Packaging equipment used in the processing and production of triangular belt skeleton fabric
The automated rolling and packaging of triangular belt skeleton fabric by integrating packaging equipment solves the problems of low efficiency and high cost caused by the separation of equipment in the existing technology, and improves production efficiency and packaging quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- DONGTAI DONGQIANG TEXTILE CO LTD
- Filing Date
- 2023-11-09
- Publication Date
- 2026-06-30
AI Technical Summary
In the existing technology, the rolling storage and packaging of triangular belt skeleton fabric needs to be carried out in different equipment and processes, which is easily affected by the external environment. The processing is cumbersome and requires manual operation, resulting in time-consuming, labor-intensive and high processing costs.
An integrated packaging device was designed, comprising components such as an electric fabric rolling shaft, an outer cover, a packaging cover, an electric guide roller, an electrically controlled clamping plate, and an electrically heated plastic plate. It enables automatic completion of rolling storage and packaging within the same device, and utilizes technologies such as an electrically controlled extrusion disc and infrared positioning to improve operational accuracy and efficiency.
It enables automated winding, storage, and packaging of triangular belt skeleton fabric, improving production efficiency, reducing labor costs, minimizing the impact of the external environment, and enhancing packaging effect and winding quality.
Smart Images

Figure CN117682186B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of packaging equipment for the production of V-belt skeleton fabric, and in particular to a packaging equipment applied to the processing and production of V-belt skeleton fabric. Background Technology
[0002] The V-belt skeleton fabric is a material used in the V-belt skeleton. After production and processing, it needs to be rolled up and packaged. Currently, the rolling up and packaging are carried out in different equipment and processes. The rolled up and packaged products need to be transferred to the packaging workshop. During transportation, they are easily affected by the external environment. Moreover, the processing is cumbersome, requires manual operation, is time-consuming and labor-intensive, and has high processing costs. Summary of the Invention
[0003] The technical problem that this invention aims to solve is that current rolling storage and packaging are carried out in different equipment and processes, which are easily affected by the external environment during transportation. Moreover, the processing is cumbersome, requires manual operation, is time-consuming and labor-intensive, and has high processing costs.
[0004] The technical solution adopted by this invention to solve its technical problem is: a packaging equipment for processing and producing triangular belt skeleton fabric, including a main frame and an electric fabric rolling shaft installed on the main frame. An outer cover is fixedly assembled on one side of the main frame around the electric fabric rolling shaft, and a packaging cover is fixedly assembled on the other side of the main frame. Both the outer cover and the packaging cover have lateral feed ports on their outer surfaces for internally installing electric guide rollers. An arc-shaped guide spring is elastically assembled on the inner surface of the outer cover. An electric control clamp is fixedly assembled on the outer surface of the electric fabric rolling shaft. An electric control extrusion plate is installed on the inner surface plane of the outer cover. A flip-type lateral closing plate is installed at the opening positions on both sides of the packaging cover. An electrically heated plastic plate is fixed on the side wall of each flip-type lateral closing plate.
[0005] The outer casing and the inner side of the packaging casing are both fixedly equipped with symmetrically arranged electric cutting machines on both sides of the side feed port.
[0006] The electric guide roller includes an electrically driven guide roller and an elastic support roller that are movably mounted on the inner wall of the side feed inlet.
[0007] The outer side of the electric fabric rolling shaft is provided with a strip-shaped storage groove. The electric control clamp includes a flip clamp that is movably assembled inside the strip-shaped storage groove, an iron spring connecting the strip-shaped storage groove and the flip clamp, and an electromagnet installed between the iron spring.
[0008] The electrically controlled extrusion disc includes a lateral extrusion push rod fixed on the outer plane of the outer casing and an annular push disc installed inside the outer casing.
[0009] The flip-type lateral closing plate includes an arc-shaped flip-press plate movably mounted on both sides of the packaging shell via a lateral bracket on the outer side of the packaging shell, an external control bracket fixed on the outer side of the arc-shaped flip-press plate, and a lateral adjustment support rod movably mounted on the outer arc surface of the packaging shell.
[0010] The outer side of the electric cloth rolling shaft is provided with a circular positioning hole for installing an embedded lens, and the inner side of the outer cover is fixedly equipped with a lateral infrared positioning switch for the embedded lens.
