CN110155530A - Hot-forming digester(-tor) and its manufacturing method - Google Patents

Abstract

The present invention provides a kind of hot-forming digester(-tor) and its manufacturing method, including first shell and second shell.First shell has the hollow housing structure of the first specification, is the hot-forming production of nonwoven fabric material, and first shell has first connecting portion, and first connecting portion is located on the open end of first shell, extends the first width of first shell outer rim.Second shell has the hollow housing structure of the second specification, for the hot-forming production of nonwoven fabric material, second shell has second connecting portion and at least a loading end, second connecting portion is located on the open end of second shell, extend the second width of second shell outer rim, loading end is located on the second shell other side of corresponding open end.First connecting portion is mutually aligned with second connecting portion and is connect, and digester(-tor) is made to be formed with accommodating space, and accommodating space, which provides, puts content, and liquid is entered in accommodating space by first shell and second shell, mixes content with liquid；Loading end can be such that digester(-tor) is located in a plane.

Description

Hot-forming digester(-tor) and its manufacturing method

Technical field:

The present invention about a kind of digester(-tor) and its manufacturing method, particularly relate to it is a kind of with thermoforming way production and only Limit the digester(-tor) and its manufacturing method of first use.

Background technique:

Modern generally has a habit of drink tea product, but due to it is in life it is busy and traditional make tea mode process compared with It is time-consuming with it is cumbersome, therefore, majority, which can buy easy tea bag and directly brew, to drink.Common soaking type tea on the market at present Packet mainly has a digester(-tor), and for being equipped with tealeaves, flower piece or other infusion materials, which is connected with a rope body, rope Body another end is fixed with a drop again.When digester(-tor) is put into a cup body by user, drop then hangs on cup body through rope body Outer rim can quickly brew out cuppa drink after cup body pours hot water, and user more permeable shaking drop makes to soak Infusion material acceleration in boiler releases.

And nothing more than dividing into, cotton paper is flat or triangle stereo structure two according to digester(-tor) shape and structure for above-mentioned soaking type tea bag Kind.The capacity of flat digester(-tor) is smaller, tealeaves can wide-spread space it is limited, therefore be suitable only for containing broken tea.It is flat Flat-shaped digester(-tor) is usually cotton material, and cotton material is mostly cleaned through bleaching agent and showed compared with clean surface, therefore flat After digester(-tor) is through brewed in hot water, it is easy to produce cotton impurity and dissolution bleaching agent, not only influences the flavor of tea-drinking with quality, and Long-term drinking also influences human health.

Triangle stereo structure digester(-tor) is made of polyhedron, and internal is solid space shape, can contain bulky grain tea ball, item Shape tealeaves or former piece tealeaves can make what tealeaves in digester(-tor) obtained more sufficiently unfolding to brew effect.Due to triangle stereo structure digestion Device is single moulding, thus dealer is to enable triangle stereo structure digester(-tor) that different shaping shape is presented, and is not only needed between each face body With ultrasonic processing sealed, and on the body of face more need to ultrasonic process connection different shaping part after, just can substantially present Moulding shape out so that production process is complicated, and makes its cost is opposite to improve.

Summary of the invention:

The object of the present invention is to provide a kind of hot-forming digester(-tor)s and its manufacturing method, are by nonwoven fabric material Substrate, using thermoforming way, to reach low production cost, and the effect of can quickly and largely make.

The object of the present invention is to provide a kind of hot-forming digester(-tor)s and its manufacturing method, by various different molds Shape, using hot-forming to reach different shaping shape, the effect of to reach the digester(-tor) for making various different shapings.

The object of the present invention is to provide a kind of hot-forming digester(-tor)s and its manufacturing method, by nonwoven fabric with poly- cream Made by sour material, with biological fast decoupled after disposable discarding, to reach the effect of reducing pollution and protection environment.

For up to above-mentioned purpose, a kind of hot-forming digester(-tor) of the present invention includes: a first shell and one second Shell.The first shell has the hollow housing structure of one first specification, is the hot-forming production of nonwoven fabric material, the first shell Body has further included a first connecting portion, which is located on an open end of the first shell, and extend this first One first width of shell outer rim.

The second shell has the hollow housing structure of one second specification, is the hot-forming production of nonwoven fabric material, this Two shells have further included a second connecting portion and at least a loading end, which is located at an opening of the second shell On end, and extend one second width of second shell outer rim, which is located at the second shell of the corresponding open end On the other side.

It is connect it is characterized in that, mutually being aligned by the first connecting portion with the second connecting portion, forms the digester(-tor) Have an accommodating space, the accommodating space provide put a content, and by a liquid by the first shell and this second Shell enters in the accommodating space, mixes the content with the liquid；The loading end can make the digester(-tor) be located at a plane On.

