CN220314103U - Strip penetrating production line with multistage limiting assembly - Google Patents

Abstract

The utility model relates to the technical field of strip threading production equipment, in particular to a strip threading production line with a multi-stage limiting assembly, which comprises a mounting seat, wherein an extruder is mounted on the mounting seat, an auger feeder is mounted at a feed inlet of the extruder, a spray box is mounted at a discharge outlet of the extruder, a charging hopper is mounted on the auger feeder, a limiting assembly is mounted in the spray box, the limiting assembly comprises a plurality of limiting plates, and limiting perforations which are equal in number and are arranged at equal intervals are formed in each limiting plate; according to the utility model, the limiting assembly is arranged in the spraying box, and the distance between two adjacent penetrating strips can be gradually adjusted in the spraying box through the plurality of limiting plates in the limiting assembly, so that readjustment after spraying can be avoided, the penetrating strip production flow is simplified, and the use in the penetrating strip production process is facilitated.

Description

Strip penetrating production line with multistage limiting assembly

Technical Field

The utility model relates to the technical field of strip threading production equipment, in particular to a strip threading production line with a multistage limiting assembly.

Background

The heat-insulating aluminum alloy is characterized in that an original integral section is divided into two parts on the basis of aluminum alloy, then two heat-insulating penetrating strips are used for connecting the two separated parts together through a mechanical compounding means, and the penetrating strips, namely the heat-insulating strips, penetrate into an aluminum alloy frame.

In the prior art, as disclosed in the patent application number CN202122537491.1, a high-toughness heat-insulation penetrating strip production device comprises a fixed seat, wherein a raw material bin is fixedly connected to the fixed seat, the raw material bin is communicated with a drying mechanism through a communicating pipe, a suction pump is arranged on the communicating pipe, a discharge port is arranged at the lower end of the drying mechanism, the discharge port is positioned above a feed screw sleeve of a screw type electric heating extruder and is communicated with the feed screw sleeve, and a feed screw is sleeved in the feed screw sleeve.

Although this technical scheme has realized the cyclic utilization of water resource when carrying out water-cooling treatment, has practiced thrift the water resource, the cost is reduced, but this technical scheme is when using, extrudees the back from the extruder, and through the cooling of water-cooling tank again, wears the strip when extruding from the extruder, and distance between two adjacent wears the strip is farther, is inconvenient for the rolling, consequently need adjust the distance between two adjacent wears the strip after the cooling, and lacks the mechanism that can realize adjusting the distance between two adjacent wears in this technical scheme, consequently needs independent equipment to adjust, inconvenient to use. In view of this, we propose a threading production line with multi-stage limiting assemblies.

Disclosure of Invention

In order to make up for the defects, the utility model provides a strip penetrating production line with a multi-stage limiting assembly.

The technical scheme of the utility model is as follows:

the strip penetrating production line with the multistage limiting components comprises a mounting seat, wherein an extruder is mounted on the mounting seat, a packing auger feeder is mounted at a feed inlet of the extruder, a spray box is mounted at a discharge outlet of the extruder, a charging hopper is mounted on the packing auger feeder, limiting components are mounted in the spray box, each limiting component comprises a plurality of limiting plates, limiting perforations which are equal in number and are arranged at equal intervals are formed in each limiting plate, and the distance between two adjacent limiting perforations is larger on the limiting plate which is closer to one side of the extruder; the four corners of the bottom of the mounting seat are fixedly connected with first supporting legs, the top of the spraying box is provided with a spraying plate, and the four corners of the bottom of the spraying box are provided with second supporting legs.

As the preferable technical scheme, the water storage tank for supplying water to the spray plate is fixedly connected to the bottom of the mounting seat, and is connected to the top of the spray plate through a water supply pipe, and a water pump is arranged on the water supply pipe.

As the preferable technical scheme, the water supply pipe comprises a hard pipe connected with the water storage tank and a hose connected with the spraying plate, and the water pump is arranged on the hard pipe.

As a preferable technical scheme, a feeding guide plate aligned with an extrusion opening of the extruder is arranged on the outer wall of one side of the spray box, which is close to the extruder.

As the preferable technical scheme, a discharging guide plate aligned with a limiting plate with the minimum spacing perforation interval is arranged on the outer wall of one side of the spray box, which is far away from the extruder.

