CN210856795U - Paper tableware forming equipment - Google Patents

Abstract

A paper tableware molding apparatus comprising: the paper pulp forming module comprises a forming die and an air duct; the paper pulp storage component comprises a paper pulp stocker and a negative pressure pipe group; the displacement subassembly includes lifting slide, bears locating plate and lift driving piece, bears the locating plate and is connected with lifting slide's one end, the setting of forming die bottom on bearing the locating plate, the lift driving piece is connected with lifting slide, the lift driving piece is used for driving lifting slide to carry out reciprocating type displacement to the direction of paper pulp stock chest to the forming die who makes on bearing the locating plate is close to or keeps away from the paper pulp stock chest. The utility model discloses a paper tableware former is through setting up paper pulp shaping module, paper pulp storage subassembly and displacement subassembly to can carry out automatic molding to the paper tableware, and overall structure optimizes more, whole production machining efficiency and paper pulp shaping quality is higher, and it is more convenient to operate when the membrane is handed over to shaping paper pulp simultaneously.

Description

Paper tableware forming equipment

Technical Field

The utility model relates to a paper pulp product production technical field especially relates to a paper tableware former.

Background

Along with the continuous improvement of social and economic level, people's material life is more and more abundant, in order to adapt to the life of high rhythm, and more people or dining room the inside all begin to use paper tableware, compares porcelain and glass tableware in the past, and paper tableware is simple to use, need not wash after the use, and after special treatment, some paper tableware can also be retrieved and recycled.

At present, the production process of paper tableware generally comprises the procedures of pulping, dehydration forming, hot-press shaping, trimming, disinfection and the like, wherein the dehydration forming is to dehydrate paper pulp obtained from the pulping procedure on a forming mould to form a paper pulp tableware prototype with higher water content, and the working principle is that the paper pulp obtained from the pulping procedure is dehydrated on a metal mould to form a wet paper pulp tableware prototype, which is a key procedure in the production process of the paper tableware.

However, the existing pulp forming equipment has a complex structure, and the adsorption and dehydration forming of the pulp are required to be performed in different mechanical structures, so that the overall production efficiency is not high. Simultaneously, current paper pulp former generally sets up complicated lift drive structure in the metal mold top, that is, set up the top surface at metal mold with lift drive structure, then corresponding elevating movement is carried out to rethread lift drive structure drive metal mold, make metal mold soak in the paper pulp pond, so, not only can make overall structure complicated relatively, when handing over the membrane to the shaping paper pulp on the metal mold, the lift structure at metal mold top can occupy great space, thereby it brings very big inconvenience to hand over the membrane to paper pulp. Meanwhile, after the metal mold is soaked with the paper pulp, a part of paper adhesive can be adhered to the lifting driving structure at the top of the metal mold, so that the cleaning is difficult, and equipment is easy to break down; and, the lifting drive structure at metal mold top has the health safety hidden danger that the foreign matter dropped, for example, the lifting drive structure at metal mold top can have the circumstances that debris such as lubricating oil, iron fillings or equipment spare part dropped to cause the paper pulp in the thick liquid glassware to be polluted, simultaneously, the sanitary requirement of paper tableware is high, the fashioned paper tableware of paper pulp that has adulterated the foreign matter obviously can not be used for normal food to bear in, consequently, can make the paper tableware after the machine-shaping appear scrapping in large batch.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing an overall structure optimizes more, whole production machining efficiency and paper pulp shaping quality is higher, and the paper tableware former that is more convenient when the membrane is handed over to shaping paper pulp.