For up to above-mentioned purpose, in the another preferred embodiment of the hot-forming digester(-tor) of the present invention, the first shell with And the second shell is disposable.

For up to above-mentioned purpose, in the another preferred embodiment of the hot-forming digester(-tor) of the present invention, the nonwoven fabric material For polyvinyl chloride (PVC, Polyvinyl Chloride), polyethylene terephthalate (PET, Polyethylene Terephthalate), polypropylene (PP, Polypropylene), polystyrene (PS, Polystyrene) and polylactic acid (PLA, Polylactic Acid or Polylactide) at least it is characterized in that one of.

For up to above-mentioned purpose, in the another preferred embodiment of the hot-forming digester(-tor) of the present invention, first specification and Second specification is equal, and specification size is between 50 g every square centimeter to 300 g every square centimeter.

For up to above-mentioned purpose, in the another preferred embodiment of the hot-forming digester(-tor) of the present invention, first width and Second width is equal.

For up to above-mentioned purpose, in the another preferred embodiment of the hot-forming digester(-tor) of the present invention, the first shell is more It include an ennation, which extends one length of first shell outer rim, and to have further included at least one attached for the digester(-tor) Body, the attachment and the ennation be that hot press, ultrasonic engagement, high frequency juncture connect or directly cut and be located at In the first shell.

For up to above-mentioned purpose, it includes the following steps that the present invention, which provides the manufacturing method of hot-forming digester(-tor):

Step (a): a working and forming machine, a mold, a nonwoven fabric material and a content are provided, which is located at should On working and forming machine opposite position.

Step (b): the nonwoven fabric material position is in outside the mold.

Step (c): make the nonwoven fabric material position in a plurality of first shells of mold hot briquetting with the working and forming machine Body and a plurality of second shells, the first shell have the first connecting portion being located on open end, which has A second connecting portion on open end.

Step (d): by a plurality of first shells and a plurality of second shells from the mold separation.

Step (e): the content is placed in the first shell or the second shell.

Step (f): a plurality of first shells and a plurality of second shells are cut into separation.

Step (g): the first connecting portion and the second connecting portion are connected, forms the first shell with the second shell It is integrated.

For up to above-mentioned purpose, the present invention provides the another preferred embodiment of the manufacturing method of hot-forming digester(-tor) In, the following steps have been further included after the step (f):

Step (f1): the first shell being cut and is formed with an ennation and at least an attachment, which extends One length of first shell outer rim out, and the attachment is connected with the ennation.

For up to above-mentioned purpose, the present invention provides the another preferred embodiment of the manufacturing method of hot-forming digester(-tor) In, the following steps have been further included after the step (g):

Step (h): being formed with an ennation for the first shell, and it is long which extends the first shell outer rim one Degree, and an at least attachment is provided.

Step (i): the ennation and the attachment are connected.

Detailed description of the invention:

Fig. 1 is the preferred embodiment schematic perspective view of the hot-forming digester(-tor) of the present invention.

Fig. 2 is the preferred embodiment dimensional decomposition structure diagram of the hot-forming digester(-tor) of the present invention.

Fig. 3 is the schematic perspective view of another embodiment of the hot-forming digester(-tor) of the present invention.

Fig. 4 is the preferred embodiment process block schematic diagram of the hot-forming digester(-tor) of the present invention.

Wherein, 1,1a: hot-forming digester(-tor), 11,11a: first shell, 12: second shell, the t1: the first specification, 111: first connecting portion, 112: open end, the w1: the first width, the t2: the second specification, 121: 123,123a: second connecting portion is held Section, 122: open end, the w2: the second width, 13: accommodating space, 14: content, 15: liquid, 113: ennation, L: length, 16: attachment, 17: the attached body in side

Step S91: a working and forming machine, a mold, a nonwoven fabric material and a content are provided, which is located at should On working and forming machine opposite position

Step S92: the nonwoven fabric material position is in outside the mold

Step S93: make the nonwoven fabric material position in a plurality of first shells of mold hot briquetting with the working and forming machine Body and a plurality of second shells, the first shell have the first connecting portion being located on open end, which has A second connecting portion on open end

Step S94: by a plurality of first shells and a plurality of second shells from the mold separation

Step S95: the content is placed in the first shell or the second shell

Step S96: a plurality of first shells and a plurality of second shells are cut into separation

Step S97: the first connecting portion and the second connecting portion are connected, forms the first shell with the second shell It is integrated

Step S98: being formed with an ennation for the first shell, and it is long which extends the first shell outer rim one Degree, and an at least attachment is provided

Step S99: the ennation and the attachment are connected.

