CN222372254U - A raw material feeding machine for polyethylene pipe processing - Google Patents

Abstract

The utility model relates to the technical field of feeders, and specifically to a raw material feeder for polyethylene pipe processing. Raw material particles are added into a storage box through an auxiliary component, and the storage box stores the raw material particles. When feeding an extruder, a suction component is started, and the suction component sucks the raw material in the storage box into a dust removal box. After the raw material particles enter the dust removal box, they fall into a crushing bucket under the action of gravity. While the raw material particles fall, a hair dryer blows out a breeze, and the breeze drives the dust falling together with the raw material particles to move toward an air outlet mesh plate. The wind blown out by the hair dryer is discharged through the air outlet mesh plate, and the air outlet mesh plate blocks the discharge of dust. Under the action of weight, the dust falls into a sliding collection box, and the sliding collection box collects the dust.

Description

Raw material feeding machine for polyethylene pipe processing

Technical Field

The utility model relates to the technical field of feeding machines, in particular to a raw material feeding machine for polyethylene pipe processing.

Background

The polyethylene pipe is also called PE pipe, the polyethylene pipe is a pipe made of polyethylene, and the polyethylene is a thermoplastic resin with high crystallinity and non-polarity. The original state polyethylene has a milky white appearance and a semitransparent shape with a certain degree on the section of the polyethylene. PE has excellent resistance to most household and industrial chemicals.

The existing polyethylene pipe is usually processed and produced by using an extruder, the extruder heats and melts raw material particles, then the raw material particles are extruded to be plastic from an extrusion outlet, the extrusion device of the polyethylene pipe is usually large in size, and a storage hopper is arranged at a high position, so that a feeding machine feeds materials.

However, when the existing feeding machine is used, dust in raw material particles cannot be cleaned, and the raw material particles are often doped with dust, so that raw materials enter the extruder along with the raw material particles, and the quality of the produced polyethylene pipe is reduced.

Disclosure of utility model

The utility model aims to provide a raw material feeding machine for polyethylene pipe processing, which solves the problem that dust in raw material particles cannot be cleaned.

In order to achieve the above object, the utility model provides a raw material feeding machine for polyethylene pipe processing, which comprises a supporting frame, a mounting component and a crushing component, wherein the mounting component comprises an extruder, a storage box, a crushing bucket, a dust removing box, a connecting pipeline, a blower, a connecting plate, a sliding collecting box, an air outlet screen plate, a material sucking member and an auxiliary member, the extruder is fixedly connected with the supporting frame and is positioned at one side of the supporting frame, the storage box is fixedly connected with the supporting frame and is positioned at one side of the extruder, the crushing bucket is communicated with the extruder and is positioned at one side of the extruder, the dust removing box is fixedly connected with the crushing bucket and is positioned at one side of the crushing bucket, the blower is fixedly connected with the connecting pipeline and is positioned in the connecting pipeline, the connecting plate is fixedly connected with the dust removing box and penetrates through the dust removing box, the sliding collecting box is fixedly connected with the connecting plate and is positioned at one side of the connecting plate, the dust removing box is fixedly connected with the dust removing box, the auxiliary member is simultaneously blown out of the connecting box and the dust removing box through the air sucking member, particles in the storage box and the storage box are filled with the raw material storing member, particles in the storage box and the storage box are fed into the storage box through the auxiliary member, and the particle feeding device is blown into the storage box, breeze drives the dust that falls together with raw materials granule to the air-out otter board removes, the wind that the hair-dryer blown out passes through the air-out otter board discharges, the air-out otter board blocks the dust and discharges, and the dust falls into under the effect of weight in the slip collection box, the slip is collected the dust, falls into the raw materials granule of smashing the fill passes through smash the screening of subassembly, makes the raw materials granule that the size is qualified get into in the extruder, too big raw materials granule passes through smash the subassembly smash qualified back and get into the extruder to the problem that can't clear up the dust in the raw materials granule has been solved.

The material sucking component comprises a material sucking machine, a material sucking pipe and a material guiding pipe, wherein the material sucking machine is fixedly connected with the storage box and is positioned on one side of the storage box, the material sucking pipe is communicated with the material sucking machine and penetrates through the storage box, one end of the material guiding pipe is communicated with the material sucking machine, and the other end of the material guiding pipe is communicated with the dust removing box.