The purpose of the utility model is realized through the following technical scheme:

a paper tableware molding apparatus comprising:

the paper pulp forming die set comprises a forming die and an air duct, a sealing cavity is arranged in the forming die, the air duct is communicated with the sealing cavity, a plurality of forming cavities are formed in the top of the forming die, and each forming cavity is communicated with the sealing cavity;

the paper pulp storage assembly comprises a paper pulp storage device and a negative pressure pipe group, wherein the paper pulp storage device is provided with a paper pulp storage tank, the paper pulp storage tank is used for storing paper pulp, and the negative pressure pipe group is communicated with the air duct; and

the displacement subassembly, the displacement subassembly includes lifting slide, bears locating plate and lift driving piece, bear the locating plate with lifting slide's one end is connected, forming die's bottom set up in bear on the locating plate, the lift driving piece with lifting slide connects, the lift driving piece is used for driving lifting slide to reciprocating type displacement is carried out to the direction of paper pulp stock chest, so that bear on the locating plate forming die is close to or keeps away from the paper pulp stock chest.

In one embodiment, a filter steel net is arranged in the forming cavity.

In one embodiment, each of the molding cavities is arranged in a rectangular array.

In one embodiment, the negative pressure tube set comprises a vacuum tube and an air blowing tube, the vacuum tube is communicated with the air vent tube, a shunting port is arranged on the vacuum tube, and the air blowing tube is communicated with the shunting port.

In one embodiment, the bearing positioning plate is vertically arranged on the lifting sliding plate.

In one embodiment, the lifting driving member includes a supporting frame, a lifting motor and a lifting screw, the lifting slide plate is slidably disposed on the supporting frame, the lifting motor is connected to the lifting screw, and the lifting screw and the lifting slide plate form a screw pair.

In one embodiment, the displacement assembly further comprises a guide chain wheel, a counterweight chain and a counterweight, the guide chain wheel is rotatably disposed on the support frame, the counterweight chain is meshed with the guide chain wheel, one end of the counterweight chain is connected with the counterweight, and the other end of the counterweight chain is connected with the lifting sliding plate.

In one embodiment, the weight member is a weight block.

In one embodiment, the pulp storage assembly further comprises a pulp inlet pipeline, a pulp inlet hole is formed in the bottom of the pulp storage tank, and the pulp inlet pipeline is communicated with the pulp inlet hole.

In one embodiment, the pulp storage assembly further comprises an overflow pipeline, an overflow hole is formed in one side face of the pulp storage tank, and the overflow pipeline is communicated with the overflow hole.

Compared with the prior art, the utility model discloses at least, following advantage has:

1. the utility model discloses a paper tableware former is through setting up paper pulp shaping module, paper pulp storage subassembly and displacement subassembly to can carry out automatic molding to the paper tableware, and overall structure optimizes more, whole production machining efficiency and paper pulp shaping quality is higher, and it is more convenient to operate when the membrane is handed over to shaping paper pulp simultaneously.

2. The utility model discloses a paper tableware former can make overall structure compacter and simplify to effectively improve the efficiency and the quality of production and processing. Specifically, because the paper pulp stock chest top only sets up forming die and is used for placing the bearing locating plate that bears to forming die for paper pulp stock chest top does not have unnecessary other equipment mechanism, thereby can reduce the foreign matter to the furthest and drop to the paper pulp stock chest in, can guarantee the fashioned cleanliness of paper tableware from this, thereby make the processingquality of paper tableware higher, avoid because the foreign matter drops to the paper pulp stock chest in and the health hidden danger that causes. And paper tableware former among the prior art is owing to set up corresponding connection structure at the forming die top, thereby the health and safety hidden danger that the foreign matter dropped has, for example, connection structure on the forming die top can have lubricating oil, the condition that debris such as iron fillings or equipment spare part dropped, thereby cause the paper pulp in the paper pulp stock chest to be polluted, and simultaneously, paper tableware's health requirement is high, the fashioned paper tableware of paper pulp that has adulterated the foreign matter obviously can not be used for normal food to bear, consequently, can make the paper tableware after the machine-shaping appear scrapping in large batches, and paper tableware former in this application can finely avoid the problem that the foreign matter dropped to the paper pulp, thereby make the sanitary quality of the paper tableware after the shaping obtain effective guarantee.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a paper tableware molding apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a pulp forming module and a displacement assembly of the paper tableware forming apparatus in FIG. 1;

fig. 3 is a schematic view of a pulp stock assembly of the paper tableware forming apparatus of fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

It is noted that as used herein, reference to an element being "connected" to another element also means that the element is "in communication" with the other element, and fluid can be in exchange communication between the two.

