CN220846794U - A cutting machine for high temperature cloth production - Google Patents

Abstract

The utility model relates to the technical field of high-temperature cloth production, and discloses a cutting machine for high-temperature cloth production, comprising a cutting machine body and a fixing frame fixed on one side of the top thereof in a U-shape, and also comprising: a hydraulic rod fixed inside the fixing frame, the output shaft of the hydraulic rod is fixed with a moving plate, and an electric slider is installed in the middle of the bottom of the moving plate; the utility model can flatten the cloth before cutting through the cooperation of a flattening mechanism and a positioning shell, so as to avoid wrinkles and make the incision flat, which is not only convenient for the subsequent use of the cloth, but also more accurate in the cutting length of the cloth; at the same time, under the cooperation of a fan and a collecting mechanism, dust and foreign matter can be effectively collected to avoid them from being randomly scattered in the air, reducing the impact on the surrounding environment, and solving the problem that the incision of the current device is not flat enough and it is inconvenient to collect cutting debris when in use.

Description

A cutting machine for high temperature cloth production

Technical Field

The utility model relates to the technical field of high temperature cloth production, in particular to a cutting machine for high temperature cloth production.

Background technique

High temperature cloth is a new high-performance, multi-purpose composite material product made of suspended polytetrafluoroethylene (commonly known as the king of plastics) emulsion as raw material and impregnated with high-performance glass fiber cloth.

After searching, it is found that a Chinese patent document discloses an equidistant cutting device for curtain fabric production [application number: CN202221954585.7]. This equidistant cutting device for curtain fabric production includes a feed roller frame fixedly connected to the rear end of the cutting machine body, and the fabric collecting groove is opened on the upper surface of the cutting machine body; it also includes: a feed plate, which is fixedly connected to the connection between the feed roller frame and the cutting machine body, and a cloth guide frame is arranged above the feed plate; a cutting main frame, which is installed across the front end edge of the upper surface of the cloth guide frame, and a cutting machine is slidably connected to the front side of the cutting main frame, and a cutting blade is installed at the bottom end of the cutting machine.

The device disclosed in the patent can cut and smooth the cloth during use, but the cloth cannot be tightened during the cutting process, resulting in wrinkles on the cloth during the cutting process, which makes the cut uneven, which not only affects the subsequent use of the cloth, but also the uneven cutting affects the accuracy of the cloth length. At the same time, during the cutting process, the cloth will produce cutting debris in the air. After long-term use, it will not only affect the surrounding environment, but also affect the health of the staff.

Utility Model Content

The purpose of the utility model is to provide a cutting machine for producing high temperature cloth to solve the problems raised in the above background technology.

To achieve the above-mentioned purpose, the utility model provides the following technical solutions: A cutting machine for high temperature cloth production, comprising a cutting machine body and a U-shaped fixing frame fixed to one side of the top thereof, and also comprising:

A hydraulic rod fixed inside the fixed frame, the output shaft of the hydraulic rod is fixed with a moving plate, an electric slider is installed in the middle of the bottom of the moving plate, and a cutting mechanism capable of cutting cloth is fixed at the bottom of the electric slider;

Mechanisms for squeezing and flattening the cloth are arranged on both sides of the bottom of the movable plate, a positioning shell is fixed to one side of the top of the cutter body, a collecting groove connected to the inner cavity of the positioning shell is opened on one side of the top of the cutter body, a collecting mechanism for effectively collecting dust and cutting debris is arranged above the inner cavity of the collecting groove, and a fan for improving the dust and debris collection effect is arranged below the inner cavity of the collecting groove.

Preferably, the flattening mechanism comprises a plurality of extrusion assemblies fixed to the bottom of the movable plate, and an unfolding plate hinged to the bottom thereof.

Preferably, the collecting mechanism includes a positioning frame slidably connected to the inner wall of the collecting trough and positioning slots opened on both sides of its top, and also includes a filter plate arranged in the inner cavity of the positioning frame that can effectively block dust and debris in the air and fixed on both sides of the positioning plate for use in conjunction with the positioning slots.

Preferably, the inner cavity of the positioning shell corresponds to the position of the cutting mechanism, and the positioning shell is used in conjunction with the cutting mechanism.

Preferably, both sides of the top of the positioning shell are designed as inclined structures, and the expansion plate is used in conjunction with the positioning shell.

Preferably, an air outlet is provided at the bottom of one side of the inner cavity of the collecting tank.

