CN220534775U

CN220534775U - Central boiling type material sucking machine

Info

Publication number: CN220534775U
Application number: CN202321487700.9U
Authority: CN
Inventors: 李永忠; 周棒棒
Original assignee: Tai Mei De Xiamen Intelligent Technology Co ltd
Current assignee: Tai Mei De Xiamen Intelligent Technology Co ltd
Priority date: 2023-06-12
Filing date: 2023-06-12
Publication date: 2024-02-27
Anticipated expiration: 2033-06-12

Abstract

The utility model discloses a central boiling type material sucking machine which comprises a hopper in a funnel shape, wherein an embedded type two-way vacuum separation valve is correspondingly arranged at the upper part of the hopper, the lower end of the hopper is correspondingly communicated with one end of a Y-shaped boiling type material feeding device, the lower end of the Y-shaped boiling type material feeding device is correspondingly communicated with a dead weight type material discharging check valve, the lower end outlet of the dead weight type material discharging check valve is correspondingly communicated with a glass support, a photoelectric material level detection device is correspondingly arranged at the side edge of the glass support, and an air valve is correspondingly arranged at the side edge of the hopper. The utility model provides a central boiling formula material absorbing machine adopts the mode of air current boiling to get rid of the powder on raw and other materials surface, and it is efficient to remove the powder, can direct mount to the make-up machine pan feeding mouth, convenient operation, and the complete machine is small, light in weight, is suitable for the occasion that requires to raw materials powder content ratio more strict.

Description

Central boiling type material sucking machine

Technical Field

The utility model belongs to the technical field of raw material conveying and matching related equipment, and particularly relates to a central boiling type material sucking machine.

Background

Injection molding machines, also known as injection molding machines or injectors, are known from many factories as beer machines (pj ī), and injection molded products as beer pieces. It is a main forming equipment for making thermoplastic plastics or thermosetting plastics into various shaped plastic products by using plastic forming mould. The molding process of a general screw injection molding machine comprises the following steps: firstly, granular or powdery plastic raw materials are added into a machine barrel, the plastic is made into a molten state through rotation of a screw rod and heating of the outer wall of the machine barrel, then a machine is clamped and an injection seat is moved forward, a nozzle is made to be close to a sprue of a mold, then pressure oil is introduced into an injection cylinder to make the screw rod advance, so that molten materials are injected into a closed mold with lower temperature under high pressure and high speed, and after a certain time and pressure are kept (also called pressure maintaining) and cooled, the molten materials are solidified and formed, a product can be taken out from the mold after opening (the purpose of pressure maintaining is to prevent backflow of the molten materials in a mold cavity, supplement materials into the mold cavity and ensure that the product has certain density and dimensional tolerance). The existing material sucking machine has low powder removing efficiency and inconvenient operation, so that the central boiling material sucking machine needs to be provided.

Disclosure of Invention

In order to overcome the defects in the prior art, a central boiling type suction machine is provided.

The utility model is realized by the following scheme:

the utility model provides a central boiling formula material sucking machine, includes hopper that the upper portion of hopper corresponds and is equipped with embedded two-way vacuum separation valve, the lower extreme of hopper corresponds the intercommunication with Y type boiling formula feed arrangement's one end, Y type boiling formula feed arrangement's lower extreme corresponds the intercommunication with dead weight formula blanking check valve, dead weight formula blanking check valve's lower extreme export corresponds the intercommunication with glass support the side of glass support corresponds and is equipped with photoelectric type material level detection device the side of hopper corresponds and is equipped with the pneumatic valve.

And a pair of photoelectric material level detection devices are symmetrically arranged on the outer side of the glass support.

The bottom of the glass support is correspondingly provided with fixed blades, a plurality of limiting grooves are formed in the glass support, and the limiting grooves are distributed in a central symmetry mode.

The Y-shaped boiling type feeding device comprises a vertical pipe, a bevel pipe, an elbow pipe and a feeding groove;

the vertical pipes are vertically distributed, the middle parts of the vertical pipes are correspondingly communicated with inclined-side pipes which are obliquely upwards, the other ends of the inclined-side pipes are correspondingly communicated with bent pipes, and the bent pipes are correspondingly communicated with each other; the other end is correspondingly communicated with the feeding groove, and the feeding groove is vertically distributed.

The upper end and the lower end of the vertical pipe are correspondingly communicated with the lower end of the hopper and the upper end of the glass support respectively.

The feeding chute is correspondingly provided with a built-in raw material check valve, the built-in raw material check valve comprises a raw material feeding pipe, the raw material feeding pipe correspondingly penetrates through a sealing fixing piece, the inner side of the sealing fixing piece is correspondingly connected with a valve block sliding rail, the valve block sliding rail is correspondingly provided with a valve block sliding block, the valve block sliding block is correspondingly connected with a valve block, and the valve block is correspondingly matched with an outlet of one end of the raw material feeding pipe, which is close to the feeding chute.