In one embodiment, a paper tableware molding apparatus includes: the paper pulp forming device comprises a paper pulp forming module, a paper pulp storage assembly and a displacement assembly, wherein the paper pulp forming module comprises a forming die and an air duct, a sealing cavity is arranged in the forming die, the air duct is communicated with the sealing cavity, a plurality of forming cavities are formed in the top of the forming die, and each forming cavity is communicated with the sealing cavity; the paper pulp storage assembly comprises a paper pulp storage device and a negative pressure pipe group, wherein the paper pulp storage device is provided with a paper pulp storage tank, the paper pulp storage tank is used for storing paper pulp, and the negative pressure pipe group is communicated with the air duct; the displacement subassembly includes lifting slide, bears locating plate and lift driving piece, bear the locating plate with lifting slide's one end is connected, the setting in of forming die bottom bear on the locating plate, the lift driving piece with lifting slide connects, the lift driving piece is used for driving lifting slide to reciprocating type displacement is carried out to the direction of paper pulp stock chest, so that bear on the locating plate forming die is close to or keeps away from the paper pulp stock chest. The utility model discloses a paper tableware former is through setting up paper pulp shaping module, paper pulp storage subassembly and displacement subassembly to can carry out automatic molding to the paper tableware, and overall structure optimizes more, whole production machining efficiency and paper pulp shaping quality is higher, and it is more convenient to operate when the membrane is handed over to shaping paper pulp simultaneously.

The above-described paper tableware forming apparatus will be better explained to better understand the concept of the above-described paper tableware forming apparatus. Referring to fig. 1, a paper tableware forming apparatus 10 includes: pulp forming module 100, pulp storage assembly 200 and displacement assembly 300.

Referring to fig. 1 and 2, the pulp forming module 100 includes a forming mold 110 and an air duct 120, a sealing cavity is disposed in the forming mold 110, the air duct 120 is communicated with the sealing cavity, a plurality of forming cavities 111 are disposed at the top of the forming mold 110, and each forming cavity 111 is communicated with the sealing cavity.

Furthermore, a filtering steel mesh is arranged in each molding cavity, and each molding cavity is arranged in a rectangular array.

It should be noted that the molding cavity 111 is a cavity structure with an opening at one end, and the molding die 110 is provided with a sealing cavity, so that negative pressure adsorption can be performed through the vent pipe 120, so that each molding cavity 111 can perform adsorption operation on the pulp in the pulp storage assembly 200, and thus the pulp is shaped on the corresponding molding cavity, and meanwhile, the vent pipe 120 can perform drainage operation after pulp molding, so that moisture in the molding cavity can be fully discharged. Through set up the filter steel mesh in the one-tenth die cavity, on the one hand, can improve the shaping density of paper pulp for absorbent paper pulp can better shaping on the shaping chamber 111, and on the other hand, the filter steel mesh in the shaping intracavity plays the effect that the filtration blockked, makes when drainage operation, and the paper pulp in the one-tenth die cavity 111 can not be discharged or enter into the sealed intracavity, improves the fashioned precision of paper pulp from this.

Referring to fig. 1 and 3, the pulp storage assembly 200 includes a pulp storage tank 210 and a negative pressure pipe assembly 220, the pulp storage tank 210 has a pulp storage tank 211, the pulp storage tank 211 is used for storing pulp, and the negative pressure pipe assembly 220 is communicated with the air duct 120.

Further, the negative pressure tube set 220 includes a vacuum tube 221 and an air blowing tube 222, the vacuum tube 221 is communicated with the air vent tube 120, a branch port 221a is disposed on the vacuum tube 221, and the air blowing tube 222 is communicated with the branch port 221 a.

