench variable-wall-thickness regions 5023, the wall thickness of the workbench equal-wall-thickness region 5024 is not less than (i.e., equal to or greater than) the maximum wall thickness of the workbench variable-wall-thickness region 5023, and the wall thickness of one end of the workbench variable-wall-thickness region 5023 away from the workbench connecting plate 501 is the smallest, that is, the wall thickness of one end of the workbench variable-wall-thickness region 5023 away from the workbench connecting plate 501 is the smallest along the width direction of the workbench side plate 502. Like this, can reduce the flow line of workstation curb plate 502 at least to a certain extent, prevent the flow line to appear at the outward appearance face of workstation curb plate 502 at least to a certain extent, improve the qualification rate of workstation curb plate 502 at least to a certain extent, reduce cost satisfies user's user demand.

In order to facilitate the explanation of the reason for reducing the flow lines on the outer surface of the table side plate 502, the table mold 5 for the forming table 50 according to the embodiment of the present invention is described below, and the reason for reducing the flow lines on the outer surface of the table side plate 502 is explained in principle in conjunction with the structure of the table mold 5.

As shown in fig. 12 and 14, a table mold 5 for a molding table 50 according to an embodiment of the present invention includes: a table core 51, the table core 51 having a table cavity. A column 514 for forming the clothes input opening 505 is arranged in the workbench cavity.

Specifically, as shown in fig. 13, the table cavity includes a table side plate cavity 512 and a table connecting plate cavity 511, the table side plate cavity 512 is used for forming the table side plate 502, and the table connecting plate cavity 511 is used for forming the table connecting plate 501.

The workbench side plate cavity 512 extends along the circumferential direction of the workbench connecting plate cavity 511, the workbench side plate cavity 512 and the workbench connecting plate cavity 511 have an included angle, one end of the workbench side plate cavity 512 in the width direction is communicated with the periphery of the workbench connecting plate cavity 511, the workbench mold core 5141 is provided with a workbench sprue located on the wall surface of the other end of the workbench side plate cavity 512 in the width direction, and one wall surface of the workbench side plate cavity 512 in the thickness direction is used for forming the appearance surface of the workbench side plate 502. Here, it can be understood that one end in the width direction of the table-side plate cavity 512 is an end communicating with the table connecting plate cavity 511, and the other end in the width direction of the table-side plate cavity 512 is an end away from the table connecting plate cavity 511.

The table side plate cavity 512 has a table equal-thickness region, a table gate is located in the table equal-thickness region, the table equal-thickness region extends in the entire width direction of the table side plate cavity 512, and the other region of the table side plate cavity 512 other than the table equal-thickness region is a table variable-thickness region 5121, as shown in fig. 15 to 16, the thickness of the table equal-thickness region is not less than (i.e., is greater than or equal to) the maximum thickness of the table variable-thickness region 5121, and the thickness of the end of the table variable-thickness region 5121 away from the table connecting plate cavity 511 is the smallest, that is, the thickness of the other end of the table variable-thickness region 5121 in the width direction along the table side plate cavity 512, that is, the end away from the table connecting plate cavity 511 is the smallest.

Specifically, during injection molding, in the material flowing process, hotter material melt enters a workbench cavity through a workbench pouring gate and then contacts with the inner wall of the cooler workbench cavity in the flowing process, and the material can be rapidly frozen on the inner wall of the workbench cavity to form a thin solidified layer. The arrangement of the metal particles in the solidified layer determines the appearance quality of the spray-free product, and stable flow can form consistent metal particle orientation to obtain better appearance. In this application, because the workstation runner is located the thickness region such as workstation, and the regional thickness of thickness such as workstation is not less than the maximum thickness of workstation thickness region 5121, when the material flows from the workstation runner of workstation mould 5 like this, the material can directly flow to the thickness region such as workstation, and be full of the thickness region such as workstation, later most material flows towards workstation thickness region 5121 from the regional both sides of workstation thickness such as workstation respectively along workstation curb plate die cavity 512, thereby be favorable to the material at workstation curb plate die cavity 512 shaping in advance, thereby can reduce the flow line of workstation curb plate die cavity 512 to a certain extent at least, prevent that the flow line from appearing the outward appearance face of workstation curb plate die cavity 512, improve the qualification rate of product, and the cost is reduced, and the user demand of user is satisfied.

And since the thickness of the end of the workbench variable thickness region 5121 far away from the workbench connecting plate cavity 511 is the smallest, that is, the thickness of the part (called large thickness part) of the workbench variable thickness region 5121 adjacent to the workbench connecting plate cavity 511 and directly communicated with the position where the thickness of the workbench variable thickness region 5121 is the smallest is inevitably larger than the thickness of the end of the workbench variable thickness region 5121 far away from the workbench connecting plate cavity 511, in the circumferential direction of the workbench connecting plate cavity 511, when a material flows, the material flows more easily at the large thickness part, the flow rate is faster, the material has a forward convex tendency at the large thickness part, there is a clear front edge flow at the large thickness part, the actual flow direction of the material at each point of the front edge surface is along the outward direction perpendicular to the tangent line of the front edge surface, so that the flow direction of each point of the front edge surface is divergent, can not intersect to just can not take place to curl and the upset, be favorable to avoiding the material of heavy gauge portion department and the material of little thickness portion department to a certain extent to curl and the upset in the position in the front edge, further guarantee the stability that the material flows, thereby reduce the flow line in the position department that corresponds with heavy gauge portion and little thickness portion of workstation curb plate 502, improve the yield of product at least to a certain extent, satisfy user's user demand.

The varying relationship of the table varying wall thickness region 5023 with respect to the table side plate 502 can exist in several ways:

the first method comprises the following steps: the wall thickness of the table variable wall thickness region 5023 gradually decreases in the direction from one end of the table side plate 502 in the width direction to the other end of the table side plate 502 in the width direction. Specifically, in the table mold 5, the thickness of the table variable thickness region 5121 is gradually reduced in the direction from one end in the width direction of the table side plate cavity 512 to the other end in the width direction of the table side plate cavity 512, so that when the material flows along the table side plate cavity 512 in the circumferential direction of the table connecting plate cavity 511, the material flows more easily at a position where the thickness is larger and the flow resistance is smaller based on the change in the thickness of the table variable thickness region 5121, and thus the leading surface of the material flow exhibits a slope as shown in fig. 17, and the actual flow direction of the material at each point of the leading surface is in the direction outward along the tangent line perpendicular to the leading surface, so that the flow directions of the points of the leading surface are divergent and do not meet, and thus curling and turning do not occur between the materials at the leading edge, the flow of material is more stable, like this, can further reduce the flow line of workstation curb plate 502, further prevent that the flow line from appearing in the outward appearance face of workstation curb plate 502, further improve the qualification rate of product, reduce cost satisfies user's user demand.