Compared with the prior art, the beneficial effects of the utility model are as follows:

The utility model can flatten the cloth before cutting through the cooperation of the flattening mechanism and the positioning shell, so as to avoid wrinkles and make the incision smooth, which is not only convenient for the subsequent use of the cloth, but also more accurate in cutting length. At the same time, with the cooperation of the fan and the collecting mechanism, dust and foreign matter can be effectively collected to avoid them from being randomly dispersed in the air, reducing the impact on the surrounding environment, and solving the problem that the incision of the current device is not smooth enough and it is inconvenient to collect cutting debris when in use.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of a three-dimensional structure of the present invention;

FIG2 is a schematic diagram of a partial three-dimensional unfolded structure from another viewing angle of the present invention;

FIG3 is a schematic diagram of a partial three-dimensional cross-sectional structure of the present invention;

FIG4 is a schematic diagram of a partial three-dimensional cross-sectional expansion structure of the present invention;

FIG. 5 is a schematic diagram of a partial three-dimensional cross-sectional structure of the flattening mechanism in the present invention.

In the figure: 1. cutting machine body; 2. fixing frame; 3. hydraulic rod; 4. moving plate; 5. electric slide block; 6. cutting mechanism; 7. flattening mechanism; 71. extrusion assembly; 72. flattening plate; 8. positioning shell; 9. collecting tank; 10. collecting mechanism; 101. positioning frame; 102. positioning tank; 103. filter plate; 104. positioning plate; 11. fan; 12. air outlet.

Detailed ways

The following will be combined with the drawings in the embodiments of the utility model to clearly and completely describe the technical solutions in the embodiments of the utility model. Obviously, the described embodiments are only part of the embodiments of the utility model, not all of the embodiments. Based on the embodiments in the utility model, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the utility model.

Please refer to Figures 1-5, a cutting machine for high-temperature cloth production includes a cutting machine body 1, a fixing frame 2 is fixed on one side of the top of the cutting machine body 1, the fixing frame 2 is U-shaped, a hydraulic rod 3 is fixed inside the fixing frame 2, the hydraulic rod 3 can drive other parts to move, a moving plate 4 is fixed to the output shaft of the hydraulic rod 3, an electric slider 5 is installed in the middle of the bottom of the moving plate 4, the electric slider 5 can drive other parts to move, a cutting mechanism 6 is fixed to the bottom of the electric slider 5, the cutting mechanism 6 can cut the cloth, so that with the cooperation of the electric slider 5, the entire cloth can be cut, flattening mechanisms 7 are provided on both sides of the bottom of the moving plate 4, the flattening mechanism 7 can squeeze the cloth so that it can be taut when being cut, thereby increasing the flatness of the blade after cutting, and a positioning shell 8 is fixed to one side of the top of the cutting machine body 1 The inner cavity of the positioning shell 8 corresponds to the position of the cutting mechanism 6. The positioning shell 8 is used in conjunction with the cutting mechanism 6, so that the cutting mechanism 6 can enter the interior of the positioning shell 8, which is convenient for cutting the cloth. Both sides of the top of the positioning shell 8 are inclined structural designs, which can further increase the flattening effect of the cloth with the cooperation of the flattening mechanism 7. A collecting groove 9 is provided on one side of the top of the cutting machine body 1. The collecting groove 9 is connected to the inner cavity of the positioning shell 8. A collecting mechanism 10 is provided above the inner cavity of the collecting groove 9. The collecting mechanism 10 can effectively collect dust and cutting debris to prevent them from scattering everywhere. A fan 11 is provided below the inner cavity of the collecting groove 9. The fan 11 can improve the collection effect of dust and debris. An air outlet 12 is provided below one side of the inner cavity of the collecting groove 9. The air outlet 12 can facilitate air discharge to facilitate the collection of debris.

The flattening mechanism 7 includes a squeezing assembly 71, and the number of the squeezing assemblies 71 is several and evenly distributed on both sides of the bottom of the movable plate 4. The squeezing assembly 71 is composed of a telescopic rod and a spring installed inside it, so that when it is squeezed, its height can change, and when it is not squeezed, it can return to its initial length. The bottom of the squeezing assembly 71 is hinged with an expansion plate 72, and the expansion plate 72 is used in conjunction with the positioning shell 8 to effectively increase the flattening effect of the cloth.

