CN220946225U - Glass fiber feeding plastic machine - Google Patents

Abstract

The utility model relates to the technical field of plastic machines, in particular to a glass fiber feeding plastic machine, which comprises processing equipment and a spiral feeder, wherein the spiral feeder is arranged on one side of the processing equipment and further comprises a feeding assembly; the feeding assembly comprises a loading box, a feeding funnel, a drying fan, a connecting member, a separating member and an agitating member; the loading box is connected with the spiral feeder, and fixed mounting is in one side of processing equipment, and feeding funnel and loading box fixed connection, stoving fan and loading box fixed connection, connecting element are connected with loading box, and separate the component and be connected with loading box, stir the component and be connected with loading box, have realized can carry out more complete thorough drying to the glass fiber through the component that is equipped with, thereby guarantee the performance of material after the follow-up mixing.

Description

Glass fiber feeding plastic machine

Technical Field

The utility model relates to the technical field of plastic machines, in particular to a glass fiber feeding plastic machine.

Background

Glass fibers, i.e., glass fibers, are often added to plastic machines for the production of plastic materials, which can easily affect the properties of the overall material when subsequently mixed with the plastic material because they are more moisture-laden due to moisture or moisture absorption.

At present, in order to remove the moisture in the glass fiber, the glass fiber is heated and dried in advance, and the glass fiber in a transportation state is dried through heating and drying equipment, so that the normal mixing and feeding of the glass fiber and plastic are ensured.

However, by adopting the above method, when the glass fiber is preheated and dried, the glass fiber is generally dried in a transmission state, so that the glass fiber is not thoroughly dried easily, a large amount of water still exists in most glass fibers, and the subsequent material performance cannot be ensured.

Disclosure of utility model

The utility model aims to provide a glass fiber feeding plastic machine which can be used for completely and thoroughly drying glass fibers through components, so that the performance of materials after subsequent mixing is ensured.

In order to achieve the above purpose, the utility model provides a glass fiber feeding plastic machine, which comprises processing equipment and a spiral feeder, wherein the spiral feeder is arranged on one side of the processing equipment and further comprises a feeding assembly;

The feeding assembly comprises a loading box, a feeding funnel, a drying fan, a connecting member, a separating member and an agitating member; the loading box is connected with the spiral feeder and is fixedly arranged on one side of the processing equipment, the feeding hopper is fixedly connected with the loading box and is positioned on one side of the loading box, the drying fan is fixedly connected with the loading box and is positioned on one side of the loading box, the connecting component is connected with the loading box, the separating component is connected with the loading box, and the stirring component is connected with the loading box.

The connecting member comprises an air supply frame and a filter plate, wherein the air supply frame is connected with the drying fan and is fixedly arranged on one side of the loading box; the filter plate is fixedly connected with the air supply frame and is positioned at one side of the air supply frame.

The partition member comprises a sliding partition plate and a driving cylinder, wherein the sliding partition plate is connected with the loading box in a sliding manner and is positioned on one side of the loading box; the output end of the driving cylinder is connected with the sliding partition plate, and the driving cylinder is fixedly installed on one side of the loading box.

The stirring component comprises a sleeving frame, a threaded column, a stirring paddle and a driving part, wherein the sleeving frame is fixedly connected with the loading box and is positioned at one side of the loading box; the threaded column is in threaded connection with the sleeving frame and is arranged on one side of the loading box; the stirring paddle is fixedly connected with the threaded column and is positioned at one side of the threaded column; the driving part is connected with the loading box.

The driving component comprises a fixing frame, a sliding frame, a rotating block and a rotating motor, wherein the fixing frame is fixedly connected with the loading box and is positioned at one side of the loading box; the sliding frame is rotationally connected with the threaded column and is slidably arranged on one side of the fixing frame; the rotating block is rotationally connected with the sliding frame and is positioned at one side of the sliding frame; the rotating block is rotationally connected with the rotating block and is rotationally arranged on one side of the loading box; the output shaft of the rotating motor is connected with the rotating block, and the rotating motor is fixedly installed on one side of the loading box.

According to the glass fiber feeding plastic machine disclosed by the utility model, the glass fibers are fed through the feeding hopper, the glass fibers entering the loading box stay in the upper half area of the loading box under the action of the sliding partition plate, and then the hot air is transmitted to the upper half area of the loading box through the air supply frame by the drying fan, so that the glass fibers in the loading box can be preheated and dried in the contact with the hot air, after the glass fibers in the upper half area are dried and preheated, the sliding partition plate can be driven to move outwards by the driving air cylinder, so that the glass fibers in the upper half area can enter the lower part of the loading box, then the corresponding feeding is carried out on the dried and preheated glass fibers by the spiral feeder, the loading box can be separated again by the sliding partition plate while the glass fibers in the lower half area are fed, and then the subsequently added glass fibers are dried, the whole drying process can be carried out simultaneously with the transportation of the glass fibers, the whole feeding efficiency is not influenced by the drying, and the complete and thorough mixing performance of the dried glass fibers can be ensured by the components.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view of the overall structure of a glass fiber feeding plastic machine according to a first embodiment of the present utility model.