Specific embodiment:

The present invention will illustrate below with schema and will be fully understood, so that the personage for being familiar with this skill can be complete accordingly At the implementation of right this case can not be limited it by the following example and implement kenel.

It as shown in Figs.1 and 2, is the preferred embodiment solid and decomposition texture of the hot-forming digester(-tor) of the present invention Schematic diagram.The hot-forming digester(-tor) 1 of the present invention includes: a first shell 11 and a second shell 12.The first shell The 11 hollow housing structures with one first specification t1, are the hot-forming production of nonwoven fabric material, which further includes Have a first connecting portion 111, which is located on an open end 112 of the first shell 11, and extend this One shell, 11 outer rim, one first width w1.

The second shell 12 has the hollow housing structure of one second specification t2, is the hot-forming production of nonwoven fabric material, The second shell 12 has further included a second connecting portion 121 and at least a loading end 123, which is located at should On one open end 122 of second shell 12, and extend 12 outer rim of second shell, one second width w2, the loading end 123 In on 12 other side of second shell of the corresponding open end 122, which can make the digester(-tor) 1 be located at a plane In (not shown).

The nonwoven fabric material of the first shell 11 and the second shell 12 is polyvinyl chloride (PVC, Polyvinyl Chloride), polyethylene terephthalate (PET, Polyethylene terephthalate), polypropylene (PP, Polypropylene), polystyrene (PS, Polystyrene) and polylactic acid (PLA, Polylactic Acid or Polylactide) at least it is characterized in that one of.Therefore the first shell 11 and the second shell 12 are disposable.

In present pre-ferred embodiments, the first specification t1 and the second specification t2 are equal, and specification size is 50 public Between gram every square centimeter to 300 g every square centimeter.The first width w1 and the second width w2 be it is equal, in favor of this First connecting portion 111 is connected with the second connecting portion 121 mutually contraposition, and preferably is with hot press, ultrasonic engagement or height Cycle juncture connects the first connecting portion 111 and the second connecting portion 121.

It is connected by the mutually contraposition of the first connecting portion 111 and the second connecting portion 121, the digester(-tor) 1 is made to be formed with one Accommodating space 13, which, which provides, puts a content 14, and by a liquid 15 by the first shell 11 and The second shell 12 enters in the accommodating space 13, mixes the content 14 with the liquid 15.The content 14 is a tea The dry coffee powder particles of leaf, a flowers and plants tealeaves or one, the tealeaves can be generally common tea tree leaf, which can be drying Flower, leaf, seed or root are mixed forms, which can be consolidated for the granular structure of ground coffee beans The grain shape of change.

It please refers to shown in Fig. 3, for the another preferred embodiment schematic perspective view of the hot-forming digester(-tor) of the present invention. The hot-forming digester(-tor) 1a of the present invention is to be designed to a goldfish moulding, and loading end 123a is designed as to the bottom of goldfish tripe, And first shell 11a has further included an ennation 113, which extends 11 outer rim of first shell, one length L, And digester(-tor) 1a has further included an at least attachment 16, the attachment 16 and the ennation 113 are with hot press, ultrasonic Engagement, the connection of high frequency juncture are directly cut in the first shell 11, and the attachment 16 is designed as goldfish Tail.Certainly can also design in 11 outer rim of first shell has the attached body 17 in side, and the attached body 17 in the side is designed as the lateral fin of goldfish.

It please refers to shown in Fig. 4, for the preferred embodiment process block schematic diagram of the hot-forming digester(-tor) of the present invention, this hair The manufacturing method of bright hot-forming digester(-tor), includes the following steps:

Step S91: a working and forming machine, a mold, a nonwoven fabric material and a content are provided, which is located at should On working and forming machine opposite position.

Step S92: the nonwoven fabric material position is in outside the mold.

Step S93: make the nonwoven fabric material position in a plurality of first shells of mold hot briquetting with the working and forming machine Body and a plurality of second shells, the first shell have the first connecting portion being located on open end, which has A second connecting portion on open end.

Step S94: by a plurality of first shells and a plurality of second shells from the mold separation.

Step S95: the content is placed in the first shell or the second shell.

Step S96: a plurality of first shells and a plurality of second shells are cut into separation.Certainly the present invention is preferable Person, which can cut the first shell, is formed with an ennation and at least an attachment, which extends the first shell One length of outer rim, and the attachment is connected with the ennation.

Step S97: the first connecting portion and the second connecting portion are connected, forms the first shell with the second shell It is integrated.Preferably of the present invention with hot press, ultrasonic engagement or high frequency juncture connect the first connecting portion and The second connecting portion.Certain preferably's step S96 of the present invention and step S97 movement can also exchange execution.