The auxiliary component comprises an observation window and a feed hopper, wherein the observation window is fixedly connected with the storage box and penetrates through the storage box, and the feed hopper is communicated with the storage box and is located on one side of the storage box.

The crushing assembly comprises a rotating shaft, a crushing blade, a driving motor and a screening component, wherein the rotating shaft is fixedly connected with the crushing bucket in a rotating mode and penetrates through the crushing bucket, the crushing blade is fixedly connected with the rotating shaft and sleeved on the rotating shaft, the driving motor is fixedly connected with the crushing bucket, the output end of the driving motor is connected with the rotating shaft, and the screening component is connected with the crushing bucket.

The screening member comprises a screening screen plate and a vibration motor, wherein the screening screen plate is fixedly connected with the crushing hopper and is positioned in the crushing hopper, and the vibration motor is fixedly connected with the screening screen plate.

The utility model relates to a raw material feeding machine for polyethylene pipe processing, which comprises a supporting frame, a mounting component and a crushing component, wherein the mounting component comprises an extruder, a storage box, a crushing bucket, a dust removing box, a connecting pipeline, a blower, a connecting plate, a sliding collecting box, an air outlet screen, a material sucking component and an auxiliary component, the material sucking component comprises the material sucking machine, a material sucking pipe and a material guiding pipe, the auxiliary component comprises an observation window and a feeding hopper, the crushing component comprises a rotating shaft, a crushing blade, a driving motor and a screening component, the screening component comprises the screening screen and a vibrating motor, the extruder is fixedly connected with the supporting frame and is positioned at one side of the supporting frame, the storage box is fixedly connected with the supporting frame and is positioned at one side of the supporting frame, the crushing bucket is communicated with the extruder and is positioned at one side of the extruder, the dust removing box is fixedly connected with the crushing bucket and is positioned at one side of the crushing bucket, the connecting pipeline is communicated with the dust removing box and is positioned at one side of the dust removing box, the blower is fixedly connected with the connecting pipeline and is positioned at one side of the dust removing box, the dust removing box is fixedly connected with the connecting plate, the dust collecting box is fixedly connected with the connecting plate and is positioned at one side of the dust removing box, the auxiliary component is connected with the dust collecting box through the air sucking component, the storage box and the filter plate is fixedly connected with the storage box through the connecting plate, when particles are fixedly connected with the storage box, the suction component sucks the raw materials in the storage box into the dust removal box, the raw material particles fall into the crushing hopper under the action of gravity after entering the dust removal box, the blower blows breeze while the raw material particles fall, the breeze drives dust falling together with the raw material particles to move towards the air outlet screen plate, the air blown by the blower is discharged through the air outlet screen plate, the air outlet screen plate blocks the discharge of the dust, the dust falls into the sliding collection box under the action of weight, the sliding collecting box is used for collecting dust, the sliding collecting box slides out of the dust removing box after the dust removing box is used, dust is convenient to process, raw material particles falling into the crushing hopper pass through the screening of the crushing assembly, raw material particles with qualified size enter the extruder, and oversized raw material particles pass through the crushing assembly and enter the extruder after being crushed and qualified, so that the problem that dust in the raw material particles cannot be cleaned is solved.

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 showing the overall structure of a raw material feeder for processing a polyethylene pipe according to a first embodiment of the present utility model.

Fig. 2 is a schematic diagram showing connection between a blower and a connecting pipe of a raw material feeder for processing polyethylene pipes according to a first embodiment of the present utility model.

Fig. 3 is a schematic diagram showing connection between a vibration motor and a screen plate of a raw material feeder for processing polyethylene pipes according to a second embodiment of the present utility model.

Fig. 4 is a schematic diagram showing connection between a rotating shaft and a driving motor of a raw material feeder for processing polyethylene pipes according to a second embodiment of the present utility model.

In the figure, the device comprises a 101-supporting frame, a 102-extruder, a 103-storage box, a 104-crushing hopper, a 105-dedusting box, a 106-connecting pipeline, a 107-blower, a 108-connecting plate, a 109-sliding collecting box, a 110-air outlet screen plate, a 111-suction machine, a 112-suction pipe, a 113-material guiding pipe, a 114-observation window, a 115-feeding hopper, a 201-rotating shaft, a 202-crushing blade, a 203-driving motor, a 204-screening screen plate and a 205-vibration motor.