It should be noted that, the pulp storage tank 211 is disposed on the pulp hopper 210 to store pulp, and when the forming mold 110 is placed in the pulp storage tank 211 through the displacement assembly 300, the vacuum pipe 221 performs a negative pressure suction operation to enable the sealed cavity to form a negative pressure state through the ventilation pipe 120 on the forming mold 110, so that each forming cavity on the forming mold 110 can suck pulp in the pulp storage tank 211, and the pulp is tightly attached to each forming cavity. After the pulp is adsorbed and shaped, the forming mold 110 leaves the pulp storage tank 211 through the displacement assembly 300, at this time, the vacuum pipeline 221 continues to perform negative pressure operation, so that water in the forming mold 110 and in each forming cavity can be discharged through the vacuum pipeline 221, and thus the pulp in each forming cavity is better formed. Through setting up vacuum pipe 221 and adsorbing design and drainage operation, can effectively improve the fashioned quality of paper pulp, and make overall structure compacter, optimize. After accomplishing the drainage operation, need to hand over the membrane operation to the paper pulp model on forming die 110, it is concrete, through handing over membrane mechanism will with forming die 110 assorted protruding type mould pressfitting to forming die 110 on, the laminating of crossing membrane bellying and the shaping chamber 111 phase-match on the forming die 110 of protruding type mould, and the negative pressure adsorption hole has been seted up on the membrane bellying of handing over of protruding type mould, thus, can adsorb the paper pulp model in shaping chamber 111 through the negative pressure adsorption hole on the membrane bellying of handing over of protruding type mould, and simultaneously, the operation of blowing is carried out to the paper pulp model in shaping chamber 111 to the pipeline 222 of blowing, thereby can make the paper pulp model in shaping chamber 111 can separate with shaping chamber 111 fast, and closely attach on the membrane bellying of handing over of protruding type mould, from this can improve holistic production efficiency and processingquality. In this embodiment, the film-feeding mechanism may be a robot arm, and the convex mold is moved by the robot arm.

Referring to fig. 1 and 2, the displacement assembly 300 includes a lifting slide plate 310, a bearing positioning plate 320 and a lifting driving member 330, the bearing positioning plate 320 is connected to one end of the lifting slide plate 310, the bottom of the forming mold 110 is disposed on the bearing positioning plate 320, the lifting driving member 330 is connected to the lifting slide plate 310, and the lifting driving member 330 is used for driving the lifting slide plate 310 to perform reciprocating displacement toward the pulp storage tank 211, so that the forming mold 110 on the bearing positioning plate 320 is close to or far away from the pulp storage tank 211. In this embodiment, the bearing positioning plate is vertically disposed on the lifting slide plate.

It should be noted that, bear the weight of locating plate 320 and be connected with the one end of lift slide 310, make bear the weight of mounting structure that locating plate 320 and lift slide 310 form an "L" type, thereby can bear forming die 110 horizontal installation on bearing locating plate 320, so, forming die 110's top is in the state of keeping away the sky completely, thereby can be after the paper pulp shaping, subsequent membrane mechanism of handing over can directly move forming die 110 top and hand over the membrane operation to the paper pulp model in each shaping intracavity, improve the efficiency of production and processing from this and make holistic production technology simplify more, simultaneously, with prior art will set up connection structure at forming die 110 top and compare, the utility model discloses a paper tableware former 10 can make overall structure compacter and simplify, thereby effectively improve the efficiency and the quality of production and processing. Specifically, because the pulp storage tank 211 top only sets up forming die 110 and is used for placing the bearing to forming die 110 and bears locating plate 320, make pulp storage tank 211 top not have unnecessary other equipment mechanism, thereby can reduce the foreign matter to drop to the pulp storage tank 211 in furthest, can guarantee the fashioned cleanliness of paper tableware from this, thereby make the processingquality of paper tableware higher, avoid because the foreign matter drops to the pulp storage tank 211 in and the health hidden danger that causes. And paper tableware former among the prior art is owing to set up corresponding connection structure at forming die 110 top, thereby have the health safety hidden danger that the foreign matter dropped, for example, connection structure on forming die 110 top can have lubricating oil, the condition that debris such as iron fillings or equipment spare part dropped, thereby cause the paper pulp in the paper pulp stock chest 211 to be contaminated, and simultaneously, paper tableware's sanitary requirement is high, the fashioned paper tableware of paper pulp that has adulterated the foreign matter obviously can not be used for normal food to bear, consequently, can make the paper tableware after the machine-shaping appear scrapping in large batch, and paper tableware former 10 in this application can finely avoid the problem that the foreign matter dropped to the paper pulp in, thereby make the sanitary quality of the paper tableware after the shaping obtain effective guarantee.

