阅读说明：本技术 一种高分子针织面料加工装置及其方法 (Processing device and method for high-molecular knitted fabric ) 是由 李云辉 刘朝标 赵冬 于 2021-08-27 设计创作，主要内容包括：本发明公开了一种高分子针织面料加工装置,包括加工桌,加工桌上设置有输送带,输送带一侧设置有连接架,连接架上设置有升降件,升降件连接有上下移动架,上下移动架下端连接有加热烘干板,上下移动架一侧设置有第一齿条,第一齿条一侧啮合传动连接有第一齿轮,加工桌内设置有气筒,气筒内滑动连接有活塞,活塞一侧设置有贯穿气筒一端的移动杆,移动杆上连接有第三齿条,第三齿条一侧啮合连接有与第一齿轮传动连接的第三齿轮,气筒另一端连通有进气管和出气管,加热烘干板前侧和后侧均设置有与进气管连通的吸气斗,输送带上方设置有至少一个与出气管连通的出气口,出气口指向输送带。本发明便于对针织面料的烘干处理。(The invention discloses a processing device for high-molecular knitted fabric, which comprises a processing table, wherein a conveying belt is arranged on the processing table, a connecting frame is arranged on one side of the conveying belt, a lifting piece is arranged on the connecting frame, the lifting piece is connected with an up-and-down moving frame, the lower end of the up-and-down moving frame is connected with a heating drying plate, a first rack is arranged on one side of the up-and-down moving frame, a first gear is meshed and driven to be connected with one side of the first rack, an air cylinder is arranged in the processing table, a piston is connected in the air cylinder in a sliding manner, a moving rod penetrating through one end of the air cylinder is arranged on one side of the piston, a third rack is connected with the moving rod, a third gear in driving connection with the first gear is meshed and driven to be connected with one side of the third rack, the other end of the air cylinder is communicated with an air inlet pipe and an air outlet pipe, air suction hoppers communicated with the air inlet pipe are arranged on the front side and the rear side of the heating drying plate, at least one air outlet communicated with the air outlet pipe is arranged above the conveying belt, the air outlet points to the conveying belt. The invention is convenient for drying the knitted fabric.)

1. The processing device for the high-molecular knitted fabric is characterized by comprising a processing table (1), wherein a conveying belt (2) is arranged on the processing table (1), a connecting frame (3) is arranged on one side of the conveying belt (2), a lifting piece (5) is arranged on the connecting frame (3), the lifting piece (5) is connected with an up-and-down moving frame (7), the lifting piece (5) is used for controlling the up-and-down moving frame (7) to move up and down, a heating drying plate (8) is connected to the lower end of the up-and-down moving frame (7), a first rack (9) is arranged on one side of the up-and-down moving frame (7), a first gear (10) is in meshing transmission connection with one side of the first rack (9), a first rotating shaft connected with the connecting frame (3) is coaxially connected with the first gear (10), and an air cylinder (18) is arranged in the processing table (1), air cylinder (18) sliding connection has piston (19), piston (19) one side is provided with and runs through carriage release lever (20) of air cylinder (18) one end, be connected with third rack (21) on carriage release lever (20), third rack (21) one side meshing transmission is connected with third gear (22), third gear (22) coaxial coupling have with the third axis of rotation that first axis of rotation transmission is connected, air cylinder (18) other end intercommunication has intake pipe (23) and outlet duct, heating stoving board (8) front side and rear side all be provided with the gas absorption fill of intake pipe (23) intercommunication, conveyer belt (2) top be provided with at least one with the gas outlet of outlet duct intercommunication, the gas outlet is directional conveyer belt (2), be provided with filter screen (24) in the outlet duct.

2. The processing device of the high molecular knitted fabric according to claim 1, wherein a hot air blower (4) is arranged on one side of the heating and drying plate (8), and the hot air blower (4) is communicated with a hot air port which points to the conveyor belt (2).

3. The processing device of the high molecular knitted fabric according to claim 1, wherein a second rack (12) horizontally sliding left and right with the connecting frame (3) is arranged on the other side of the heating drying plate (8), a second gear (11) is engaged and driven on the second rack (12), a second rotating shaft in transmission connection with the first rotating shaft is coaxially connected with the second gear (11), a left and right moving frame (13) is connected to the lower end of the second rack (12), a plurality of rollers (14) are arranged on the lower end face of the left and right moving frame (13), and detection paper (15) is arranged on the rollers (14).

4. The processing device of the polymer knitted fabric according to claim 3, wherein an electric telescopic rod (16) is arranged between the second rack (12) and the left and right moving frames (13).

5. A processing device for high molecular knitted fabric according to claim 1, characterized in that a drying plate is arranged inside the other end of the air cylinder (18).

