CN217252588U - Double-channel electric heating automatic pre-foaming machine - Google Patents

Abstract

The utility model relates to a double-channel electric heating automatic pre-foaming machine, which comprises a first cabinet body and a second cabinet body, wherein heating barrel bodies are respectively and independently arranged in the first cabinet body and the second cabinet body, a stirring structure is arranged in the heating barrel bodies, and the heating barrel bodies are used for pre-foaming materials; according to placing the place demand, promote the first cabinet body or the second cabinet body for two sets of cabinets body becomes different angles and puts, and further, the automatic prefoaming machine of binary channels electrical heating begins work, and the internal heating staving that all independently is provided with of first cabinet body and second cabinet, and the heating staving carries out prefoaming to the material, accelerates the processing greatly through structure like this and can carry out resin particle volume efficiency.

Description

Double-channel electric heating automatic pre-foaming machine

Technical Field

The utility model relates to a prefoaming equipment, concretely relates to automatic prefoaming machine of binary channels electrical heating.

Background

The prefoaming machine is one of the most important devices in the early stage of lost foam casting, and can soften and expand expandable resin granules containing a certain amount of foaming agent by means of prefoaming machine steam heating or electric steam heating method, then the expanded expandable resin granules are placed into the lost foam, the full-filling material lost foam mould cavity is closed and heated, and the heated expanded expandable resin granules are mutually extruded to fill the mutual gaps, and mutually bonded together, so that the foam body can be formed.

The present inventors have already applied for a prefoamer for lost foam casting and a method of operating the same, which application is CN202011621575.7, however, the above prefoamer is a single channel, the amount of resin particles that can be processed is not efficient, and the amount of resin particles processed in a predetermined time is small.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic prefoaming machine of binary channels electrical heating to it is the single channel that the single channel exists to handle the not high problem of resin granule volume efficiency that can go about to solve current prefoaming equipment.

In order to achieve the purpose, the utility model provides a double-channel electric heating automatic pre-foaming machine, which comprises a first cabinet body and a second cabinet body, wherein the first cabinet body and the second cabinet body are respectively and independently provided with a heating barrel body, a stirring structure is arranged in the heating barrel body, and the heating barrel body is used for pre-foaming materials; the top of the first cabinet body is provided with a first rotary driving plate, the top of the second cabinet body is provided with a second rotary driving plate, the bottoms of the first cabinet body and the second cabinet body are provided with moving wheels, the first rotary driving plate is rotatably connected with the second rotary driving plate, and the first rotary driving plate can rotate relative to the second rotary driving plate to enable the first cabinet body and the second cabinet body to form different placing angles.

The beneficial effects of the scheme are as follows: according to placing the place demand, promote the first cabinet body or the second cabinet body for two sets of cabinets body one-tenth difference angle is put, and further, the work is started to the automatic prefoaming machine of binary channels electrical heating, and the heating staving all independently is provided with in the first cabinet body and the second cabinet body, and the heating staving carries out prefoaming to the material, accelerates the processing greatly through structure like this and can carry out resin particles volume efficiency.

In a preferred embodiment, the bottom of the first rotary driving plate is connected to the main frame of the first cabinet through a plurality of first connecting posts, and the bottom of the second rotary driving plate is connected to the main frame of the second cabinet through a plurality of second connecting posts.

One preferred scheme is that the device further comprises a rotary connecting assembly, the rotary connecting assembly is provided with a supporting plate, a sliding clamping plate, a shaft rod, a sliding block, a first annular connecting plate, a second annular connecting plate, a first fixing rod, a second fixing rod and a raw material box, the bottom end of the supporting plate is connected with the raw material box through a vertically arranged limiting block, the height of the raw material box is consistent with that of the main body frame, two groups of the first fixing rod and the second fixing rod form a sliding channel, the sliding block can be movably arranged in the sliding channel, the first cabinet body and the second cabinet body are symmetrically arranged on two sides of the sliding channel, two groups of the sliding clamping plates are respectively and fixedly connected to the central positions of the end parts of the first rotating driving plate and the second rotating driving plate, and the bottom ends of the two groups of the sliding clamping plates are respectively and fixedly connected with the first annular connecting plate and the second annular connecting plate, the free ends of the first annular connecting plate and the second annular connecting plate are sleeved on the connecting shaft, the connecting shaft is vertically arranged at the bottom end of the sliding block, the sliding clamping plate can be rotatably arranged on the shaft rod, the bottom end of the shaft rod is fixedly connected to the top wall of the raw material box, and the top end of the shaft rod penetrates through the middle position of the sliding clamping plate and is fixedly connected to the bottom wall of the supporting plate.

One preferred scheme is that the sliding block is of an I-shaped structure, sliding grooves are formed in two ends of the I-shaped structure, and the two groups of sliding grooves are in contact fit with the first fixing rod and the second fixing rod.

An optimal scheme is that first dead lever and second dead lever are the L type body of rod, the L type body of rod includes horizontal pole and montant, the montant bottom mounting sets up on raw materials box roof, and the level sets up horizontal pole one end montant top position, the horizontal pole free end sets up two sets of between the stopper, the I shape structure slides and sets up on the horizontal pole.