The collecting mechanism 10 includes a positioning frame 101, the surface of which is slidably connected to the inner wall of the collecting tank 9, positioning grooves 102 are provided on both sides of the top of the positioning frame 101, and a filter plate 103 is provided in the inner cavity of the positioning frame 101. The filter plate 103 can effectively block dust and debris in the air, and positioning plates 104 are fixed on both sides of the filter plate 103. The positioning plate 104 is used in conjunction with the positioning groove 102 to fix the filter plate 103, making it convenient for the staff to replace it.

It is worth noting that the technical features such as the cutting machine body 1, the electric slider 5 and the cutting mechanism 6 proposed in this technical solution should be regarded as the prior art. The specific structure, working principle and possible control method and spatial layout method of these technical features can be selected according to the conventional methods in the field, and this technical solution will not be further elaborated.

Working principle: first, when cutting the cloth, turn on the hydraulic rod 3, and then drive the movable plate 4 to move downward under the action of the hydraulic rod 3, and at the same time turn on the cutting mechanism 6 to cut the cloth, and drive the spreading plate 72 to move through the extrusion assembly 71 under the action of the movable plate 4, and with the cooperation of the positioning shell 8, flatten the cloth, and then the length of the extrusion assembly 71 changes under the action of pressure, which does not affect the movement of the cutting mechanism 6. After the cutting mechanism 6 moves to the appropriate position, turn on the electric slider 5 to drive the cutting mechanism 6 to cut the cloth. During the cutting process, turn on the fan 11, and under the action of the fan 11, the cutting debris and dust are sucked into the collection tank 9, and then blocked by the filter plate 103 to collect the dust and debris. When the dust and debris need to be cleaned, the staff will take out the positioning frame 101, and then replace or clean the filter plate 103.

It should be noted that, in this article, relational terms such as first and second, etc. are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Moreover, the terms "include", "comprise" or any other variants thereof are intended to cover non-exclusive inclusion, so that a process, method, article or device including a series of elements includes not only those elements, but also other elements not explicitly listed, or also includes elements inherent to such process, method, article or device. In the absence of further restrictions, the elements defined by the sentence "comprise a ..." do not exclude the presence of other identical elements in the process, method, article or device including the elements.

Although the embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and variations may be made to the embodiments without departing from the principles and spirit of the present invention, and that the scope of the present invention is defined by the appended claims and their equivalents.

Claims (6)

1. A cutting machine for high temperature cloth production, comprising a cutting machine body (1) and a U-shaped fixing frame (2) fixed to one side of the top of the cutting machine body, characterized in that it also comprises: A hydraulic rod (3) is fixed inside the fixed frame (2), a movable plate (4) is fixed to the output shaft of the hydraulic rod (3), an electric slider (5) is installed in the middle of the bottom of the movable plate (4), and a cutting mechanism (6) capable of cutting cloth is fixed to the bottom of the electric slider (5); Mechanisms (7) capable of squeezing and flattening fabric are arranged on both sides of the bottom of the movable plate (4); a positioning shell (8) is fixed to one side of the top of the cutting machine body (1); a collecting groove (9) communicating with the inner cavity of the positioning shell (8) is opened on one side of the top of the cutting machine body (1); a collecting mechanism (10) capable of effectively collecting dust and cutting debris is arranged above the inner cavity of the collecting groove (9); and a fan (11) capable of improving the dust and debris collection effect is arranged below the inner cavity of the collecting groove (9). 2. A cutting machine for high-temperature cloth production according to claim 1, characterized in that the flattening mechanism (7) includes a plurality of extrusion assemblies (71) fixed to the bottom of the movable plate (4), and a flattening plate (72) hinged to the bottom thereof. 3. A cutting machine for high-temperature cloth production according to claim 1, characterized in that: the collecting mechanism (10) includes a positioning frame (101) slidably connected to the inner wall of the collecting tank (9) and positioning slots (102) opened on both sides of the top thereof, and also includes a filter plate (103) arranged in the inner cavity of the positioning frame (101) that can effectively block dust and debris in the air, and a positioning plate (104) fixed on both sides thereof and used in conjunction with the positioning slots (102). 4. A cutting machine for high temperature cloth production according to claim 1, characterized in that: the inner cavity of the positioning shell (8) corresponds to the position of the cutting mechanism (6), and the positioning shell (8) and the cutting mechanism (6) are used in conjunction with each other. 5. A cutting machine for high temperature cloth production according to claim 2, characterized in that both sides of the top of the positioning shell (8) are designed as inclined structures, and the expansion plate (72) is used in conjunction with the positioning shell (8). 6. A cutting machine for high temperature cloth production according to claim 1, characterized in that an air outlet (12) is provided below one side of the inner cavity of the collecting tank (9).