CN215665352U - Difference fiber mixed material transmission device - Google Patents

Abstract

The utility model discloses a differential fiber mixed material conveying device which comprises a guide component, an upper conveying component and a lower conveying component, wherein the guide component comprises a rectangular guide frame with two end surfaces penetrating through, the lower side inside the guide frame is horizontally provided with the lower conveying component, the upper side inside the guide frame is horizontally provided with the upper conveying component, two sides of the bottom surface of the guide frame are vertically and symmetrically fixed with supporting columns, openings at two ends of the guide frame are horizontally fixed with hoppers, and the hoppers and the lower conveying component are kept on the same horizontal plane. The differential fiber conveying device can quickly convey differential fibers, reduce labor cost, improve conveying efficiency, and meanwhile can compress raw material conveying to ensure conveying effect.

Description

Difference fiber mixed material transmission device

Technical Field

The utility model relates to the technical field of differential fibers, in particular to a differential fiber mixed material conveying device.

Background

The differential fiber usually refers to that physical or chemical modification treatment is carried out on the basis of the original fiber composition, so that the morphological structure and the physical and chemical properties of the fiber are obviously different from those of the conventional chemical fiber, manual carrying is adopted when a plurality of mixed materials are required to be transferred and transported in the existing factory for producing the differential fiber, a lot of accidents can occur in the process, the defective rate of products is high finally, the efficiency is low, a large amount of manpower is wasted, and meanwhile, the raw materials in the lighter conveying of the production differential fiber conveying raw materials are easy to move, so that the conveying effect is poor.

Therefore, a differential fiber mixing and conveying device is needed, differential fibers can be conveyed rapidly, labor cost is reduced, conveying efficiency is improved, raw material conveying can be compressed, and conveying effect is guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a differential fiber mixing and conveying device, and aims to solve the problems that manual carrying is adopted when mixing, transferring and conveying are needed in a factory for producing differential fibers, accidents occur in the process, the defective rate of products is high, the efficiency is low, a large amount of manpower is wasted, and meanwhile, raw materials in lighter conveying of production differential fiber conveying raw materials are easy to move, and the conveying effect is poor.

The utility model is realized by the following steps:

the utility model provides a differentiation fibre compounding transmission device, send the subassembly including leading, go up and send the subassembly down, lead and send the subassembly to include the rectangle that both ends face runs through and lead and send the frame, lead and send the inside downside level of frame to be provided with down and send the subassembly, lead and send the inside upside level of frame to be provided with and send the subassembly, lead and send the equal vertical symmetry in bottom surface both sides of frame to be fixed with the pillar, lead and send the equal horizontally fixed hopper in both ends opening part of frame, the hopper keeps on same horizontal plane with lower transmission subassembly.

Further, go up conveying subassembly and lower conveying subassembly and all include conveyer belt, take-up pulley and motor, go up conveying subassembly and lower conveying subassembly's conveyer belt horizontal symmetry setting, the equal tensioning in conveyer belt both ends of last conveying subassembly and lower conveying subassembly is connected with the take-up pulley, installs the motor in the pivot of going up conveying subassembly and lower conveying subassembly one side take-up pulley.

Furthermore, a rotating shaft of a tension wheel on the lower conveying assembly is rotatably arranged on the side end face of the guide frame through a bearing, and a motor on the lower conveying assembly is fixed on the side end face of the outer side of the guide frame.

Furthermore, the upper portions of the end faces on the two sides of the guide and feed frame vertically penetrate through the inner end face and are provided with sliding grooves, sliding seats are vertically and slidably mounted in the sliding grooves, elastic cloth is vertically bonded on the top faces of the sliding seats, the top ends of the elastic cloth are bonded on the top walls of the sliding grooves, and bearing seats are horizontally fixed on the end faces on the outer sides of the sliding seats.

Furthermore, a screw hole plate is horizontally fixed at the top of one side end face of the guide frame, an adjusting screw rod is installed on the screw hole plate in a penetrating mode through vertical threads, and the bottom end of the adjusting screw rod is installed on the top face of the bearing seat in a rotating mode through a bearing.

