CN219927000U - Extrusion device for wire drawing soap - Google Patents

Abstract

The utility model provides an extrusion device for a wire drawing soap, which relates to the field of extrusion devices and comprises: the wire drawing soap screw extruder, first drainage subassembly and second drainage subassembly, wire drawing soap screw extruder's right-hand member is connected with the feed inlet, and first drainage subassembly and second drainage subassembly are installed in the upper end of feed inlet to the motor is installed to first drainage subassembly's outer end, first drainage subassembly is including the inlet pipe, and the inside welding of inlet pipe has the stock guide, and the downside of stock guide is provided with the slope filter screen to the downside of slope filter screen is provided with the water guide. The utility model solves the problems that the spiral extrusion device for the wire drawing soap in the prior art has poor filtering effect, and still part of water enters the feed inlet, so that the preparation efficiency of the spiral extrusion device for the wire drawing soap is still affected.

Description

Extrusion device for wire drawing soap

Technical Field

The utility model relates to the technical field of extrusion devices, in particular to an extrusion device for a wire drawing soap.

Background

When the lubricating soap is prepared, raw materials are subjected to dehydration, water and a raw material mixture are separated through a screw extruder, and the water and raw material mixture is subjected to retrieval, so that the prior art (application number: CN 201910336552.2) describes a screw extrusion device for preparing the soap. According to the screw extrusion device for preparing the wire drawing soap, the mixture is pretreated at the feed inlet of the device, part of water in the mixture is directly discharged from the filter screen, the ratio of raw materials in the mixture is improved, the volume of the mixture is reduced, and the mixture can be conveyed into the feed inlet in an accelerated manner, so that the working efficiency of the screw extrusion machine is improved, the effect of improving the preparation efficiency of the lubricating wire drawing soap is further achieved, and meanwhile, the device is simple in structure, reasonable in design, simple and convenient to operate, and therefore convenient to popularize. "

However, although the screw extrusion device for the wire drawing soap in the prior art realizes the pre-drainage effect on the raw material mixture, a gap exists between the related partition plate and the filter screen, so that when the mixture is subjected to pre-drainage, a part of water flows downwards along with the raw material, the filtering effect is poor, and a part of water still enters the feed inlet, so that the preparation efficiency of the screw extrusion device for the wire drawing soap still has influence.

Disclosure of Invention

In order to overcome the defects existing in the prior art, the extrusion device for the wire drawing soap is provided at present, so that the problems that the filtering effect of the screw extrusion device for the wire drawing soap in the prior art is poor, part of water still enters a feed inlet, and the preparation efficiency of the screw extrusion machine for the wire drawing soap is affected still are solved.

To achieve the above object, there is provided an extrusion device for a soap, comprising: the wire drawing soap screw extruder, first drainage subassembly and second drainage subassembly, wire drawing soap screw extruder's right-hand member is connected with the feed inlet, and first drainage subassembly and second drainage subassembly are installed in the upper end of feed inlet to the motor is installed to first drainage subassembly's outer end, first drainage subassembly is including the inlet pipe, and the inside welding of inlet pipe has the stock guide, and the downside of stock guide is provided with the slope filter screen to the downside of slope filter screen is provided with the water guide, second drainage subassembly is including installing the electric putter at the outer wall of inlet pipe, and the telescopic link inboard end of electric putter is connected with the stripper plate, and the lower extreme of stripper plate is connected with the expansion plate, the lower extreme of expansion plate is provided with the rotor plate, and the one end and the inlet pipe of rotor plate are articulated, and the other end of rotor plate is provided with vertical filter screen, and the outside welding of vertical filter screen has the water guide box.

Furthermore, the inner ends of the guide plate and the inclined filter screen are inclined downwards, the inner ends of the inclined filter screen and the inner ends of the water guide plate are welded and fixed through the connecting plate, and the inner ends of the water guide plate are inclined upwards.

Further, the water outlet hole is formed in the inner wall of the feeding pipe, the water outlet hole is formed between the water guide plate and the inclined filter screen, the outer end of the water outlet hole is connected with the connecting pipe, and the lower end of the connecting pipe is inserted into the water guide box.

Further, the chamfer of slope has been seted up to the upper end of stripper plate, and the front and back end welding of stripper plate has bellied slider to slider sliding connection is inside the horizontal spout that side inner wall was seted up around the inlet pipe.

Further, the installation cavity is formed in the extrusion plate, the spring is arranged in the installation cavity, the expansion plate is inserted in the installation cavity in a sliding mode, and the expansion plate is located on the lower side of the spring.

Further, one end of the rotating plate is rotationally connected with the feeding pipe through a rotating shaft, the rotating shaft is rotationally connected inside the feeding pipe, and the outer end of the rotating shaft is connected with a motor.

Further, the vertical filter screen is arranged on the inner wall of the feeding pipe, and the vertical filter screen is positioned on the inner side of the upper end tank wall and the lower end tank wall of the water guide tank.

