CN220576413U - Raw material metering feeding device for masterbatch forming processing - Google Patents

Abstract

The utility model relates to the field of masterbatch forming processing, in particular to a raw material metering feeding device for masterbatch forming processing, which comprises a bottom plate, wherein a first support frame is fixedly arranged above the bottom plate through bolts, a second support frame is fixedly arranged above a second discharging pipe of the bottom plate through bolts, and symmetrically distributed support columns are fixedly arranged above two sides of the second support frame through bolts; according to the utility model, the running number of the output sources is regulated according to the conveying amount, when the three shells are required to be conveyed at different speeds, the three shells are conveyed at different conveying speeds through the speed regulation of the three stepping motors, if the conveying speeds required by the three shells are consistent, the belt is arranged between the belt pulleys, then the mounting sleeve is slid to one side, and the three shells are simultaneously driven to be conveyed through the second stepping motor, so that the energy saving effect is achieved.

Description

Raw material metering feeding device for masterbatch forming processing

Technical Field

The utility model relates to the field of masterbatch forming processing, in particular to a raw material metering feeding device for masterbatch forming processing.

Background

The color master batch is a novel special colorant for polymer materials, and is mainly used on plastics, and consists of pigment or dye, a carrier and an additive, wherein the color master batch is an aggregate prepared by uniformly loading an ultra-large amount of pigment into resin, the tinting strength is higher than that of the pigment, and a small amount of color master batch and uncolored resin are mixed during processing to obtain colored resin or a product with designed pigment concentration;

when the color master batch is molded and processed, raw materials required by processing are required to be transported, a plurality of transport mechanisms are generally used for transporting at the same time in a conventional transport method, the proportion and the quantity of the transported raw materials are difficult to realize synchronous and precise adjustment, the transportation by the plurality of transport mechanisms also causes energy waste, and in addition, when the conventional transport mechanism discharges, whether the discharge is mixed or the situation of single transportation is difficult to select according to actual requirements;

in view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The utility model aims to provide a raw material metering feeding device for masterbatch molding processing, which is characterized in that when a material reaches a first discharging pipe and a second discharging pipe through feeding, if the conveyed material needs to be mixed, a sliding plate is moved to one side of a material separating and discharging hopper, the sliding plate blocks a channel between the first discharging hole and the first discharging pipe, so that the material is mixed and falls from the mixing and discharging hopper, if the material does not need to be mixed, the sliding plate is moved to one side of the mixing and discharging hopper, the sliding plate blocks the channel between the second discharging hole and the second discharging pipe, so that the material falls from the material separating and discharging hopper, and the raw material feeding is completed, so that the technical defects are overcome.

The aim of the utility model can be achieved by the following technical scheme: the utility model provides a masterbatch is raw materials measurement feeding device for shaping processing, includes the bottom plate, the top of bottom plate is equipped with first support frame through the bolt fastening, and the both sides top of second support frame is equipped with the support column of symmetric distribution through the bolt fastening, the top of support column is equipped with first mounting panel through welded fastening;

the feeding hopper is fixedly arranged between the first mounting plates through welding, three feed tanks are arranged in the feeding hopper, three shells distributed in an array are further arranged below the feeding hopper, a mounting frame is fixedly arranged above the bottom plate through bolts, and a first stepping motor, a second stepping motor and a third stepping motor are arranged above the mounting frame;

the lower part of casing still is equipped with the branch flitch, three first discharge gate of array distribution has been seted up to the top of dividing the flitch, and first discharging pipe stretches into the inside of first discharge gate and passes through bolt fixed connection with the branch flitch, three second discharge gate of array distribution has still been seted up to the inside of dividing the flitch, the second discharging pipe stretches into the inside of second discharge gate and passes through bolt fixed connection with the branch flitch.

Preferably, the top of casing is all fixed and is equipped with the inlet pipe, inlet pipe and the inside intercommunication of casing, inlet pipe and silo also inside intercommunication, the casing is placed in first support frame and second support frame top, the inside of casing all is equipped with the defeated material axle of rotation connection, the outside of defeated material axle is fixed and is equipped with the spiral band.