And the second method comprises the following steps: the wall thickness of the table variable wall thickness region 5023 first remains constant and then gradually decreases in the direction from one end of the table side plate 502 in the width direction to the other end of the table side plate 502 in the width direction. Specifically, in the table mold 5, the thickness of the table thick region 5121 is first kept constant and then gradually decreased in the direction from one end in the width direction of the table side plate cavity 512 to the other end in the width direction of the table side plate cavity 512, so that in the circumferential direction of the table connecting plate cavity 511, when the material flows, the material flows more easily at a position where the thickness is larger and the flow resistance is smaller based on the change in the thickness of the table thick region 5121, whereby a surface which is substantially parallel to the width direction of the table side plate cavity 512 at the same position as the thickness appears at the leading surface where the thickness is gradually decreased, a surface which is inclined toward the upstream of the flow of the material appears at a position where the thickness is gradually decreased, and the actual flow direction of the material at each point of the leading surface is an outward direction along a tangent line perpendicular to the leading surface, consequently, the each point flow direction on leading edge surface is dispersed, can not intersect to can not appear curling and upset each other between the material of leading edge department, the flow of material is more stable, like this, can further reduce the flow line of workstation curb plate 502, further prevent that the flow line from appearing in the outward appearance face of workstation curb plate 502, further improve the qualification rate of product, reduce cost satisfies user's user demand.

Third, the wall thickness of the table side plate 502 gradually increases and then gradually decreases in a direction from one end of the table side plate 502 in the width direction to the other end of the table side plate 502 in the width direction. Specifically, in the table mold 53, in the direction from one end in the width direction of the table side plate cavity 512 to the other end in the width direction of the table side plate cavity 512, the thickness of the table side plate cavity 512 is gradually increased and then gradually decreased, so that in the circumferential direction of the table connecting plate cavity 511, when the material flows, the material flows more easily at a position where the thickness is larger and the flow resistance is smaller based on the change in the thickness of the table variable thickness region 5121, so that the front convex type shown in fig. 18 is exhibited on the front surface where the material flows, the actual flow direction of the material at each point on the front surface is the outward direction perpendicular to the tangent to the front surface, so that the flow directions of each point on the front surface are divergent and do not meet, no curling or turning occurs between the materials at the front edge, and the flow of the material is more stable, therefore, the flow lines of the workbench side plate 502 can be further reduced, the flow lines are further prevented from appearing on the appearance surface of the workbench side plate 502, the qualification rate of products is further improved, the cost is reduced, and the use requirements of users are met.

Fourth, the wall thickness of the table variable wall thickness region 5023 first gradually increases, then remains unchanged, and then gradually decreases in a direction from one end of the table side plate 502 in the width direction to the other end of the table side plate 502 in the width direction. Specifically, in the table mold 5, in the direction from one end of the table side plate cavity 512 in the width direction to the other end of the table side plate cavity 512 in the width direction, the thickness of the table variable thickness region 5121 is gradually increased, then kept constant, and then gradually decreased, so that in the circumferential direction of the table connecting plate cavity 511, when the material flows, the material flows more easily at a position having a larger thickness and has a smaller flow resistance based on the change in the thickness of the table variable thickness region 5121, and thus a front convex type is presented on the front surface where the material flows, and the material does not curl or turn over each other at the front edge, and the flow of the material is more stable, so that the flow marks of the table side plate 502 can be further reduced, the flow marks are further prevented from appearing on the appearance surface of the table side plate 502, and the yield of the product is further improved, the cost is reduced, and the use requirements of users are met.

Therefore, compared to the prior art in which the front surface is concave as shown in fig. 21, the above-mentioned embodiment of the present application is more beneficial to reducing the flow lines of the side plate 502 of the workbench.

The greater the wall thickness, the faster the flow rate of the material will be described.

When the material is injected into the workbench die 5 under a certain condition, the temperature of the cold wall surface of the cavity of the workbench contacted by the material is sharply reduced, a solidified layer is generated, the flow area of the cavity of the workbench is reduced along with the increase of the thickness of the solidified layer, and therefore the thickness of the solidified layer has an important influence on the flow resistance. The relationship between the fluidity s and the thickness h of the cavity of the worktable 50 is given by the formula one:

wherein eta is_repIs the viscosity of the material.

From the flowability formula, the flowability s is proportional to the cube of the thickness h, for example, a fifty percent reduction in thickness reduces the flowability by one eighth, which equates to an eight-fold increase in flow resistance. Thus, the greater the thickness of the cavity and thus the lower the flow resistance, the better the flow and the faster the flow rate.

In short, according to the utility model discloses a workstation mould 5 for shaping table 50, because the workstation runner is located thickness region such as workstation to thickness region's such as workstation thickness is not less than the regional 5121 maximum thickness of workstation thickness, thereby is favorable to guaranteeing the stability that the material flows, thereby reduces the flow line at workstation curb plate 502, improves the yield of product to a certain extent at least, satisfies user's user demand.

According to the utility model discloses clothes treatment equipment's workstation 50, through locating wall thickness region 5024 such as workstation with workstation runner molding district 5021, the wall thickness of wall thickness region 5024 such as workstation is not less than the biggest wall thickness of workstation variable wall thickness region 5023 to be favorable to reducing the flow line of workstation curb plate 502, improve the yield of product at least to a certain extent, satisfy user's user demand.

The utility model discloses an in some embodiments, the value range of the biggest wall thickness of workstation variable wall thickness region 5023 is 2.5mm ~ 3.5mm, promptly in workstation mould 5, the value range of the biggest thickness of workstation variable thickness region 5121 is 2.5mm ~ 3.5 mm. From this, be favorable to guaranteeing the mobility of material in workstation thickness variation region 5121, guarantee that the material is full of whole workstation curb plate 502, reduce the flow line of workstation curb plate 502 at least to a certain extent, improve the yield of product to can also guarantee workstation curb plate 502's structural strength, can also prevent simultaneously because of setting up the product that leads to too thick with the wall thickness of workstation curb plate 502 bulky, the problem of extravagant material takes place.

For example, the maximum wall thickness of the variable wall thickness region 5023 of the worktable is 2.6m, 2.7m, 2.8m, 2.9m, 3.0m, 3.1mm, 3.2mm, 3.3mm, 3.4mm or 3.5 mm.

The utility model discloses an in some embodiments, the value range of the minimum wall thickness of workstation variable wall thickness region 5023 is 1.5mm ~ 2.5mm, promptly in workstation mould 5, the value range of the minimum thickness of workstation variable thickness region 5121 is 1.5mm ~ 2.5 mm. From this, be favorable to guaranteeing the mobility of material in workstation thickness variation region 5121, guarantee that the material is full of whole workstation curb plate 502, reduce the flow line of workstation curb plate 502 at least to a certain extent, improve the yield of product to can also guarantee workstation curb plate 502's structural strength.