Referring to fig. 1 again, the lifting driving member 330 includes a supporting frame 331, a lifting motor 332 and a lifting screw rod 333, the lifting slide plate 310 is slidably disposed on the supporting frame 331, the lifting motor 332 is connected to the lifting screw rod 333, and the lifting screw rod 333 and the lifting slide plate 310 form a screw rod pair.

It should be noted that the lifting motor 332 drives the lifting screw rod 333 to rotate, so as to drive the lifting slide plate 310 to perform lifting motion on the support frame 331, thereby implementing driving operation of the displacement assembly 300 on the forming die 110, and improving precision and stability of the overall motion.

Further, the displacement assembly 300 further comprises a guide chain wheel 340, a counterweight chain 350 and a counterweight 360, the guide chain wheel is rotatably arranged on the support frame, the counterweight chain is meshed with the guide chain wheel, one end of the counterweight chain is connected with the counterweight, and the other end of the counterweight chain is connected with the lifting sliding plate. In this embodiment, the weight member 360 is a counterweight.

It should be noted that the guide chain wheel is rotatably disposed on the supporting frame, the counterweight chain is meshed with the guide chain wheel, one end of the counterweight chain is connected with the counterweight, and the other end of the counterweight chain is connected with the lifting slide plate, so that the lifting slide plate is more stable during lifting movement, and the lifting motor 332 and the lifting screw 333 are reduced to meet the requirements, thereby improving the precision and stability of the overall movement.

Referring to fig. 3, the pulp storing assembly 200 further includes a pulp inlet pipe 230, a pulp inlet hole 212 is formed at the bottom of the pulp storing tank 211, and the pulp inlet pipe 230 is communicated with the pulp inlet hole 212.

It should be noted that, the pulp inlet hole 212 is formed at the bottom of the pulp storage tank 211, and the pulp inlet pipe 230 is communicated with the pulp inlet hole 212, so that the pulp can be continuously supplemented into the pulp storage tank 211 through the pulp inlet pipe 230, thereby improving the efficiency of the whole process and the degree of automation of the whole process.

Referring to fig. 3 again, the pulp storing assembly 200 further includes an overflow pipe 240, and an overflow hole is formed on one side surface of the pulp storing tank 211, and the overflow pipe 240 is communicated with the overflow hole.

By providing the overflow conduit 240, the pulp at the position of the overflow hole can be discharged, and the height of the pulp in the pulp storage tank 211 is kept constant, thereby improving the overall processing quality. In this embodiment, the overflow holes are provided in plural, each of the overflow holes is respectively disposed on different sides of the pulp storage tank 211, correspondingly, the overflow pipes 240 are provided in plural, and each of the overflow pipes 240 is communicated with each of the overflow holes in one-to-one correspondence, so that the pulp located at the position corresponding to the overflow hole can be discharged, and the height of the pulp in the pulp storage tank 211 is kept constant, thereby improving the overall processing quality.

Compared with the prior art, the utility model discloses at least, following advantage has:

1. the utility model discloses a paper tableware former 10 is through setting up paper pulp shaping module 100, paper pulp storage subassembly 200 and displacement subassembly 300 to can carry out automatic molding to the paper tableware, and overall structure optimizes more, whole production machining efficiency and paper pulp shaping quality is higher, and it is more convenient to operate when the membrane is handed over to shaping paper pulp simultaneously.