[0011] A side-mounted guide spring is installed on the inner arc-shaped surface of the packaging shell, located on the side of the side feed inlet.
[0012] An electrically heated sealing strip is installed on the side wall of the side-mounted guide spring.
[0013] The beneficial effects of this invention are:
[0014] (1) The packaging equipment of the present invention applied to the processing and production of triangular belt skeleton cloth completes the rolling storage and packaging process in the same equipment, eliminating the need for manual transfer and greatly improving production efficiency;
[0015] (2) The electronically controlled extrusion plate can directly extrude and convey the finished product into the packaging shell, eliminating the need for manual conveying, saving production and processing costs, and without stopping, greatly improving the product's ability to withstand the influence of the external environment.
[0016] (3) The entire fabric rolling and packaging operation is fully automated, resulting in high processing efficiency;
[0017] (4) A flip-type side closing plate with a side-mounted electric heating plastic plate is installed at the opening position on both sides of the packaging shell. By flipping, the roll of cloth can be moved without affecting the movement of the roll during the movement. The packaging effect is improved by squeezing and heat sealing the two sides of the roll.
[0018] (5) The internal infrared positioning is used to limit the rotation angle of the electric fabric rolling shaft, thereby improving the operation accuracy of the electric control clamp and making it easier to fix the fabric.
[0019] (6) The use of the arc-shaped guide spring on the inner side of the outer casing can not only improve the accuracy of the fabric introduction, but also improve the tightness of the fabric winding and improve the winding quality. Attached Figure Description
[0020] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0021] Figure 1 This is a schematic diagram of the structure of the present invention.
[0022] Figure 2This is a schematic diagram of the internal structure of the outer casing in this invention.
[0023] Figure 3 This is a schematic diagram of the internal structure of the packaging shell in this invention.
[0024] Figure 4 This is a structural schematic diagram of the position of the electronically controlled clamp in this invention. Detailed Implementation
[0025] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the invention, and therefore only show the components relevant to the invention.
[0026] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances.
[0027] Figure 1 , Figure 2 , Figure 3 and Figure 4 The packaging equipment shown includes a main frame 1 and an electric fabric rolling shaft 2 mounted on the main frame 1. An outer cover 3 is fixedly assembled on one side of the main frame 1 around the electric fabric rolling shaft 2, and a packaging cover 4 is fixedly assembled on the other side of the main frame 1. Both the outer cover 3 and the packaging cover 4 have lateral feed ports on their outer surfaces where electric guide rollers 5 are installed. An arc-shaped guide spring 6 is elastically assembled on the inner surface of the outer cover 3. An electric control clamp 7 is fixedly assembled on the outer surface of the electric fabric rolling shaft 2. An electric control extrusion plate is installed on the inner surface of the outer cover 3. A flip-type side closing plate 8 is installed at the opening positions on both sides of the packaging cover 4. An electrically heated plastic plate is fixed on the side wall of the flip-type side closing plate 8.
[0028] Both the electric fabric rolling shaft 2 and the electric heating plastic plate are existing technologies. The electric fabric rolling shaft 2 rolls and stores the fabric by rotating, while the electric heating plastic plate heats and seals both sides of the extruded packaging film by applying electricity.
[0029] To facilitate cutting and separation, symmetrically arranged electric cutting machines 10 are fixedly mounted on the inner sides of the outer cover 3 and the packaging cover 4 on both sides of the side feed port.
[0030] The electric cutting machine 10 is existing technology. It achieves the cutting purpose by setting the electric telescopic blades in the upper and lower surfaces of the side feed port in a staggered manner, and then telescopically extending and retracting in the opposite direction. The cutting method is existing technology.
[0031] To facilitate feeding, the electric guide roller 5 includes an electrically driven guide roller 11 and an elastic support roller 111 that are movably mounted on the inner wall of the side feed port.
[0032] The electrically driven guide roller 11 is existing technology. It guides the fabric into the outer cover 3 and then guides the packaging film into the packaging cover 4.