For example, the minimum wall thickness of the variable wall thickness region 5023 of the workbench is 1.6mm, 1.7mm, 1.8mm, 1.9mm, 2.0mm, 2.2mm, 2.3mm, or 2.4 mm.

In some specific examples, the wall thickness of the table variable wall thickness region 5023 is gradually reduced and gradually changed from 2.8mm to 1.6mm in a direction from one end of the table side plate 502 in the width direction to the other end of the table side plate 502 in the width direction.

In some embodiments of the present invention, the wall thickness of the end of the work table connecting plate 501 connected to the work table side plate 502 is not greater than the wall thickness of the end in the width direction of the work table side plate 502. Specifically, in the table mold 5, the thickness of the end of the table connecting plate cavity 511 that is connected to the table side plate cavity 512 is not greater than the thickness of the end of the table side plate cavity 512 in the width direction. From this, be favorable to more materials can directly to flow to workstation curb plate die cavity 512, further guarantee the stable flow of material, reduce the hindrance that the material flows to reduce the flow line of workstation curb plate 502 department.

In some embodiments of the present invention, the wall thickness of the end of the connecting plate 501 connected to the side plate 502 is smaller than the wall thickness of the end in the width direction of the side plate 502. Specifically, in the table mold 5, the thickness of the end of the table connecting plate cavity 511 that is continuous with the table side plate cavity 512 is smaller than the thickness of the end of the table side plate cavity 512 in the width direction. From this, be favorable to more materials can directly to flow to workstation curb plate die cavity 512, further guarantee the stable flow of material, reduce the hindrance that the material flows, reduce the flow line of workstation curb plate 502 department.

In some embodiments of the present invention, the wall thickness of the working platform connecting plate 501 is smaller than the wall thickness of the end of the working platform side plate 502 connected to the working platform connecting plate 501. Specifically, in the table mold 5, the thickness of the table connecting plate cavity 511 is smaller than the thickness of the end of the table side plate cavity 512 communicating with the table connecting plate cavity 511. From this, be favorable to more materials can directly to flow to workstation curb plate die cavity 512, further guarantee the stable flow of material, reduce the hindrance that the material flows, reduce the flow line of workstation curb plate 502 department.

In some embodiments of the present invention, the wall thickness of the table connecting plate 501 is less than the wall thickness of the table side plate 502. That is, the wall thickness of the table attachment plate 501 is smaller than the minimum wall thickness of the table side plate 502. From this, be favorable to more materials can directly to flow to workstation curb plate die cavity 512, further guarantee the stable flow of material, reduce the hindrance that the material flows, reduce the flow line of workstation curb plate 502 department.

In some embodiments of the present invention, the range of the wall thickness of the connecting plate 501 is 0.8 mm-2.2 mm. For example, the wall thickness of the table connecting plate 501 is 0.9mm, 1.0mm, or 1.1 mm.

In the workbench die 5, the thickness of the workbench connecting plate cavity 511 ranges from 0.8mm to 2.2 mm. For example, the thickness of the table connecting plate cavity 511 is 0.9mm, 1.0 mm. Therefore, more materials can flow and be molded in the workbench side plate cavity 512 preferentially, and the appearance attractiveness of the workbench side plate 502 is improved.

In some embodiments of the present invention, the work table 50 includes: the throwing table 503 is connected with the outer peripheral wall of the workbench connecting plate 501, the workbench side plate 502 and the throwing table 503 are arranged along the circumferential direction of the workbench connecting plate 501, two ends of the workbench side plate 502 along the circumferential direction of the workbench connecting plate 501 are correspondingly connected with two ends of the throwing table 503 along the circumferential direction of the workbench connecting plate 501, the throwing table 503 is provided with the clothes throwing port 505, and the inner peripheral wall of the clothes throwing port 505, the outer peripheral surface of the throwing table 503 and the top surface of the throwing table 503 are all appearance surfaces. Therefore, the structure is simple, and the arrangement of the clothes throwing-in opening 505 is convenient for throwing the clothes into the drum opening or taking the clothes away from the inner drum.

In some embodiments of the present invention, as shown in fig. 5, a plurality of spaced apart table barrier holes 5011 are provided on the table connecting plate 501, the table barrier holes 5011 penetrate the table connecting plate 501 in the thickness direction of the table connecting plate 501, the table gate forming region 5021 adapted to correspond to the table gates of the table molds 5 is not provided on the table connecting plate 501, a part of the plurality of table barrier holes 5011 is provided adjacent to the table side plate 502 (for example, the minimum distance between the table barrier hole 5011 adjacent to the table side plate 502 and the table side plate 502 is not more than 20mm, further 10mm, 5mm or 0mm) and the rest of the plurality of table barrier holes 5011 is provided adjacent to the drop table 503 (for example, the minimum distance between the table barrier hole 5011 adjacent to the drop table 503 and the drop table 503 is not more than 20mm, further 10mm, 5mm or 0 mm). For example, a plurality of table dam holes 5011 are spaced apart throughout the circumference of the table attachment plate 501.

Specifically, as shown in fig. 14, the workbench cavity includes a feeding table cavity 513, the feeding table cavity 513 is communicated with the periphery of the workbench connecting plate cavity 511, the feeding table cavity 513 and the workbench side plate cavities 512 are arranged in the circumferential direction of the workbench connecting plate cavity 511, both ends of the workbench side plate cavities 512 in the circumferential direction of the workbench connecting plate cavity 511 are communicated with the feeding table cavity 513, a columnar body 514 for forming the clothes feeding port 505 is provided in the feeding table cavity 513, the workbench mold core 51 does not have a workbench gate in the workbench connecting plate cavity 511, a workbench columnar body structure for forming the workbench blocking hole 5011 is provided in the workbench connecting plate cavity 511, the workbench 50 columnar body structure extends in the whole thickness direction of the workbench connecting plate cavity 511, a part of the plurality of workbench 50 columnar body structures is provided adjacent to the workbench side plate cavities 512 (for example, the minimum distance between the table 50 cylinder structure adjacent to the table side plate cavity 512 and the table side plate cavity 512 is no greater than 20mm, further 10mm, 5mm, or 0mm) and the remainder of the plurality of table 50 cylinder structures are disposed adjacent to the drop table cavity 513 (e.g., the minimum distance between the table 50 cylinder structure adjacent to the drop table cavity 513 and the drop table cavity 513 is no greater than 20mm, further 10mm, 5mm, or 0 mm).