Fig. 2 is a schematic view of an installation structure of a blower rack according to a first embodiment of the present utility model.

FIG. 3 is a schematic view of the whole structure of a glass fiber feeding plastic machine according to a second embodiment of the present utility model.

Fig. 4 is a schematic view showing a mounting structure of an agitating blade according to a second embodiment of the present utility model.

In the figure: 101-processing equipment, 102-screw feeders, 103-loading boxes, 104-feeding hoppers, 105-drying fans, 106-air supply frames, 107-filter plates, 108-sliding partition plates, 109-driving cylinders, 201-sleeving frames, 202-screw columns, 203-stirring paddles, 204-fixing frames, 205-sliding frames, 206-rotating blocks, 207-rotating blocks and 208-rotating motors.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the application is as follows:

Referring to fig. 1 to 2, fig. 1 is a schematic structural diagram of an entire glass fiber feeding plastic machine, and fig. 2 is a schematic structural diagram of an air supply frame 106.

The utility model provides a glass fiber feeding plastic machine, which comprises: the device comprises processing equipment 101, a screw feeder 102 and a feeding assembly, wherein the feeding assembly comprises a loading box 103, a feeding hopper 104, a drying fan 105, a connecting member, a separating member and an agitating member, the connecting member comprises an air supply frame 106 and a filter plate 107, the separating member comprises a sliding partition plate 108 and a driving air cylinder 109, the problems that when glass fibers are preheated and dried, the glass fibers are dried in a transmission state generally, the glass fibers are not thoroughly dried easily, a large amount of moisture is still stored in most glass fibers, and the subsequent material performance cannot be ensured are solved, and it is understood that the glass fibers can be dried and preheated by using the existing plastic machine, but because the glass fibers are heated and dried in the transportation process to ensure the efficiency of the whole processing process, the whole drying effect is not ideal, and the final finished product material performance cannot be ensured are solved.

In this embodiment, the screw feeder 102 is installed on one side of the processing device 101, the processing device 101 is composed of a plastic machine, a mixer and a feeding funnel, the screw feeder 102 is convenient for the feed inlet of the mixer of the processing device 101, the feeding funnel is also connected with the feed inlet of the mixer, the discharge outlet of the mixer is connected with the feed inlet of the plastic machine, so that a user can complete the addition of plastic raw materials through the feed funnel, then send dried glass fibers into the mixer through the screw feeder 102, mix the raw materials and the glass fibers through the mixer and finally enter the inside of the plastic machine for corresponding processing, and the screw feeder 102 is composed of a corresponding screw feeding rod and a driving motor, because the processing device 101 and the screw feeder 102 are all very mature prior art, therefore, the description is omitted in this scheme.

Wherein the loading box 103 is connected with the screw feeder 102 and is fixedly arranged at one side of the processing equipment 101, the feeding hopper 104 is fixedly connected with the loading box 103 and is positioned at one side of the loading box 103, the drying fan 105 is fixedly connected with the loading box 103 and is positioned at one side of the loading box 103, the connecting member is connected with the loading box 103, the separating member is connected with the loading box 103, the stirring member is connected with the loading box 103, and the air supply frame 106 is connected with the drying fan 105 and is fixedly arranged at one side of the loading box 103; the filter plate 107 with air supply frame 106 fixed connection, and be located air supply frame 106 one side, loading case 103 bottom discharge gate through corresponding pipe with screw feeder 102's feed inlet intercommunication, loading case 103 top is equipped with feeding funnel 104, through feeding funnel 104 can carry out the feeding to the glass fine loading case 103 middle-end both sides still are equipped with air supply frame 106, air supply frame 106 air outlet taste slope upwards air supply frame 106 air outlet department all fixed mounting has corresponding filter plate 107, simultaneously both sides air supply frame 106 with fixed mounting is in loading case 103 rear drying fan 105 intercommunication, drying fan 105 inside is equipped with corresponding electric heating plate heating mechanism for the wind that sends out can heat through corresponding heating mechanism, the air outlet end of drying fan 105 is equipped with corresponding guide frame boss can simultaneously with both sides air supply frame 106 intercommunication, two air supply frame 106 air outlet is equipped with filter plate 107 can avoid loading case 103 inside air supply frame 106 air outlet department all fixed mounting has corresponding filter plate 107, simultaneously with fixed mounting is in the loading case 103 the inside can be in through the guide frame 106 the glass fine loading of air supply frame 106, can be passed through the hot-blast fan 105 and then carries out the drying fan is loaded into the glass fine loading case 106.