6. The processing device of the high molecular knitted fabric according to claim 1, wherein the lifting member (5) comprises a first driving telescopic rod (6) connected with the connecting frame (3), the telescopic end of the first driving telescopic rod (6) is connected with the up-down moving frame (7), and the first driving telescopic rod (6) is used for controlling the up-down moving frame (7) to move up and down in a telescopic manner.

7. The processing device of the high molecular knitted fabric according to claim 1, wherein the lifting member (5) comprises a fourth motor connected with the connecting frame (3), an output end of the fourth motor is connected with a fourth gear, a fourth rack connected with the up-and-down moving frame (7) is meshed and driven on one side of the fourth gear, and the fourth rack is vertically connected with the connecting frame (3) in a sliding manner.

8. The processing device of the high molecular knitted fabric according to claim 1, wherein the side of the heating and drying plate (8) is provided with a dispersing piece.

9. A method for processing high molecular knitted fabric according to any one of claims 1 to 8, characterized in that the knitted fabric is placed on a conveyer belt (2), the conveyer belt (2) is used for conveying and processing the knitted fabric, then a lifting member (5) is started to drive an upper and a lower moving frames (7) so as to be used for controlling a heating drying plate (8) to move up and down to carry out leveling processing on the knitted fabric, the heating drying plate (8) moves up and down to drive a radiating sheet arranged thereon to drive air circulation for radiating processing, the heating drying plate (8) moves up and down to drive a first rack (9) to move up and down to control a first gear (10) to rotate, further drives a third gear (22) to rotate, so that a moving rod (20) moves left and right to drive a piston (19) to move left and right in an air cylinder (18), the hot air heated by the heating drying plate (8) is controlled to be sucked into the air cylinder (18) through the air suction hopper, and then the hot air is sprayed to the knitted fabric through the air outlet, so that the knitted fabric is dried conveniently.

Technical Field

The invention relates to the technical field of knitted fabric processing, in particular to a device and a method for processing high-molecular knitted fabric.

Background

The knitted fabric is a fabric formed by bending yarns into loops by using a knitting needle and interlooping the loops. The knitted fabric is widely applied to products such as garment fabrics, linings and home textiles, and is popular with consumers.

In the production and processing process of the existing knitted fabric, wet dye can adhere to the surface of the knitted fabric, and if the wet dye is adhered to the knitted fabric and is not processed, the subsequent processing efficiency is influenced, and meanwhile, the subsequent processing of the knitted fabric is not convenient.

Disclosure of Invention

In view of the above, the present invention is directed to a device and a method for processing a polymer knitted fabric, so as to solve all or one of the problems of the background art.

In view of the above, the present invention provides a machining table, wherein a conveyor belt is arranged on the machining table, a connecting frame is arranged on one side of the conveyor belt, a lifting member is arranged on the connecting frame, the lifting member is connected with an up-down moving frame, the lifting member is used for controlling the up-down moving frame to move up and down, a heating and drying plate is connected to the lower end of the up-down moving frame, a first rack is arranged on one side of the up-down moving frame, a first gear is engaged and transmission-connected to one side of the first rack, the first gear is coaxially connected with a first rotating shaft connected with the connecting frame, an air cylinder is arranged in the machining table, a piston is slidably connected in the air cylinder, a moving rod penetrating through one end of the air cylinder is arranged on one side of the piston, a third rack is connected to the moving rod, a third gear is engaged and transmission-connected to one side of the third rack, the third gear is coaxially connected with a third rotating shaft in transmission-connection with the first rotating shaft, the other end of the inflator is communicated with an air inlet pipe and an air outlet pipe, the front side and the rear side of the heating drying plate are both provided with air suction hoppers communicated with the air inlet pipe, at least one air outlet communicated with the air outlet pipe is arranged above the conveying belt, the air outlet points to the conveying belt, and a filter screen is arranged in the air outlet pipe.

Optionally, an air heater is arranged on one side of the heating and drying plate and communicated with a hot air port, and the hot air port points to the conveying belt.

Optionally, a second rack horizontally sliding left and right with the connecting frame is arranged on the other side of the heating drying plate, a second gear is meshed with the second rack in a transmission manner, the second gear is coaxially connected with a second rotating shaft in a transmission manner, the second rotating shaft is in transmission connection with the first rotating shaft, the lower end of the second rack is connected with a left-right moving frame, a plurality of rollers are arranged on the lower end face of the left-right moving frame, and detection paper is arranged on the rollers.

Optionally, an electric telescopic rod is arranged between the second rack and the left and right moving frame.

Optionally, a drying plate is arranged on the inner side of the other end of the air cylinder.