Preferably, the first step motor, the second step motor and the third step motor are all fixedly connected with the mounting frame through bolts, a mounting sleeve in sliding connection is arranged on the rotating shaft of the first step motor, a mounting sleeve in sliding connection is also arranged on the rotating shaft of the third step motor, two belt pulleys distributed in an array are arranged on the rotating shaft of the second step motor, and the two belt pulleys are fixedly connected with the rotating shaft of the second step motor.

Preferably, the inside of belt pulley is all fixed and is equipped with the connecting axle, the material conveying axle fixed connection in connecting axle and the casing, the one end of first step motor and third step motor also is equipped with the belt pulley, the inside also fixed connecting axle that is equipped with of belt pulley of first step motor and third step motor one end.

Preferably, the inside of dividing the flitch still is equipped with sliding connection's sliding plate, the below of dividing the flitch still has the branch material to go out the hopper through bolt fixed mounting, the inside and the first discharge gate intercommunication of branch material play hopper, the one side of dividing the material play hopper still is equipped with the mixture and goes out the hopper, the mixture goes out hopper and divides the flitch through bolt fixed connection, the inside and the second discharge gate intercommunication of mixing play hopper.

The beneficial effects of the utility model are as follows:

1. according to the utility model, the running number of the output sources is regulated according to the conveying amount, when the three shells are required to be conveyed at different speeds, the three shells are conveyed at different conveying speeds through the speed regulation of the three stepping motors, if the conveying speeds required by the three shells are consistent, the belt is arranged between the belt pulleys, then the mounting sleeve is slid to one side, and the three shells are simultaneously driven to be conveyed through the second stepping motor, so that the energy saving effect is achieved.

2. When the material reaches the first discharging pipe and the second discharging pipe through feeding, if the conveyed material needs to be mixed, the sliding plate is moved to one side of the material separating and discharging hopper, the sliding plate blocks a channel between the first discharging hole and the first discharging pipe, so that the material is mixed and falls from the mixing and discharging hopper, if the material does not need to be mixed, the sliding plate is moved to one side of the mixing and discharging hopper, the sliding plate blocks the channel between the second discharging hole and the second discharging pipe, so that the material falls from the material separating and discharging hopper, and then a worker autonomously selects to mix and discharge or singly discharge.

Drawings

The utility model is further described below with reference to the accompanying drawings;

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the connection structure of the feed hopper in the present utility model;

FIG. 3 is a schematic view of the connection structure of the housing of the present utility model;

FIG. 4 is a schematic diagram of a connection structure of a first stepper motor, a second stepper motor and a third stepper motor according to the present utility model;

FIG. 5 is a schematic view of the connection structure of the distributing plate in the present utility model;

FIG. 6 is a schematic cross-sectional view of a distributing plate according to the present utility model.

Legend description: 1. a bottom plate; 11. a first support frame; 12. a second support frame; 13. a mounting frame; 14. a feed hopper; 15. a trough; 16. a first mounting plate; 17. a support column; 18. a housing; 19. a feed pipe; 20. a first discharge pipe; 21. a second discharge pipe; 22. a material conveying shaft; 23. a spiral belt; 24. a first stepping motor; 25. a second stepping motor; 26. a third stepper motor; 27. a mounting sleeve; 28. a belt pulley; 281. a connecting shaft; 29. a belt; 30. a material dividing plate; 31. a sliding plate; 32. a material separating and discharging hopper; 33. mixing and discharging a hopper; 34. a first discharge port; 35. and a second discharging hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1:

referring to fig. 1-6, the utility model discloses a raw material metering feeding device for masterbatch forming processing, which comprises a bottom plate 1, wherein a first support frame 11 is fixedly arranged above the bottom plate 1 through bolts, a second support frame 12 is fixedly arranged above a second discharging pipe 21 of the bottom plate through bolts, symmetrically distributed support columns 17 are fixedly arranged above two sides of the second support frame 12 through bolts, and a first mounting plate 16 is fixedly arranged above the support columns 17 through welding;