In the workbench mold 5, since the workbench gate is located on the wall surface of the workbench side plate cavity 512 far away from the workbench connecting plate cavity 511, the material flows through the workbench side plate cavity 512 first when flowing out from the workbench gate, and then flows to the workbench connecting plate cavity 511 and the feeding platform cavity 513, on one hand, the plurality of workbench pillar structures arranged adjacent to the workbench side plate cavity 512 can prevent the material flowing to the workbench connecting plate cavity 511, thereby being beneficial to preferentially molding more materials in the workbench side plate cavity 512, and also preventing the material located in the workbench connecting plate cavity 511 from flowing back to the workbench side plate cavity 512 to prevent the material from intersecting with the material originally located in the workbench side plate cavity 512, thereby further preventing the formation of flow lines on the workbench side plate 502.

Moreover, the material of the side plate cavity 512 of the workbench can further flow to the feeding table cavity 513, and the column structure of the plurality of workbenches 50 arranged adjacent to the feeding table cavity 513 can prevent the material flowing to the connecting plate cavity 511 of the workbench, so as to facilitate the molding of more material in the feeding table cavity 513, and prevent the material in the connecting plate cavity 511 of the workbench from flowing back to the feeding table cavity 513, so as to prevent the material in the feeding table cavity 513 from meeting the material in the feeding table cavity 513, thereby further preventing the flow pattern from being formed on the feeding table 503.

In some embodiments of the present invention, as shown in fig. 1-4, the drop platform 503 comprises: a U-shaped peripheral side plate 5031, an annular ring plate 5032, and a U-shaped top plate 5033. The circumferential two ends of the outer peripheral side plate 5031 are respectively connected with the circumferential two ends of the workbench side plate 502 along the circumferential direction of the workbench connecting plate 501 in a one-to-one correspondence manner, the ring plate 5032 is positioned inside the outer peripheral side plate 5031, a part of the upper end of the outer peripheral wall of the ring plate 5032 is connected with the outer peripheral wall of the workbench connecting plate 501, the ring plate 5032 defines a clothes throwing opening 503, the top plate 5033 is connected between the rest part of the upper end of the outer peripheral wall of the ring plate 5032 and the upper end of the inner peripheral wall of the outer peripheral side plate 5031, and the end faces of the top plate 5033 along the circumferential two ends thereof are positioned on the radial two sides of the ring plate 5032 and are connected with the workbench connecting plate 501. Accordingly, the inner peripheral wall of the ring plate 5032, the outer peripheral surface of the outer peripheral side plate 5031, and the top surface of the top plate 5033 are both external surfaces.

Specifically, in the table mold 5, the placing table cavity 513 includes a U-shaped outer peripheral side plate cavity 5131, an annular ring plate cavity 5132, and a U-shaped top plate cavity 5133. The two circumferential ends of the outer-circumference-side plate-shaped cavity 5131 are respectively communicated with the two circumferential ends of the workbench side-plate cavity 512 along the workbench connecting plate cavity 511 in a one-to-one correspondence manner, the ring plate cavity 5132 is positioned on the inner circumference of the outer-circumference-side plate-shaped cavity 5131, a part of the outer circumference of one axial end of the ring plate cavity 5132 is directly communicated with the outer circumference of the workbench connecting plate cavity 511, the outer circumferential wall of the columnar body 514 is the inner circumferential wall of the ring plate cavity 5132, the top plate cavity 5133 is communicated between the rest of the outer circumference of one axial end of the ring plate cavity 5132 and the upper end of the inner circumference of the outer-circumference-side plate-shaped cavity 5131, and the two circumferential ends of the top plate cavity 5133 are positioned on the two radial sides of the ring plate cavity 5132 and are both communicated with the workbench connecting plate cavity 511.

In some embodiments of the present invention, the wall thickness of the end of the outer peripheral side plate 5031 remote from the top plate 5033 is smallest in a direction from the end of the outer peripheral side plate 5031 connected to the top plate 5033 to the other end of the outer peripheral side plate 5031, i.e., in the width direction of the table side plate 502.

There may be several ways of relating the wall thickness variation of the outer peripheral side plate 5031: the first method comprises the following steps: the wall thickness of the outer peripheral side plate 5031 gradually decreases in a direction from one end of the outer peripheral side plate 5031, which is connected to the top plate 5033, to the other end of the outer peripheral side plate 5031. And the second method comprises the following steps: the wall thickness of the outer peripheral side plate 5031 is first kept constant and then gradually reduced in a direction from one end of the outer peripheral side plate 5031, which is connected to the top plate 5033, to the other end of the outer peripheral side plate 5031. Thirdly, the wall thickness of the outer peripheral side plate 5031 gradually increases and then gradually decreases in a direction from one end of the outer peripheral side plate 5031 connected to the top plate 5033 to the other end of the outer peripheral side plate 5031. Fourth, the wall thickness of the outer peripheral side plate 5031 gradually increases, then remains constant, and then gradually decreases in a direction from the end of the outer peripheral side plate 5031 that is connected to the top plate 5033 to the other end of the outer peripheral side plate 5031. Therefore, compared with the workbench connecting plate 501, the forming of the outer peripheral side plate 5031 is facilitated preferentially, so that the materials are beneficial to finally meet in the workbench connecting plate cavity 511, the materials are prevented from meeting in the outer peripheral side plate 5031, and then the generation of flow lines on the outer peripheral side plate 5031 is avoided.

In some embodiments of the present invention, the maximum wall thickness of the outer peripheral side plate 5031 ranges from 2.5mm to 3.5mm, i.e., the maximum thickness of the outer peripheral side plate 5031 ranges from 2.5mm to 3.5 mm. Therefore, the fluidity of the material on the outer peripheral side plate 5031 is ensured, the material is ensured to fill the whole outer peripheral side plate 5031, the flow lines of the outer peripheral side plate 5031 are reduced at least to a certain extent, the yield of the product is improved, the structural strength of the workbench 50 can be ensured, and the problems of large product volume and material waste caused by the fact that the wall thickness of the outer peripheral side plate 5031 is too thick can be prevented.

For example, the maximum wall thickness of the outer peripheral side plate 5031 is 2.6m, 2.7m, 2.8m, 2.9m, 3.0m, 3.1mm, 3.2mm, 3.3mm, 3.4mm, or 3.5 mm.

In some embodiments of the present invention, the minimum wall thickness of the outer peripheral side plate 5031 ranges from 1.5mm to 2.5mm, i.e., the minimum wall thickness of the outer peripheral side plate 5031 ranges from 1.5mm to 2.5 mm. Therefore, the fluidity of the material on the outer peripheral side plate 5031 is ensured, the material is ensured to fill the whole outer peripheral side plate 5031, the flow lines of the outer peripheral side plate 5031 are reduced at least to a certain extent, the yield of the product is improved, and the structural strength of the workbench 50 can be ensured.

For example, the minimum wall thickness of the outer peripheral side plate 5031 is 1.6mm, 1.7mm, 1.8mm, 1.9mm, 2.0mm, 2.2mm, 2.3mm, or 2.4 mm.