Further, a tensioning wheel in the upper conveying assembly is rotatably installed in the sliding seat through a bearing in a rotating mode, and a motor in the upper conveying assembly is fixed to the side end face of the sliding seat.

Compared with the prior art, the utility model has the beneficial effects that: when the differential fiber mixed material conveying device is used for conveying differential fiber raw materials, firstly, the adjusting screw rod on the screw hole plate is adjusted according to the size of the conveyed raw materials, the sliding seat is pushed to vertically slide in the sliding groove of the guide and conveying frame, further, the distance between the upper conveying assembly and the lower conveying assembly is changed, firstly, the differential fiber raw materials to be conveyed are guided and conveyed into the guide and conveying frame of the guide and conveying assembly through the hopper, then, the motors on the upper conveying assembly and the lower conveying assembly in the guide and conveying frame are started to drive the conveying belts to operate, then, the upper conveying assembly and the lower conveying assembly extrude the differential fiber raw materials to move forwards relative to each other and convey the differential fiber raw materials from the other end of the guide and conveying frame, so that the differential fibers can be quickly conveyed, the labor cost is reduced, the conveying efficiency is improved, meanwhile, the raw material conveying can be compressed, the conveying effect is ensured, and the defects that many mixed materials are required to be transferred and transferred in the existing factory for producing the differential fibers are overcome, All adopt artifical transport during the transportation, a lot of accidents will appear in this process, finally lead to the product defective percentage very high, and inefficiency has wasted a large amount of manpowers moreover, produces the easy emergence of material and removes in the transmission of differentiated fibre conveying raw materials lighter of while and then leads to the problem that transmission effect is not good.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

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

FIG. 2 is a schematic view of an exploded structure of the present invention;

FIG. 3 is a schematic structural diagram of a routing assembly in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an upper conveying assembly in the embodiment of the present invention.

In the figure: 1. a guide assembly; 11. a guide frame; 12. a chute; 13. a slide base; 131. a bearing seat; 14. elastic cloth; 15. a screw hole plate; 151. adjusting the screw rod; 16. a hopper; 17. a pillar; 2. an upper transfer assembly; 3. a lower transfer assembly; 4. a conveyor belt; 5. a tension wheel; 6. an electric motor.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, 2, 3 and 4, a differential fiber mixing and conveying device includes a guiding and conveying assembly 1, an upper conveying assembly 2 and a lower conveying assembly 3, wherein the guiding and conveying assembly 1 includes a rectangular guiding and conveying frame 11 having two end surfaces penetrating therethrough, the lower side of the inside of the guiding and conveying frame 11 is horizontally provided with the lower conveying assembly 3, the upper side of the inside of the guiding and conveying frame 11 is horizontally provided with the upper conveying assembly 2, two sides of the bottom surface of the guiding and conveying frame 11 are vertically and symmetrically fixed with supporting columns 17, openings at two ends of the guiding and conveying frame 11 are horizontally fixed with hoppers 16, and the hoppers 16 and the lower conveying assembly 3 are kept on the same horizontal plane.

When the differentiated fiber material mixture conveying device is used for conveying differentiated fiber materials, firstly, the adjusting screw 151 on the screw hole plate 15 is adjusted according to the size of the conveyed materials, the sliding seat 13 is pushed to vertically slide in the sliding groove 12 of the guide and conveying frame 11, further changing the distance between the upper conveying assembly 2 and the lower conveying assembly 3, firstly guiding the differential fiber raw material to be conveyed to the guide frame 11 of the guide assembly 1 through the hopper 16, then the motors on the upper conveying component 2 and the lower conveying component 3 in the guide frame 11 are started to drive the conveying belt 4 to operate, then the upper conveying component 2 and the lower conveying component 3 relatively extrude the differential fiber raw materials to move forwards and guide out from the other end of the guide frame 11, thereby can carry differential fibre fast, reduce the human cost, improve the efficiency of carrying, can compress tightly the raw materials conveying simultaneously, guarantee the transmission effect.

