A multi-beam water-jet loom
By using a combination of a squeeze roller and a scraper in a multi-beam water jet loom, along with water suction holes and an extraction component, the problem of residual moisture on the fabric is solved, resulting in a more efficient fabric drying effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU JINBULANG TEXTILE CO LTD
- Filing Date
- 2025-08-12
- Publication Date
- 2026-07-10
AI Technical Summary
In existing multi-beam water jet looms, moisture remains on the fabric during the water-scraping process, resulting in dampness and affecting the fabric's drying efficiency and quality.
The device uses a combination of a squeezing roller and a scraper. The squeezing roller has water suction holes and a connecting chamber. Combined with an extraction component and a vacuum pump, it absorbs moisture from the fabric through the water suction holes and directs the moisture into the water collection frame through the extraction pipe and the drain pipe.
It effectively removes moisture from the fabric, improving the drying efficiency and quality of the fabric and reducing drying time.
Smart Images

Figure CN224478205U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of water jet looms, and in particular to a multi-beam water jet loom. Background Technology
[0002] For example, patent publication number CN222455403U discloses a multi-axis water jet loom, including a multi-axis water jet loom. The lower surface of the multi-axis water jet loom is provided with a water collection frame. A water drop plate is fixedly connected to the discharge port on one side of the multi-axis water jet loom. The water drop plate is V-shaped and has a water drop trough in the middle of its lower surface. A connecting roller is provided on the water drop plate. In the above application, the drive motor will drive the squeegee roller to rotate. The squeegee roller can expand or shrink the space for conveying the fabric by rotating, thereby adapting to the squeegee requirements of fabrics of different thicknesses, thereby reducing the final winding moisture of the fabric, which helps to reduce the final drying time of the fabric.
[0003] It uses a squeegee roller to squeeze the fabric, thereby scraping away the water in the fabric and allowing the water to flow down from the bottom of the fabric. However, when squeezing and dehydrating the fabric, the water will also be squeezed out and accumulate on the top of the fabric, which will also cause the fabric to be damp and thus have certain defects. Utility Model Content
[0004] The purpose of this invention is to provide a multi-beam water jet loom to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a multi-beam water jet loom, comprising:
[0006] Water collection frame;
[0007] The main body of the multi-axis water jet loom is installed on top of the water collection frame;
[0008] A take-up roller, which is mounted on top of the water collection frame, is used to take up the fabric produced by the main body of the multi-axis water jet loom.
[0009] A support trough, which is installed on the top of the water collection frame;
[0010] An extrusion roller, which is rotatably mounted on a bearing groove;
[0011] A scraper is fixedly installed inside the bearing groove, and the scraper works in conjunction with the extrusion roller to scrape water off the fabric.
[0012] A water-absorbing component is disposed on a support groove and is used to absorb moisture from the fabric through a squeeze roller.
[0013] Preferably, the water-absorbing component includes:
[0014] Water suction holes are formed on the outer wall of the extrusion roller;
[0015] A connecting chamber is provided at one end of the extrusion roller, and the inner cavity of the connecting chamber is in communication with the inner cavity of the water suction hole.
[0016] An extraction component is disposed on one side of a support groove and is connected to the inner cavity of a connecting chamber.
[0017] Preferably, the extraction component includes:
[0018] Mounting base, the mounting base is fixedly installed on the side of the top of the bearing groove;
[0019] The mounting sleeve is rotatably mounted between the mounting base and the bearing groove. The end of the extrusion roller is provided with a connecting groove that matches the mounting sleeve. The inner cavity of the connecting chamber is interconnected with the inner cavity of one of the connecting grooves.
[0020] Preferably, the extraction component further includes:
[0021] A sealing collar is fixedly sleeved on the outside of the mounting sleeve, and a limiting groove corresponding to the sealing collar is provided at the end of the extrusion roller.
[0022] A positioning rod, one end of which is fixedly connected to a sealing collar, and a positioning groove is provided on the inner wall of the limiting groove. The outer wall of the positioning rod is slidably engaged with the inner cavity of the positioning groove.
[0023] Preferably, the extraction component further includes:
[0024] A fixing cap is fixedly installed on one side of the bearing groove and the mounting base;
[0025] A limiting collar is fixedly sleeved on the outside of the mounting sleeve, and the limiting collar is rotatably connected to the inside of the fixing cap;
[0026] A shaft seal, which is fitted between an mounting sleeve and a fixing cap.
[0027] Preferably, the extraction component further includes:
[0028] The mounting housing is fixedly installed on one side of the bearing groove, and a vacuum pump is fixedly installed inside the mounting housing;
[0029] The extraction tube has one end fixedly connected to the fixing cap and the other end connected to the air inlet of the vacuum pump. The inner cavity of the extraction tube is in communication with the inner cavity of the mounting sleeve.
