CN211994112U - Quantitative feeding cylinder of plastic extruding machine for producing glass fiber thermoplastic plastic pipe - Google Patents

Abstract

The utility model discloses a glass fiber thermoplastic plastic pipe production is with extruding machine ration charging barrel in the technical field of glass fiber thermoplastic plastic pipe production, including the ration square barrel, ration square barrel inner chamber top is provided with the storage cavity, ration square barrel inner chamber bottom is provided with the discharging channel who is linked together with circular cavity, circular cavity activity is provided with assorted batch pan, batch pan outer wall annular array has evenly seted up storage cavity and discharging channel complex ration recess, ration square barrel rear side is provided with the drive adjustment mechanism who cooperates with the batch pan, the utility model discloses set up the ration charging barrel and replace the manual work, drive the batch pan through drive adjustment mechanism and rotate, and then get the material on the storage cavity through the ration recess, carry out the ejection of compact from discharging channel again, realize the ration ejection of compact, the drive adjustment mechanism who sets up simultaneously can adjust the ration size according to user's needs, the use cost is low, and it is convenient to adjust, reduces the material waste, satisfies user of service's different needs.

Description

Quantitative feeding cylinder of plastic extruding machine for producing glass fiber thermoplastic plastic pipe

Technical Field

The utility model relates to a fine thermoplastic pipe production technical field of glass specifically is a fine thermoplastic pipe production of glass is with extruding machine ration charging barrel.

Background

The glass fiber thermoplastic plastic pipe can adopt the extruding machine in the production messenger, and the current manual work that adopts when feeding in raw material to the extruding machine mostly, so there is the easy problem of appearing feeding in raw material too much or too little when using, influences the follow-up use of extruding machine, and then influences the production quality of glass fiber thermoplastic plastic pipe, for this reason, we provide a glass fiber thermoplastic plastic pipe production with extruding machine ration charging barrel.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fine thermoplastic plastics of glass production is with extruding machine ration charging cylinder to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a fine thermoplastic plastics of glass production is with extruding machine ration charging barrel, includes quantitative square barrel, quantitative square barrel inner chamber top is provided with the storage cavity, quantitative square barrel inner chamber middle part is provided with the circular chamber that is linked together with the storage cavity, quantitative square barrel inner chamber bottom is provided with the discharging channel who is linked together with circular chamber, quantitative square barrel bottom is provided with the material pipe that connects that is linked together with discharging channel, circular intracavity activity is provided with assorted ration dish, storage cavity and discharging channel complex ration recess have evenly been seted up to ration dish outer wall annular array, quantitative square barrel rear side be provided with ration dish complex drive adjustment mechanism.

Furthermore, the driving adjusting mechanism comprises an installation rotating rod inserted at the rear side of the quantitative square cylinder, the front end of the installation rotating rod extends into the circular cavity, the quantitative disc is fixedly sleeved at the front end of the outer wall of the installation rotating rod, three groups of driven sprockets are arranged at the rear end of the outer wall of the quantitative disc, a driving motor is fixedly arranged at the top of the outer wall at the rear side of the quantitative square cylinder, the output end of the driving motor is provided with a driving sprocket, a T-shaped sliding groove is transversely arranged between the driving motor and the installation rotating rod, the T-shaped sliding groove is transversely arranged at the outer wall at the rear side of the quantitative square cylinder, a matched T-shaped sliding block is movably arranged in the T-shaped sliding groove, an adjusting screw rod is inserted at the rear end of the top at the right side of the quantitative square cylinder, the left end of the adjusting screw rod penetrates through the right side of the quantitative square cylinder and the T-shaped sliding block and is movably connected, and the outer wall of the rotating rod is sleeved with an auxiliary chain wheel, the gear teeth of the driving chain wheel are wound with a chain, the middle part of the chain is wound around the auxiliary chain wheel, and the bottom of the chain is wound around the driven chain wheel at the rear side.

Further, the diameters of the three groups of driven sprockets sequentially increase from front to back.

Further, the top of the storage cavity penetrates through the top of the quantitative square barrel, and a matched barrel cover is movably arranged at the top of the quantitative square barrel.