[0033] In order to facilitate the lateral fixation of the fabric introduced into the outer casing 3 and to facilitate the winding and coiling of the electric fabric roller 2, a strip-shaped storage groove 12 is provided on the outer side of the electric fabric roller 2. The electric control clamp 7 includes a flip clamp 71 movably assembled inside the strip-shaped storage groove 12, an iron spring 72 connected between the strip-shaped storage groove 12 and the flip clamp 71, and an electromagnet 73 installed between the iron spring 72.
[0034] The electromagnet 73 is existing technology. It controls the retraction of the iron spring 72 by energizing it, thereby driving the flipping clamp 71 to flip into the strip-shaped storage groove 12.
[0035] To facilitate horizontal extrusion feeding, the electrically controlled extrusion disc includes a lateral extrusion push rod 13 fixed on the outer plane of the outer casing 3 and an annular pusher 14 installed inside the outer casing 3.
[0036] The lateral extrusion push rod 13 is existing technology. It drives the wound fabric to move along the electric guide roller 2 through extension and retraction, and is sent from the outer cover 3 to the inside of the packaging cover 4.
[0037] To facilitate lateral extrusion and thermoplastic sealing, the flip-type lateral closure plate 8 includes an arc-shaped flip-extrusion plate 81 movably mounted on both sides of the packaging shell 4 via a lateral bracket on the outer side of the packaging shell 4, an external control bracket 82 fixed on the outer side of the arc-shaped flip-extrusion plate 81, and a lateral adjustment strut 83 movably mounted on the outer arc-shaped surface of the packaging shell 4.
[0038] The lateral adjustment strut 83 is existing technology. It controls the arc-shaped flipping extrusion plate 81 to flip along the lateral support on the outer side of the packaging cover 4 by telescoping, thereby performing lateral edge sealing operation on the packaged fabric.
[0039] In order to limit the rotation angle of the electric fabric rolling shaft 2, a circular positioning hole is provided on the outer side of the electric fabric rolling shaft 2 for internal installation of an embedded lens 15, and a lateral infrared positioning switch 16 is fixedly mounted on the inner side of the outer cover 3 and is connected to the embedded lens 15.
[0040] The lateral infrared positioning switch 16 is existing technology. It limits the rotation angle of the electric fabric rolling shaft 2 by emitting infrared rays to the electric fabric rolling shaft 2. This allows the arc-shaped guide spring 6 and the electronically controlled clamping plate 7 to correspond during reset, facilitating the introduction of fabric from the lateral feed port onto the upper surface of the arc-shaped guide spring 6, and then from the arc-shaped guide spring 6 into the space between the electronically controlled clamping plate 7 and the strip-shaped storage groove 12.
[0041] To facilitate guidance and extrusion and enhance thermoplastic effect, a side-mounted guide spring 17 is installed on the inner arc-shaped surface of the packaging shell 4, located on the side of the side feed port.
[0042] To facilitate the electric heating edge sealing, an electric heating edge sealing strip 18 is installed on the side wall of the side-mounted guide spring 17.
[0043] The electrically heated sealing strip 18 is existing technology. It generates heat by passing electricity to perform thermoplastic sealing on the packaging film on the side facing the feed inlet.
[0044] Working principle: The fabric is guided into the outer cover 3 through the electric guide roller 5 inside the side feed inlet. It is then guided into the space between the electric control clamp 7 and the strip-shaped storage groove 12 by internally installed arc-shaped guide springs 6 on both the inside of the outer cover 3 and the outer surface of the packaging cover 4. The electric control clamp 7 is activated, fixing the inner end of the fabric to the outside of the electric fabric rolling shaft 2. The electric fabric rolling shaft 2 then begins to rotate and roll the fabric, simultaneously squeezing the arc-shaped guide springs 6. When the arc-shaped guide springs 6 are squeezed to a set position, they press a push switch fixed on the inner side of the outer cover 3. At this point, the electric fabric rolling shaft 2 and the electric guide roller 5 inside the side feed inlet of the outer cover 3 are closed, and the outer cover 3 is positioned on both sides of the side feed inlet. The electric cutting machine 10 starts cutting, and then the electrically controlled extrusion disc moves the fabric horizontally along the electric fabric rolling shaft 2 and squeezes it into the packaging shell 4. Then, the electric guide roller 5 in the side feed port on the outer side of the packaging shell 4 starts, driving the packaging film to be circumferentially conveyed along the gap between the packaging shell 4 and the fabric. After wrapping once, the flip-type side closing plate 8 flips to the openings on both sides of the packaging shell 4. Then, the electrically heated plastic plate on the side wall of the flip-type side closing plate 8 and the electrically heated sealing strip 18 on the side wall of the side guide spring 17 are activated to perform the heat sealing operation. Finally, the electric cutting machine 10 located on both sides of the side feed port of the packaging shell 4 starts cutting, and then the electrically controlled extrusion disc continues to push the material outward, thereby separating the packaged fabric; then it is reset.