Secondly, the sliding partition 108 is slidably connected to the loading box 103 and located at one side of the loading box 103; the output end of the driving air cylinder 109 is connected with the sliding partition plate 108, the driving air cylinder 109 is fixedly arranged on one side of the loading box 103, the sliding partition plate 108 is slidably arranged at the middle end of the loading box 103, the sliding partition plate 108 is arranged below the air supply frame 106, the driving air cylinder 109 is arranged on the bosses on two sides of the sliding partition plate 108, the output end of the driving air cylinder 109 is fixedly connected with the sliding partition plate 108, so that a user can drive the sliding partition plate 108 to slide on one side of the loading box 103 through the driving air cylinder 109, meanwhile, the loading box 103 can be divided into an upper area and a lower area by the arrangement of the sliding partition plate 108, the drying area is arranged above the sliding partition plate 108, the storage area is arranged below the sliding partition plate 108, when new glass fibers are fed, the sliding partition plate 108 separates the upper side and the lower side of the loading box 103 through the driving of the driving cylinder 109, after the glass fiber on the upper side is dried, the upper side and the lower side of the loading box 103 are communicated through the driving cylinder 109, the dried glass fiber enters a storage area at the bottom of the loading box 103, then the sliding partition plate 108 is matched with the screw feeder 102 through a discharging groove at the bottom of the loading box 103, and when the glass fiber at the bottom of the loading box 103 is continuously discharged under the action of the screw feeder, the sliding partition plate 108 can separate the loading box 103 up and down again, so that the subsequent glass fiber can be continuously kept out, the drying of the subsequent glass fiber can be completed under the partition of the sliding partition plate 108, and the glass fiber can be more intensively and effectively dried on the premise of not affecting the normal transmission of the glass fiber.

When the glass fiber feeding plastic machine is used, the glass fibers are fed through the feeding hopper, the glass fibers in the loading box 103 are fed correspondingly through the sliding partition plate 108, then the hot air is transmitted to the upper half area of the loading box 103 through the drying fan 105 through the air supply frame 106, the glass fibers in the loading box 103 can be preheated and dried in the contact with the hot air, after the glass fibers in the upper half area are dried and preheated, the sliding partition plate 108 can be driven to move towards the outer side through the driving cylinder 109, the glass fibers in the upper half area can enter the lower part of the loading box 103, then the glass fibers after the glass fibers are dried and preheated are fed correspondingly through the spiral feeder 102, the loading box 103 can be separated again through the sliding partition plate 108 when the glass fibers in the lower half area are fed, the subsequently added glass fibers are dried, the whole drying process can be carried out simultaneously with the transportation of the fibers in the hot air, the whole drying process can be carried out without the influence on the drying efficiency of the glass fibers, and the drying performance of the completely mixed glass fibers can be guaranteed.

Second embodiment:

Referring to fig. 3 and 4, fig. 3 is a schematic structural diagram of the whole glass fiber feeding plastic machine of the second embodiment, and fig. 4 is a schematic structural diagram of the installation of the stirring paddle 203 of the second embodiment, the stirring member provided by the utility model comprises a sleeved frame 201, a threaded column 202, the stirring paddle 203 and a driving component, wherein the driving component comprises a fixed frame 204, a sliding frame 205, a rotating block 206, a rotating block 207 and a rotating motor 208.