the feeding hopper 14 is fixedly arranged between the first mounting plates 16 through welding, three feed tanks 15 are arranged in the feeding hopper 14, three shells 18 distributed in an array are further arranged below the feeding hopper 14, a feeding pipe 19 is fixedly arranged above the shells 18, the feeding pipe 19 is communicated with the inside of the shells 18, the feeding pipe 19 is also communicated with the feed tanks 15, the shells 18 are placed above the first support frame 11 and the second support frame 12, a material conveying shaft 22 in rotary connection is arranged in the shells 18, a spiral belt 23 is fixedly arranged on the outer side of the material conveying shaft 22, and the spiral belt 23 is driven to rotate when the material conveying shaft 22 rotates, so that materials in the shells 18 are transported.

The upper side of the bottom plate 1 is also fixedly provided with a mounting frame 13 through bolts, the upper side of the mounting frame 13 is provided with a first stepping motor 24, a second stepping motor 25 and a third stepping motor 26, the first stepping motor 24, the second stepping motor 25 and the third stepping motor 26 are fixedly connected with the mounting frame 13 through bolts, the rotating shaft of the first stepping motor 24 is provided with a mounting sleeve 27 in sliding connection, the rotating shaft of the third stepping motor 26 is also provided with a mounting sleeve 27 in sliding connection, the rotating shaft of the second stepping motor 25 is provided with two belt pulleys 28 distributed in an array manner, the two belt pulleys 28 are fixedly connected with the rotating shaft of the second stepping motor 25, the inside of the belt pulleys 28 is fixedly provided with a connecting shaft 281, and the connecting shaft 281 is fixedly connected with a material conveying shaft 22 in the shell 18;

when the connecting shaft 281 rotates to drive the material conveying shaft 22 to synchronously rotate, transporting materials in the shell 18, wherein one ends of the first stepping motor 24 and the third stepping motor 26 are also provided with belt pulleys 28, the inside of the belt pulleys 28 at one ends of the first stepping motor 24 and the third stepping motor 26 is also fixedly provided with a connecting shaft 281, the mounting sleeve 27 is moved to the outer sides of the connecting shaft 281 and the rotating shaft of the first stepping motor 24, so that the rotating shaft of the first stepping motor 24 is connected with the connecting shaft 281, the connecting shaft 281 at one end is driven to rotate through the first stepping motor 24 after connection, the mounting sleeve 27 is moved to the outer sides of the connecting shaft 281 and the rotating shaft of the third stepping motor 26, so that the rotating shaft of the third stepping motor 26 is connected with the connecting shaft 281, and the connecting shaft 281 at one end is driven to rotate through the third stepping motor 26 after connection;

if three cases 18 are required to be fed by different amounts at the same time, the mounting sleeve 27 outside the rotation shaft of the third stepping motor 26 is moved to the outside of the connection shaft 281 and the rotation shaft of the third stepping motor 26, thereby connecting the rotation shaft of the third stepping motor 26 with the connection shaft 281, then the mounting sleeve 27 outside the rotation shaft of the first stepping motor 24 is moved to the outside of the connection shaft 281 and the rotation shaft of the first stepping motor 24, then the rotation shaft of the first stepping motor 24 is connected with the connection shaft 281, then the first stepping motor 24, the second stepping motor 25 and the third stepping motor 26 are started, and the feeding speed is controlled by adjusting the rotation speeds of the spiral belt 23, the second stepping motor 25 and the third stepping motor 26;

if the feeding is required to be performed in the same amount, a belt 29 is installed between the belt pulleys 28, so that one belt pulley 28 rotates and drives the other belt pulleys 28 to rotate synchronously, then the installation sleeve 27 outside the rotating shafts of the first stepping motor 24 and the third stepping motor 26 is moved to a side close to the first stepping motor 24 and the third stepping motor 26, when the belt pulleys 28 at one end of the first stepping motor 24 and the third stepping motor 26 rotate, the rotating shafts of the first stepping motor 24 and the third stepping motor 26 are not driven to rotate, then the second stepping motor 25 is started, the second stepping motor 25 drives the two belt pulleys 28 at one end to rotate, and the two belt pulleys 28 drive the belt pulleys 28 at one end of the first stepping motor 24 and the third stepping motor 26 to rotate through the belt 29, so that the feeding shaft 22 in the shell 18 is driven to rotate synchronously and at the same speed, and the feeding is synchronously and in the same amount.