Referring to fig. 1, each of the upper conveying assembly 2 and the lower conveying assembly 3 includes a conveying belt 4, a tensioning wheel 5 and a motor 6, the conveying belts 4 of the upper conveying assembly 2 and the lower conveying assembly 3 are horizontally and symmetrically arranged, the tensioning wheels 5 are connected to two ends of the conveying belts 4 of the upper conveying assembly 2 and the lower conveying assembly 3 in a tensioning manner, and the motors 6 are installed on rotating shafts of the tensioning wheels 5 on one sides of the upper conveying assembly 2 and the lower conveying assembly 3.

And then 4 horizontal symmetry settings of conveyer belt through last conveying subassembly 2 and lower conveying subassembly 3, the equal tensioning in 4 both ends of conveyer belt of last conveying subassembly 2 and lower conveying subassembly 3 is connected with take-up pulley 5, installs motor 6 in the pivot of last conveying subassembly 2 and 3 one side take-up pulley 5 of lower conveying subassembly, drives one side take-up pulley 5 through motor 6 and operates, then 4 functions of tensioning area leading conveyer belt, drive the material and move ahead.

Referring to fig. 1, the rotating shaft of the tension wheel 5 on the lower conveying assembly 3 is rotatably mounted on the side end surface of the guiding and conveying frame 11 through a bearing, and the motor 6 on the lower conveying assembly 3 is fixed on the outer side end surface of the guiding and conveying frame 11.

And then the rotating shaft of the tension wheel 5 on the lower conveying assembly 3 is rotatably arranged on the side end surface of the guiding and conveying frame 11 through a bearing, the motor 6 on the lower conveying assembly 3 is fixed on the outer side end surface of the guiding and conveying frame 11, the motor 6 drives the tension wheel 5 on one side to operate, and then the tension belt leads the conveying belt 4 to operate to drive the materials to move forwards.

Referring to fig. 1, the upper portions of the end surfaces of both sides of the guiding and conveying frame 11 vertically penetrate through the inner end surface to form a sliding chute 12, a sliding base 13 is vertically and slidably mounted in the sliding chute 12, an elastic cloth 14 is vertically bonded on the top surface of the sliding base 13, the top end of the elastic cloth 14 is bonded on the top wall of the sliding chute 12, and a bearing seat 131 is horizontally fixed on the end surface of the outer side of the sliding base 13.

And then have seted up spout 12 through the equal vertical interior terminal surface that runs through in upper portion of guide frame 11 both sides terminal surface, vertical slidable mounting has slide 13 in the spout 12, and the vertical elastic cloth 14 that bonds on the top surface of slide 13, the top of elastic cloth 14 bond on the roof of spout 12, avoids the material whereabouts, and the level is fixed with bearing frame 131 on the outside terminal surface of slide 13, and the vertical slip of slide 13 that promotes of being convenient for.

Referring to fig. 1, a screw hole plate 15 is horizontally fixed on the top of one side end surface of the guide frame 11, an adjusting screw 151 is installed on the screw hole plate 15 in a penetrating manner through a vertical thread, and the bottom end of the adjusting screw 151 is rotatably installed on the top surface of the bearing block 131 through a bearing.

And then the top level through the side end face of the guide frame 11 is fixed with the screw hole board 15, and the vertical screw thread runs through on the screw hole board 15 and installs adjusting screw 151, and the bottom of adjusting screw 151 passes through the bearing and rotates and install on the top surface of bearing frame 131 to according to the size of conveying the raw materials, adjusting screw 151 on the screw hole board 15 promotes the slide 13 and vertically slides in the spout 12 of guide frame 11, and then changes the interval of last conveying subassembly 2 and lower conveying subassembly 3.

Referring to fig. 1, the upper conveying assembly 2 has a tension wheel 5 rotatably mounted in a slide 13 through a bearing, and a motor 6 in the upper conveying assembly 2 is fixed on a side end surface of the slide 13.

And the tensioning wheel 5 in the upper conveying assembly 2 rotates and is rotatably arranged in the sliding seat 13 through a bearing, and the motor 6 in the upper conveying assembly 2 is fixed on the side end surface of the sliding seat 13, so that the belt 4 of the upper conveying assembly 2 is driven to operate conveniently, and differential fibers are compacted.