Wherein, the sleeving frame 201 is fixedly connected with the loading box 103 and is positioned at one side of the loading box 103; the threaded column 202 is in threaded connection with the sleeving frame 201 and is arranged on one side of the loading box 103; the stirring paddle 203 is fixedly connected with the threaded column 202 and is positioned at one side of the threaded column 202; the driving component is connected with the loading box 103, and the fixing frame 204 is fixedly connected with the loading box 103 and is positioned at one side of the loading box 103; the sliding frame 205 is rotatably connected with the threaded column 202 and is slidably mounted on one side of the fixing frame 204; the rotating block 206 is rotatably connected with the sliding frame 205 and is positioned at one side of the sliding frame 205; the rotating block 207 is rotatably connected with the rotating block 206 and rotatably installed at one side of the loading box 103; the output shaft of the rotating motor 208 is connected with the rotating block 207, the rotating motor 208 is fixedly arranged on one side of the loading box 103, the sleeving frame 201 is fixedly arranged on the top of the loading box 103, a threaded hole matched with part of threads on the threaded column 202 is formed in the sleeving frame 201, the threaded column 202 is matched with a circular groove formed in the top of the loading box 103, the stirring is fixed on the bottom of the threaded column 202, the sliding frame 205 is further rotatably arranged on the top of the threaded column 202, the sliding frame 205 is slidably arranged on the top of the loading box 103 through the matching of two side bosses and the fixing frame 204, the rotating block 206 is rotatably arranged on the side edges of the sliding frame 205, two sides of the rotating block 207 are respectively rotatably connected with the rotating block 206 and the top of the loading box 103, the rotating block 207 is fixedly arranged with the output shaft of the rotating motor 208, when the rotating block 207 is driven by the rotating motor 208, the rotating block 206 is driven by the rotating block 207, the sliding frame 205 is further driven by the rotating block 207, the sliding frame 205 is further driven by the rotating block 205, and the sliding frame is further matched with the rotating frame 103, the rotating frame is further driven by the rotating frame 201, and the sliding frame is further contacted with the rotating frame 103, and the rotating frame is further driven by the rotating frame, and the rotating frame by the rotating frame. The condition that the heating and drying effects are poor due to agglomeration of glass fibers is avoided.

When the glass fiber feeding plastic machine of the embodiment is used, the rotating block 207 can be driven to rotate through the rotating motor 208, the sliding frame 205 can be driven to move up and down on the fixing frame 204 by the rotating block 206 under the rotation driving of the rotating block 207, the threaded column 202 and the stirring paddles 203 are driven to move up and down through the movement of the sliding frame 205, and due to the threaded matching of the threaded column 202 and the sleeving frame 201, when the threaded column 202 moves, the threaded column 202 can also rotate, so that the stirring paddles 203 can be driven to rotate while moving up and down in the loading box 103, so that glass fibers which need to be dried and preheated at the upper half of the loading box 103 can be scattered and mixed better, the glass fibers can be contacted with blown hot air better in a matching way, the drying and preheating effect of the whole glass fibers is better, and the practicability of the whole device is greatly enhanced.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the application.

Claims (5)

1. The glass fiber feeding plastic machine comprises processing equipment and a screw feeder, wherein the screw feeder is arranged on one side of the processing equipment,

Also comprises a feeding component;

The feeding assembly comprises a loading box, a feeding funnel, a drying fan, a connecting member, a separating member and an agitating member; the loading box is connected with the spiral feeder and is fixedly arranged on one side of the processing equipment, the feeding hopper is fixedly connected with the loading box and is positioned on one side of the loading box, the drying fan is fixedly connected with the loading box and is positioned on one side of the loading box, the connecting component is connected with the loading box, the separating component is connected with the loading box, and the stirring component is connected with the loading box.

2. The glass fiber feeding plastic machine according to claim 1, wherein,

The connecting component comprises an air supply frame and a filter plate, wherein the air supply frame is connected with the drying fan and is fixedly arranged on one side of the loading box; the filter plate is fixedly connected with the air supply frame and is positioned at one side of the air supply frame.

3. The glass fiber feeding plastic machine according to claim 1, wherein,

The partition member comprises a sliding partition plate and a driving cylinder, wherein the sliding partition plate is connected with the loading box in a sliding manner and is positioned on one side of the loading box; the output end of the driving cylinder is connected with the sliding partition plate, and the driving cylinder is fixedly installed on one side of the loading box.

4. The glass fiber feeding plastic machine according to claim 1, wherein,

The stirring component comprises a sleeving frame, a threaded column, a stirring paddle and a driving part, wherein the sleeving frame is fixedly connected with the loading box and is positioned at one side of the loading box; the threaded column is in threaded connection with the sleeving frame and is arranged on one side of the loading box; the stirring paddle is fixedly connected with the threaded column and is positioned at one side of the threaded column; the driving part is connected with the loading box.

5. The glass fiber feeding plastic machine according to claim 4, wherein,

The driving component comprises a fixing frame, a sliding frame, a rotating block and a rotating motor, wherein the fixing frame is fixedly connected with the loading box and is positioned at one side of the loading box; the sliding frame is rotationally connected with the threaded column and is slidably arranged on one side of the fixing frame; the rotating block is rotationally connected with the sliding frame and is positioned at one side of the sliding frame; the rotating block is rotationally connected with the rotating block and is rotationally arranged on one side of the loading box; the output shaft of the rotating motor is connected with the rotating block, and the rotating motor is fixedly installed on one side of the loading box.