Textile jacquard machine

By introducing a rotating air purification mechanism into the textile jacquard machine, the automatic replacement of air filter plates is achieved, solving the problem of time-consuming manual replacement, improving production efficiency and equipment intelligence, and extending equipment life.

CN224378385UActive Publication Date: 2026-06-19GUANGZHOU ZHITONG TEXTILE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU ZHITONG TEXTILE CO LTD
Filing Date
2025-08-13
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing textile jacquard machines have long and cumbersome air filter replacement processes, which cannot be automatically triggered, resulting in increased equipment downtime, low production efficiency, high labor costs, and insufficient intelligent management.

Method used

Design a textile jacquard machine that includes a housing, a closed cover, and a rotating air purification mechanism. Through the combination of a fan, connecting pipe, conveyor belt, and motor, the air filter plates are automatically rotated and purified, forming a closed loop system and reducing manual intervention.

Benefits of technology

It enables automatic replacement of air filter plates, reduces equipment downtime, improves production efficiency, reduces labor costs, extends equipment life, and improves fabric quality and equipment stability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a textile jacquard machine, include: the casing, the jacquard machine is fixedly installed in the casing, and the casing one end is in -built and is provided with the mounting groove, and the alternate air purification mechanism is installed in the mounting groove, and the upper half of casing one end sliding installation has the close lid. The application through the design of alternate air purification mechanism, let it can according to the operation time of fan to start motor and drive the air filter board filled in the plug -in mouth to carry out the operation of the alternate of time, and this kind of alternate process does not need staff real -time monitoring filter core state or manual dismantling ring, and then can reduce the manual input, ensure that the air in the casing can be sustained purification.
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Description

Technical Field

[0001] This utility model relates to the field of jacquard machine technology, specifically a textile jacquard machine. Background Technology

[0002] The jacquard loom, as a textile tool, is an important invention of ancient China. It uses a pattern book made of thread to store the jacquard program, and then uses a cross thread to pull the warp threads open. The pattern book is a set of programs on the jacquard loom that stores pattern information. It is woven from the foot thread representing the warp and the ear thread representing the weft according to the pattern requirements.

[0003] For example, the national patent announcement number CN222205617U discloses a jacquard machine with good textile effect, including a jacquard machine body. A fixed cabinet is fixed to the surface of the jacquard machine body, and a partition plate is fixed to the inner wall of the fixed cabinet. This jacquard machine with good textile effect, through the setting of a replacement component, rotates the rocker arm, the threaded rod rotates, and two sets of fixed blocks move inward synchronously. The left fixed block drives the connecting rod to rotate counterclockwise, pulling the slider down and causing the rubber block to disengage from the air outlet of the Y-shaped tube. The right fixed block drives another set of connecting rods to rotate clockwise, causing the slider and rubber block to move up, so that the top of the rubber block blocks the air outlet of the Y-shaped tube, and the other air outlet of the Y-shaped tube can exhaust normally. The filter plate that needs to be replaced can be pulled out. During installation, the filter plate is inserted into the concave frame for stability. The filter plate can be replaced without turning off the jacquard machine body and the blower, thus improving work efficiency.

[0004] However, the jacquard machines with good textile effects mentioned above still require manual removal and replacement of air filters during the air filter replacement process, which takes several minutes. More importantly, the equipment lacks an automation mechanism and cannot automatically trigger the rotation replacement of air filters after the preset usage conditions are met. This seriously restricts the improvement of equipment operating efficiency and intelligence level, and may result in the filter being blocked in time. Utility Model Content

[0005] The purpose of this utility model is to provide a textile jacquard machine to solve the problems mentioned in the background art, such as the long time and cumbersome operation of manually replacing air filter plates, the inability to automatically trigger filter plate replacement within a specific time, resulting in increased equipment downtime, low production efficiency, increased labor costs due to frequent manual intervention, and insufficient intelligent management of equipment.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] A textile jacquard machine includes: a housing, in which a jacquard machine is fixedly installed; an embedded mounting groove is provided at one end of the housing, in which a rotating air purification mechanism is installed; and a closing cover is slidably installed at one end of the upper half of the housing.

[0008] Preferably, the alternating air purification mechanism includes two fans, both of which are fixedly installed in the mounting slot. The air inlets of the two fans extend into the housing, and a connecting pipe is fixedly installed between the air inlets of the two fans. An exhaust pipe is connected to the air outlet of each fan and extends from the upper end of the mounting slot to the housing and communicates with it.

[0009] Preferably, multiple heat dissipation fins are fixedly installed on the outer surface of the exhaust pipe.

