CN210791782U - Low-cost production device of vortex tube dust remover - Google Patents

Abstract

The utility model relates to a dust remover field specifically is a low-cost vortex tube dust remover's apparatus for producing, the on-line screen storage device comprises a base, top one side overlap joint of base has the hot melt case, it has the feeder hopper to peg graft at the top of hot melt case, the top of base and the one side overlap joint that is located the hot melt case have the case of moulding plastics, it is provided with the mount to mould plastics between case and the hot melt case, the side of mount is provided with the cover half, and the four corners level of cover half runs through the gag lever post, the movable mould has been cup jointed on the gag lever post, the front end of the case of moulding plastics and the position that is located the. The method has the advantages that the vortex tube is manufactured by adopting a split injection molding later-stage assembling mode, a single vortex tube is manufactured by split injection molding, and then the vortex tube is assembled according to a drawing, so that the method is not limited by the shape of the finished vortex tube, different molds do not need to be replaced, the mold replacing time is reduced in work, and the work efficiency is improved.

Description

Low-cost production device of vortex tube dust remover

Technical Field

The utility model relates to a dust remover field specifically is a low-cost vortex tube dust remover's apparatus for producing.

Background

The dust collector on sale at present usually adopts cyclone separation technology and filter element interception mode to remove dust, and cyclone separation technology does not adopt the cyclone separation device with blade cyclone tube to separate, and the cyclone tube is internally provided with blades.

The existing cyclone tube is generally manufactured by injection molding, but is generally manufactured by integral injection molding, and different injection molds need to be replaced according to different dust collectors in the manufacturing mode, so that the manufacturing cost is higher. Accordingly, those skilled in the art have provided a low-cost production apparatus for a scroll dust collector to solve the problems set forth in the background art described above.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a low-cost vortex tube dust remover's apparatus for producing in order 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 low-cost vortex tube dust remover's apparatus for producing, includes the base, one side overlap joint of top of base has the hot melt case, it has the feeder hopper to peg graft at the top of hot melt case, the top of base and the one side overlap joint that is located the hot melt case have the case of moulding plastics, it is provided with the mount to mould plastics between case and the hot melt case, the side of mount is provided with the cover half, and the four corners level of cover half runs through there is the gag lever post, the movable mould has been cup jointed on the gag lever post, the front end of the case of moulding plastics and the position that is located the movable.

As a further aspect of the present invention: the hot melt box is internally provided with a feeding pipe, the tail end of the feeding hopper is in through connection with the top of the feeding pipe, and the end part of the feeding pipe penetrates through the circle center of the fixed frame and is connected with the circle center of the fixed die.

As a further aspect of the present invention: the inside center department of conveying pipe is provided with the pivot, and the end of pivot runs through the one end of feeder hopper and external driver, the welding has the auger in the pivot.

As a further aspect of the present invention: vortex grooves are uniformly arranged on the opposite surfaces of the movable mold and the fixed mold, injection molding holes are formed in the side surface of the movable mold corresponding to each group of vortex grooves, and the distance between each injection molding hole and the end surface of the movable mold is half of the thickness of the fixed mold.

As a further aspect of the present invention: spiral blades are arranged in the end opening of the vortex groove, an embedded groove is formed in the bottom end of the vortex groove, and the embedded groove is of a round table-shaped structure.

As a further aspect of the present invention: tempered glass is attached between the fixed frame and the injection molding box, and the moving length of the movable mold is equal to that of the tempered glass.

As a further aspect of the present invention: the hot melting box is characterized in that sliding strips are welded on two sides of the bottom end of the hot melting box, sliding rails are mounted on two sides of the top of the base, and a lead screw is arranged in the bottom of the hot melting box.

Compared with the prior art, the beneficial effects of the utility model are that: the method has the advantages that the vortex tube is manufactured in a split injection molding later-stage assembling mode, a single vortex tube is manufactured through split injection molding, then the assembly is performed according to a drawing, the method is not limited by the shape of the finished vortex tube, different molds are not needed to be replaced, the mold replacement time is reduced in work, the work efficiency is improved, the work time is reduced, the required molds are reduced in cost, the single mold can be used for manufacturing, meanwhile, the later-stage assembly is flexible, the vortex tubes of different shapes can be combined according to needs, most of vortex tubes in the market can be manufactured, the applicability is wide, in addition, other injection molding parts cannot be influenced when unqualified products are met through split injection molding, the quantity of reported waste products is reduced, the loss problem of manufacturers is reduced, and damaged parts can be replaced in time during the assembly.