The lower part of casing 18 still is equipped with the branch flitch 30, three first discharge gate 34 that the array distributes are offered to the top of branch flitch 30, first discharging pipe 20 stretches into the inside of first discharge gate 34 and pass through bolt fixed connection with branch flitch 30, three second discharge gate 35 that the array distributes are still offered to the inside of branch flitch 30, the inside that the second discharging pipe 21 stretches into second discharge gate 35 and passes through bolt fixed connection with branch flitch 30, the inside of branch flitch 30 still is equipped with sliding connection's sliding plate 31, the position of discharge gate can be switched to the movable sliding plate 31, the below of branch flitch 30 still passes through bolt fixed mounting and divides the discharge hopper 32, the inside and the first discharge gate 34 intercommunication of branch discharge hopper 32, one side of branch discharge hopper 32 still is equipped with mixing discharge hopper 33, mixing discharge hopper 33 and branch flitch 30 pass through bolt fixed connection, the inside and the second discharge gate 35 intercommunication, when moving the sliding plate 31 to one side of branch discharge hopper 32, sliding plate 31 stops up the position of first discharge gate 34 and first discharge gate 20, when making sliding plate 31 and second discharge hopper 33 slide down from the passageway 33, make the material between the material discharge hopper 32.

The working process and principle of the utility model are as follows:

when the automatic feeding device is used, firstly, color master batches to be processed and raw materials are respectively poured into three material tanks 15, then, the running speed among motors is adjusted according to the required conveying speed, if three shells 18 are required to feed in different amounts simultaneously, a mounting sleeve 27 on the outer side of the rotating shaft of a third stepping motor 26 is moved to the outer side of a connecting shaft 281 and the rotating shaft of the third stepping motor 26, so that the rotating shaft of the third stepping motor 26 is connected with the connecting shaft 281, then, a mounting sleeve 27 on the outer side of the rotating shaft of a first stepping motor 24 is moved to the outer side of the connecting shaft 281 and the rotating shaft of the first stepping motor 24, so that the rotating shaft of the first stepping motor 24 is connected with the connecting shaft 281, then, the first stepping motor 24, the second stepping motor 25 and the third stepping motor 26 are started, and the feeding speed is controlled by adjusting the rotating speeds of a spiral belt 23, the second stepping motor 25 and the third stepping motor 26;

if feeding is required to be carried out in the same amount at the same time, a belt 29 is arranged between the belt pulleys 28, so that one belt pulley 28 rotates and drives the other belt pulleys 28 to synchronously rotate, then a mounting sleeve 27 outside the rotating shaft of the first stepping motor 24 and the rotating shaft of the third stepping motor 26 is moved to a side close to the first stepping motor 24 and the third stepping motor 26, when the belt pulleys 28 at one end of the first stepping motor 24 and the third stepping motor 26 rotate, the rotating shafts of the first stepping motor 24 and the third stepping motor 26 are not driven to rotate, then the second stepping motor 25 is started, the second stepping motor 25 drives the two belt pulleys 28 at one end to rotate, and the two belt pulleys 28 drive the belt pulleys 28 at one end of the first stepping motor 24 and the third stepping motor 26 to rotate through the belt 29, so that a feeding shaft 22 in the shell 18 is driven to synchronously rotate at the same speed, and synchronous feeding is realized;

when the feeding reaches the first discharging pipe 20 and the second discharging pipe 21, if the conveyed materials need to be mixed, the sliding plate 31 is moved to one side of the material distributing discharging hopper 32, the sliding plate 31 blocks the channel between the first discharging hole 34 and the first discharging pipe 20, so that the materials are mixed and fall from the mixing discharging hopper 33, if the materials do not need to be mixed, the sliding plate 31 is moved to one side of the mixing discharging hopper 33, the sliding plate 31 blocks the channel between the second discharging hole 35 and the second discharging pipe 21, and the materials fall from the material distributing discharging hopper 32, so that the feeding of the materials is completed.