[0030] A drain pipe, one end of which is connected to the outlet of a vacuum pump, and the other end of which is slidably connected to a water collection frame.
[0031] The technical effects and advantages of this utility model are as follows:
[0032] This invention utilizes a combination of a bearing groove, a squeezing roller, a scraper, and a water-absorbing component. The squeezing roller and scraper work together to remove moisture from the fabric. The squeezing roller has multiple water-absorbing holes and connecting chambers, so that under the action of the extraction component, the squeezing roller can absorb moisture from the fabric, thereby reducing the moisture content of the fabric and improving its performance. Attached Figure Description
[0033] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0034] Figure 2 This is a schematic diagram of the internal structure of the bearing groove part of this utility model from the front.
[0035] Figure 3 This is a schematic diagram of the internal structure of the front of the fixed cap of this utility model.
[0036] In the diagram: 1. Water collection frame; 2. Main body of multi-axis water jet loom; 3. Take-up roller; 4. Bearing groove; 5. Squeeze roller; 6. Scraper; 7. Water suction assembly; 71. Water suction hole; 72. Connecting chamber; 73. Extraction assembly; 731. Mounting base; 732. Mounting sleeve; 733. Sealing collar; 734. Positioning rod; 735. Fixing cap; 736. Limiting collar; 737. Shaft seal; 738. Extraction pipe; 739. Mounting housing; 7310. Drain pipe. Detailed Implementation
[0037] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0038] This utility model provides, for example Figure 1-3 The image shows a multi-beam water jet loom.
[0039] Example 1: Includes a water collection frame 1, a multi-axis water jet loom body 2, a take-up roller 3, a support groove 4, a squeeze roller 5, a scraper 6, and a water absorption assembly 7. The multi-axis water jet loom body 2 is mounted on top of the water collection frame 1. The take-up roller 3 is mounted on top of the water collection frame 1 and is used to take up the fabric produced by the multi-axis water jet loom body 2. The take-up roller 3 is mounted via a mounting frame and is driven by a motor to take up the fabric; this is prior art and will not be described in detail here. The support groove 4 is mounted on top of the water collection frame 1, and the squeeze roller 5 is rotatably mounted. On the carrying groove 4, the scraper 6 is fixedly installed inside the carrying groove 4. The scraper 6 cooperates with the extrusion roller 5 to scrape water off the fabric. A servo motor that drives the extrusion roller 5 to rotate is installed on the side of the carrying groove 4. As the fabric passes between the extrusion roller 5 and the scraper 6, the fabric can be squeezed and scraped to remove the water. Then, the fabric is discharged into the water collection frame 1 from the carrying groove 4. The water absorption component 7 is set on the carrying groove 4. The water absorption component 7 is used to absorb the water on the fabric through the extrusion roller 5, thereby reducing the moisture content of the fabric.
[0040] Furthermore, the water absorption assembly 7 includes a water absorption hole 71, a connecting chamber 72, and an extraction assembly 73. The water absorption hole 71 is opened on the outer wall of the extrusion roller 5, and the connecting chamber 72 is opened at one end of the extrusion roller 5. The inner cavity of the connecting chamber 72 is connected to the inner cavity of the water absorption hole 71. The extraction assembly 73 is disposed on one side of the bearing groove 4 and is connected to the inner cavity of the connecting chamber 72. That is, when the inside of the connecting chamber 72 is in a negative pressure state, the multiple water absorption holes 71 can have an attraction force, so that the extrusion roller 5 absorbs the moisture on the fabric through the water absorption holes 71.
[0041] Example 2: Based on Example 1, the extraction component 73 includes a mounting base 731, a mounting sleeve 732, a sealing ring 733, and a positioning rod 734. The mounting base 731 is fixedly installed on the side of the top of the bearing groove 4. The mounting sleeve 732 is rotatably installed between the mounting base 731 and the bearing groove 4. The end of the extrusion roller 5 has a connecting groove that matches the mounting sleeve 732. The inner cavity of the connecting chamber 72 is interconnected with the inner cavity of one of the connecting grooves. The other end of the inner cavity of the connecting chamber 72 is sealed. The sealing ring 733 is fixedly sleeved on the mounting sleeve 732. Externally, the end of the extrusion roller 5 is provided with a limiting groove corresponding to the sealing collar 733, and a sealing gasket corresponding to the sealing collar 733 is fitted inside the limiting groove, thereby ensuring the sealing between one of the mounting sleeves 732 and the extrusion roller 5. One end of the positioning rod 734 is fixedly connected to the sealing collar 733, and a positioning groove is provided on the inner wall of the limiting groove. The outer wall of the positioning rod 734 is slidably engaged with the inner cavity of the positioning groove. The positioning rod 734 can keep the mounting sleeve 732 and the extrusion roller 5 in a synchronous rotation state, and the servo motor is connected to the other mounting sleeve 732 for transmission.
