CN113265906B - Automatic material returning and heat setting device for processing paper pulp molding tableware - Google Patents

Abstract

The utility model provides an automatic material returning and heat setting device for processing paper pulp molding tableware, relates to the technical field of paper pulp, and solves the problem that material returning of a tableware model can not be automatically realized in the process of up-and-down movement of a die male seat through structural improvement; and the die female seat is easy to crush when the system is wrong in the process of splicing the die male seat and the die female seat. An automatic material returning and heat setting device for processing paper pulp molding tableware comprises a base; the base is of a concave structure. Four through holes are arranged in total and are arranged on the die male seat in a rectangular array shape; the through hole is formed in an inclined mode, the inclined angle is 30 degrees, and the tail end of the through hole is aligned with the die bulge on the die male seat, so that pulp molded tableware can be blown down from the die bulge through wind power generated at the through hole when the die male seat moves upwards, and material returning action is achieved.

Description

Automatic material returning and heat setting device for processing paper pulp molding tableware

Technical Field

The utility model belongs to the technical field of paper pulp, and particularly relates to an automatic material returning and heat setting device for processing paper pulp molding tableware.

Background

At present, pulp molding catering products are widely applied in society, and when the pulp molding catering products are produced, pulp is added into a mold, and then the mold is heated to realize quick drying of the pulp, so that a dried tableware model is finally obtained.

The application number is as follows: CN201821455507.6 relates to pulp technical field, especially a pulp molding heat setting device, comprising a base plate, the bottom four corners of bottom plate all installs the support callus on the sole perpendicularly, the base is installed to the top level of bottom plate, the mounting groove has been seted up at the top of base, the inside cartridge of mounting groove has the design lower mould, be connected through a plurality of installation mechanism between base and the design lower mould, installation mechanism includes the screw rod, the one end of screw rod runs through the base and extends to the mounting groove inside and the tip rotation is connected with splint, splint and design lower mould surface contact, and pass through threaded connection between screw rod and the base, the spacing groove has all been seted up to the equal level on the base of both sides about the screw rod, the equal slip cartridge of spacing inslot portion has the gag lever post, two gag lever posts common horizontal connection are on splint. The utility model has simple structure and convenient operation, is convenient to detach and install, and effectively improves the shaping efficiency of pulp molding.

Pulp molded tableware processing apparatus similar to the above application also suffers from the following disadvantages:

firstly, the pulp model formed in the processing process of the existing device is easy to be stuck on an upper die or a lower die, so that the production efficiency of the tableware model is affected, and the material returning of the tableware model can not be automatically realized in the up-and-down moving process of a die male seat through structural improvement; moreover, in order to realize thermal conductivity, the mold model of the existing device is generally hollow, and the mold female seat is easy to crush when a system is wrong in the process of splicing the mold male seat and the mold female seat.

Accordingly, in view of the above, the present utility model has been made in view of the above problems and has been made in view of the above problems, and it is an object of the present utility model to provide an automatic material returning and heat setting device for pulp-molded tableware processing, which is more practical.

Disclosure of Invention

In order to solve the technical problems, the utility model provides an automatic material returning and heat setting device for processing paper pulp molding tableware, which aims to solve the problems that the paper pulp model molded by the prior device is easy to be stuck on an upper die or a lower die in the processing process, thereby influencing the production efficiency of the tableware model, and the material returning of the tableware model can not be automatically realized in the process of moving a die male seat up and down through structural improvement; moreover, in order to realize thermal conductivity, the mold model of the existing device is generally hollow, and the mold female seat is easy to crush when a system is wrong in the process of splicing the mold male seat and the mold female seat.

The utility model discloses a purpose and an effect of an automatic material returning and heat setting device for processing paper pulp molding tableware, which are achieved by the following specific technical means:

an automatic material returning and heat setting device for processing paper pulp molding tableware comprises a base;

the base is of a concave structure;

the die structure is arranged on the base;

the driving structure is arranged on the base;

and the auxiliary structure is arranged on the die structure.