The preferred embodiments of the utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (5)

1. The utility model provides a masterbatch is raw materials measurement feeding device for shaping processing, includes bottom plate (1), its characterized in that, the top of bottom plate (1) is equipped with first support frame (11) through the bolt fastening, and the both sides top of second support frame (12) is equipped with symmetrically distributed's support column (17) through the bolt fastening, the top of support column (17) is equipped with first mounting panel (16) through welded fastening;

the feeding hopper (14) is fixedly arranged between the first mounting plates (16) through welding, three feed grooves (15) are formed in the feeding hopper (14), three shells (18) distributed in an array are further arranged below the feeding hopper (14), a mounting frame (13) is further fixedly arranged above the bottom plate (1) through bolts, and a first stepping motor (24), a second stepping motor (25) and a third stepping motor (26) are arranged above the mounting frame (13);

the utility model discloses a feed bin, including casing (18), feed bin, first discharging pipe (20), feed bin (30) are equipped with in the below of casing (18), three first discharge gate (34) of array distribution have been seted up to the top of feed bin (30), first discharging pipe (20) stretch into the inside of first discharge gate (34) and pass through bolt fixed connection with feed bin (30), three second discharge gate (35) of array distribution have still been seted up to the inside of feed bin (30), second discharging pipe (21) stretch into the inside of second discharge gate (35) and pass through bolt fixed connection with feed bin (30).

2. The raw material metering feeding device for masterbatch forming and processing according to claim 1, characterized in that a feeding pipe (19) is fixedly arranged above the shell (18), the feeding pipe (19) is communicated with the inside of the shell (18), the feeding pipe (19) is also communicated with the inside of the trough (15), the shell (18) is placed above the first support frame (11) and the second support frame (12), a material conveying shaft (22) which is rotationally connected is arranged inside the shell (18), and a spiral belt (23) is fixedly arranged on the outer side of the material conveying shaft (22).

3. The raw material metering feeding device for masterbatch forming processing according to claim 1, characterized in that the first stepping motor (24), the second stepping motor (25) and the third stepping motor (26) are fixedly connected with the mounting frame (13) through bolts, a mounting sleeve (27) which is in sliding connection is arranged on a rotating shaft of the first stepping motor (24), a mounting sleeve (27) which is in sliding connection is also arranged on a rotating shaft of the third stepping motor (26), two belt pulleys (28) which are distributed in array are arranged on the rotating shaft of the second stepping motor (25), and the two belt pulleys (28) are fixedly connected with the rotating shaft of the second stepping motor (25).

4. A raw material metering feeding device for masterbatch forming and processing according to claim 3, characterized in that, a connecting shaft (281) is fixedly arranged inside the belt pulley (28), the connecting shaft (281) is fixedly connected with a material conveying shaft (22) in the shell (18), one ends of the first stepping motor (24) and the third stepping motor (26) are also provided with the belt pulley (28), and the connecting shaft (281) is also fixedly arranged inside the belt pulley (28) at one end of the first stepping motor (24) and the third stepping motor (26).

5. The raw material metering feeding device for masterbatch forming and processing according to claim 4, characterized in that a sliding plate (31) in sliding connection is further arranged in the material distributing plate (30), a material distributing and discharging hopper (32) is fixedly arranged below the material distributing plate (30) through bolts, the inside of the material distributing and discharging hopper (32) is communicated with the first discharging hole (34), a mixing and discharging hopper (33) is further arranged on one side of the material distributing and discharging hopper (32), the mixing and discharging hopper (33) is fixedly connected with the material distributing plate (30) through bolts, and the inside of the mixing and discharging hopper (33) is communicated with the second discharging hole (35).