In some specific examples, the wall thickness of the outer peripheral side plate 5031 gradually decreases and is gradually changed from 2.8mm to 1.6mm in a direction from one end of the outer peripheral side plate 5031 connected to the top plate 5033 to the other end of the outer peripheral side plate 5031.

In some embodiments of the present invention, the wall thickness of the outer peripheral side plate 5031 is the same as the wall thickness of the variable wall thickness region 5023 of the workbench, and the wall thickness variation relationship is the same. Specifically, in the table die 5, the thickness of the outer-peripheral-side plate-shaped cavity 5131 is the same as that of the table variable-thickness region 5123, and the relationship of the wall thickness variation is the same.

In some embodiments of the present invention, as shown in fig. 11k and 11h, an end of the outer peripheral side plate 5031 remote from the top plate 5033 is provided with an outer peripheral side plate gate forming area 50311. Specifically, in the table mold 5, the table core has an outer peripheral side plate gate located at one end of the outer peripheral side plate cavity 5131 remote from the top plate cavity 5133. Thus, the molding of the outer peripheral side plate 5031 is facilitated, and the flow marks of the outer peripheral side plate 5031 are reduced.

In some embodiments of the present invention, the thickness of the top plate 5033 has a value ranging from 2.3mm to 3.3mm, which corresponds to the thickness of the top plate cavity 5133 in the table mold 5, ranging from 2.3mm to 3.3 mm. For example, the wall thickness of the top plate 5033 is 2.4mm, 2.5mm, 2.6mm, 2.7mm, 2.8mm, 2.9mm, 3.0mm, 3.1mm, or 3.2 mm. Thereby, it is advantageous to secure the structural strength of the roof 5033 and to facilitate the molding of the roof 5033.

In some embodiments of the invention, the top plate 5033 is of uniform wall thickness. Thus, the mold structure can be simplified.

Alternatively, the wall thickness of the top plate 5033 is not less than the maximum wall thickness of the outer peripheral side plate 5031 and not less than the wall thickness of the collar plate 5032. Thereby, molding of the top plate 5033 is more facilitated.

In some embodiments of the present invention, the ring plate 5032 is a ring plate 5032 with equal wall thickness, i.e., the ring plate cavity 5132 is of equal thickness. Thus, the mold structure can be simplified.

Optionally, the wall thickness of the ring plate 5032 ranges from 1.6mm to 2.8 mm. Thus, the structural strength of the ring plate 5032 can be ensured, and the rapid filling of the fluid can be ensured.

In other embodiments of the present invention, as shown in fig. 11 b-11 f, the ring plate 5032 is a ring plate 5032 with a variable wall thickness, the non-exterior surface of the ring plate 5032 is provided with ring plate gate forming areas 50321 adapted to correspond to the ring plate gates of the platen die 5, and at least one ring plate gate forming area 50321 is provided at an end of the ring plate 5032 away from the top plate 5033. The ring plate 5032 has a ring plate equal wall thickness region that extends in the entire axial direction of the ring plate 5032, that is, in the entire axial direction of the ring plate 5032, the ring plate equal wall thickness region extends to both axial ends of the ring plate, and the wall thickness at any position of the ring plate equal wall thickness region is equal.

The ring plate equal-wall-thickness area is provided with a ring plate gate forming area 50321, the other areas except the ring plate equal-wall-thickness area of the ring plate 5032 are ring plate variable-wall-thickness areas, the wall thickness of the ring plate equal-wall-thickness area is not smaller than (namely equal to or larger than) the maximum wall thickness of the ring plate variable-wall-thickness area, and the wall thickness of one end of the ring plate variable-wall-thickness area, which is far away from the top plate 5033, is the minimum. Thus, the flow marks of the ring plate 5032 can be reduced to at least a certain degree, the flow marks can be prevented from appearing on the appearance surface of the ring plate 5032 to at least a certain degree, the yield of the ring plate 5032 can be improved to at least a certain degree, the cost can be reduced, and the use requirements of users can be met. The flow reducing mechanism of the ring plate 5032 is similar to that of the side plate 502, and will not be described in detail.

In some embodiments of the present invention, the wall thickness of the loop plate region of varying wall thickness decreases in a direction from the end of the loop plate 5032 adjacent the top plate 5033 to the end of the loop plate 5032 distal from the top plate 5033. Thus, the flow marks of the ring plate 5032 can be further reduced, the flow marks can be further prevented from appearing on the appearance surface of the ring plate 5032, the product yield can be further improved, the cost can be reduced, and the use requirements of users can be met.

In some embodiments of the present invention, the wall thickness of the region of varying wall thickness of the loop plate 5032 remains constant and then decreases in a direction from the end of the loop plate 5032 adjacent the top plate 5033 to the end of the loop plate 5032 remote from the top plate 5033. Thus, the flow marks of the ring plate 5032 can be further reduced, the flow marks can be further prevented from appearing on the appearance surface of the ring plate 5032, the product yield can be further improved, the cost can be reduced, and the use requirements of users can be met.

In some embodiments of the present invention, the wall thickness of the region of varying wall thickness of the loop plate first gradually increases and then gradually decreases in a direction from the end of the loop plate 5032 adjacent the top plate 5033 to the end of the loop plate 5032 distal from the top plate 5033. Thus, the flow marks of the ring plate 5032 can be further reduced, the flow marks can be further prevented from appearing on the appearance surface of the ring plate 5032, the product yield can be further improved, the cost can be reduced, and the use requirements of users can be met.

In some embodiments of the present invention, the wall thickness of the region of varying wall thickness of the loop plate first gradually increases, then remains constant, and then gradually decreases in a direction from the end of the loop plate 5032 adjacent the top plate 5033 to the end of the loop plate 5032 distal from the top plate 5033. Thus, the flow marks of the ring plate 5032 can be further reduced, the flow marks can be further prevented from appearing on the appearance surface of the ring plate 5032, the product yield can be further improved, the cost can be reduced, and the use requirements of users can be met.

In some embodiments of the present invention, the size of the ring plate equal wall thickness area ranges from 10mm to 50mm in the circumferential direction of the ring plate 5032. For example, the length dimension of the wall thickness region of the loop plate or the like is 11mm, 12mm, 13mm, 14mm, 15mm, 16mm, 17mm, 18mm, 19mm, 20mm, 21mm, 22mm, 23mm, 24mm, 25mm, 26mm, 27mm, 28mm, 29mm, 30mm, 31mm, 32mm, 33mm, 34mm, 35mm, 36mm, 37mm, 38mm, 39mm, 40mm, 41mm, 42mm, 43mm, 44mm, 45mm, 46mm, 47mm, 48mm, or 49 mm.

In some embodiments of the present invention, the ring plate gate molding area 50321 is located at the center of the end of the wall thickness area of the ring plate 5032 away from the top plate in the circumferential direction of the ring plate 5032. Thus, in the workbench mold 5, in the circumferential direction of the ring plate cavity 5132, the ring plate gate is located at the center of the equal thickness area of the ring plate, so that the material can be more conveniently filled in the entire equal thickness area of the ring plate preferentially.