Further, the material returning structure comprises:

the sliding rod B is connected to the die master seat in a sliding manner and is of a stepped shaft structure; a baffle ring is welded on the sliding rod B, a stress seat is welded at the tail end of the sliding rod B, and the stress seat is of an L-shaped plate structure;

the sliding rod B is sleeved with an elastic piece, and the elastic piece forms an elastic stretching structure of the sliding rod B and the stress seat.

Further, the mold structure further includes:

the ejector rod is welded on the male die seat, and is in an elastic contact state with the stressed seat after the male die seat and the female die seat are spliced, and the top end face of the sliding rod B is flush with the bottom end face of the die groove on the female die seat.

Further, the mold structure further includes:

the through holes are formed in four in total, and the four through holes are formed in the die male seat in a rectangular array shape; the through hole is obliquely arranged, the inclination angle is 30 degrees, and the tail end of the through hole is aligned with the die bulge on the die male seat;

the auxiliary seat is welded on the die male seat, is aligned with the through hole and is of a rectangular frame-shaped structure.

Further, the base includes:

the fixing seats are two in number and symmetrically welded on the base, and the fixing seats are of L-shaped plate structures;

the fixing bolts are provided with four fixing bolts, two fixing bolts are inserted into the left fixing seat, the other two fixing bolts are inserted into the right fixing seat, and the four fixing bolts are in threaded connection with the mounting position of the base.

Further, the mold structure includes:

the die master seat is fixedly connected to the base through a screw;

the male die seat is buckled on the female die seat;

the driving structure comprises:

four sliding rods A are arranged in total, and are welded on the base; the head ends of the four sliding rods A are welded with the top plate, and the four sliding rods A are connected with a die male seat in a sliding manner;

the electric telescopic rod is fixedly connected to the top plate through a bolt, and the head end of the electric telescopic rod is fixedly connected with the male seat of the die.

Further, the mold structure further includes:

the two air pipes are arranged in total and are welded on the die master seat; the female seat of mould is hollow structure, and two trachea all are linked together with female seat of mould to the trachea is connected with hot gas supply device.

Further, the auxiliary structure includes:

the two rotating shafts are arranged in total and are both connected to the die master seat in a rotating way; gears are arranged on the two rotating shafts, and blades are arranged on the two rotating shafts.

Further, the mold structure further includes:

the two tooth rows are welded on the bottom end surface of the die male seat, and are respectively meshed with the two gears;

the die structure is provided with a material returning structure.

Further, the two tooth rows are symmetrically arranged, and when the male seat of the die and the female seat of the die are spliced, the bottom end face of the tooth row is contacted with the top end face of the base.

Compared with the prior art, the utility model has the following beneficial effects:

through the arrangement of the through holes and the auxiliary seats, firstly, four through holes are arranged in total, and the four through holes are arranged on the die male seat in a rectangular array shape; the through holes are obliquely formed, the inclination angle is 30 degrees, and the tail ends of the through holes are aligned with the mould bulges on the mould male seat, so that when the mould male seat moves upwards, pulp moulding tableware can be blown down from the mould bulges by wind power generated at the through holes, and the material returning action is realized;

second, because of the auxiliary seat, the auxiliary seat is welded on the male seat of the die, and the auxiliary seat is aligned with the through hole, and the auxiliary seat is of a rectangular frame-shaped structure, so that the wind collecting capacity of the through hole can be enhanced through the auxiliary seat.

Through the cooperation setting of mould structure, drive structure and auxiliary structure, firstly, because the tooth row is equipped with two altogether, and two tooth rows all weld the bottom face at the public seat of mould, and two tooth rows mesh with two gears respectively to can also realize the accelerated flow of hot air current when the public seat of mould reciprocates and realize the switch mould, and then can make the gas current that has become cold that contacts with the mould profile change;

secondly, because the two tooth rows are symmetrically arranged, and the bottom end surface of the tooth row contacts with the top end surface of the base after the male seat of the die and the female seat of the die are spliced, the limit protection of the male seat of the die can be realized through the tooth rows;

thirdly, because the ejector rod is welded on the male seat of the mould, and when the male seat of the mould is spliced with the female seat of the mould, the ejector rod is in an elastic contact state with the stressed seat, and the top end surface of the sliding rod B is flush with the bottom end surface of the mould groove on the female seat of the mould at the moment, thereby ensuring the integrity of manufacturing the pulp moulding tableware.