[0010] Preferably, the middle end of the connecting pipe extends through the two docking plates and is located in the middle position inside the conveyor belt. The two docking plates are fixedly installed on the lower surface of the machine housing. The conveyor belt is fitted on the outer surface of the two drive columns. The drive columns are rotatably installed between the two docking plates. One of the drive columns is fixedly connected to the output shaft of the motor. The motor is fixedly installed at one end of one of the docking plates and is controlled by a controller.

[0011] Preferably, an air intake is provided at one end of the outer surface of the connecting pipe. The air intake slides against the center of one side of the inner ring surface of the conveyor belt and can be connected to multiple insertion ports. The multiple insertion ports are extended on the outer surface of the conveyor belt. An air filter plate is inserted into the insertion port in a damped manner, so that the air intake can draw air from the machine housing through the air filter plate inside the insertion port.

[0012] Preferably, a semi-ring shell is fixedly installed between the two docking plates. The semi-ring shell is fitted onto the outer surface of the conveyor belt and contacts one end of the insertion port, so that the air filter plate inserted in the insertion port can be prevented from falling out of the insertion port when it is driven by the conveyor belt. Both ends of the semi-ring shell are provided with openings, which are respectively connected to the insertion port and the mounting groove.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. By cooperating with the housing, cover, jacquard machine and rotating air purification mechanism, the purification mechanism automatically draws in air for purification after the cover closes the jacquard machine. The filter element is replaced regularly without the need for manual monitoring and disassembly, avoiding machine downtime due to filter replacement, reducing component wear and extending equipment life.

[0015] 2. The system, consisting of components such as the docking plate, activates a fan to circulate and purify the air during jacquard machine operation, creating a closed, clean environment, improving fabric quality, and reducing the defect rate; the exhaust pipe's heat dissipation fins cool the fabric, ensuring stable operation of electronic components. After the fan has been running for a set time, the motor drives the conveyor belt to automatically rotate the air filter plates, and the semi-ring housing filter plates and dust fall off, facilitating cleaning and reuse. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the overall front view of this utility model;

[0018] Figure 3 This is a schematic diagram of the overall side cross-section of this utility model;

[0019] Figure 4 This is a schematic diagram of the structure of the housing and the closing cover of this utility model;

[0020] Figure 5 This is a schematic diagram of the rotating air purification mechanism of this utility model.

[0021] Figure 6 This is a schematic diagram of the structure of the docking plate, conveyor belt and insertion port of this utility model.

[0022] Figure 7 This is a schematic diagram of the connecting pipe and the air intake of this utility model.

[0023] In the diagram: 1. Housing; 101. Cover; 102. Mounting slot; 103. Jacquard machine; 2. Rotating air purification mechanism; 201. Connecting plate; 202. Semi-ring housing; 203. Motor; 204. Fan; 205. Connecting pipe; 206. Exhaust pipe; 207. Heat dissipation fins; 208. Insertion port; 209. Air intake port; 210. Conveyor belt; 211. Air filter plate; 212. Drive column. Detailed Implementation

[0024] 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, not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0025] like Figures 1-4 As shown, this embodiment provides a textile jacquard machine, including: a housing 1, a jacquard machine 103 fixedly installed inside the housing 1, an embedded mounting groove 102 at one end of the housing 1, an alternating air purification mechanism 2 installed in the mounting groove 102, and a closing cover 101 slidably installed at one end of the upper half of the housing 1.

[0026] Through the design of the housing 1, the cover 101, the jacquard machine 103, and the rotating air purification mechanism 2, the jacquard machine 103 can be sealed inside the housing 1 by pulling down the cover 101. Then, the rotating air purification mechanism 2 can be activated to draw in the air inside the housing 1, purify it, and then discharge it back in. After continuous operation for a specific period of time, the filter device will automatically replace the filter element through a rotating process, and the used filter element will be rotated into the installation slot 102 for workers to pull out for cleaning and reuse. This eliminates the need for workers to monitor the filter element status in real time or manually remove the filter element during the operation of the rotating air purification mechanism 2, thereby reducing manual labor and ensuring that the air inside the housing 1 can be continuously purified. This avoids the interruption of the operation of the jacquard machine 103 due to downtime for filter element replacement. Furthermore, continuous and stable air purification can reduce the wear of dust, fibers, and other impurities on the precision parts of the jacquard machine 103, reduce the equipment failure rate, and extend the overall service life.