The sealing fixing piece is correspondingly provided with a plurality of fixing holes, the sealing fixing piece is correspondingly matched with the opening on the feeding groove, and a plurality of fixing holes are matched with the feeding groove.

The valve block slide rails are two in parallel arrangement, and two ends of the valve block slide block are correspondingly connected with the two valve block slide rails respectively.

And an airtight ring is correspondingly arranged at the outlet of one end of the raw material feeding pipe, which is close to the feeding groove, and the airtight ring is matched with the valve plate.

The beneficial effects of the utility model are as follows:

the utility model provides a central boiling formula material absorbing machine adopts the mode of air current boiling to get rid of the powder on raw and other materials surface, and it is efficient to remove the powder, can direct mount to the make-up machine pan feeding mouth, convenient operation, and the complete machine is small, light in weight, is suitable for the occasion that requires to raw materials powder content ratio more strict.

Drawings

FIG. 1 is a schematic exploded view of a central boiling type suction machine according to the present utility model;

FIG. 2 is a schematic diagram of the axial structure of a central boiling type suction machine according to the present utility model;

FIG. 3 is a schematic perspective view of a central boiling type suction machine according to the present utility model;

FIG. 4 is a schematic view of another perspective view of a central boiling suction apparatus according to the present utility model;

FIG. 5 is a detailed view of the structure of the portion A in FIG. 1;

in the figure: 1 is a hopper, 2 is an embedded two-way vacuum separating valve, 3 is a Y-shaped boiling type feeding device, 31 is a vertical pipe, 32 is a bevel pipe, 33 is an elbow, 34 is a feed chute, 4 is a dead weight blanking check valve, 5 is a glass support, 6 is a photoelectric material level detecting device, 7 is a fixed blade, 8 is a limit groove, 9 is a built-in raw material check valve, 91 is a raw material feeding pipe, 92 is a sealing fixing piece, 93 is a fixing hole, 94 is a valve plate sliding rail, 95 is a valve plate sliding block, 96 is a valve plate, 97 is an airtight ring, and 10 is an air valve.

Detailed Description

Preferred embodiments of the present utility model will be further described with reference to the accompanying drawings:

as shown in fig. 1 and 2, a central boiling type material sucking machine comprises a hopper 1 in a funnel shape, wherein an embedded bidirectional vacuum separation valve 2 is correspondingly arranged at the upper part of the hopper 1, the lower end of the hopper 1 is correspondingly communicated with one end of a Y-shaped boiling type material feeding device 3, the lower end of the Y-shaped boiling type material feeding device 3 is correspondingly communicated with a dead weight type material discharging check valve 4, the outlet of the lower end of the dead weight type material discharging check valve 4 is correspondingly communicated with a glass support 5, a photoelectric material level detection device 6 is correspondingly arranged at the side edge of the glass support 5, and an air valve 10 is correspondingly arranged at the side edge of the hopper 1.

The working method of the application is briefly described as follows:

the embedded bidirectional vacuum separating valve 2 is started, so that the hopper 1 is in a negative pressure state, granular materials enter the hopper 1 from the feeding groove of the Y-shaped boiling type feeding device 3, under the action of the air valve 10, the materials in the hopper 1 are in a boiling state, powder on the surfaces of the materials is removed in an air flow mode, the powder removing efficiency is high, the cost is low, after the set time is reached, the embedded bidirectional vacuum separating valve 2 and the air valve 10 are closed, under the action of gravity, the granular materials fall to the bottom of the hopper 1, then the dead weight type blanking check valve 4 is opened downwards, the granular materials enter the glass support 5, the photoelectric type material level detecting device 6 detects the material level of the entering granular materials, and after the set value is reached, a new round of feeding operation is started.

As shown in fig. 3 and 4, a pair of photoelectric level detecting devices 6 are symmetrically arranged on the outer side of the glass support 5. The level can be detected quickly without contact by a pair of photoelectric level detecting means 6.

The bottom of the glass support 5 is correspondingly provided with fixed blades 7, a plurality of limiting grooves 8 are formed, and the limiting grooves 8 are distributed in a central symmetry mode. The application can be fast and firmly fixed on the working table surface through the fixed blades 7 and the plurality of limit grooves 8 which are distributed in a central symmetry shape.

The Y-shaped boiling type feeding device 3 comprises a vertical pipe 31, a bevel pipe 32, an elbow 33 and a feeding groove 34;

the vertical pipes 31 are vertically distributed, the middle parts of the vertical pipes are correspondingly communicated with inclined-side pipes 32 which are obliquely upwards, the other ends of the inclined-side pipes 32 are correspondingly communicated with bent pipes 33, and the bent pipes 33 are correspondingly communicated; the other end is correspondingly communicated with the feed chute 34, and the feed chute 34 is vertically distributed.

The upper and lower ends of the vertical pipe 31 are respectively communicated with the lower end of the hopper 1 and the upper end of the glass support 5.