Drawings

FIG. 1 is a schematic view showing the construction of a low-cost apparatus for producing a cyclone collector;

FIG. 2 is a schematic view showing the internal structure of a movable mold in a production apparatus for a low-cost vortex tube dust collector;

FIG. 3 is a schematic view showing a raw material conveying structure of a production apparatus for a low-cost vortex tube dust collector.

In the figure: 1. a hot melting box; 2. a base; 3. a fixed mount; 4. a limiting rod; 5. a side door; 6. injection molding a box; 7. moving the mold; 8. fixing a mold; 9. a feed pipe; 10. a feed hopper; 11. helical leaves; 12. caulking grooves; 13. a vortex groove; 14. injection molding holes; 15. a rotating shaft; 16. and (4) a packing auger.

Detailed Description

Please refer to fig. 1-3, in the embodiment of the utility model, an in low-cost vortex tube dust remover's apparatus for producing, including base 2, top one side overlap joint of base 2 has hot melt case 1, hot melt case 1's top is pegged graft and is had feeder hopper 10, base 2's top and the one side overlap joint that is located hot melt case 1 have injection molding box 6, be provided with mount 3 between injection molding box 6 and the hot melt case 1, the side of mount 3 is provided with cover half 8, and cover half 8's four corners level runs through has gag lever post 4, the movable mould 7 has been cup jointed on the gag lever post 4, the front end of injection molding box 6 and the position that is located movable mould 7 are provided with side door 5.

In fig. 3, a feeding pipe 9 is arranged in the hot melting box 1, the end of the feeding hopper 10 is connected with the top of the feeding pipe 9 in a penetrating manner, the end of the feeding pipe 9 penetrates through the center of the fixed frame 3 and is connected with the center of the fixed die 8, the feeding pipe 9 is used for conveying the raw materials melted by the hot melting box 1, and the fluid raw materials are conveyed into the injection mold consisting of the movable die 7 and the fixed die 8 through the feeding pipe 9.

In fig. 2, a rotating shaft 15 is arranged at the center of the interior of the feeding pipe 9, the end of the rotating shaft 15 penetrates through one end of the feeding hopper 10 and is externally connected with a driver, an auger 16 is welded on the rotating shaft 15, the feeding principle of the feeding pipe 9 is that the rotating shaft 15 is driven by the external driver to rotate, and the auger 16 is driven by the rotating shaft 15 to perform spiral motion, so that accurate feeding is realized.

In fig. 2, vortex grooves 13 are uniformly arranged on the opposite surfaces of the movable mold 7 and the fixed mold 8, injection holes 14 are formed in the side surface of the movable mold 7 corresponding to each group of vortex grooves 13, the length of each injection hole 14 from the end surface of the movable mold 7 is half of the thickness of the fixed mold 8, when raw materials flow into the vortex grooves 13 and are cooled, a vortex pipe is formed, and the raw materials enter the vortex grooves 13 through the injection holes 14, the side feeding has the advantages that wind enters or outputs from the front surface of the vortex pipe, if the edge materials change the flowing direction of airflow on the front surface of the vortex pipe, the effect of the vortex pipe is reduced, the edge materials do not influence the airflow movement, the movable mold 7 is embedded into the fixed mold 8 during injection, the end part of the movable mold 7 is wrapped inside the fixed mold 8, and the injection holes 14 are required to allow the raw materials to flow into the injection holes 14.

In fig. 2, a spiral blade 11 is arranged in a port of a spiral groove 13, an embedded groove 12 is arranged at the bottom end of the spiral groove 13, the embedded groove 12 is in a circular truncated cone-shaped structure, when an air flow passes through the spiral blade 11, the spiral blade 11 can change the movement of the air flow to enable the air flow to move spirally, so that particulate matters in the air are converged together through centrifugal force to form a large-volume impurity block, impurities can fall off through the movement track of gravity and the air flow, and some devices can be connected by using the embedded groove 12 when a spiral channel needs to be lengthened.

In fig. 2, toughened glass is attached between the fixed frame 3 and the injection molding box 6, the moving length of the movable mold 7 is equal to that of the toughened glass, and the injection molding safety is ensured by the design which is favorable for observing the injection molding state.