The working principle is as follows: when the differential fiber material mixing and conveying device is used for conveying differential fiber materials, firstly, according to the size of the conveyed materials, the adjusting screw 151 on the screw hole plate 15 is adjusted, the sliding seat 13 is pushed to vertically slide in the sliding groove 12 of the guide and conveying frame 11, and then the distance between the upper conveying assembly 2 and the lower conveying assembly 3 is changed, firstly, the differential fiber materials to be conveyed are guided to the guide and conveying frame 11 of the guide and conveying assembly 1 through the hopper 16, then the motors on the upper conveying assembly 2 and the lower conveying assembly 3 in the guide and conveying frame 11 are started, the conveying belt 4 is driven to operate, then the upper conveying assembly 2 and the lower conveying assembly 3 extrude the differential fiber materials to move forwards relatively, and the differential fiber materials are conveyed out from the other end of the guide and conveying frame 11.

The device that obtains through above-mentioned design has satisfied one kind basically and can carry differential fibre fast, reduces the human cost, improves the efficiency of carrying, can compress tightly the raw materials conveying simultaneously, guarantees the use of the differential fibre compounding transmission device of transmission effect, but at the aim of further perfecting its function, the designer has carried out further improvement to the device.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a differentiation fibre compounding transmission device which characterized in that: including leading and delivering subassembly (1), go up conveying subassembly (2) and lower conveying subassembly (3), lead and deliver subassembly (1) including the rectangle that both ends face runs through and lead and deliver frame (11), the inside downside level of leading and delivering frame (11) is provided with down conveying subassembly (3), the inside upside level of leading and delivering frame (11) is provided with conveying subassembly (2), the equal vertical symmetry in bottom surface both sides of leading and delivering frame (11) is fixed with pillar (17), the equal horizontally fixed hopper (16) of both ends opening part of leading and delivering frame (11), hopper (16) keep on same horizontal plane with lower conveying subassembly (3).

2. The differential fiber mixture conveying device according to claim 1, wherein the upper conveying assembly (2) and the lower conveying assembly (3) comprise a conveying belt (4), a tension wheel (5) and a motor (6), the conveying belts (4) of the upper conveying assembly (2) and the lower conveying assembly (3) are horizontally and symmetrically arranged, the tension wheel (5) is connected to two ends of each of the conveying belts (4) of the upper conveying assembly (2) and the lower conveying assembly (3) in a tension mode, and the motor (6) is installed on a rotating shaft of the tension wheel (5) on one side of the upper conveying assembly (2) and one side of the lower conveying assembly (3).

3. The differential fiber mixture conveying device according to claim 2, wherein a rotating shaft of the tension wheel (5) on the lower conveying assembly (3) is rotatably mounted on a side end face of the guide frame (11) through a bearing, and the motor (6) on the lower conveying assembly (3) is fixed on the side end face of the guide frame (11).

4. The differential fiber mixing and conveying device as claimed in claim 1, wherein the upper portions of the two side end surfaces of the guide frame (11) vertically penetrate through the inner end surface to form a sliding groove (12), a sliding base (13) is vertically and slidably mounted in the sliding groove (12), an elastic cloth (14) is vertically bonded on the top surface of the sliding base (13), the top end of the elastic cloth (14) is bonded on the top wall of the sliding groove (12), and a bearing seat (131) is horizontally fixed on the outer end surface of the sliding base (13).

5. The differential fiber mixing and conveying device according to claim 4, wherein a screw hole plate (15) is horizontally fixed to the top of one side end face of the guide frame (11), an adjusting screw (151) is installed on the screw hole plate (15) in a penetrating mode through vertical threads, and the bottom end of the adjusting screw (151) is rotatably installed on the top face of the bearing seat (131) through a bearing.

6. A differentiated fibre blend transfer device according to claim 2, characterised in that the tension wheel (5) in the upper transfer assembly (2) is rotatably mounted in a slide (13) by bearings and that the motor (6) in the upper transfer assembly (2) is fixed to the side end surface of the slide (13).

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