As the preferable technical scheme, the radiator is installed to mount pad bottom in water storage tank one side, and the fixed plate at radiator top passes through the bolt fastening in the mount pad bottom, and radiator communicates with spray the incasement portion through the downcomer that locates its top, radiator and water storage tank intercommunication.

As an optimal technical scheme, a radiating component is arranged on one side of the radiating water tank.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the limiting assembly is arranged in the spraying box, and the distance between two adjacent penetrating strips can be gradually adjusted in the spraying box through the plurality of limiting plates in the limiting assembly, so that readjustment after spraying can be avoided, the penetrating strip production flow is simplified, and the use in the penetrating strip production process is facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the structure of the spray box of the present utility model;

fig. 3 is a schematic structural view of a radiator tank and a radiator assembly according to the present utility model.

The meaning of each reference numeral in the figures is:

1. a mounting base; 2. a charging hopper; 3. a screw feeder; 4. an extruder; 5. a spray box; 50. a spray plate; 51. a water supply pipe; 52. a discharging guide plate; 53. a limiting plate; 530. limiting perforation; 54. a feeding guide plate; 55. a second supporting leg; 6. a water storage tank; 7. a heat radiation water tank; 70. a fixing plate; 71. a water supply pipe; 8. a heat dissipation assembly; 80. a mounting frame; 81. a mounting plate; 82. a fan blade; 83. a driving motor; 9. and a first supporting leg.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution:

the strip penetrating production line with the multistage limiting components comprises a mounting seat 1, wherein an extruder 4 is mounted on the mounting seat 1, a packing auger feeder 3 is mounted at a feed inlet of the extruder 4, a spray box 5 is mounted at a discharge outlet of the extruder, a charging hopper 2 is mounted on the packing auger feeder 3, limiting components are mounted in the spray box 5, each limiting component comprises a plurality of limiting plates 53, limiting perforations 530 which are equal in number and are arranged at equal intervals are formed in each limiting plate 53, and the distance between two adjacent limiting perforations 530 on the limiting plate 53 which is closer to one side of the extruder 4 is larger; the four corners of the bottom of the mounting seat 1 are fixedly connected with a first supporting leg 9, the top of the spray box 5 is provided with a spray plate 50, and the four corners of the bottom of the spray box 5 are provided with a second supporting leg 55. Through install spacing subassembly in spray box 5 to can be in spray box 5 through a plurality of limiting plates 53 in the spacing subassembly gradually adjust the distance between two adjacent wearing strip, can avoid readjusting after spraying, simplified the flow of wearing strip production, be convenient for wear the use of strip production in-process.

As a preferred embodiment, the bottom of the mounting seat 1 is fixedly connected with a water storage tank 6 for supplying water to the spraying plate 50, the water storage tank 6 is connected to the top of the spraying plate 50 through a water supply pipe 51, and a water pump is installed on the water supply pipe 51. The water in the water storage tank 6 can be pumped into the spraying plate 50 through the water pump, and sprayed onto the penetrating strip positioned in the spraying tank 5 from the spraying plate 50, so that the penetrating strip can be cooled.

Preferably, the water supply pipe 51 includes a hard pipe connected to the water storage tank 6 and a hose connected to the shower plate 50, and the water pump is mounted on the hard pipe. The water supply pipe 51 is divided into a hose and a hard pipe, so that the penetrating strip can be manually pulled to pass through the discharging guide plate 52, the limiting plate 53 and the feeding guide plate 54 at the beginning, and the water pump is installed.

Preferably, in this embodiment, a feeding guide plate 54 aligned with the extrusion port of the extruder 4 is mounted on the outer wall of the shower box 5 near the side of the extruder 4. The outer wall of the side of the spray box 5 far away from the extruder 4 is provided with a discharging guide plate 52 aligned with a limit plate 53 with the minimum spacing between limit perforations 530. The feed guide plate 54 and the discharge guide plate 52 are provided so as to limit the positions of the penetrating strips when entering and exiting the spray box 5.

As a preferable example of the present embodiment, the bottom of the mounting base 1 is provided with the heat dissipating water tank 7 at one side of the water storage tank 6, the fixing plate 70 at the top of the heat dissipating water tank 7 is fixed at the bottom of the mounting base 1 by bolts, the heat dissipating water tank 7 is communicated with the inside of the shower tank 5 by the drain pipe 71 provided at the top thereof, and the heat dissipating water tank 7 is communicated with the water storage tank 6. The radiator tank 7 is provided to cool shower water flowing back from the shower tank 5.