Drawings

Fig. 1 is an isometric view of the present utility model.

Fig. 2 is a schematic diagram of the front view structure of the present utility model.

Fig. 3 is an enlarged schematic view of the structure of fig. 2 at a in accordance with the present utility model.

Fig. 4 is a schematic diagram of an isometric view of a die female seat of the present utility model after being cut away.

Fig. 5 is an enlarged schematic view of the structure of fig. 4 at B according to the present utility model.

Fig. 6 is a schematic diagram of the front view of fig. 4 according to the present utility model.

Fig. 7 is an enlarged schematic view of the structure of fig. 6 at C according to the present utility model.

Fig. 8 is a schematic diagram of an isometric view of a male die seat of the present utility model shown in a cut-away configuration.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a base; 101. a fixing seat; 102. a fixing bolt; 2. a mold structure; 201. a die female seat; 202. a mold male seat; 203. a tooth row; 204. a through hole; 205. an auxiliary seat; 206. an air pipe; 207. a push rod; 3. a driving structure; 301. a sliding rod A; 302. a top plate; 303. an electric telescopic rod; 4. an auxiliary structure; 401. a rotating shaft; 402. a blade; 403. a gear; 5. a material returning structure; 501. a sliding rod B; 502. a baffle ring; 503. an elastic member; 504. and a stress seat.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Examples:

as shown in fig. 1 to 8:

the utility model provides an automatic material returning and heat setting device for processing pulp molding tableware, which comprises a base 1;

the base 1 is of a concave structure;

the mold structure 2 is arranged on the base 1;

the driving structure 3, the driving structure 3 is installed on the base 1;

auxiliary structure 4, auxiliary structure 4 is installed on mould structure 2.

Referring to fig. 1, a base 1 includes:

the fixing seats 101 are arranged in total, two fixing seats 101 are symmetrically welded on the base 1, and the fixing seats 101 are of L-shaped plate structures;

the fixing bolts 102 are arranged in total, four fixing bolts 102 are arranged, two fixing bolts 102 are inserted into the left fixing seat 101, the other two fixing bolts 102 are inserted into the right fixing seat 101, and the four fixing bolts 102 are in threaded connection with the mounting position of the base 1, so that after the fixing bolts 102 are screwed down, elastic anti-loosening of the fixing bolts 102 can be realized through the elasticity of the fixing seat 101.

Referring to fig. 4, the mold structure 2 includes:

the die master seat 201, the die master seat 201 is fixedly connected to the base 1 through a screw;

the male die holder 202, the male die holder 202 is fastened on the female die holder 201;

the driving structure 3 includes:

the sliding rods A301 are arranged in total, and the four sliding rods A301 are welded on the base 1; the head ends of the four sliding rods A301 are welded with the top plate 302, and the four sliding rods A301 are connected with the die male seat 202 in a sliding manner;

the electric telescopic rod 303, the electric telescopic rod 303 is fixedly connected on the top plate 302 through bolts, and the head end of the electric telescopic rod 303 is fixedly connected with the die male seat 202, so that the up-and-down adjustment of the die male seat 202 can be realized when the electric telescopic rod 303 stretches and contracts.

Referring to fig. 1 and 4, the mold structure 2 further includes:

the two air pipes 206 are arranged in total, and the two air pipes 206 are welded on the die master 201; the female mould seat 201 is of a hollow structure, two air pipes 206 are communicated with the female mould seat 201, and the air pipes 206 are connected with a hot air supply device, so that pulp moulding tableware in the mould can be quickly dried through hot air.

Referring to fig. 4, the auxiliary structure 4 includes:

the two rotating shafts 401 are arranged in total, and the two rotating shafts 401 are both connected to the die master 201 in a rotating way; gears 403 are mounted on both rotating shafts 401, and blades 402 are mounted on both rotating shafts 401, so that when the blades 402 rotate, the accelerated flow of hot air flow in the die parent seat 201 can be realized.

Referring to fig. 4, the mold structure 2 further includes:

the two tooth rows 203 are arranged in total, the two tooth rows 203 are welded on the bottom end surface of the die male seat 202, and the two tooth rows 203 are respectively meshed with the two gears 403, so that when the die male seat 202 moves up and down to switch the die, the accelerated flow of hot air flow can be realized, and the cooled air flow contacted with the die contour can be converted;

the die structure 2 is provided with a material returning structure 5.