The feeding chute 34 is correspondingly provided with a built-in raw material check valve 9, the built-in raw material check valve 9 comprises a raw material feeding pipe 91, the raw material feeding pipe 91 correspondingly penetrates through a sealing fixing piece 92, the inner side of the sealing fixing piece 92 is correspondingly connected with a valve block sliding rail 94, the valve block sliding rail 94 is correspondingly provided with a valve block sliding block 95, the valve block sliding block 95 is correspondingly connected with a valve block 96, and the valve block 96 is correspondingly matched with an outlet of one end of the raw material feeding pipe 91, which is close to the feeding chute 34.

A plurality of fixing holes 93 are correspondingly arranged on the sealing fixing piece 92, the sealing fixing piece 92 is correspondingly matched with the opening on the feeding chute 34, and a plurality of fixing holes 93 are matched with the feeding chute 34.

The two valve block slide rails 94 are arranged in parallel, and two ends of the valve block slide block 95 are respectively and correspondingly connected with the two valve block slide rails 94. The valve block slider 95 can slide smoothly by the two valve block slide rails 94. An airtight ring 97 is correspondingly arranged at the outlet of one end of the raw material feeding pipe 91 close to the feeding chute 34, and the airtight ring 97 is matched with the valve plate 96. The airtightness can be remarkably improved by the airtight ring 97.

While the utility model has been described and illustrated in considerable detail, it should be understood that modifications and equivalents to the above-described embodiments will become apparent to those skilled in the art, and that such modifications and improvements may be made without departing from the spirit of the utility model.

Claims

1. The utility model provides a material machine is inhaled to central boiling formula, includes hopper (1) of funnel form, its characterized in that: the automatic feeding device is characterized in that an embedded bidirectional vacuum separating valve (2) is correspondingly arranged on the upper portion of the hopper (1), the lower end of the hopper (1) is correspondingly communicated with one end of a Y-shaped boiling type feeding device (3), the lower end of the Y-shaped boiling type feeding device (3) is correspondingly communicated with a dead weight type blanking check valve (4), the lower end outlet of the dead weight type blanking check valve (4) is correspondingly communicated with a glass support (5), a photoelectric material level detecting device (6) is correspondingly arranged on the side edge of the glass support (5), and an air valve (10) is correspondingly arranged on the side edge of the hopper (1).

2. A central boiling suction machine as claimed in claim 1, wherein: a pair of photoelectric material level detection devices (6) are symmetrically arranged on the outer side of the glass support (5).

3. A central boiling suction machine as claimed in claim 1, wherein: the bottom of glass support (5) corresponds and is equipped with fixed blade (7) be equipped with a plurality of spacing groove (8) on fixed blade (7), a plurality of spacing groove (8) are the central symmetry form and distribute.

4. A central boiling suction machine as claimed in claim 1, wherein: the Y-shaped boiling type feeding device (3) comprises a vertical pipe (31), a bevel pipe (32), a bent pipe (33) and a feeding groove (34);

the vertical pipes (31) are vertically distributed, the middle parts of the vertical pipes are correspondingly communicated with inclined side pipes (32) which are obliquely upwards, the other ends of the inclined side pipes (32) are correspondingly communicated with bent pipes (33), the other ends of the bent pipes (33) are correspondingly communicated with feed grooves (34), and the feed grooves (34) are vertically distributed.

5. A central boiling suction machine as claimed in claim 4, wherein: the upper end and the lower end of the vertical pipe (31) are respectively correspondingly communicated with the lower end of the hopper (1) and the upper end of the glass support (5).

6. A central boiling suction machine as claimed in claim 4, wherein: the feeding chute (34) is correspondingly provided with a built-in raw material check valve (9), the built-in raw material check valve (9) comprises a raw material feeding pipe (91), the raw material feeding pipe (91) correspondingly penetrates through a sealing fixing piece (92), the inner side of the sealing fixing piece (92) is correspondingly connected with a valve block sliding rail (94), the valve block sliding rail (94) is correspondingly provided with a valve block sliding block (95), the valve block sliding block (95) is correspondingly connected with a valve block (96), and the valve block (96) is correspondingly matched with an outlet at one end of the raw material feeding pipe (91) close to the feeding chute (34).

7. A central boiling suction machine as claimed in claim 6, wherein: a plurality of fixing holes (93) are correspondingly formed in the sealing fixing piece (92), the sealing fixing piece (92) is correspondingly matched with the opening in the feeding groove (34), and a plurality of fixing holes (93) are matched with the feeding groove (34).

8. A central boiling suction machine as claimed in claim 6, wherein: the valve block sliding rails (94) are two in parallel arrangement, and two ends of the valve block sliding block (95) are respectively and correspondingly connected with the two valve block sliding rails (94).

9. A central boiling suction machine as claimed in claim 6, wherein: and an airtight ring (97) is correspondingly arranged at the outlet of one end of the raw material feeding pipe (91) close to the feeding groove (34), and the airtight ring (97) is matched with the valve plate (96).