The utility model has the advantages that the water is filtered conveniently by the gravity of the raw material mixture by utilizing the feeding pipe, the material guide plate, the inclined filter screen and the water guide plate which are included in the first water discharge component, then filtered water is guided into the water guide tank by the water outlet holes and the connecting pipes, so that the first filtering water discharge is realized, the first filtered raw material is conveniently blocked on the upper side of the rotating plate by utilizing the electric push rod, the rotating plate, the vertical filter screen, the water guide tank, the extruding plate and the sliding block which are included in the second water discharge component, then the electric push rod pushes the extruding plate to laterally extrude the raw material, the extruded water enters the water guide tank by the water guide and the vertical filter screen of the rotating plate, so that the second filtering water discharge is realized, the downward rotation of the rotating plate is controlled by the motor, the water content of the raw material subjected to the twice filtering water discharge is greatly reduced, and the processing efficiency of the wire drawing soap screw machine is improved.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present utility model.

Fig. 2 is a schematic diagram illustrating the internal structures of the first drainage assembly and the second drainage assembly according to an embodiment of the present utility model.

Fig. 3 is a schematic diagram of a structure a in fig. 2 according to an embodiment of the present utility model.

Fig. 4 is a schematic perspective view of an extrusion plate according to an embodiment of the present utility model.

In the figure: 1. a drawing soap screw extruder; 2. a first drainage assembly; 21. a feed pipe; 22. a material guide plate; 23. tilting the filter screen; 24. a water guide plate; 25. a water outlet hole; 26. a connecting pipe; 3. a motor; 4. a feed inlet; 5. a second drainage assembly; 51. an electric push rod; 52. a rotating plate; 53. a vertical filter screen; 54. a water guide tank; 55. an extrusion plate; 551. a slide block; 56. a mounting cavity; 57. a spring; 58. a chute; 59. and a telescopic plate.

Detailed Description

Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples. The utility model may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present utility model.

Referring to fig. 1 to 4, the present utility model provides an extruding apparatus for a soap, comprising: the device comprises a drawing soap screw extruder 1, a first water discharge assembly 2, a motor 3, a feed inlet 4 and a second water discharge assembly 5.

Specifically, the right-hand member of wire drawing soap screw extruder 1 is connected with feed inlet 4, and first drainage subassembly 2 and second drainage subassembly 5 are installed in the upper end of feed inlet 4, and motor 3 is installed to the outer end of first drainage subassembly 2, first drainage subassembly 2 is including inlet pipe 21, and the inside welding of inlet pipe 21 has stock guide 22, the downside of stock guide 22 is provided with inclined filter screen 23, and the downside of inclined filter screen 23 is provided with water guide 24, the inboard end of stock guide 22 and inclined filter screen 23 all downward sloping, and the inboard end of inclined filter screen 23 passes through connecting plate welded fastening with the inboard end of water guide 24, and the inboard end of water guide 24 is upwards inclined, apopore 25 has been seted up to the inner wall of inlet pipe 21, and apopore 25 is located between water guide 24 and inclined filter screen 23, and the outer end of apopore 25 is connected with connecting pipe 26, and the lower extreme of connecting pipe 26 peg graft to the inside of water guide 54.

In this embodiment, the connecting plates welded to the inner ends of the inclined filter screen 23 and the water guide plate 24 are welded to the inner wall of the feed pipe 21 at the front and rear sides to form a space between the inclined filter screen 23 and the water guide plate 24, so as to prevent the raw material from being impacted by the inner wall of the feed pipe 21 into the water guide plate 24 when the raw material slides down from the upper end of the inclined filter screen 23, and the raw material is discharged from the water outlet holes 25.

In this embodiment, the feed pipe 21 is provided in a square pipe structure, and a feed hopper is connected to the top of the feed pipe 21.

In a preferred embodiment, the water outlet 25 and the connecting pipe 26 are provided, so that the water filtered for the first time is conveniently discharged into the water guide tank 54 at the lower side, collected and uniformly discharged.

Specifically, the second drainage assembly 5 includes the electric push rod 51 of installing the outer wall at inlet pipe 21, and the telescopic link inboard end of electric push rod 51 is connected with stripper plate 55, and the lower extreme of stripper plate 55 is connected with stripper plate 59, the lower extreme of stripper plate 59 is provided with swivel plate 52, and the one end and the inlet pipe 21 of swivel plate 52 are articulated, and the other end of swivel plate 52 is provided with vertical filter screen 53, and the outside welding of vertical filter screen 53 has water guide tank 54, the chamfer of slope has been seted up to the upper end of stripper plate 55, and the front and back end welding of stripper plate 55 has bellied slider 551, and slider 551 sliding connection is inside horizontal spout 58 that the front and back side inner wall was seted up at inlet pipe 21, install the chamber 56 has been seted up to the inside of stripper plate 55, and the inside of install chamber 56 is provided with spring 57, and the slip grafting of stripper plate 59 is inside install the chamber 56, and the telescopic plate 59 is located the downside of spring 57, the one end of swivel plate 52 is rotationally connected with inlet pipe 21 through the pivot, and the pivot is rotationally connected inside inlet pipe 21, and the outer end and motor 3 of pivot are connected, vertical filter screen 53 sets up at the inner wall of 21, and the filter screen 53 is located the upper and lower end of water guide tank of inlet pipe 54.