Preferably, the sliding clamping plate is provided with a first notch portion and a second notch portion, and the first notch portion and the second notch portion are both triangular notch structures.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a perspective view of the dual-channel electric heating automatic pre-foaming machine of the present invention;

FIG. 2 is a schematic structural diagram of a left side view cross-sectional view of the dual-channel electric heating automatic pre-foaming machine of the present invention;

FIG. 3 is a schematic structural view of the dual-channel electric heating automatic pre-foaming machine of the present invention with the support plate removed;

FIG. 4 is a schematic structural view of a rear view of the dual-channel electric heating automatic pre-foaming machine of the present invention;

FIG. 5 is an enlarged schematic view of region A in FIG. 3;

FIG. 6 is an enlarged schematic view of region B in FIG. 4;

FIG. 7 is a schematic view of another three-dimensional structure of the dual-channel electric heating automatic pre-foaming machine of the present invention with the material tank and the supporting plate removed;

fig. 8 is an enlarged structural view of a region B in fig. 7.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

The first embodiment:

as shown in fig. 1 to 8, the utility model provides a dual-channel electric heating automatic pre-foaming machine, which comprises a first cabinet body 10 and a second cabinet body 20, as shown in fig. 2, heating barrel bodies 30 are independently arranged in the first cabinet body 10 and the second cabinet body 20, a stirring structure 31 is arranged in the heating barrel bodies 30, and the heating barrel bodies 30 are used for pre-foaming materials; as shown in fig. 1, the first cabinet 10 has a first rotary driving plate 11 on the top, the second cabinet 20 has a second rotary driving plate 21 on the top, moving wheels 32 are provided on the bottoms of the first cabinet 10 and the second cabinet 20, the first rotary driving plate 11 is rotatably connected to the second rotary driving plate 21, and the first rotary driving plate 11 is rotatable with respect to the second rotary driving plate 21 so that the first cabinet 10 and the second cabinet 20 are disposed at different angles.

The beneficial effects of the above scheme are: according to placing the place demand, promote first cabinet body 10 or second cabinet body 20 for two sets of cabinets body one-tenth difference angle is put, and further, the automatic prefoaming machine of binary channels electrical heating begins work, all independently is provided with heating staving 30 in the first cabinet body 10 and the second cabinet body 20, and heating staving 30 carries out prefoaming to the material, accelerates the processing greatly through such structure and can carry out resin particles volume efficiency.

Second embodiment:

as shown in fig. 1, a bottom of the first rotary driving plate 11 is connected to the main frame 13 of the first cabinet 10 by a plurality of first connection posts 12, and a bottom of the second rotary driving plate 21 is connected to the main frame 13 of the second cabinet 20 by a plurality of second connection posts 22.

As shown in fig. 1, 3 and 5, the present invention further comprises a rotary connecting assembly 50, wherein the rotary connecting assembly 50 comprises a supporting plate 51, a sliding clamping plate 52, a shaft 53, a sliding block 54, a first annular connecting plate 55, a second annular connecting plate 56, a first fixing rod 57, a second fixing rod 58 and a raw material box 59, the bottom end of the supporting plate 51 is connected to the raw material box 59 through a vertically arranged stopper 501, the raw material box 59 is aligned with the height of the main frame 13, two sets of the first fixing rod 57 and the second fixing rod 58 form a sliding channel 500, the sliding block 54 is movably arranged in the sliding channel 500, the first cabinet 10 and the second cabinet 20 are symmetrically arranged at two sides of the sliding channel 500, two sets of the sliding clamping plates 52 are respectively and fixedly connected to the end center positions of the first rotary driving plate 11 and the second rotary driving plate 12, the bottom ends of the two sets of sliding clamping plates 52 are respectively and fixedly connected with a first annular connecting plate 55 and a second annular connecting plate 56, as shown in fig. 6, the free ends of the first annular connecting plate 55 and the second annular connecting plate 56 are sleeved on a connecting shaft 502, the connecting shaft 502 is vertically arranged at the bottom end position of the sliding block 54, as shown in fig. 5, the sliding clamping plates 52 can be rotatably arranged on the shaft rod 53, the bottom end of the shaft rod 53 is fixedly connected to the top wall of the raw material box 59, and the top end of the shaft rod 53 penetrates through the middle position of the sliding clamping plates 52 and is fixedly connected to the bottom wall of the supporting plate 51.

The specific working method comprises the following steps: at the initial state, the sliding block 54 is located between the two sets of limiting blocks 501, the connecting shaft 502 is located at the ends of the first annular connecting plate 55 and the second annular connecting plate 56, the two sets of cabinets are arranged side by side, the first cabinet 10 is further pulled to rotate clockwise around the shaft rod 53, the sliding clamping plate 52 of the first cabinet 10 drives the first annular connecting plate 55 to move, the first annular connecting plate 55 drives the sliding block 54 to move away from the limiting blocks 501 through the connecting shaft 502, the sliding block 54 moves in the sliding channel 500, meanwhile, the connecting shaft 502 drives the second annular connecting plate 56 to move, the second annular connecting plate 56 drives the sliding clamping plate 52 of the second rotary driving plate 21 to rotate counterclockwise around the shaft rod 53, and the connecting shaft 502 is located at the middle positions of the first annular connecting plate 55 and the second annular connecting plate 56 when the two sets of cabinets form an included angle of 90 degrees.