Further, the vertical section of the storage cavity is in an inverted trapezoid shape, and the area of the top of the storage cavity is larger than the area of the bottom of the storage cavity.

Further, the bottom of the outer wall of the left side and the bottom of the outer wall of the right side of the quantitative square barrel are both fixedly provided with mounting blocks, and mounting holes are uniformly formed in the mounting blocks.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses set up the ration charging barrel and replace the manual work, drive the ration dish through drive adjustment mechanism and rotate, and then get the material on the storage cavity through the ration recess, carry out the ejection of compact again from discharging channel, realize the ration ejection of compact, the drive adjustment mechanism who sets up simultaneously can adjust the ration size according to user's needs, when needing to realize more material, manually walk around the driven sprocket of rear side bottom the chain, and then make driving motor drive the installation bull stick through the driving sprocket, the cooperation of auxiliary sprocket and the driven sprocket of rear side is slowly rotated, and then make the ration dish cushion and rotate and realize the ration ejection of compact of a great amount, when needing less material, manually walk around the driven sprocket of foremost side bottom the chain, and then make driving motor make the installation bull stick rotate fast through the driving sprocket, the cooperation of auxiliary sprocket and the driven sprocket of foremost side, and then make the ration dish rotate fast and realize the ration ejection of compact of a small, when needing medium-grade material, the driven sprocket at middle part is walked around to manual bottom the chain, and then makes driving motor pass through drive sprocket, auxiliary sprocket and the driven sprocket cooperation of foremost side and make the installation bull stick at the uniform velocity rotate, and then makes quantitative dish at the uniform velocity rotate and realize medium-equivalent ration ejection of compact, and use cost is low, and it is convenient to adjust, reduces the material extravagant, satisfies user of service's different needs.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a rear view of the quantitative square tube structure of the present invention;

fig. 3 is a left side view of the quantitative square tube structure of the present invention.

In the figure: 1. a quantitative square cylinder; 2. a material storage cavity; 3. a circular lumen; 4. a discharge channel; 5. a drive adjustment mechanism; 51. mounting a rotating rod; 52. a drive motor; 53. a T-shaped chute; 54. a T-shaped slider; 55. adjusting the lead screw; 56. an auxiliary sprocket; 57. a chain; 58. a driven sprocket; 6. a quantitative disc; 7. a quantitative groove; 8. connecting the material pipe; 9. and (7) installing the block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Referring to fig. 1-3, the present invention provides a technical solution: a quantitative charging cylinder of a plastic extruding machine for producing glass fiber thermoplastic tubes, please refer to fig. 1, comprising a quantitative square cylinder 1, wherein the quantitative square cylinder 1 is used for mounting a structure, electrical components in the utility model are electrically connected with an external master controller and an external power supply, and the master controller can be a conventional known device controlled by a computer and the like;

referring to fig. 1, a material storage cavity 2 is arranged at the top of an inner cavity of a quantitative square barrel 1, a circular cavity 3 communicated with the material storage cavity 2 is arranged in the middle of the inner cavity of the quantitative square barrel 1, the material storage cavity 2 is used for temporarily storing materials to be used, the circular cavity 3 is used for being matched with a quantitative disc 6, and the quantitative disc 6 can rotate in the circular cavity 3;

referring to fig. 1 and 2, a discharge channel 4 communicated with the circular cavity 3 is arranged at the bottom of the inner cavity of the quantitative square barrel 1, and the discharge channel 4 is used for realizing quantitative discharge;

referring to fig. 1, a connecting material pipe 8 communicated with the discharging channel 4 is arranged at the bottom of the quantitative square cylinder 1, and the other end of the connecting material pipe 8 is connected with an external input device, so that the entering connecting material pipe 8 enters the extruding machine through the external device;

referring to fig. 1, a matched quantitative disc 6 is movably arranged in the circular cavity 3, quantitative grooves 7 matched with the material storage cavity 2 and the material discharge channel 4 are uniformly formed in the outer wall of the quantitative disc 6 in an annular array, quantitative material discharge can be realized by rotating the quantitative disc 6 through the quantitative grooves 7, four groups of quantitative grooves 7 can be arranged, and of course, the number of groups can be selected according to actual conditions, which is not described in detail herein;