In fig. 2, the bottom both sides of stating hot melt case 1 have the draw runner, and two installation slide rails in the top of base 2, department is provided with the lead screw in the bottom of hot melt case 1, feed pipe 9 need break away from the injection mold that cover half 8 and movable mould 7 are constituteed after the inner wall is moulded plastics and is accomplished, so drive hot melt case 1 through the lead screw and move the movement track that utilizes draw runner and slide rail control hot melt case 1, the lead screw is ball, turn into linear motion with rotary motion, or turn into the product of rotary motion's ideal with linear motion, have high accuracy concurrently simultaneously, reversibility and efficient characteristics. Due to the low frictional resistance.

The utility model discloses a theory of operation is: when in use, raw materials are put into the feed hopper 10, the hot melting box 1 is opened for heating, the raw materials flow into the feed pipe 9 after being melted, the auger 16 is arranged in the feed pipe 9, after the raw materials are filled in the space between two blades of the auger 16, the raw remaining raw materials are temporarily stored in the feed hopper 10, then an external driver (the model is Y112M-2) is started, the driver drives the rotating shaft 15 to rotate, and then the auger 16 is driven by the rotating shaft 15 to carry out spiral motion, thereby realizing accurate feeding, meanwhile, the driver arranged in the injection molding box 6 pushes the movable mold 7 to be attached to the fixed mold 8, the lead screw drives the hot melting box 1 to move, simultaneously, the slide bar and the slide rail are utilized to control the motion track of the hot melting box 1, the feed pipe 9 passes through the fixed frame 3 and the central hole of the fixed mold 8 to be abutted, the raw materials are sent out, the raw materials enter the, the side feeding has the advantages that wind enters or outputs from the front face of the vortex tube, if leftover materials change the flowing direction of airflow on the front face of the vortex tube, the effect of the vortex tube is reduced, the leftover materials do not influence the airflow movement in the side injection molding, the movable mold 7 is embedded into the fixed mold 8 in the injection molding process, the end part of the movable mold 7 is wrapped inside the fixed mold 8, and when raw materials flow into the injection molding hole 14, the injection molding hole 14 needs to be in the fixed mold 8, and the movable mold 7 moves back after cooling and demolding are required.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A low-cost production device of a vortex tube dust collector comprises a base (2), and is characterized in that: the hot-melt box (1) is lapped on one side of the top of the base (2), a feed hopper (10) is spliced on the top of the hot-melt box (1), an injection molding box (6) is lapped on one side of the top of the base (2) and located on the hot-melt box (1), a fixing frame (3) is arranged between the injection molding box (6) and the hot-melt box (1), a fixed die (8) is arranged on the side face of the fixing frame (3), a limiting rod (4) penetrates through the four corners of the fixed die (8), a movable die (7) is sleeved on the limiting rod (4), and a side door (5) is arranged at the position, located on the movable die (7), of the front end of the injection molding box (6).

2. A low-cost production device of a vortex tube dust collector as claimed in claim 1, wherein a feeding pipe (9) is arranged in the hot melting box (1), the tail end of the feeding hopper (10) is communicated with the top of the feeding pipe (9), and the end of the feeding pipe (9) penetrates through the center of the fixed frame (3) and is connected with the center of the fixed die (8).

3. A low cost apparatus for producing a scroll dust collector as claimed in claim 2, wherein the feed pipe (9) is provided with a rotating shaft (15) at the center inside, the end of the rotating shaft (15) penetrates one end of the feed hopper (10) and is externally connected with a driver, and the rotating shaft (15) is welded with a packing auger (16).

4. A low-cost production device of a vortex tube dust remover according to claim 1, wherein vortex grooves (13) are uniformly arranged on the opposite surfaces of the movable mold (7) and the fixed mold (8), injection molding holes (14) are formed in the side surface of the movable mold (7) corresponding to each group of vortex grooves (13), and the length of each injection molding hole (14) from the end surface of the movable mold (7) is half of the thickness of the fixed mold (8).

5. A low-cost production device of a vortex tube dust remover according to claim 4, wherein a spiral blade (11) is arranged in the port of the vortex groove (13), a caulking groove (12) is arranged at the bottom end of the vortex groove (13), and the caulking groove (12) is in a circular truncated cone-shaped structure.

6. A low-cost apparatus for producing a vortex tube dust collector as claimed in claim 1, wherein toughened glass is adhered between the fixed frame (3) and the injection molding box (6), and the moving length of the movable mold (7) is equal to that of the toughened glass.

7. The low-cost production device of the vortex tube dust collector as claimed in claim 1, wherein two sides of the bottom end of the hot melting box (1) are welded with slide bars, two slide rails are mounted on the top of the base (2), and a screw rod is arranged in the bottom of the hot melting box (1).

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