[0045] Based on the above-described preferred embodiments of the present invention, and through the foregoing description, those skilled in the art can make various changes and modifications without departing from the inventive concept. The technical scope of this invention is not limited to the contents of the specification, but must be determined according to the scope of the claims.
Claims
1. A packaging device for processing and producing triangular belt skeleton fabric, comprising a main frame (1) and an electric fabric winding shaft (2) mounted on the main frame (1), characterized in that: The main frame (1) has an outer cover (3) fixedly mounted on one side of the electric roll shaft (2) and a packaging cover (4) fixedly mounted on the other side of the main frame (1). Both the outer cover (3) and the packaging cover (4) have lateral feed ports for the electric guide roller (5) installed inside. The inner side of the outer cover (3) is elastically fitted with an arc-shaped guide spring (6). The arc-shaped guide spring (6) is used to maintain the tension of the triangular belt skeleton cloth during the guiding and winding process to avoid the cloth from wrinkling. The outer side of the electric roll shaft (2) is fixedly fitted with an electric control clamp (7). The inner side of the outer cover (3) is fitted with an electric control extrusion plate. The packaging cover (4) has flip-type side closing plates (8) installed at the openings on both sides. The side walls of the flip-type side closing plates (8) are fixed with electric heating plastic plates. The flip-type lateral closing plate (8) includes an arc-shaped flip-press plate (81) movably mounted on both sides of the packaging shell (4) via a lateral bracket on the outer side of the packaging shell (4), an external control bracket (82) fixed on the outer side of the arc-shaped flip-press plate (81), and a lateral adjustment strut (83) movably mounted on the outer arc surface of the packaging shell (4). The electric cloth rolling shaft (2) has a circular positioning hole on its outer side for installing an embedded lens (15), and the outer cover (3) has a lateral infrared positioning switch (16) that cooperates with the embedded lens (15) fixedly mounted on its inner side.
2. The packaging equipment for processing and producing triangular belt skeleton fabric according to claim 1, characterized in that: The inner sides of the outer cover (3) and the packaging cover (4) are fixedly equipped with symmetrically arranged electric cutting machines (10) on both sides of the lateral feed inlet.
3. The packaging equipment for processing and producing triangular belt skeleton fabric according to claim 1, characterized in that: The electric guide roller (5) includes an electrically driven guide roller (11) and an elastic support roller (111) that are movably mounted on the inner wall of the side feed port.
4. The packaging equipment for processing and producing triangular belt skeleton fabric according to claim 1, characterized in that: The electric cloth rolling shaft (2) has a strip-shaped storage groove (12) on its outer side. The electric control clamp (7) includes a flip clamp (71) movably assembled inside the strip-shaped storage groove (12), an iron spring (72) connecting the strip-shaped storage groove (12) and the flip clamp (71), and an electromagnet (73) installed between the iron spring (72).
5. The packaging equipment for processing and producing triangular belt skeleton fabric according to claim 1, characterized in that: The electrically controlled extrusion plate includes a lateral extrusion push rod (13) fixed on the outer plane of the outer casing (3) and an annular push plate (14) installed inside the outer casing.
6. The packaging equipment for processing and producing triangular belt skeleton fabric according to claim 1, characterized in that: A side-mounted guide spring (17) is installed on the inner arc-shaped surface of the packaging shell (4) on the side of the side feed inlet.
7. The packaging equipment for processing and producing triangular belt skeleton fabric according to claim 6, characterized in that: An electrically heated sealing strip (18) is installed on the side wall of the side-mounted guide spring (17).