Optionally, the lifting piece comprises a first driving telescopic rod connected with the connecting frame, the telescopic end of the first driving telescopic rod is connected with the up-down moving frame, and the first driving telescopic rod is used for controlling the up-down moving frame to move up and down in a telescopic mode.

Optionally, the lifting piece comprises a fourth motor connected with the connecting frame, the output end of the fourth motor is connected with a fourth gear, one side of the fourth gear is meshed with a fourth rack connected with the up-down moving frame in a transmission mode, and the fourth rack is connected with the connecting frame in a vertical sliding mode.

Optionally, a heat dissipation sheet is arranged on the side surface of the heating drying plate.

A method for processing high-molecular knitted fabric comprises the steps that the knitted fabric is placed on a conveying belt, the conveying belt is used for conveying and processing the knitted fabric, then a lifting piece is started to drive an up-and-down moving frame to be convenient for controlling a heating and drying plate to move up and down to level the knitted fabric, meanwhile, the heating and drying plate moves up and down to drive a radiating sheet mounted on the heating and drying plate to drive air to circulate for radiating, the heating and drying plate moves up and down to drive a first rack to move up and down to control a first gear to rotate, further transmission is conducted to drive a third gear to rotate, a moving rod moves left and right to drive a piston to move left and right in an air cylinder, hot air heated by the heating and drying plate is controlled to be sucked into the air cylinder through an air suction hopper, then the hot air is sprayed to the knitted fabric through an air outlet, and drying processing of the knitted fabric is facilitated.

From the above, according to the processing device for the high-molecular knitted fabric, the knitted fabric is placed on the conveying belt, the conveying belt is used for conveying and processing the knitted fabric, then the lifting piece is started to drive the up-and-down moving frame, so that the heating and drying plate can be controlled to move up and down to carry out leveling processing on the knitted fabric, the heating and drying plate can move up and down to drive the first rack to move up and down, the first rack is used for controlling the first gear to rotate, the third gear is further driven to rotate by transmission, the moving rod moves left and right to drive the piston to move left and right in the air cylinder, hot air heated by the heating and drying plate is controlled to be sucked into the air cylinder through the air suction hopper, and then the hot air is sprayed to the knitted fabric through the air outlet, so that the drying processing on the knitted fabric is facilitated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

In the figure: the device comprises a processing table 1, a conveying belt 2, a connecting frame 3, an air heater 4, a lifting piece 5, a first driving telescopic rod 6, an up-and-down moving frame 7, a heating drying plate 8, a first rack 9, a first gear 10, a second gear 11, a second rack 12, a left-and-right moving frame 13, a roller 14, detection paper 15, an electric telescopic rod 16, an air cylinder 18, a piston 19, a moving rod 20, a third rack 21, a third gear 22, an air inlet pipe 23, a filter screen 24 and an air outlet pipe 25.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to specific embodiments and the accompanying drawings.

It is to be noted that technical terms or scientific terms used in the embodiments of the present invention should have the ordinary meanings as understood by those having ordinary skill in the art to which the present disclosure belongs, unless otherwise defined. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

A high-molecular knitted fabric processing device comprises a processing table 1, wherein a conveying belt 2 is arranged on the processing table 1, a connecting frame 3 is arranged on one side of the conveying belt 2, a lifting piece 5 is arranged on the connecting frame 3, the lifting piece 5 is connected with an upper and lower moving frame 7, the lifting piece 5 is used for controlling the upper and lower moving frame 7 to move up and down, a heating and drying plate 8 is connected to the lower end of the upper and lower moving frame 7, a first rack 9 is arranged on one side of the upper and lower moving frame 7, a first gear 10 is in meshing transmission connection with one side of the first rack 9, a first rotating shaft connected with the connecting frame 3 is coaxially connected with the first gear 10, an air cylinder 18 is arranged in the processing table 1, a piston 19 is in sliding connection with the air cylinder 18, a moving rod 20 penetrating through one end of the air cylinder 18 is arranged on one side of the piston 19, a third rack 21 is connected on the moving rod 20, a third gear 22 is connected to one side of the third rack 21 in a meshing transmission manner, the third gear 22 is coaxially connected with a third rotating shaft in a transmission manner, the third rotating shaft is connected with the first rotating shaft in a transmission manner, the other end of the air cylinder 18 is communicated with an air inlet pipe 23 and an air outlet pipe 25, air suction hoppers communicated with the air inlet pipe 23 are arranged on the front side and the rear side of the heating and drying plate 8 respectively, at least one air outlet communicated with the air outlet pipe 25 is arranged above the conveying belt 2 and points to the conveying belt 2, a filter screen 24 is arranged in the air outlet pipe 25, the knitting fabric is placed on the conveying belt 2, the conveying belt 2 is used for conveying and treating the knitting fabric, then the lifting piece 5 is started to drive the up-and-down moving frame 7 so as to be conveniently used for controlling the heating and drying plate 8 to move up and down to carry out leveling treatment on the knitting fabric, and the heating and drying plate 8 moves up and down to drive the first rack 9 to move up and down, the air pump is used for controlling the first gear 10 to rotate, further drives the third gear 22 to rotate, enables the moving rod 20 to move left and right to drive the piston 19 to move left and right in the air cylinder 18, controls the hot air heated by the heating drying plate 8 to be sucked into the air cylinder 18 through the air suction hopper, and then sprays the hot air to the knitted fabric through the air outlet, so that the drying treatment of the knitted fabric is facilitated.

