A device for quickly removing odor after cloth color correction

Abstract

This utility model discloses a rapid deodorization device for fabric after color correction, including a frame, on which a deodorization chamber and a pre-treatment connecting chamber are mounted, which are horizontally connected. The fabric passes through the connecting chamber and then exits through the deodorization chamber. A heating pipe and a blower are located on the far side of the deodorization chamber. A deodorization vent seat is located inside the connecting chamber. This utility model uses a deodorization vent seat that is U-shaped or U-shaped, through which the fabric passes axially. The air outlet at the inner end of the vent seat is close to the fabric through which the fabric passes, allowing for more thorough contact between the deodorizing airflow and the fabric, so that the odor on the fabric surface is directly carried away by the airflow. Secondly, a contact deodorizing roller is pivotally connected inside the deodorization chamber. The roller has an array of air holes on its surface and bristles in the remaining area. While the bristles are in use, the negative pressure suction fan absorbs the gas and extracts it to the outside, thus deodorizing the fabric surface.

Description

Technical Field

[0001] This utility model relates to the field of fabric processing equipment technology, specifically a device for rapid deodorization after fabric color correction. Background Technology

[0002] Textile fabrics are fabrics that have undergone processes such as spinning and dyeing. They are mainly used as raw materials for clothing and other daily necessities. However, existing textile fabrics have a serious problem: chemical residues remain on the fabrics, resulting in a strong odor. Some fabrics even contain substances such as formaldehyde, which seriously affect the health of users.

[0003] Conventional methods use high temperatures and blowers to create airflow, which removes odors from the fabric. However, the fabric only stays for a short time, resulting in poor odor removal. If the fabric stays for too long, this leads to low efficiency. Therefore, some methods use brushes to physically adsorb odor particles onto the fabric surface. However, the brushes themselves can pick up these odor particles, causing secondary contamination when they come into contact with subsequent fabrics.

[0004] This case arose in order to resolve the aforementioned issues. Utility Model Content

[0005] (a) Technical problems to be solved

[0006] To address the shortcomings of existing technologies, this utility model provides a rapid deodorization device for fabrics after color correction, which solves the problems mentioned in the background art.

[0007] (II) Technical Solution

[0008] To achieve the above objectives, this utility model provides the following technical solution: a rapid deodorization device for fabric after color correction, comprising a frame, on which a deodorization chamber and a pre-treatment connecting chamber are mounted, the two being connected horizontally. The fabric passes through the connecting chamber and exits through the deodorization chamber. A heating tube and a blower are located on the opposite side of the deodorization chamber. A deodorization ventilation seat is located inside the connecting chamber. A contact deodorizing roller is pivotally connected inside the deodorization chamber, its surface having an array of air holes and bristles in the remaining area. The air holes extend into the interior of the contact deodorizing roller. The interior of the contact deodorizing roller is hollow and has one side open, with the open side connected to an external negative pressure suction fan.

[0009] Preferably, the deodorizing vent seat is U-shaped or U-shaped, and the interior of the deodorizing vent seat is hollow, with the fabric passing through the middle axially. Multiple connecting exhaust seats are arranged on the upper and lower sides of the inner side of the deodorizing vent seat, and a blower is connected to the bottom of the connecting box. The output end of the blower is connected to the deodorizing vent seat through a vent pipe.

[0010] Preferably, the air outlet positions at the inner ends of the upper and lower exhaust seats are respectively close to the fabric through which the air passes.

[0011] Preferably, the upper and lower sides of the deodorizing vent seat are provided with multiple elongated grooves, and the connecting box body located above the deodorizing vent seat is provided with an exhaust hole groove.

[0012] Preferably, the contact degassing rollers are placed on the upper and lower sides of the fabric in the transmission direction, with the bristles in contact with the fabric surface.

[0013] (III) Beneficial Effects

[0014] By adopting the above technical solution, this utility model has the following advantages compared with the prior art:

[0015] 1. This utility model provides a quick deodorization device for fabric after color correction. The deodorization vent seat is U-shaped or U-shaped, and the fabric passes through it axially from the middle. The air outlet position on the inner end of the vent seat is close to the fabric through which the fabric passes, so that the airflow for effective deodorization comes into full contact with the fabric, allowing the odor on the fabric surface to be directly carried out by the airflow.

[0016] 2. This utility model provides a rapid deodorization device for fabric after color correction. The deodorization box is pivotally connected to a contact degassing roller with an array of air holes on its surface and bristles in the remaining area. By setting air holes in the gaps between the bristles on the contact degassing roller, the negative pressure fan absorbs the gas while the bristles are in use, and then extracts and discharges it to the outside, thereby deodorizing the fabric surface. Attached Figure Description

[0017] Figure 1 This is a front sectional view of the present invention;

[0018] Figure 2 This is a schematic diagram of the odor-removing and ventilation seat in this utility model;

[0019] Figure 3 This is a schematic diagram of the contact-type degassing roller in this utility model.

[0020] In the diagram: 1. Frame; 2. Fabric; 3. Supporting guide rollers; 4. Deodorizing chamber; 5. Connecting chamber; 6. Heating element; 7. Blower 1; 8. Blower 2; 9. Contact deodorizing roller; 91. Air hole; 92. Vent hole; 10. Deodorizing vent seat; 11. Exhaust seat; 12. Guide rollers; 13. Vent pipe; 14. Through groove. Detailed Implementation

[0021] The present invention will be further described in detail below with reference to the accompanying drawings and embodiments.