Preferably, the radiator module 8 is mounted on one side of the radiator tank 7. The heat radiation effect of the heat radiation water tank 7 can be enhanced by the heat radiation component 8.

It should be added that the heat dissipation assembly 8 includes a mounting frame 80 fixedly connected with the heat dissipation water tank 7, a mounting plate 81 is fixedly connected to the inner wall of the mounting frame 80, one side of the mounting plate 81 is rotatably connected with a fan blade 82, and the other side of the mounting plate 81 is provided with a driving motor 83 for driving the fan blade 82 to rotate.

According to the strip threading production line with the multi-stage limiting assemblies, the limiting assemblies are arranged in the spray box 5, and the distance between two adjacent strip threading can be gradually adjusted in the spray box 5 through the plurality of limiting plates 53 in the limiting assemblies, so that readjustment after spraying can be avoided, the strip threading production flow is simplified, and the strip threading production line is convenient to use in the strip threading production process;

when the water tank is used, firstly, the auger feeder 3 and the extruder 4 are started, then strip-penetrating raw materials are added into the charging hopper 2, are fed into the extruder 4 through the auger feeder 3, are extruded into the spray box 5 from an extrusion opening after being melted by the extruder 4, at the moment, the extruded strip-penetrating materials need to be manually watered to be cooled, the cooled strip-penetrating materials pass through the limiting plates 53 and the discharging guide plates 52 in sequence, then the spray plate 50 is covered, a water pump is started, the water pump pumps water in the water storage tank 6 into the spray plate 50, and the strip-penetrating materials in the spray box 5 can be cooled through the spray plate 50.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. Strip production line is worn to multistage spacing subassembly in area, including mount pad (1), its characterized in that: an extruder (4) is mounted on the mounting seat (1), an auger feeder (3) is mounted at a feed inlet of the extruder (4), a spray box (5) is mounted at a discharge outlet of the extruder, a charging hopper (2) is mounted on the auger feeder (3), a limiting assembly is mounted in the spray box (5), the limiting assembly comprises a plurality of limiting plates (53), limiting perforations (530) which are equal in number and are arranged at equal intervals are formed in each limiting plate (53), and the distance between two adjacent limiting perforations (530) on the limiting plate (53) on one side of the extruder (4) is larger as the spacing between two adjacent limiting perforations (530) is larger; the four corners of the bottom of the mounting seat (1) are fixedly connected with a first supporting leg (9), the top of the spraying box (5) is provided with a spraying plate (50), and the four corners of the bottom of the spraying box (5) are provided with a second supporting leg (55).

2. The threading production line with multi-stage limiting assembly of claim 1 wherein: the water storage tank (6) for supplying water to the spraying plate (50) is fixedly connected to the bottom of the mounting seat (1), the water storage tank (6) is connected to the top of the spraying plate (50) through a water supply pipe (51), and a water pump is arranged on the water supply pipe (51).

3. The threading production line with multi-stage limiting assembly of claim 2, wherein: the water supply pipe (51) comprises a hard pipe connected with the water storage tank (6) and a hose connected with the spraying plate (50), and the water pump is arranged on the hard pipe.

4. A strip threading line with multi-stage limiting assembly as set forth in claim 3 wherein: and a feeding guide plate (54) aligned with the extrusion outlet of the extruder (4) is arranged on the outer wall of one side of the spray box (5) close to the extruder (4).

5. The threading production line with multi-stage limiting assembly of claim 4 wherein: the outer wall of one side of the spray box (5) far away from the extruder (4) is provided with a discharging guide plate (52) aligned with a limiting plate (53) with the minimum spacing between limiting perforations (530).

6. The threading production line with multi-stage limiting assembly of claim 5 wherein: the water tank (7) of dispelling heat is installed to mount pad (1) bottom one side that is located water storage tank (6), and fixed plate (70) at heat dissipation water tank (7) top are fixed in mount pad (1) bottom through the bolt, and heat dissipation water tank (7) are through downcomer (71) and spray tank (5) inside intercommunication of locating its top, heat dissipation water tank (7) and water storage tank (6) intercommunication.

7. The threading production line with multi-stage limiting assembly of claim 6 wherein: and a radiating component (8) is arranged on one side of the radiating water tank (7).