In some embodiments of the present invention, as shown in fig. 9-11, at least one of the inner peripheral wall of the outer peripheral side plate 5031, the inner peripheral wall of the table side plate 502 and the outer peripheral wall of the ring plate 5032 is provided with a reinforcing rib, wherein the inner peripheral wall of the outer peripheral side plate 5031, the surface of the table side plate 502 facing the drop table 503 and the outer peripheral wall of the ring plate 5032 are all non-exterior surfaces. That is, the reinforcing ribs may be provided only on the inner peripheral wall of the outer peripheral side plate 5031, the reinforcing ribs may be provided only on the surface of the table side plate 502 facing the drop table 503, the reinforcing ribs may be provided only on the outer peripheral wall of the ring plate 5032, the reinforcing ribs may be provided on the inner peripheral wall of the outer peripheral side plate 5031 and the surface of the table side plate 502 facing the drop table 503, the reinforcing ribs may be provided on the inner peripheral wall of the outer peripheral side plate 5031 and the outer peripheral wall of the ring plate 5032, the reinforcing ribs may be provided on the surface of the panel drop table 503 of the table side plate 502 and the outer peripheral wall of the ring plate 5032, or the reinforcing ribs may be provided on the inner peripheral wall of the outer peripheral side plate 5031, the surface of the table side plate 502 facing the drop table 503, and the outer peripheral wall of the ring plate 5032. By providing the reinforcing ribs, the structural strength of the table 50 is advantageously improved.

Specifically, in the table mold 5, the table cavity includes: and at least one of the inner periphery of the outer peripheral side plate cavity 5131, the inner periphery of the table side plate cavity 512 and the outer periphery of the ring plate cavity 5132 is communicated with the reinforcing rib cavity.

In some embodiments of the present invention, the part with the reinforcing ribs is referred to as a carrier part, at least one reinforcing rib disposed on the carrier part is a workbench connecting rib 504, the workbench connecting rib 504 includes a workbench connecting rib body and a workbench connecting portion, and the workbench connecting portion is connected between the workbench connecting rib body and the carrier part. Specifically, in the workbench mold 5, the structure communicated with the reinforcing rib cavity is referred to as a carrier part cavity, at least one reinforcing rib cavity communicated with the carrier part cavity is a workbench connecting rib cavity, one side wall surface of the carrier part cavity (for example, a workbench side plate cavity 512) in the thickness direction is used for forming the appearance surface of the carrier part, the workbench connecting rib cavity is located on the other side wall surface of the carrier part cavity in the thickness direction and is communicated with the carrier part cavity, the workbench connecting rib cavity comprises a workbench connecting rib body cavity and a workbench connecting part cavity which are communicated, and the workbench connecting part cavity is communicated between the workbench connecting rib body cavity and the carrier part cavity.

Optionally, the thickness of the workbench connecting part is smaller than the thickness of the end of the workbench connecting rib body connected with the workbench connecting part. In the workbench die 5, the thickness of the cavity of the workbench connecting part is smaller than that of one end of the cavity of the workbench connecting rib body, which is communicated with the cavity of the workbench connecting part. Particularly, when moulding plastics, because the wall of workstation splice bar 504 die cavity does not have the runner, the material when the 50 die cavities of workstation flow, can at first flow through carrier part die cavity, flow to workstation splice bar die cavity behind carrier part die cavity, and through making the thickness of workstation connecting portion die cavity be less than the thickness of workstation splice bar body die cavity, can avoid forming unstable flow field at the intercommunication department of workstation splice bar die cavity and carrier part die cavity at least to a certain extent, the material that avoids workstation splice bar body die cavity at least to a certain extent flows back to carrier part die cavity through workstation connecting portion die cavity and the material that leads to crosses, thereby avoid the flow line problem that produces with workstation splice bar 504 junction in carrier part die cavity.

Optionally, the thickness of the workbench connecting part is smaller than that of the workbench connecting rib body. From this, can avoid forming unstable flow field at the intercommunication department of workstation splice bar 504 die cavity and carrier part die cavity to a certain extent at least, avoid the material of workstation splice bar body die cavity to flow back to carrier part die cavity and the material that leads to at least to a certain extent through workstation connecting portion die cavity and intersect to avoid the flow line problem that produces at the department that links to each other with workstation splice bar 504 of carrier part die cavity.

Optionally, a portion of a surface of the table link facing the carrier piece is recessed away from the carrier piece to form a table through-hole 50421, the table through-hole 50421 penetrating the table link in a thickness direction of the table link. Specifically, the table connecting portion cavity is provided with a table pillar structure for forming the table penetrating hole 50421 corresponding to the table mold 5, and the table pillar structure extends in the entire thickness direction of the table connecting portion cavity. Like this, because workstation splice bar die cavity does not have the runner, the material when the workstation die cavity flows, can at first flow through carrier part die cavity, flow to workstation splice bar die cavity behind carrier part die cavity, and through setting up workstation stand structure, workstation stand structure can reduce the flow area of material from workstation splice bar die cavity and carrier part die cavity intercommunication department, can avoid forming unstable flow field at workstation splice bar die cavity and the intercommunication department of carrier part die cavity at least to a certain extent, the material that avoids workstation splice bar body die cavity at least to a certain extent flows back to carrier part die cavity through workstation connecting portion die cavity and the material that leads to intersects, thereby avoid the flow line problem that produces with workstation splice bar 504 junction at the carrier.

In some embodiments of the present invention, the thickness of the table connecting portion is less than the thickness of the carrier member. Specifically, in the table mold 5, the thickness of the table connecting portion cavity is smaller than the thickness of the carrier piece cavity. Therefore, the material is more favorable for preferentially molding the carrier piece.

The utility model discloses an in some embodiments, the value scope of the wall thickness of wall thickness region 5024 such as workstation is 2.3 ~ 3.2mm, from this, is favorable to the material to be filled fast.

The utility model discloses a few embodiments, in workstation connecting plate 501's week, the value scope of the size of workstation equal wall thickness region 5024 is 10mm ~ 50 mm. For example, the length dimension of the platen equal wall thickness region 5024 is 11mm, 12mm, 13mm, 14mm, 15mm, 16mm, 17mm, 18mm, 19mm, 20mm, 21mm, 22mm, 23mm, 24mm, 25mm, 26mm, 27mm, 28mm, 29mm, 30mm, 31mm, 32mm, 33mm, 34mm, 35mm, 36mm, 37mm, 38mm, 39mm, 40mm, 41mm, 42mm, 43mm, 44mm, 45mm, 46mm, 47mm, 48mm, or 49 mm.