[0027] like Figures 5-7 As shown, the alternating air purification mechanism 2 includes two fans 204, both of which are fixedly installed in the mounting slot 102. The air intakes of the two fans 204 extend into the housing 1, and a connecting pipe 205 is fixedly installed between the air intakes of the two fans (204). An exhaust pipe 206 is connected to the air outlet of the fans 204. The exhaust pipe 206 extends from the upper end of the mounting slot 102 to the housing 1 and is connected thereto. Multiple heat dissipation fins 207 are fixedly installed on the outer surface of the exhaust pipe 206.

[0028] The middle end of the connecting pipe 205 extends through the two docking plates 201 and is located in the middle position inside the conveyor belt 210. The two docking plates 201 are fixedly installed on the lower inner surface of the housing 1. The conveyor belt 210 is fitted on the outer surface of the two drive columns 212. The drive columns 212 are rotatably installed between the two docking plates 201, and one of the drive columns 212 is fixedly connected to the output shaft of the motor 203. The motor 203 is fixedly installed at one end of one of the docking plates 201 and is controlled by a controller.

[0029] The connecting pipe 205 has an air intake 209 at one end of its outer surface. The air intake 209 slides against the center of the inner ring surface of the conveyor belt 210 and can be connected to multiple insertion ports 208. The multiple insertion ports 208 extend out of the outer surface of the conveyor belt 210. An air filter plate 211 is inserted into the insertion port 208 in a damped manner, so that the air intake 209 can draw air from the housing 1 through the air filter plate 211 in the insertion port 208.

[0030] A semi-ring shell 202 is fixedly installed between the two docking plates 201. The semi-ring shell 202 is fitted onto the outer surface of the conveyor belt 210 and contacts one end of the insertion port 208. This prevents the air filter plate 211 inserted in the insertion port 208 from falling out of the insertion port 208 when it is driven by the conveyor belt 210. Both ends of the semi-ring shell 202 are provided with openings, which are connected to the insertion port 208 and the mounting groove 102, respectively.

[0031] Through the design of the connecting plate 201, semi-ring housing 202, motor 203, fan 204, connecting pipe 205, exhaust pipe 206, insertion port 208, air intake port 209, conveyor belt 210, and air filter plate 211, the jacquard machine 103, when operating, can draw air from the machine housing 1 by starting the fan 204 through the connecting pipe 205 and air intake port 209. The air intake port 209, sliding against the inner ring surface of the conveyor belt 210 and connected to the insertion port 208, allows the air intake port 209 to draw air from the machine housing 1 through the air filter plate 211 inserted in the insertion port 208. Dust blocked by the air filter plate 211 is retained in the insertion port 208 and purified. Air is discharged into the exhaust pipe 206 through the fan 204. The exhaust pipe 206 then discharges the filtered air back into the machine casing 1, forming a closed-loop system. This prevents external pollutants from re-entering, maintains a stable and clean production environment, improves the surface quality of jacquard fabrics, and reduces the defect rate caused by dust adhesion. Furthermore, during the process of the exhaust pipe 206 discharging air back into the machine casing 1, the heat dissipation fins 207 fixedly installed on the outer surface of the exhaust pipe 206 absorb heat from the air, effectively reducing the heat of the gas inside the machine casing 1. This ensures that the electronic components of the jacquard machine 103 are always within a suitable operating temperature range, reducing program errors and circuit failures caused by overheating, and extending the service life of the core components of the equipment.

[0032] After the fan 204 has been running for a specific period of time, the controller can automatically start the motor 203 to drive the transmission column 212 to rotate. This allows the transmission column 212 to drive the conveyor belt 210 to precisely align another insertion port 208 with the air intake port 209, forming a sealed channel. This enables the insertion port 208 to connect with the new air filter plate 211 to the air intake port 209. After the air filter plate 211 has been filtered, it will be driven by the conveyor belt 210 to rotate into the installation slot 102. This allows the staff to take it out, clean it, and reinsert it for use during their downtime, thus achieving automatic rotation of the air filter plate 211.

[0033] During the process of the conveyor belt 210 rotating the air filter plate 211 inserted in the insertion port 208, it will come into contact with the inner ring surface of the semi-ring housing 202. This can prevent the air filter plate 211 and the dust stored in the insertion port 208 from falling out. Until the insertion port 208 is driven by the conveyor belt 210 to a horizontal position, that is, when it is connected to the inside of the housing 1 for filtration or connected to the mounting groove 102 for removal, it will not be blocked by the semi-ring housing 202.