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 and 2, fig. 1 is a schematic diagram of the overall structure of a raw material feeder for processing polyethylene pipes according to a first embodiment of the present utility model, and fig. 2 is a schematic diagram of the connection of a blower and a connecting pipe of the raw material feeder for processing polyethylene pipes according to the first embodiment of the present utility model, the raw material feeder for processing polyethylene pipes includes a supporting frame 101, a mounting assembly and a pulverizing assembly, the mounting assembly includes an extruder 102, a storage tank 103, a pulverizing hopper 104, a dust removing tank 105, a connecting pipe 106, a blower 107, a connecting plate 108, a sliding collection box 109, an air outlet screen 110, a suction member and an auxiliary member, the suction member includes a suction machine 111, a suction pipe 112 and a guide pipe 113, and the auxiliary member includes an observation window 114 and a feed hopper 115, and the problems that dust in raw material particles cannot be cleaned and that production quality is affected by the excessive particle raw materials are solved by the foregoing scheme.

For this embodiment, through auxiliary member will raw materials granule is added into in the bin 103, bin 103 stores the raw materials granule, to when extruder 102 carries out the reinforced, start inhale the material component, inhale the material component will raw materials in the bin 103 is inhaled into in the dust removal case 105, raw materials granule gets into behind the dust removal case 105 fall into under the effect of gravity in the crushing bucket 104, raw materials granule is when falling down, the fan 107 blows out breeze, breeze drives with the dust that raw materials granule falls together to air-out otter board 110 removes, the wind that fan 107 blown out passes through air-out otter board 110 discharges, air-out otter board 110 stops the dust to discharge, under the effect of weight dust fall into in the slip collection box 109, slip collection box 109 collects the dust, will slip out from in the dust removal case 105 after the use, be convenient for handle the dust, fall into raw materials granule that smash 104 passes through the crushing subassembly big raw materials granule that the fan 107 falls into behind the big raw materials granule that the extrusion subassembly 102 has passed through, the dust that the passing through in the passing through of the crushing subassembly can's 102 is passed, the acceptable raw materials that the extrusion machine has been passed through to the problem is solved.

Wherein the extruder 102 is fixedly connected with the supporting frame 101 and is positioned at one side of the supporting frame 101, the storage box 103 is fixedly connected with the supporting frame 101 and is positioned at one side of the supporting frame 101, the crushing hopper 104 is communicated with the extruder 102 and is positioned at one side of the connecting plate 108, the dust removing box 105 is fixedly connected with the crushing hopper 104 and is positioned at one side of the crushing hopper 104, the connecting pipeline 106 is communicated with the dust removing box 105 and is positioned at one side of the dust removing box 105, the draught fan 107 is fixedly connected with the connecting pipeline 106 and is positioned inside the connecting pipeline 106, the connecting plate 108 is fixedly connected with the dust removing box 105 and penetrates through the dust removing box 105, the sliding collecting box 109 is slidably connected with the connecting plate 108 and is positioned at one side of the connecting plate 108, the air outlet 110 is fixedly connected with the dust removing box 105 and penetrates through the dust removing box 105, the sucking member is connected with the storage box 103, the auxiliary member 103 is connected with the connecting plate 103, the connecting plate 103 is positioned at one side of the connecting plate 105, which is far from the connecting plate 105, the dust removing box 105 is connected with the raw material collecting box 106, the dust removing box is positioned at one side of the connecting plate 106, the dust removing box is connected with the dust removing box 105, the dust collecting box is positioned at one side of the connecting plate 106, the dust removing box is far from the connecting plate 105, the dust collecting box is connected with the dust collecting box is positioned at one side of the dust collecting box 105, and is far from the dust collecting box 101, when the extruder 102 is charged, the material sucking component is started, the material sucking component sucks the raw materials in the storage box 103 into the dust removing box 105, the raw material particles fall into the crushing hopper 104 under the action of gravity after entering the dust removing box 105, the raw material particles fall down, meanwhile, the air blower 107 blows breeze, the breeze drives dust falling together with the raw material particles to move towards the air outlet screen 110, the air blown by the air blower 107 is discharged through the air outlet screen 110, the air outlet screen 110 blocks the dust from being discharged, the dust falls into the sliding collecting box 109 under the action of weight, the sliding collecting box 109 collects the dust, the sliding collecting box 109 slides out of the dust removing box 105 after the use is finished, the dust is convenient to process, the raw material particles falling into the crushing hopper 104 pass through the screening of the crushing assembly, the raw material particles with qualified size enter the extruder 102, and the oversized raw material particles pass through the crushing assembly and enter the extruder 102 after being crushed, so that the problem that the raw material particles cannot be cleaned by the extruder 102 is solved.

