CN214992039U - Nanofiber production equipment and rack platform - Google Patents

Abstract

The utility model relates to a nanometer fiber production device and a frame platform, which comprises two transmission roller brackets and a frame platform, wherein the two transmission roller brackets are respectively positioned at two ends of the frame platform and used for supporting and transmitting a transmission roller of a base material; the rack platform comprises a plurality of frame units which are connected left and right, and each frame unit comprises a connecting frame, a middle frame and a bottom plate frame; each connecting frame is connected in parallel left and right, a bottom plate frame body is arranged above each middle frame body, and the middle frame bodies and the bottom plate frame bodies are connected through a lifting mechanism for adjusting the height of the bottom plate frame bodies; an electrostatic spinning machine is slidably arranged above the bottom plate frame body. The rack platforms are connected through mutually independent frame units, so that the rack platforms are convenient to disassemble and assemble and have strong adaptability; in addition, the bottom plate frame bodies on different frame body units are respectively adjusted through the lifting mechanisms, so that the distance between each electrostatic spinning machine and the base material is independently adjusted to adapt to the differentiation of different base materials, the spinning uniformity is improved, and the performance of each layer of film structure is controlled.

Description

Nanofiber production equipment and rack platform

Technical Field

The utility model belongs to the technical field of a fibre production facility and specifically relates to a nanofiber production facility and rack platform are related to.

Background

Electrospinning is a special fiber manufacturing process, where polymer solutions or melts are jet spun in a strong electric field. Under the action of the electric field, the liquid drop at the needle head changes from a spherical shape to a conical shape (i.e. a Taylor cone) and extends from the tip of the cone to obtain a fiber filament.

The main frame/frame platform of the fiber production machine is a basic hardware support for fixing all functional components and realizing the matching relationship of all the functional components. The characteristics and functions of the frame platform have different designs for different installation environments or different types of fiber material production process requirements. However, the existing frame platform for fiber production has the following problems:

firstly, the rack platform is mostly an integrated framework, and has the disadvantages of large single-piece size, inconvenient transportation, difficult upstairs going, and high requirement on the operation conditions (factory area, space, presence or absence of hoisting equipment) of an installation site;

secondly, the rack platform with the integrated structure has high requirement on the bearing of the floor slab due to large self weight, and most of the rack platforms can only be limited to be installed at one floor and are difficult to be installed in buildings/occasions above the one floor;

thirdly, the frame body (frame platform) of the existing non-woven fiber production line has a complex structure and more columns and beams, which causes inconvenience for manual cleaning, maintenance and overhaul of equipment in the equipment at the later stage, for example, the production quality is affected by the fact that the cleaning dead angle is too much, and the production efficiency is reduced by the fact that the overhaul and maintenance operation time is long;

fourth, the frame platform that current fibre production was used is mostly the height of whole regulation bottom plate, can't carry out the altitude mixture control of each bottom plate differentiation according to the requirement of production technology.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a nanofiber production facility and rack platform to solve the difficult adjustment of the rack platform of integrated configuration among the existing equipment, awkward problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a nanofiber production device and a rack platform comprise a transmission roller bracket and a rack platform;

the two driving roller supports are respectively positioned at two ends of the rack platform, and a feeding roller and a discharging roller for supporting and conveying a base material are respectively arranged on the two driving roller supports;

the rack platform comprises a plurality of frame units which are connected side by side from left to right, and each frame unit comprises a connecting frame, a middle frame and a bottom plate frame; each middle frame body is correspondingly arranged above each connecting frame body; the middle frame bodies are connected with the bottom plate frame bodies through lifting mechanisms for adjusting the heights of the bottom plate frame bodies; and an electrostatic spinning machine is slidably arranged above the bottom plate frame body.

Further, the substrate passes over the gantry platform.

Furthermore, every two adjacent left and right connecting frame bodies are detachably connected.

Furthermore, four corners of each bottom plate frame body are provided with lifting mechanisms, and each lifting mechanism is a screw lifting mechanism.

Furthermore, the connecting frame body and the middle frame body, and the middle frame body and the bottom plate frame body in each frame body unit can be detachably connected.

An electrostatic spinning rack platform comprises a plurality of frame units which are connected side by side from left to right, wherein each frame unit comprises a connecting frame, a middle frame and a bottom plate frame; each middle frame body is correspondingly arranged above each connecting frame body; the middle frame bodies are connected with the bottom plate frame bodies through lifting mechanisms for adjusting the heights of the bottom plate frame bodies.

Furthermore, every two adjacent left and right connecting frame bodies are detachably connected.

Furthermore, four corners of each bottom plate frame body are provided with lifting mechanisms, and each lifting mechanism is a screw lifting mechanism.

Furthermore, the connecting frame body and the middle frame body, and the middle frame body and the bottom plate frame body in each frame body unit can be detachably connected.

The utility model has the advantages that: the utility model relates to a including the both ends driving roller support that is located frame platform, all be provided with the driving roller that is used for supporting the conveying substrate on each driving roller support to and by the frame platform of connecting about a plurality of frame unit, dismouting, strong adaptability of being convenient for. Each frame unit comprises a connecting frame, a middle frame and a bottom plate frame; a bottom plate frame body is arranged above each middle frame body, and the middle frame bodies are connected with the bottom plate frame bodies through lifting mechanisms for adjusting the heights of the bottom plate frame bodies; an electrostatic spinning machine is slidably arranged above the bottom plate frame body. The bottom plate frame bodies on different frame body units are respectively adjusted through the lifting mechanisms, so that the distance between each electrostatic spinning machine and the base material is independently adjusted, the differentiation of different base materials is adapted, the spinning uniformity is improved, and the performance of each layer of film structure is controlled.