The manufacturing method preferably of the hot-forming digester(-tor) of the present invention, has further included the following steps:

Step S98: being formed with an ennation for the first shell, and it is long which extends the first shell outer rim one Degree, and an at least attachment is provided.

Step S99: the ennation and the attachment are connected.

In conclusion the hot-forming digester(-tor) 1 of the present invention have effects that it is as follows:

1. different shaping shape can be reached using hot-forming by various different mold shapes, it is various to reach production The effect of digester(-tor) of different shaping.

2. with thermoforming way, to reach low production cost, and the effect of can quickly and largely make.

3. with biological fast decoupled after disposable discarding, to reach the effect of reducing pollution and protection environment.

Above are only presently preferred embodiments of the present invention, not be used to limit the scope of implementation of the present invention, without departing substantially from In the case where spirit of that invention and its essence, those skilled in the art make in accordance with the present invention various to be changed accordingly Become and deform, but these corresponding changes and modifications all should fall within the scope of protection of the appended claims of the present invention.

Claims (10)

1. a kind of hot-forming digester(-tor), which is characterized in that digester(-tor) includes:

One first shell, the hollow housing structure with one first specification are the hot-forming production of nonwoven fabric material, the first shell Body has further included a first connecting portion, which is located on an open end of the first shell, and extend this first One first width of shell outer rim；

One second shell, the hollow housing structure with one second specification are the hot-forming production of nonwoven fabric material, the second shell Body has further included a second connecting portion and a loading end, which is located on an open end of the second shell, and Extend one second width of second shell outer rim, which is located at the second shell other side of the corresponding open end On；It mutually aligns and connect with the second connecting portion by the first connecting portion, the digester(-tor) is made to be formed with an accommodating space, the appearance It is provided between emptying and puts a content, and the accommodating space is entered by the first shell and the second shell by a liquid In, mix the content with the liquid；The loading end can be such that the digester(-tor) is located in a plane.

2. hot-forming digester(-tor) as described in claim 1, which is characterized in that the first shell and the second shell are It is disposable.

3. hot-forming digester(-tor) as described in claim 1, which is characterized in that the nonwoven fabric material is polyvinyl chloride (PVC, Polyvinyl Chloride), polyethylene terephthalate (PET, Polyethylene terephthalate), Polypropylene (PP, Polypropylene), polystyrene (PS, Polystyrene) and polylactic acid (PLA, Polylactic Acid or Polylactide) at least it is characterized in that one of.

4. hot-forming digester(-tor) as described in claim 1, which is characterized in that first specification and second specification are phase Deng, and specification size is between 50 g every square centimeter to 300 g every square centimeter.

5. hot-forming digester(-tor) as described in claim 1, which is characterized in that first width and second width are phase Deng.

6. hot-forming digester(-tor) as described in claim 1, which is characterized in that the first shell has further included an extension Body, which extends one length of first shell outer rim, and the digester(-tor) has further included an at least attachment, the attachment With the ennation be hot press, ultrasonic engages, high frequency juncture is connect or is directly cut in the first shell.

7. a kind of manufacturing method of hot-forming digester(-tor), which is characterized in that include the following steps:

(a) working and forming machine, a mold, a nonwoven fabric material and a content, the mold are provided and is located at the machine-shaping On machine opposite position；

(b) the nonwoven fabric material position is in outside the mold；

(c) make the nonwoven fabric material position in a plurality of first shells of mold hot briquetting and plural number with the working and forming machine A second shell, the first shell have the first connecting portion being located on open end, which, which has, is located at open end On a second connecting portion；

(d) by a plurality of first shells and a plurality of second shells from the mold separation；

(e) content is placed in the first shell or the second shell；

(f) a plurality of first shells and a plurality of second shells are cut into separation；

(g) first connecting portion and the second connecting portion are connected, is formed as one the first shell with the second shell.

8. the manufacturing method of hot-forming digester(-tor) as claimed in claim 7, it is characterised in that the step (g) is to be thermally compressed It closes, ultrasonic engagement or high frequency juncture connect the first connecting portion and the second connecting portion.

9. the manufacturing method of hot-forming digester(-tor) as claimed in claim 7, it is characterised in that more wrapped after the step (g) Include the following steps:

(h) first shell is formed with an ennation, which extends one length of first shell outer rim, and is provided to A few attachment；

(i) ennation and the attachment are connected.

10. the manufacturing method of hot-forming digester(-tor) as claimed in claim 7, it is characterised in that after the step (f) more Include the following steps:

(f1) first shell is cut and is formed with an ennation and at least an attachment, which extends the first shell One length of external edge, and the attachment is connected with the ennation.