Referring to fig. 2, two tooth rows 203 are symmetrically arranged, and when the male die holder 202 and the female die holder 201 are spliced, the bottom end surface of the tooth row 203 contacts with the top end surface of the base 1, so that limit protection of the male die holder 202 can be realized through the tooth row 203.

Referring to fig. 4, the reject structure 5 comprises:

the sliding rod B501 is connected to the die master 201 in a sliding manner, and the sliding rod B501 is of a stepped shaft structure; a baffle ring 502 is welded on the sliding rod B501, a stress seat 504 is welded at the tail end of the sliding rod B501, and the stress seat 504 is of an L-shaped plate structure;

the elastic piece 503 is sleeved on the sliding rod B501, and the elastic piece 503 forms an elastic stretching structure of the sliding rod B501 and the stress seat 504, so that the material returning of the pulp molding tableware can be realized through the elastic stretching of the sliding rod B501.

Referring to fig. 4 and 5, the mold structure 2 further includes:

the ejector rod 207, ejector rod 207 welds on the public seat of mould 202, and when the public seat of mould 202 and the female seat of mould 201 splice the back ejector rod 207 be the elastic contact state with atress seat 504, and the top terminal surface of slide bar B501 and the bottom terminal surface parallel and level of the last mould groove of female seat of mould 201 this moment, thereby guaranteed the integrality of pulp moulding tableware manufacturing.

Referring to fig. 4 and 8, the mold structure 2 further includes:

the through holes 204, the through holes 204 are four in total, and the four through holes 204 are arranged on the die male base 202 in a rectangular array shape; the through holes 204 are obliquely formed, the inclination angle is 30 degrees, and the tail ends of the through holes 204 are aligned with the die protrusions on the die male base 202, so that when the die male base 202 moves upwards, pulp molded tableware can be blown down from the die protrusions by wind power generated at the through holes 204, and material returning action is realized;

the auxiliary seat 205, the auxiliary seat 205 is welded on the die male seat 202, the auxiliary seat 205 is aligned with the through hole 204, and the auxiliary seat 205 is of a rectangular frame-shaped structure, so that the wind collecting capability of the through hole 204 can be enhanced through the auxiliary seat 205.

In another embodiment, the fixing base 101 may also have a concave structure, so that the elastic force of the fixing base 101 can also realize the elastic force of the fixing bolt 102 to prevent loosening.

Specific use and action of the embodiment:

in the fixing process, four fixing bolts 102 are arranged, wherein two fixing bolts 102 are inserted into a left fixing seat 101, the other two fixing bolts 102 are inserted into a right fixing seat 101, and the four fixing bolts 102 are in threaded connection with the mounting position of the base 1, so that after the fixing bolts 102 are screwed up, elastic anti-loosening of the fixing bolts 102 can be realized through the elasticity of the fixing seat 101;

when the electric telescopic rod 303 stretches out and draws back, firstly, two tooth rows 203 are arranged in total, the two tooth rows 203 are welded on the bottom end surface of the die male seat 202, and the two tooth rows 203 are respectively meshed with the two gears 403, so that when the die male seat 202 moves up and down to realize the die opening and closing, the accelerated flow of hot air flow can be realized, and the cooled air flow contacted with the die contour can be converted; secondly, because the two tooth rows 203 are symmetrically arranged, and the bottom end surfaces of the tooth rows 203 are contacted with the top end surface of the base 1 after the die male seat 202 and the die female seat 201 are spliced, the limit protection of the die male seat 202 can be realized through the tooth rows 203; thirdly, because the ejector rod 207 is welded on the die male seat 202, and after the die male seat 202 and the die female seat 201 are spliced, the ejector rod 207 and the stress seat 504 are in an elastic contact state, and at the moment, the top end surface of the sliding rod B501 is flush with the bottom end surface of the die groove on the die female seat 201, thereby ensuring the integrity of manufacturing pulp molded tableware; fourth, because the through holes 204 are totally provided with four through holes 204, the four through holes 204 are arranged on the die male base 202 in a rectangular array shape; the through holes 204 are obliquely formed, the inclination angle is 30 degrees, and the tail ends of the through holes 204 are aligned with the die protrusions on the die male base 202, so that when the die male base 202 moves upwards, pulp molded tableware can be blown down from the die protrusions by wind power generated at the through holes 204, and material returning action is realized; fifth, because the auxiliary seat 205 is welded on the male die seat 202, the auxiliary seat 205 is aligned with the through hole 204, and the auxiliary seat 205 has a rectangular frame structure, so that the wind collecting capability of the through hole 204 can be enhanced by the auxiliary seat 205.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. An automatic material returning and heat setting device for processing paper pulp molding tableware is characterized in that: comprises a base;