referring to fig. 1, a driving and adjusting mechanism 5 matched with the quantitative plate 6 is arranged at the rear side of the quantitative square barrel 1, the driving and adjusting mechanism 5 is convenient for a user to adjust, when a large amount of materials need to be obtained, the driving motor is turned off, the bottom of the chain 57 manually bypasses the driven sprocket 58 at the last side, so that the mounting rotating rod 51 slowly rotates, when a small amount of materials need to be obtained, the driving motor is turned off, the bottom of the chain 57 manually bypasses the driven sprocket 58 at the front side, so that the mounting rotating rod 51 rapidly rotates, when a medium-grade material needs to be obtained, the driving motor is turned off, the bottom of the chain 57 manually bypasses the driven sprocket 58 at the middle part, so that the mounting rotating rod 51 rotates at a constant speed.

As shown in fig. 2 and 3: the driving and adjusting mechanism 5 comprises an installation rotating rod 51 inserted at the rear side of the quantitative square barrel 1, the front end of the installation rotating rod 51 extends into the circular cavity 3, a bearing is arranged at the joint of the installation rotating rod 51 and the quantitative square barrel 1, the installation rotating rod 51 is positioned at the center of the circular cavity 3, the quantitative disc 6 is fixedly sleeved at the front end of the outer wall of the installation rotating rod 51, so that the quantitative disc 6 rotates along with the installation rotating rod 51, three groups of driven sprockets 58 are arranged at the rear end of the outer wall of the quantitative disc 6, the three groups of driven sprockets 58 are conveniently matched with a chain 57 to realize the rotation of the installation rotating rod 51 at different speeds, the three groups of driven sprockets 58 are all positioned at the rear side of the quantitative square barrel 1, a driving motor 52 is fixedly arranged at the top of the outer wall at the rear side of the quantitative square barrel 1, the driving motor 52 is fixed at the outer wall at the rear side of the quantitative square barrel 1 in a screw or bolt mode, a driving, the T-shaped sliding groove 53 plays a role in guiding and limiting the movement of the T-shaped sliding block 54, and simultaneously prevents the T-shaped sliding block 54 from separating from the T-shaped sliding groove 53, the T-shaped sliding groove 53 is transversely arranged on the outer wall of the rear side of the quantitative square barrel 1, the T-shaped sliding groove 53 is movably provided with the matched T-shaped sliding block 54, the rear end of the top of the right side of the quantitative square barrel 1 is inserted with an adjusting screw 55, the right end of the adjusting screw 55 is welded with a driving wheel for manual rotation of a user, the left end of the adjusting screw 55 penetrates through the right side of the quantitative square barrel 1 and the T-shaped sliding block 54 and is movably connected with the inner wall of the left side of the T-shaped sliding groove 53 through a bearing, the T-shaped sliding block 54 is transversely provided with a movable hole, a threaded sleeve matched with the adjusting screw 55 is welded in the movable hole, the threaded sleeve is sleeved, the teeth of the driving sprocket are wound with a chain 57, the middle part of the chain 57 rounds the auxiliary sprocket 56, the bottom part of the chain 57 rounds the driven sprocket 58 at the rearmost side, and the auxiliary sprocket 56 plays a role in auxiliary transmission, so that the driving sprocket can better drive the driven sprocket 58 to rotate;

as shown in fig. 3: the diameters of the three groups of driven chain wheels 58 are sequentially increased from front to back, and similar to the variable speed bicycle in the prior art, the chain 57 is matched with the driven chain wheels 58 with different diameters, so that the rotating speed of the mounting rotating rod 51 can be adjusted, and the quantitative discharging size can be adjusted;

as shown in fig. 1 and 2: the top of the material storage cavity 2 penetrates through the top of the quantitative square barrel 1, so that a user can pour materials from the top of the quantitative square barrel 1 conveniently, a matched barrel cover is movably arranged at the top of the quantitative square barrel 1, and the barrel cover can be fixed at the top of the quantitative square barrel 1 in a hinge or buckle mode;