[0034] Based on the above technical solution, the working steps of this solution are summarized as follows: During use, the jacquard machine 103 can be sealed inside the housing 1 by pulling down the closing cover 101. Then, when the jacquard machine 103 is operating, the fan 204 can be started. The fan 204 can draw air from inside the housing 1 through the connecting pipe 205 and the air intake 209. The air intake 209 slides against one side of the inner ring surface of the conveyor belt 210 and connects with the insertion port 208, allowing the air intake 209 to pass through the insertion port... The air filter plate 211 inserted into port 208 draws in air from inside the housing 1. Dust trapped by the air filter plate 211 is retained in the insertion port 208. The purified air is then discharged into the exhaust pipe 206 by the fan 204, which in turn discharges the filtered air back into the housing 1, forming a closed-loop system. After the fan 204 has run for a specific period, the controller automatically starts the motor 203 to rotate the transmission column 212. This allows the transmission column 212 to drive the conveyor belt 210 to precisely align another insertion port 208 with the intake port 209, forming a sealed channel. This allows the insertion port 208 to connect a new air filter plate 211 to the intake port 209. The filtered air filter plate 211 is then rotated by the conveyor belt 210 into the mounting slot 102, allowing the operator to remove it for cleaning and re-insertion during downtime. This completes the function of the air filter plate 211. The air filter plate 211 inserted in the insertion port 208 is automatically rotated and will contact the inner ring surface of the semi-ring housing 202 during the rotation of the air filter plate 211 driven by the conveyor belt 210. This prevents the air filter plate 211 and the dust stored in the insertion port 208 from falling out. The insertion port 208 will not be blocked by the semi-ring housing 202 when it is driven by the conveyor belt 210 to a horizontal position, that is, when it is connected to the inside of the housing 1 for filtration or connected to the mounting groove 102 for removal.

[0035] In summary, this anti-jacquard machine can start the motor 203 at regular intervals according to the running time of the fan 204 to drive the air filter plate 211 filled in the insertion port 208 to rotate. This rotation process does not require the staff to monitor the status of the filter element in real time or manually remove the ring, thereby reducing manual input and ensuring that the air in the machine casing 1 can be continuously purified.

[0036] All parts not described in this utility model are the same as or can be implemented using existing technology. Although embodiments of this utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of this utility model, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A textile jacquard machine, characterized in that, include: The housing (1) has a jacquard machine (103) fixedly installed inside it. One end of the housing (1) has an embedded mounting groove (102) and a rotating air purification mechanism (2) is installed in the mounting groove (102). A cover (101) is slidably installed on one end of the upper half of the housing (1).

2. The textile jacquard machine according to claim 1, characterized in that: The rotating air purification mechanism (2) includes two fans (204), both of which are fixedly installed in the mounting groove (102). The air inlets of the two fans (204) extend into the housing (1), and a connecting pipe (205) is fixedly installed between the air inlets of the two fans (204). An exhaust pipe (206) is connected to the air outlet of the fans (204). The exhaust pipe (206) extends from the upper end of the mounting groove (102) to the housing (1) and is connected to it.

3. A textile jacquard machine according to claim 2, characterized in that: Multiple heat dissipation fins (207) are fixedly installed on the outer surface of the exhaust pipe (206).

4. A textile jacquard machine according to claim 2, characterized in that: The middle end of the connecting pipe (205) extends through the two docking plates (201) and is located in the middle of the conveyor belt (210). The two docking plates (201) are fixedly installed on the lower inner surface of the housing (1). The conveyor belt (210) is fitted on the outer surface of the two transmission columns (212). The transmission columns (212) are rotatably installed between the two docking plates (201), and one of the transmission columns (212) is fixedly connected to the output shaft of the motor (203). The motor (203) is fixedly installed at one end of one of the docking plates (201), and the motor (203) is controlled by the controller.

5. A textile jacquard machine according to claim 4, characterized in that: An air intake (209) is provided at one end of the outer surface of the connecting pipe (205). The air intake (209) slides against the center of the inner ring surface of the conveyor belt (210) and can be connected to multiple insertion ports (208). The multiple insertion ports (208) are extended on the outer surface of the conveyor belt (210). An air filter plate (211) is inserted into the insertion port (208) in a damped manner, so that the air intake (209) can draw air from the housing (1) through the air filter plate (211) in the insertion port (208).

6. A textile jacquard machine according to claim 4, characterized in that: A semi-ring shell (202) is fixedly installed between the two docking plates (201). The semi-ring shell (202) is fitted onto the outer surface of the conveyor belt (210) and contacts one end of the insertion port (208). This prevents the air filter plate (211) inserted in the insertion port (208) from falling out of the insertion port (208) when it is driven by the conveyor belt (210). Both ends of the semi-ring shell (202) are provided with openings. The openings at both ends of the semi-ring shell (202) are connected to the insertion port (208) and the mounting groove (102) respectively.