In the present embodiment, the end of the rotation plate 52 away from the hinge point is kept in contact with the vertical screen 53 and the end is lower than the hinged end, so that the rotation plate 52 is in an inclined state as a whole during the filtering process.

As a preferred embodiment, the provision of the swivel plate 52 facilitates temporary blocking of the raw mixture and then diversion of the pressed water to the side of the vertical screen 53 during pressing.

In this embodiment, the water guide tank 54 is configured as a rectangular tank cover structure with one side open, and the lower end is provided with a drain hole, so as to collect the twice filtered drain water.

During extrusion, through setting up installation cavity 56 and spring 57 for expansion plate 59 is when moving to water tank 54 one side along with extrusion plate 55, and expansion plate 59 lower extreme stretches out downwards, remains throughout and is contacted with rotor plate 52, realizes the extrusion comprehensiveness to the raw materials, then at extrusion plate 55 in-process that resets, expansion plate 59 receives rotor plate 52 extrusion and withdraws, and the bottom of expansion plate 59 is spacing by rotor plate 52's articulated end, makes difficult roll-off installation cavity 56.

The extrusion device for the wire drawing soap can effectively solve the problems that the filtering effect of the screw extrusion device for the wire drawing soap in the prior art is poor, part of water still enters the feed inlet, and the preparation efficiency of the screw extrusion device for the wire drawing soap is still affected, and the problems that the filtering and drainage of a raw material mixture are increased for the second time on the basis of the technology of the screw extrusion device for the wire drawing soap in the prior art are solved, the technical defect that the drainage is not thorough in the prior art is overcome, and the processing efficiency of extrusion equipment for the wire drawing soap is further improved.

Claims (7)

1. An extrusion device for a fiber soap, comprising: wire drawing soap screw extruder (1), first drainage subassembly (2) and second drainage subassembly (5), its characterized in that: the right-hand member of wire drawing soap screw extruder (1) is connected with feed inlet (4), and first drainage subassembly (2) and second drainage subassembly (5) are installed in the upper end of feed inlet (4), and motor (3) are installed to the outer end of first drainage subassembly (2), first drainage subassembly (2) are including inlet pipe (21), and the inside welding of inlet pipe (21) has stock guide (22), and the downside of stock guide (22) is provided with slope filter screen (23) to the downside of slope filter screen (23) is provided with guide plate (24), second drainage subassembly (5) are including installing electric push rod (51) at the outer wall of inlet pipe (21), and the telescopic link inboard end of electric push rod (51) is connected with stripper plate (55), and the lower extreme of stripper plate (55) is connected with expansion plate (59), the lower extreme of expansion plate (59) is provided with rotor plate (52), and the one end and inlet pipe (21) are articulated, and the other end of rotor plate (52) is provided with vertical filter screen (53), and the outside of rotor plate (52) is provided with water tank (53).

2. The extruding device for the soap wire according to claim 1, wherein the inner ends of the guide plate (22) and the inclined filter screen (23) are inclined downward, the inner ends of the inclined filter screen (23) and the inner ends of the water guide plates (24) are welded and fixed by the connecting plates, and the inner ends of the water guide plates (24) are inclined upward.

3. The extrusion device for a soap according to claim 1, wherein the inner wall of the feed pipe (21) is provided with a water outlet (25), the water outlet (25) is positioned between the water guide plate (24) and the inclined filter screen (23), the outer end of the water outlet (25) is connected with a connecting pipe (26), and the lower end of the connecting pipe (26) is inserted into the water guide tank (54).

4. The extrusion device for a fiber drawing soap according to claim 1, wherein an inclined chamfer is formed at the upper end of the extrusion plate (55), a raised sliding block (551) is welded at the front and rear ends of the extrusion plate (55), and the sliding block (551) is slidably connected inside a horizontal sliding groove (58) formed in the inner walls of the front and rear sides of the feeding pipe (21).

5. The extrusion device for the drawn soaps according to claim 1, wherein the extrusion plate (55) is internally provided with a mounting cavity (56), a spring (57) is arranged in the mounting cavity (56), the telescopic plate (59) is slidably inserted in the mounting cavity (56), and the telescopic plate (59) is positioned at the lower side of the spring (57).

6. The extruding device for drawing soap according to claim 1, wherein one end of the rotating plate (52) is rotatably connected with the feed pipe (21) through a rotating shaft, the rotating shaft is rotatably connected inside the feed pipe (21), and the outer end of the rotating shaft is connected with the motor (3).

7. The extruding device for the soap drawing according to claim 1, wherein the vertical filter screen (53) is arranged on the inner wall of the feed pipe (21), and the vertical filter screen (53) is positioned on the inner side of the upper and lower end walls of the water guide tank (54).