as shown in fig. 1: the vertical section of the material storage cavity 2 is in an inverted trapezoid shape, the area of the top of the material storage cavity 2 is larger than the area of the bottom of the material storage cavity 2, so that a user can pour materials into the material storage cavity 2 better, and meanwhile, the materials can better enter the quantitative groove 7;

as shown in fig. 1: all fixed installation piece 9 that is provided with in 1 left and right sides outer wall bottom of ration square tube, evenly seted up the mounting hole on the installation piece 9, installation piece 9 and 1 integrated into one piece of ration square tube, the setting up of mounting hole makes things convenient for the user of service to fix the device in assigned position through external mounting such as bolt and screw.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a glass fibre is plastic tubing production with extruding machine ration charging cylinder, includes quantitative square tube (1), its characterized in that: the quantitative square tube is characterized in that a storage cavity (2) is arranged at the top of an inner cavity of a quantitative square tube (1), a circular cavity (3) communicated with the storage cavity (2) is arranged in the middle of the inner cavity of the quantitative square tube (1), a discharge passage (4) communicated with the circular cavity (3) is arranged at the bottom of the inner cavity of the quantitative square tube (1), a connecting material pipe (8) communicated with the discharge passage (4) is arranged at the bottom of the quantitative square tube (1), a matched quantitative disc (6) is arranged in the circular cavity (3) in an inner activity manner, a quantitative groove (7) matched with the storage cavity (2) and the discharge passage (4) is uniformly formed in an outer wall annular array of the quantitative disc (6), and a driving adjusting mechanism (5) matched with the quantitative disc (6) is arranged on the rear side of the.

2. The quantitative feeding cylinder of the extruder for producing the glass fiber thermoplastic plastic pipe as claimed in claim 1, wherein: the driving adjusting mechanism (5) comprises an installation rotating rod (51) inserted at the rear side of the quantitative square barrel (1), the front end of the installation rotating rod (51) extends into the circular cavity (3), the quantitative disc (6) is fixedly sleeved at the front end of the outer wall of the installation rotating rod (51), three groups of driven sprockets (58) are arranged at the rear end of the outer wall of the quantitative disc (6), a driving motor (52) is fixedly arranged at the top of the outer wall at the rear side of the quantitative square barrel (1), a driving sprocket is arranged at the output end of the driving motor (52), a T-shaped sliding groove (53) is transversely arranged between the driving motor (52) and the installation rotating rod (51), the T-shaped sliding groove (53) is transversely arranged on the outer wall at the rear side of the quantitative square barrel (1), a T-shaped sliding block (54) matched with the T-shaped sliding groove (53) is movably arranged in the T-shaped sliding groove (53), and an adjusting screw rod (55) is, the left end of adjusting lead screw (55) runs through ration square tube (1) right side and T shape slider (54) and through bearing and T shape spout (53) left side inner wall swing joint, T shape slider (54) rear side is provided with the bull stick through the bearing activity, and the bull stick outer wall has cup jointed auxiliary sprocket (56), and drive sprocket's the winding of teeth of a cogwheel has chain (57), auxiliary sprocket (56) are walked around in the middle part of chain (57), driven sprocket (58) of rearmost side are walked around to the bottom of chain (57).

3. The quantitative feeding cylinder of the extruder for producing the glass fiber thermoplastic plastic pipe as claimed in claim 2, wherein: the diameters of the three groups of driven sprockets (58) sequentially increase from front to back.

4. The quantitative feeding cylinder of the extruder for producing the glass fiber thermoplastic plastic pipe as claimed in claim 1, wherein: the top of the storage cavity (2) penetrates through the top of the quantitative square barrel (1), and the top of the quantitative square barrel (1) is movably provided with a matched barrel cover.

5. The quantitative feeding cylinder of the extruder for producing the glass fiber thermoplastic plastic pipe as claimed in claim 1, wherein: the vertical section of the storage cavity (2) is inverted trapezoid, and the area of the top of the storage cavity (2) is larger than that of the bottom of the storage cavity (2).

6. The quantitative feeding cylinder of the extruder for producing the glass fiber thermoplastic plastic pipe as claimed in claim 1, wherein: all fixed mounting blocks (9) that are provided with in the outer wall bottom of side about ration square cylinder (1), evenly seted up the mounting hole on mounting block (9).

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