The material sucking machine 111 is fixedly connected with the storage box 103 and located on one side of the storage box 103, the material sucking pipe 112 is communicated with the material sucking machine 111 and penetrates through the storage box 103, one end of the material guiding pipe 113 is communicated with the material sucking machine 111, the other end of the material guiding pipe 113 is communicated with the dust removing box 105, the material sucking machine 111 is located above the storage box 103, the material guiding pipe 113 is located below the material sucking machine 111 and penetrates through the storage box 103, the material guiding pipe 113 is located above the material sucking machine 111, the material sucking machine 111 is started, and the material sucking machine 111 sucks raw material particles in the storage box 103 into the dust removing box 105 through the material sucking pipe 112 and the material guiding pipe 113.

Then, observation window 114 with bin 103 fixed connection, and run through bin 103, feeder hopper 115 with bin 103 intercommunication is located one side of bin 103, observation window 114 observes bin 103, feeder hopper 115 is located bin 103 top, the raw materials passes through feeder hopper 115 gets into bin 103, passes through observation window 114 looks over the interior raw materials service condition of bin 103.

When the raw material feeding machine for polyethylene pipe processing of this embodiment is used, raw materials pass through the feeder hopper 115 gets into the bin 103, through the observation window 114 looks over raw material service conditions in the bin 103, the bin 103 stores raw material particles, when feeding the extruder 102, starts the aspirator 111, the aspirator 111 passes through the aspirator 112 with the raw material particles in the bin 103 are inhaled into the dust box 105, raw material particles get into behind the dust box 105 fall into in the effect of gravity in the crushing bucket 104, raw material particles are in the whereabouts, the draught fan 107 blows breeze, breeze drives the dust that falls together with raw material particles to the air-out otter board 110 moves, the wind that the draught fan 107 blows out passes through the air-out otter board 110 discharges, the air-out otter board blocks the dust and discharges, falls into under the effect of weight in the slip collection box 109, the slip collection box 109 collects the dust, the effect of the slip collection box 105 falls into behind the dust box 105 in the effect of gravity in the dust box into the crushing bucket 104, the dust is removed from the dust box is convenient for the passing through the slip collection box 102, thereby the problem that the raw material particles pass through the extrusion assembly 102 is solved, the qualified particles can's of the raw material particles can's size is reduced, and the problem can not be solved.

The second embodiment of the application is as follows:

Referring to fig. 3 and 4, fig. 3 is a schematic diagram showing connection between a vibration motor and a screen plate of a raw material feeder for processing polyethylene pipes according to a second embodiment of the present utility model, and fig. 4 is a schematic diagram showing connection between a rotation shaft and a driving motor of the raw material feeder for processing polyethylene pipes according to the second embodiment of the present utility model, wherein the raw material feeder for processing polyethylene pipes further comprises a crushing assembly including a rotation shaft 201, a crushing blade 202, a driving motor 203 and a screen member including a screen plate 204 and a vibration motor 205 on the basis of the first embodiment.

For this embodiment, fall into the raw materials granule of smashing fill 104 falls on screening component, through screening component screens raw materials granule, makes the raw materials granule that the size is qualified get into in the extruder 102, start driving motor 203, driving motor 203 drives axis of rotation 201 rotates, axis of rotation 201 drives smashing blade 202 rotates, smashing blade 202 smashes too big raw materials granule, smash pass after passing screening component get into the extruder 102, prevent the too big problem that influences production quality of raw materials granule.