In some embodiments of the present invention, in the circumferential direction of the workbench connecting plate 501, the workbench gate forming area 5021 is located at the center of the one end of the equal-wall-thickness area 5024 of the workbench, which is far away from the workbench connecting plate 501. Thus, in the table mold 5, the table gate is located at the center of the equal-thickness region of the table 50 in the circumferential direction of the table connecting plate cavity 51, so that it is more convenient for the material to preferentially fill the entire equal-thickness region of the table 50.

According to the utility model discloses clothes treatment equipment, including foretell workstation 50.

According to the utility model discloses clothing treatment equipment, through setting up foretell workstation 50, through locating wall thickness region 5024 such as workstation with workstation runner shaping district 5021, the wall thickness of wall thickness region 5024 such as workstation is not less than the biggest wall thickness of workstation variable wall thickness region 5023 to be favorable to reducing the flow line of workstation curb plate 502, improve the yield of product at least to a certain extent, satisfy user's user demand.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "the first feature" and "the second feature" may include one or more of the features.

In the description of the present invention, "a plurality" means two or more. In the description of the present invention, the first feature "on" or "under" the second feature may include the first and second features being in direct contact, and may also include the first and second features being in contact with each other not directly but through another feature therebetween. In the description of the invention, the first feature being "on", "above" and "above" the second feature includes the first feature being directly above and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature.

Other configurations of the laundry treating apparatus according to the embodiment of the present invention, such as the motor and the control system, etc., and operations are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (32)

1. The utility model provides a workstation of clothing treatment facility, its characterized in that, workstation injection moulding spare as an organic whole, the workstation has the clothing and puts in the mouth, the workstation includes:

the workstation curb plate, one side surface of workstation curb plate thickness direction is the outward appearance face, the workstation curb plate has width direction's one end and the other end, the width direction's of workstation curb plate other end terminal surface is equipped with at least one workstation runner molding district that is suitable for and corresponds with the workstation runner of workstation mould, the workstation curb plate has wall thickness regions such as workstation, wall thickness regions such as workstation are in the whole width direction extension of workstation curb plate, wall thickness regions such as workstation are equipped with workstation runner molding district, the workstation curb plate other regions such as workstation outside the wall thickness region become the wall thickness region for the workstation, the wall thickness in wall thickness regions such as workstation is not less than the regional maximum wall thickness of workstation variable wall thickness.

2. The workbench according to claim 1, comprising: the workstation connecting plate, the surface of workstation connecting plate is non-outward appearance face, the width direction's of workstation curb plate one end with the periphery wall of workstation connecting plate links to each other, the workstation curb plate is in extend in the circumference of workstation connecting plate, deviating from of workstation curb plate thickness direction a side surface of workstation connecting plate is outward appearance face, follows the width direction of workstation curb plate, the regional keeping away from of workstation variable wall thickness the wall thickness of the one end of workstation connecting plate is minimum.

3. The table of laundry processing apparatus according to claim 2, wherein the wall thickness of the table variable wall thickness region is gradually decreased in a direction from the one end of the table side plate in the width direction to the other end of the table side plate in the width direction; alternatively, the wall thickness of the table variable-wall-thickness region is gradually increased and then gradually decreased in a direction from the one end of the table side plate in the width direction to the other end of the table side plate in the width direction.

4. The workbench according to the clothes treatment apparatus of claim 2, wherein the maximum wall thickness of the variable wall thickness region of the workbench ranges from 2.5mm to 3.5 mm; and/or the minimum wall thickness of the variable wall thickness area of the workbench ranges from 1.5mm to 2.5 mm.

5. The workbench according to claim 2, wherein the workbench connecting plate has a wall thickness smaller than that of an end of the workbench side plate connected thereto.

6. The workbench according to claim 2, wherein the wall thickness of the workbench connecting plate ranges from 0.8mm to 2.2 mm.

7. The table of laundry treating apparatus according to claim 2, wherein the table comprises: put in the platform, put in the platform with the periphery wall of workstation connecting plate links to each other, the workstation curb plate with put in the platform edge the circumference of workstation connecting plate is arranged, the edge of workstation curb plate the both ends of the circumference of workstation connecting plate all with put in the platform and link to each other, it has to put in the platform the mouth is put in to the clothing, the clothing put in the internal perisporium of mouth the outer peripheral face of putting in the platform and the top surface of putting in the platform is the outward appearance face, be equipped with a plurality of workstation separation holes on the workstation connecting plate, it is a plurality of one of them part in the workstation separation hole is neighbouring the workstation curb plate sets up and a plurality of all the other parts in the workstation separation hole are neighbouring put in the platform setting.

8. The workbench according to claim 7, wherein the minimum distance of the workbench obstructing hole adjacent to the workbench side plate from the workbench side plate is less than or equal to 20 mm; and/or the minimum distance between the workbench obstructing hole adjacent to the throwing platform and the throwing platform is less than or equal to 20 mm.

9. The workbench according to claim 7, wherein said drop table comprises:

the two circumferential ends of the outer peripheral side plate are respectively connected with the two circumferential ends of the workbench side plate along the workbench connecting plate in a one-to-one correspondence manner;

the annular ring plate is positioned on the inner side of the peripheral side plate, one part of the upper end of the peripheral wall of the ring plate is connected with the peripheral wall of the workbench connecting plate, and the ring plate defines the clothes throwing-in opening;

the roof of U-shaped, the roof is connected the rest of the upper end of the periphery wall of collar plate with between the upper end of the internal perisporium of periphery curb plate, the terminal surface at the both ends of its circumference of edge of roof is located the radial both sides of collar plate and all with the workstation connecting plate links to each other.

10. The workbench according to claim 9, wherein the wall thickness of the outer peripheral side plate is the same as that of the variable wall thickness region of the workbench, and the wall thickness variation relationship is the same.

11. The workbench according to claim 9, wherein the wall thickness of the top plate ranges from 2.3mm to 3.3 mm.

12. The workbench according to claim 9, wherein said collar is of uniform wall thickness.

13. The workbench according to claim 9, wherein at least one of the inner peripheral wall of the outer peripheral side plate, the inner peripheral wall of the workbench side plate and the outer peripheral wall of the ring plate is provided with a reinforcing rib.

14. The workbench according to claim 13, wherein a part provided with said reinforcing ribs is referred to as a carrier member, at least one of said reinforcing ribs provided on said carrier member is a workbench connecting rib, said workbench connecting rib comprises a workbench connecting rib body and a workbench connecting portion, said workbench connecting portion is connected between said workbench connecting rib body and said carrier member;

the thickness of the workbench connecting part is smaller than that of one end of the workbench connecting rib body connected with the workbench connecting part; and/or a part of the surface of the workbench connecting part facing the carrier part is recessed towards the direction far away from the carrier part to form a workbench through hole which penetrates through the workbench connecting part in the thickness direction of the workbench connecting part.