As shown in fig. 6, the sliding block 54 is an i-shaped structure 540, sliding grooves 541 are disposed at two ends of the i-shaped structure 540, and the two groups of sliding grooves 541 are in contact fit with the first fixing rod 57 and the second fixing rod 58.

The arrangement of the i-shaped structure 540 is more stable during the sliding process of the sliding channel 500.

The first fixing rod 57 and the second fixing rod 58 are both L-shaped rod bodies 570, as shown in fig. 2, each L-shaped rod body 570 includes a cross rod 571 and a vertical rod 572, the bottom end of each vertical rod 572 is fixedly disposed on the top wall of the raw material tank 59, one end of each cross rod 571 is horizontally disposed at the top end of each vertical rod 572, the free end of each cross rod 571 is disposed between two sets of the limiting blocks 501, and the i-shaped structure 540 is slidably disposed on the cross rod 571.

The slide clamp plate 52 is provided with a first notch portion 503 and a second notch portion 504, and both the first notch portion 503 and the second notch portion 504 have a triangular notch structure.

In addition, the raw material box 59 is used for placing foaming raw materials, and the bottom end of the raw material box 59 is provided with a roller 590.

In addition, the heating barrel 30 may be pre-foamed after the raw material is added, which is described in detail in the prior art such as CN202011621575.7, and the detailed operation and principle thereof will not be described here.

It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to limit the invention to the precise embodiments disclosed. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (6)

1. A double-channel electric heating automatic pre-foaming machine is characterized by comprising a first cabinet body and a second cabinet body, wherein heating barrel bodies are independently arranged in the first cabinet body and the second cabinet body, a stirring structure is arranged in each heating barrel body, and the heating barrel bodies are used for pre-foaming materials; the top of the first cabinet body is provided with a first rotary driving plate, the top of the second cabinet body is provided with a second rotary driving plate, the bottoms of the first cabinet body and the second cabinet body are provided with moving wheels, the first rotary driving plate is rotatably connected with the second rotary driving plate, and the first rotary driving plate can rotate relative to the second rotary driving plate to enable the first cabinet body and the second cabinet body to form different placing angles.

2. The dual channel, electrically heated automatic prefoamer of claim 1 wherein the bottom of said first rotating drive plate is connected to the body frame of said first cabinet by a plurality of first connecting posts and the bottom of said second rotating drive plate is connected to the body frame of said second cabinet by a plurality of second connecting posts.

3. The dual-channel electrically-heated automatic pre-foaming machine according to claim 2, further comprising a rotary connection assembly, wherein the rotary connection assembly comprises a support plate, a sliding clamping plate, a shaft rod, a sliding block, a first annular connecting plate, a second annular connecting plate, a first fixing rod, a second fixing rod and a raw material box, the bottom end of the support plate is connected with the raw material box through a vertically arranged limiting block, the raw material box is consistent with the main frame in height, the two groups of first fixing rod and second fixing rod form a sliding channel, the sliding block can be movably arranged in the sliding channel, the first cabinet body and the second cabinet body are symmetrically arranged on two sides of the sliding channel, the two groups of sliding clamping plates are respectively and fixedly connected to the central positions of the ends of the first rotating driving plate and the second rotating driving plate, and the bottom ends of the two groups of sliding clamping plates are respectively and fixedly connected with the first annular connecting plate and the second annular connecting plate, the free ends of the first annular connecting plate and the second annular connecting plate are sleeved on the connecting shaft, the connecting shaft is vertically arranged at the bottom end of the sliding block, the sliding clamping plate can be rotatably arranged on the shaft rod, the bottom end of the shaft rod is fixedly connected to the top wall of the raw material box, and the top end of the shaft rod penetrates through the middle position of the sliding clamping plate and is fixedly connected to the bottom wall of the supporting plate.

4. The dual-channel electric heating automatic pre-foaming machine as claimed in claim 3, wherein the sliding block is of an I-shaped structure, sliding grooves are formed in two ends of the I-shaped structure, and the two groups of sliding grooves are in contact fit with the first fixing rod and the second fixing rod.

5. The dual-channel electric heating automatic pre-foaming machine as claimed in claim 4, wherein the first fixing rod and the second fixing rod are both L-shaped rod bodies, each L-shaped rod body comprises a cross rod and a vertical rod, the bottom end of each vertical rod is fixedly arranged on the top wall of the raw material box, the horizontal position is arranged at one end of each cross rod and at the top end of each vertical rod, the free end of each cross rod is arranged between two sets of limiting blocks, and the I-shaped structures are slidably arranged on the cross rods.

6. The dual channel electrically heated automatic prefoamer of claim 3, wherein the sliding clamping plate is provided with a first and a second notch portion, both of which are triangular notch structures.

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