The crushing machine comprises a crushing bucket 104, a rotating shaft 201, a crushing blade 202, a driving motor 203, a crushing blade 202, a crushing blade 104 and a sieving member, wherein the rotating shaft 201 is fixedly connected with the crushing bucket 104 and penetrates through the crushing bucket 104, the crushing blade 202 is fixedly connected with the rotating shaft 201 and sleeved on the rotating shaft 201, the driving motor 203 is fixedly connected with the crushing bucket 104, the output end of the driving motor 203 is connected with the rotating shaft 201, the sieving member is connected with the crushing bucket 104, the rotating shaft 201 penetrates through the crushing bucket 104, the driving motor 203 is positioned at one side of the crushing bucket 104 close to the connecting pipeline 106, the crushing blade 202 is sleeved on the rotating shaft 201, raw material particles falling into the crushing bucket 104 fall on the sieving member, the raw material particles are sieved by the sieving member, the raw material particles with qualified size enter the extruder 102, the driving motor 203 is started, the driving motor 203 drives the rotating shaft 201 to rotate, the crushing blade 202 pulverizes the oversized raw material particles, and the raw material particles pass through the sieving member to enter the extruder 102 after the crushing member, so that the raw material particles are prevented from influencing the production quality.

The screening screen 204 is fixedly connected with the crushing hopper 104 and is positioned in the crushing hopper 104, the vibration motor 205 is fixedly connected with the screening screen 204, the screening screen 204 is positioned in the crushing hopper 104, the rotating motor is positioned at the lower side of the screening screen 204, raw material particles are screened through the screening screen 204, and the screening screen 204 is driven to vibrate through the vibration motor 205, so that screening efficiency is improved.

When the raw material feeding machine for polyethylene pipe processing of this embodiment is used, the raw material particles who falls into crushing bucket 104 falls on screening otter board 204, through screening otter board 204 sieves raw material particles, through vibration motor 205 drive screening otter board 204 vibrations improve screening efficiency, make the raw material particles that the size is qualified get into in the extruder 102, start driving motor 203, driving motor 203 drives axis of rotation 201 rotates, axis of rotation 201 drives crushing blade 202 rotates, crushing blade 202 smashes too big raw material particles, smash qualified back and pass screening otter board 204 gets into extruder 102, prevent the raw material particles too big problem that influences production quality.

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 raw material feeding machine for processing the polyethylene pipe comprises a supporting frame and a crushing assembly, and is characterized in that,

The device also comprises a mounting assembly;

The installation component includes extruder, bin, crushing fill, dust removal case, connecting tube, hair-dryer, connecting plate, slip collection box, air-out otter board, inhale material component and auxiliary member, the extruder with support frame fixed connection, and be located one side of support frame, the bin with support frame fixed connection, and be located one side of support frame, crushing fill with the extruder intercommunication, and be located one side of extruder, the dust removal case with crushing fill fixed connection, and be located one side of crushing fill, connecting tube with the dust removal case intercommunication, and be located one side of dust removal case, the hair-dryer with connecting tube fixed connection, and be located inside the connecting tube, the connecting plate with dust removal case fixed connection, and run through the dust removal case, slip collection box with connecting plate sliding connection, and be located one side of connecting plate, the air-out otter board with dust removal case fixed connection, and run through the dust removal case, inhale material component with the connecting tube, auxiliary member with the connecting tube.

2. The raw material feeder for processing polyethylene pipes as claimed in claim 1, wherein,

The material sucking component comprises a material sucking machine, a material sucking pipe and a material guiding pipe, wherein the material sucking machine is fixedly connected with the storage box and is positioned on one side of the storage box, the material sucking pipe is communicated with the material sucking machine and penetrates through the storage box, one end of the material guiding pipe is communicated with the material sucking machine, and the other end of the material guiding pipe is communicated with the dust removing box.

3. The raw material feeder for processing polyethylene pipes as claimed in claim 1, wherein,

The auxiliary component comprises an observation window and a feed hopper, wherein the observation window is fixedly connected with the storage box and penetrates through the storage box, and the feed hopper is communicated with the storage box and is positioned on one side of the storage box.

4. The raw material feeder for processing polyethylene pipes as claimed in claim 1, wherein,

The crushing assembly comprises a rotating shaft, a crushing blade, a driving motor and a screening component, wherein the rotating shaft is fixedly connected with the crushing bucket in a rotating manner and penetrates through the crushing bucket, the crushing blade is fixedly connected with the rotating shaft and sleeved on the rotating shaft, the driving motor is fixedly connected with the crushing bucket, the output end of the driving motor is connected with the rotating shaft, and the screening component is connected with the crushing bucket.

5. The raw material feeder for processing polyethylene pipes as set forth in claim 4, wherein,

The screening member comprises a screening screen plate and a vibration motor, wherein the screening screen plate is fixedly connected with the crushing hopper and is positioned in the crushing hopper, and the vibration motor is fixedly connected with the screening screen plate.