2. The utility model discloses a paper tableware former 10 can make overall structure compacter and simplify to effectively improve the efficiency and the quality of production and processing. Specifically, because the pulp storage tank 211 top only sets up forming die 110 and is used for placing the bearing to forming die 110 and bears locating plate 320, make pulp storage tank 211 top not have unnecessary other equipment mechanism, thereby can reduce the foreign matter to drop to the pulp storage tank 211 in furthest, can guarantee the fashioned cleanliness of paper tableware from this, thereby make the processingquality of paper tableware higher, avoid because the foreign matter drops to the pulp storage tank 211 in and the health hidden danger that causes. And paper tableware former among the prior art is owing to set up corresponding connection structure at forming die 110 top, thereby have the health safety hidden danger that the foreign matter dropped, for example, connection structure on forming die 110 top can have lubricating oil, the condition that debris such as iron fillings or equipment spare part dropped, thereby cause the paper pulp in the paper pulp stock chest 211 to be contaminated, and simultaneously, paper tableware's sanitary requirement is high, the fashioned paper tableware of paper pulp that has adulterated the foreign matter obviously can not be used for normal food to bear, consequently, can make the paper tableware after the machine-shaping appear scrapping in large batch, and paper tableware former 10 in this application can finely avoid the problem that the foreign matter dropped to the paper pulp in, thereby make the sanitary quality of the paper tableware after the shaping obtain effective guarantee.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A paper tableware molding apparatus, comprising:

the paper pulp forming die set comprises a forming die and an air duct, a sealing cavity is arranged in the forming die, the air duct is communicated with the sealing cavity, a plurality of forming cavities are formed in the top of the forming die, and each forming cavity is communicated with the sealing cavity;

the paper pulp storage assembly comprises a paper pulp storage device and a negative pressure pipe group, wherein the paper pulp storage device is provided with a paper pulp storage tank, the paper pulp storage tank is used for storing paper pulp, and the negative pressure pipe group is communicated with the air duct; and

the displacement subassembly, the displacement subassembly includes lifting slide, bears locating plate and lift driving piece, bear the locating plate with lifting slide's one end is connected, forming die's bottom set up in bear on the locating plate, the lift driving piece with lifting slide connects, the lift driving piece is used for driving lifting slide to reciprocating type displacement is carried out to the direction of paper pulp stock chest, so that bear on the locating plate forming die is close to or keeps away from the paper pulp stock chest.

2. The paper tableware molding apparatus of claim 1 wherein a filter steel mesh is disposed within the molding cavity.

3. The paper tableware molding apparatus of claim 2 wherein each of said molding cavities is disposed in a rectangular array.

4. The paper tableware forming apparatus as claimed in claim 1, wherein the negative pressure tube set includes a vacuum tube and an air blowing tube, the vacuum tube is connected to the air duct, the vacuum tube is provided with a branch port, and the air blowing tube is connected to the branch port.

5. The paper tableware forming apparatus of claim 1, wherein the load-bearing positioning plate is vertically disposed on the lifting slider.

6. The paper tableware forming apparatus of claim 1, wherein the lifting driving member comprises a supporting frame, a lifting motor and a lifting screw, the lifting slide is slidably disposed on the supporting frame, the lifting motor is connected to the lifting screw, and the lifting screw and the lifting slide form a screw pair.

7. The paper tableware forming apparatus of claim 6, wherein the displacement assembly further comprises a guide sprocket, a counterweight chain and a counterweight, the guide sprocket is rotatably disposed on the supporting frame, the counterweight chain is engaged with the guide sprocket, one end of the counterweight chain is connected with the counterweight, and the other end of the counterweight chain is connected with the lifting slide.

8. The paper tableware molding apparatus of claim 7 wherein said weight member is a weight block.

9. The paper tableware forming apparatus as claimed in claim 1, wherein the paper pulp storage assembly further comprises a pulp inlet pipe, the bottom of the paper pulp storage tank is provided with a pulp inlet hole, and the pulp inlet pipe is communicated with the pulp inlet hole.

10. The paper tableware forming apparatus of claim 1, wherein the paper pulp storage assembly further comprises an overflow conduit, an overflow hole is disposed on one side of the paper pulp storage tank, and the overflow conduit is communicated with the overflow hole.

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