15. The workbench according to claim 14, wherein the workbench connecting portion has a thickness smaller than the thickness of the carrier member.

16. The workbench according to any of claims 1 through 15, wherein the workbench is a spray-free piece comprising a resin matrix and metal particles distributed therein.

17. A laundry treating apparatus, characterized by comprising a table of the laundry treating apparatus according to any one of claims 1-16.

18. A table die for forming a table of a laundry treating apparatus, comprising:

the workbench die core is provided with a workbench die cavity, a columnar body for forming a clothes throwing opening is arranged in the workbench die cavity, the workbench die cavity comprises a workbench side plate die cavity, the workbench side plate die cavity is provided with one end and the other end along the width direction, one side wall surface of the workbench side plate die cavity in the thickness direction is used for forming the appearance surface of a workbench side plate, the workbench die core is provided with a workbench sprue which is positioned on the other end wall surface of the workbench side plate die cavity in the width direction, the workbench side plate die cavity is provided with regions with equal thickness of a workbench, the regions with equal thickness of the workbench extend in the whole width direction of the workbench side plate die cavity, the workbench sprue is positioned in the regions with equal thickness of the workbench, and other regions of the workbench side plate die cavity outside the regions with equal thickness of the workbench are regions with variable thickness of the workbench, the thickness of the equal-thickness area of the workbench is not less than the maximum thickness of the variable-thickness area of the workbench.

19. The table mold for molding a table of a laundry processing apparatus according to claim 18, wherein the table cavity includes a table connecting plate cavity, the table side plate cavity extends in a circumferential direction of the table connecting plate cavity, one end in a width direction of the table side plate cavity communicates with an outer periphery of the table connecting plate cavity, and a thickness of an end of the table variable thickness region, which is away from the table connecting plate cavity, is smallest in the width direction of the table side plate cavity.

20. The table mold for molding the table of the laundry treating apparatus according to claim 19, wherein the thickness of the table variable thickness region is gradually reduced in a direction from the one end of the table side plate cavity in the width direction to the other end of the table side plate cavity in the width direction; or, in a direction from the one end of the table side plate cavity in the width direction to the other end of the table side plate cavity in the width direction, the thickness of the variable thickness region of the table is gradually increased and then gradually decreased.

21. The workbench mold for molding a workbench of a laundry processing apparatus as set forth in claim 19, wherein the maximum thickness of the workbench variable thickness region ranges from 2.5mm to 3.5 mm; and/or the minimum thickness of the variable thickness area of the workbench ranges from 1.5mm to 2.5 mm.

22. The table mold for molding a table of a laundry treating apparatus according to claim 19, wherein the table connecting plate cavity has a thickness smaller than that of an end of the table side plate cavity communicating with the table connecting plate cavity.

23. The workbench mold for molding a workbench of a laundry treating apparatus according to claim 19, wherein the thickness of the workbench connecting plate cavity ranges from 0.8mm to 2.2 mm.

24. The workbench mold for molding a workbench of a garment processing apparatus according to claim 19, wherein the workbench cavity comprises a drop table cavity, the drop table cavity is communicated with the periphery of the workbench connecting plate cavity, the workbench side plate cavity and the drop table cavity are arranged along the circumferential direction of the workbench connecting plate cavity, both ends of the workbench side plate cavity along the circumferential direction of the workbench connecting plate cavity are communicated with the drop table cavity, a pillar for molding the garment drop opening is arranged in the drop table cavity, a plurality of workbench pillar structures extending in the whole thickness direction of the workbench connecting plate cavity are arranged in the workbench connecting plate cavity, the workbench pillar structures are used for molding workbench blocking holes, and a part of the workbench pillar structures is arranged adjacent to the workbench side plate cavity and the other part of the workbench pillar structures is arranged in the plurality of workbench pillar structures The rest part is arranged adjacent to the cavity of the putting table.

25. The table mold for molding a table of a laundry treating appliance according to claim 24, wherein the minimum distance of the table cylinder structure adjacent to the table side plate cavity is less than or equal to 20 mm; and/or the minimum distance between the workbench column structure adjacent to the releasing platform cavity and the releasing platform cavity is less than or equal to 20 mm.

26. The table mold for molding a table of a laundry treating apparatus according to claim 24, wherein the drop table cavity comprises:

the two circumferential ends of the outer circumferential side plate cavity are respectively communicated with the two circumferential ends of the workbench side plate cavity along the workbench connecting plate cavity in a one-to-one correspondence manner;

the annular ring plate cavity is positioned on the inner periphery of the peripheral side plate cavity, one part of the outer periphery of one axial end of the ring plate cavity is directly communicated with the outer periphery of the workbench connecting plate cavity, and the peripheral wall of the columnar body is the inner peripheral wall of the ring plate cavity;

the circular plate die comprises a U-shaped top plate die cavity, wherein the top plate die cavity is communicated between the rest part of the periphery of one axial end of the circular plate die cavity and the upper end of the inner periphery of the outer periphery side plate die cavity, and the two circumferential ends of the top plate die cavity are located on the two radial sides of the circular plate die cavity and are communicated with the workbench connecting plate die cavity.

27. The table mold for molding a table of a laundry treating apparatus according to claim 26, wherein the thickness of the peripheral side plate cavity is the same as the thickness of the variable thickness region of the table, and the thickness variation relationship is the same.

28. The workbench mold for molding a workbench of a garment treatment apparatus as recited in claim 26, wherein the thickness of the top plate cavity ranges from 2.3mm to 3.3 mm.

29. The table mold for molding a table of a laundry treating apparatus according to claim 26, wherein the ring plate cavity is provided with an equal thickness.

30. The table mold for molding a table of a laundry treating apparatus according to claim 26, wherein the table cavity comprises: and at least one of the inner periphery of the outer periphery side plate cavity, the inner periphery of the workbench side plate cavity and the outer periphery of the ring plate cavity is communicated with the reinforcing rib cavity.

31. The workbench mold for molding a workbench of a garment processing apparatus according to claim 30, wherein the structure communicating with the stiffener cavities is referred to as a carrier piece cavity, at least one stiffener cavity communicating with the carrier piece cavity is a workbench connecting rib cavity, the workbench connecting rib cavity comprises a workbench connecting rib body cavity and a workbench connecting portion cavity, and the workbench connecting portion cavity communicates between the workbench connecting rib body cavity and the carrier piece cavity; the thickness of the workbench connecting part cavity is smaller than that of one end of the workbench connecting rib body cavity communicated with the workbench connecting part cavity; and/or, the workbench connecting part cavity is provided with a workbench stand column structure for forming a workbench through hole, and the workbench stand column structure extends in the whole thickness direction of the workbench connecting part cavity.

32. The table mold for molding a table of a laundry treating apparatus according to claim 31, wherein the table connecting part cavity has a thickness smaller than that of the carrier member cavity.

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