[0042] Furthermore, the extraction assembly 73 also includes a fixing cap 735, a limiting collar 736, and a shaft seal 737. The fixing cap 735 is fixedly installed on one side of the bearing groove 4 and the mounting base 731. The limiting collar 736 is fixedly sleeved on the outside of the mounting sleeve 732 and rotatably connected to the inside of the fixing cap 735. The shaft seal 737 is sleeved between the mounting sleeve 732 and the fixing cap 735, and the shaft seal 737 can ensure the sealing between the mounting sleeve 732 and the fixing cap 735.
[0043] Furthermore, the extraction assembly 73 also includes a mounting housing 739, an extraction pipe 738, and a drain pipe 7310. The mounting housing 739 is fixedly installed on one side of the bearing groove 4. A vacuum pump is fixedly installed inside the mounting housing 739. One end of the extraction pipe 738 is fixedly connected to the fixing cap 735, and the other end of the extraction pipe 738 is connected to the air inlet of the vacuum pump. The inner cavity of the extraction pipe 738 is interconnected with the inner cavity of the mounting sleeve 732. Thus, the vacuum pump can draw air and moisture from the inside of the connecting chamber 72 through the extraction pipe 738 and the mounting sleeve 732, thereby creating a negative pressure inside the connecting chamber 72. Since the diameter of the water suction hole 71 is limited, under the action of the vacuum pump, multiple water suction holes 71 all have a suction force. One end of the drain pipe 7310 is connected to the air outlet of the vacuum pump, and the other end of the drain pipe 7310 is slidably connected to the water collection frame 1. The drain pipe 7310 can transport the water absorbed by the squeezing roller 5 to the inside of the water collection frame 1.
[0044] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A multi-beam water jet loom, characterized in that, include: Water collection frame (1); The main body (2) of the multi-axis water jet loom is installed on the top of the water collection frame (1); Take-up roller (3), which is installed on the top of water collection frame (1), is used to take up the fabric made by the multi-axis water jet loom body (2); The bearing trough (4) is installed on the top of the water collection frame (1); The extrusion roller (5) is rotatably mounted on the bearing groove (4); Scraper (6), the scraper (6) is fixedly installed inside the bearing groove (4), the scraper (6) cooperates with the extrusion roller (5) to scrape water off the fabric; A water-absorbing component (7) is disposed on a support groove (4) and is used to absorb moisture from the fabric by a squeeze roller (5).
2. The multi-beam water jet loom according to claim 1, characterized in that, The water-absorbing component (7) includes: Water suction hole (71), the water suction hole (71) is opened on the outer wall of the extrusion roller (5); A connecting chamber (72) is provided at one end of the extrusion roller (5), and the inner cavity of the connecting chamber (72) is connected to the inner cavity of the water suction hole (71). Extraction assembly (73) is disposed on one side of the support groove (4) and is connected to the inner cavity of the connecting chamber (72).
3. A multi-beam water jet loom according to claim 2, characterized in that, The extraction component (73) includes: Mounting base (731), which is fixedly installed on the side of the top of the bearing groove (4); The mounting sleeve (732) is rotatably mounted between the mounting base (731) and the bearing groove (4). The end of the extrusion roller (5) is provided with a connecting groove that matches the mounting sleeve (732). The inner cavity of the connecting chamber (72) is connected to the inner cavity of one of the connecting grooves.
4. A multi-beam water jet loom according to claim 3, characterized in that, The extraction component (73) further includes: A sealing collar (733) is fixedly sleeved on the outside of the mounting sleeve (732), and the end of the extrusion roller (5) is provided with a limiting groove corresponding to the sealing collar (733). The positioning rod (734) is fixedly connected at one end to the sealing collar (733). The inner wall of the limiting groove is provided with a positioning groove, and the outer wall of the positioning rod (734) is slidably engaged with the inner cavity of the positioning groove.
5. A multi-beam water-jet loom according to claim 4, characterized in that, The extraction component (73) further includes: A fixing cap (735) is fixedly installed on one side of the bearing groove (4) and the mounting base (731); A limiting collar (736) is fixedly sleeved on the outside of the mounting sleeve (732), and the limiting collar (736) is rotatably connected to the inside of the fixing cap (735); Shaft seal (737), which is fitted between mounting sleeve (732) and fixing cap (735).
6. A multi-beam water-jet loom according to claim 5, characterized in that, The extraction component (73) further includes: Mounting housing (739), which is fixedly installed on one side of bearing groove (4), and a vacuum pump is fixedly installed inside the mounting housing (739); Extraction tube (738), one end of which is fixedly connected to the fixing cap (735), the other end of which is connected to the air inlet of the vacuum pump, and the inner cavity of the extraction tube (738) is in communication with the inner cavity of the mounting sleeve (732). Drain pipe (7310), one end of which is connected to the outlet of the vacuum pump, and the other end of which is slidably connected to the water collection frame (1).