[0022] like Figure 1The image shows a rapid deodorization device for fabric after color correction, comprising a frame 1. Supporting guide wheels 3 and guide wheels 12 are respectively provided on both sides and the middle of the frame 1. A deodorization chamber 4 and a pre-treatment connecting chamber 5 are mounted on the frame 1. The fabric 2 passes through the connecting chamber 5 and exits through the deodorization chamber 4. The deodorization chamber 4 and the connecting chamber 5 are horizontally connected. A heating pipe and a blower 8 are located on the far side of the deodorization chamber 4, enabling the hot air to be discharged into the connecting chamber 5 after heating the entire deodorization chamber 4, thus preheating its interior.

[0023] The interior of the connecting box 5 is equipped with a deodorizing and ventilating seat 10, the structure of which can be found in the appendix. Figure 2 As shown, the deodorizing ventilator 10 is generally U-shaped or U-shaped, with the fabric 2 passing through its central axis. The interior of the deodorizing ventilator 10 is hollow, and multiple connecting exhaust seats 11 are arranged on the upper and lower sides of the inner side. A blower 7 is connected to the bottom of the connecting box 5, and the output end of the blower 7 is connected to the deodorizing ventilator 10 through the ventilation pipe 13, so that the airflow can be directly conducted to the fabric surface through the exhaust seats 11.

[0024] The air outlets on the inner sides of the venting seat 11 are close to the fabric through which the air passes, ensuring more thorough contact between the deodorizing airflow and the fabric, allowing the odor on the fabric surface to be directly carried away by the airflow. Simultaneously, multiple elongated slots 14 are provided on the upper and lower sides of the deodorizing venting seat 10 to facilitate the outward discharge of airflow. Furthermore, the connecting box 5, located above the deodorizing venting seat 10, has an exhaust port 91 slot, allowing the gas on the fabric 2 to be discharged along with the gas discharged from the venting seat 11.

[0025] See appendix Figure 3 As shown, a contact degassing roller 9 is pivotally connected inside the deodorizing box 4. Its surface is arrayed with air holes 91, and bristles are provided in the remaining area. Conventional bristles, after prolonged use, will retain residual odors on the dense bristles after contact with the fabric. Therefore, this embodiment uses air holes 91 in the gaps between the bristles on the contact degassing roller 9 to absorb gas while the bristles are in use.

[0026] Specifically, the interior of the contact degassing roller 9 is hollow and one side is open. The air hole 91 extends into the interior of the contact degassing roller 9. The open side is connected to the negative pressure suction fan (i.e., the fan blades are driven by a motor to rotate, generating a strong suction force). The negative pressure suction fan draws the air from the brush bristles and the surrounding area into the contact degassing roller 9 and extracts the air to the outside, thereby deodorizing the fabric surface.

[0027] The contact deodorizing roller 9 is placed on the upper and lower sides of the fabric in the transmission direction. After the brush bristles come into contact with the fabric surface to clean it, the odor attached to the surface is brushed off. At the same time, a negative pressure is formed near the brush bristles, which sucks out the brushed-off odor along with the air near the contact deodorizing roller 9 to complete the deodorization.

[0028] The above-described embodiments are provided for illustrative purposes. Based on the above description, those skilled in the art can make various changes and modifications without departing from the inventive concept. The technical scope of this utility model is not limited to the contents of the specification; its protection scope must be determined according to the claims.

Claims

1. A rapid deodorization device for fabric after color correction, comprising a frame, wherein a deodorization chamber and a pre-treatment connecting chamber are mounted on the frame, the two being horizontally connected, wherein the fabric passes through the connecting chamber and exits through the deodorization chamber, and a heating tube and a blower are provided on the opposite side of the deodorization chamber, characterized in that: The interior of the connecting box is equipped with a deodorizing and ventilation seat. A contact deodorizing roller is pivotally connected inside the deodorizing box. The surface of the roller has an array of air holes, and bristles are provided in the remaining area. The air holes extend into the interior of the contact deodorizing roller. The interior of the contact deodorizing roller is hollow and has one side that is open. The open side is connected to a negative pressure suction fan installed on the outside.

2. The device for quickly removing odor after fabric color correction according to claim 1, characterized in that: The deodorizing ventilator is generally U-shaped or U-shaped, and the interior of the deodorizing ventilator is hollow. The fabric passes through the middle axially. Multiple connecting exhaust seats are arranged on the upper and lower sides of the inner side of the deodorizing ventilator. A blower is connected to the bottom of the connecting box. The output end of the blower is connected to the deodorizing ventilator through a vent pipe.

3. The device for quickly removing odor after fabric color correction according to claim 2, characterized in that: The air outlet positions at the inner ends of the upper and lower exhaust seats are respectively close to the fabric through which they pass.

4. The device for quickly removing odor after fabric color correction according to claim 2, characterized in that: The deodorizing vent seat has multiple elongated slots on its upper and lower sides, and the connecting box is located above the deodorizing vent seat and has an exhaust port slot.

5. The device for quickly removing odor after fabric color correction according to claim 1, characterized in that: The contact-type degassing rollers are respectively placed on the upper and lower sides of the fabric in the transmission direction, with the bristles in contact with the fabric surface.

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