Drawings

Fig. 1 is a schematic perspective view of the frame structure of the present invention;

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

fig. 3 is a schematic view of the frame structure of the present invention.

Names corresponding to the marks in the figure: 1. driving roller support, 11, feeding driving roller support, 12, ejection of compact driving roller support, 13, feeding driving roller, 14, ejection of compact driving roller, 2, frame platform, 3, frame unit, 31, connection framework, 32, middle framework, 33, bottom plate framework, 34, elevating system, 35, slide rail, 4, substrate, 5, electrostatic spinning machine.

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 all belong to the protection scope of the present invention.

The embodiment of the utility model provides a: as shown in fig. 1 to 3, a nanofiber manufacturing apparatus and a frame platform include a driving roller support 1 and a frame platform 2. The driving roller support 1 comprises a feeding roller support 11 and a discharging roller support 12 which are respectively positioned at the left side and the right side of the rack platform 2, the upper ends of the feeding roller support 11 and the discharging roller support 12 are respectively provided with a feeding roller 13 and a discharging roller 14, and the base material 4 is conveyed from the upper sides of the feeding roller 13 and the discharging roller 14, so that the base material 4 passes through the upper side of the rack platform 2.

The rack platform 2 includes a plurality of frame units 3 connected left and right, and each frame unit 3 has the same structure and includes a connecting frame 31, a middle frame 32, and a bottom frame 33. Each connection frame body 31 sets up side by side, and adjacent two connect frame bodies 31 all transversely can dismantle the connection through the bolt about controlling.

An intermediate frame body 32 is correspondingly arranged above each connecting frame body 31, and the lower end of each intermediate frame body 32 is detachably mounted on the corresponding connecting frame body 31 through bolts.

Four corners department of every middle framework 32 all has a bottom plate framework 33 through elevating system 34 demountable installation, the upside of every base frame 33 all is provided with along its fore-and-aft direction and supplies the gliding slide rail 35 in front and back of electrostatic spinning machine 5, equal slidable mounting has an electrostatic spinning machine 5 on every slide rail 35, every electrostatic spinning machine 5 slides along corresponding slide rail 35 front and back, every electrostatic spinning machine 5's spout makes progress, through the back-and-forth movement of every electrostatic spinning machine 5, to the through substrate 4 of frame platform 2 top spout.

Every middle frame 32 and the elevating system 34 of the bottom plate frame 33 four corners department that corresponds are screw rod elevating system, can adjust every bottom plate frame 33's height through the cooperation of screw rod and nut to adjust the distance between every electrostatic spinning machine 5 and the substrate 4, not only can adapt to the differentiation of substrate 4, can also adjust the structural performance of each rete, improve the spinning degree of consistency.

In actual production, different numbers of frame units 3 are arranged as required, each frame unit 3 is detachably connected, and the connecting frame 31, the middle frame 32 and the bottom plate frame 33 in each frame unit 3 can be detachably mounted, so that the assembly, disassembly and transportation are convenient, the applicability is high, and the operation occasion with smaller space area can be realized. In addition, because the bottom plate frame bodies 33 are mutually independent, different bottom plate frame bodies 33 can be respectively adjusted through the lifting mechanism 34, so that the distance between each electrostatic spinning machine 5 and the base material 4 is independently adjusted to adapt to the differentiation of different base materials 4, the spinning uniformity is improved, and the performance of each layer of film structure is controlled.

Claims (9)

1. A nanofiber manufacturing apparatus, characterized in that: comprises a driving roller bracket and a frame platform;

the two driving roller supports are respectively positioned at two ends of the rack platform, and a feeding roller and a discharging roller for supporting and conveying a base material are respectively arranged on the two driving roller supports;

the rack platform comprises a plurality of frame units which are connected side by side from left to right, and each frame unit comprises a connecting frame, a middle frame and a bottom plate frame; each middle frame body is correspondingly arranged above each connecting frame body; the middle frame bodies are connected with the bottom plate frame bodies through lifting mechanisms for adjusting the heights of the bottom plate frame bodies; and an electrostatic spinning machine is slidably arranged above the bottom plate frame body.

2. A nanofiber manufacturing apparatus as claimed in claim 1, wherein: the substrate passes over the gantry platform.

3. A nanofiber manufacturing apparatus as claimed in claim 1, wherein: every two adjacent connection frame bodies are detachably connected.

4. A nanofiber manufacturing apparatus as claimed in claim 1, wherein: and four corners of each bottom plate frame body are respectively provided with a lifting mechanism, and each lifting mechanism is a screw lifting mechanism.

5. A nanofiber manufacturing apparatus as claimed in claim 1, wherein: the connecting frame body and the middle frame body in each frame body unit, and the middle frame body and the bottom plate frame body can be detachably connected.

6. A rack platform, comprising: the frame body unit comprises a plurality of frame body units which are connected side by side from left to right, and each frame body unit comprises a connecting frame body, a middle frame body and a bottom plate frame body; each middle frame body is correspondingly arranged above each connecting frame body; the middle frame bodies are connected with the bottom plate frame bodies through lifting mechanisms for adjusting the heights of the bottom plate frame bodies.

7. A gantry platform according to claim 6, wherein: every two adjacent connection frame bodies are detachably connected.

8. A gantry platform according to claim 6, wherein: and four corners of each bottom plate frame body are respectively provided with a lifting mechanism, and each lifting mechanism is a screw lifting mechanism.

9. A gantry platform according to claim 6, wherein: the connecting frame body and the middle frame body in each frame body unit, and the middle frame body and the bottom plate frame body can be detachably connected.

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