the base is of a concave structure;

the die structure is arranged on the base;

the die structure comprises:

the die master seat is fixedly connected to the base through a screw;

the male die seat is buckled on the female die seat;

the driving structure comprises:

four sliding rods A are arranged in total, and are welded on the base; the head ends of the four sliding rods A are welded with the top plate, and the four sliding rods A are connected with a die male seat in a sliding manner;

the electric telescopic rod is fixedly connected to the top plate through a bolt, and the head end of the electric telescopic rod is fixedly connected with the male die seat;

the mold structure further comprises:

the through holes are formed in four in total, and the four through holes are formed in the die male seat in a rectangular array shape; the through hole is obliquely arranged, the inclination angle is 30 degrees, and the tail end of the through hole is aligned with the die bulge on the die male seat;

the auxiliary seat is welded on the die male seat, is aligned with the through hole and is of a rectangular frame-shaped structure;

the driving structure is arranged on the base;

and the auxiliary structure is arranged on the die structure.

2. An automatic material returning and heat setting device for pulp molding tableware processing as claimed in claim 1, wherein: the base includes:

the fixing seats are two in number and symmetrically welded on the base, and the fixing seats are of L-shaped plate structures;

the fixing bolts are provided with four fixing bolts, two fixing bolts are inserted into the left fixing seat, the other two fixing bolts are inserted into the right fixing seat, and the four fixing bolts are in threaded connection with the mounting position of the base.

3. An automatic material returning and heat setting device for pulp molding tableware processing as claimed in claim 1, wherein: the mold structure further comprises:

the two air pipes are arranged in total and are welded on the die master seat; the female seat of mould is hollow structure, and two trachea all are linked together with female seat of mould to the trachea is connected with hot gas supply device.

4. An automatic material returning and heat setting device for pulp molding tableware processing as claimed in claim 1, wherein: the auxiliary structure comprises:

the two rotating shafts are arranged in total and are both connected to the die master seat in a rotating way; gears are arranged on the two rotating shafts, and blades are arranged on the two rotating shafts.

5. An automatic material returning and heat setting device for pulp molding tableware processing as claimed in claim 1, wherein: the mold structure further comprises:

the two tooth rows are welded on the bottom end surface of the die male seat, and are respectively meshed with the two gears;

the die structure is provided with a material returning structure.

6. An automatic material returning and heat setting device for pulp molded tableware processing as claimed in claim 5, wherein: the two tooth rows are symmetrically arranged, and when the male seat of the die and the female seat of the die are spliced, the bottom end face of the tooth row contacts with the top end face of the base.

7. An automatic material returning and heat setting device for pulp molded tableware processing as claimed in claim 5, wherein: the material returning structure comprises:

the sliding rod B is connected to the die master seat in a sliding manner and is of a stepped shaft structure; a baffle ring is welded on the sliding rod B, a stress seat is welded at the tail end of the sliding rod B, and the stress seat is of an L-shaped plate structure;

the sliding rod B is sleeved with an elastic piece, and the elastic piece forms an elastic stretching structure of the sliding rod B and the stress seat.

8. An automatic material returning and heat setting device for pulp molding tableware processing as claimed in claim 1, wherein: the mold structure further comprises:

the ejector rod is welded on the male die seat, and is in an elastic contact state with the stressed seat after the male die seat and the female die seat are spliced, and the top end face of the sliding rod B is flush with the bottom end face of the die groove on the female die seat.

Images