In order to further facilitate the drying treatment of the knitted fabric conveyed on the conveying belt 2, an air heater 4 is arranged on one side of the heating and drying plate 8, and the air heater 4 is communicated with a hot air port which points to the conveying belt 2.

In order to facilitate the leveling of the dried knitted fabric and the detection of whether the knitted fabric is attached with dye or not, a second rack 12 horizontally sliding left and right with the connecting frame 3 is arranged at the other side of the heating drying plate 8, a second gear 11 is engaged and driven on the second rack 12, the second gear 11 is coaxially connected with a second rotating shaft in transmission connection with the first rotating shaft, a left and right moving frame 13 is connected with the lower end of the second rack 12, a plurality of rollers 14 are arranged on the lower end surface of the left and right moving frame 13, detection paper 15 is arranged on the rollers 14, the upper and lower moving frame 7 moves up and down to drive the first rack 9 to move up and down to drive the first gear 10 to rotate, and further the second gear 11 is driven to rotate, so that the second rack 12 and the left and right moving frame 13 move left and right to drive the rollers 14 to level the knitted fabric, and the detection paper 15 on the rollers 14 facilitates the detection of whether the knitted fabric is attached with dye or not, and rolling to detect whether the knitted fabric is faded or not.

In order to control the left and right moving frames 13 to move up and down, an electric telescopic rod 16 is arranged between the second rack 12 and the left and right moving frames 13.

In order to facilitate the absorption of moisture in the sucked hot air and the drying of the hot air, a drying plate is provided inside the other end of the air cylinder 18.

In order to facilitate the control of the up-down moving frame 7 to move up and down, the lifting piece 5 comprises a first driving telescopic rod 6 connected with the connecting frame 3, the telescopic end of the first driving telescopic rod 6 is connected with the up-down moving frame 7, and the first driving telescopic rod 6 is used for controlling the up-down moving frame 7 to move up and down in a telescopic mode.

In order to facilitate the control of the up-and-down moving frame 7 to move up and down, the lifting piece 5 comprises a fourth motor connected with the connecting frame 3, the output end of the fourth motor is connected with a fourth gear, one side of the fourth gear is meshed with a fourth rack connected with the up-and-down moving frame 7 in a transmission mode, and the fourth rack is vertically and slidably connected with the connecting frame 3.

In order to facilitate the heat dissipation treatment of the knitted fabric, the side face of the heating and drying plate 8 is provided with a heat dissipation sheet, and the heat dissipation sheet arranged on the heating and drying plate 8 is driven to drive the circulation of air when the heating and drying plate 8 moves up and down, so that the heat dissipation treatment is realized.

A method for processing high molecular knitted fabric comprises placing the knitted fabric on a conveyer belt 2, the conveyer belt 2 is used for transporting and processing the knitted fabric, then the lifting piece 5 is started to drive the up-and-down moving frame 7, which is convenient for controlling the heating drying plate 8 to move up and down to carry out the leveling treatment on the knitted fabric, meanwhile, the heating drying plate 8 moves up and down to drive the radiating fins arranged on the heating drying plate to drive the air to circulate for radiating treatment, the heating and drying plate 8 moves up and down to drive the first rack 9 to move up and down for controlling the first gear 10 to rotate and further driving the third gear 22 to rotate, the moving rod 20 moves left and right to drive the piston 19 to move left and right in the air cylinder 18, the hot air heated by the heating drying plate 8 is controlled to be sucked into the air cylinder 18 through the air suction hopper, and then the hot air is sprayed to the knitted fabric through the air outlet, so that the knitted fabric is conveniently dried.

The knitting fabric is placed on a conveying belt 2, the conveying belt 2 is used for conveying and processing the knitting fabric, then a lifting piece 5 is started to drive an upper moving frame 7 and a lower moving frame 7 so as to be used for controlling a heating drying plate 8 to move up and down to carry out leveling processing on the knitting fabric, the heating drying plate 8 moves up and down to drive a first rack 9 to move up and down so as to control a first gear 10 to rotate, further transmission drives a third gear 22 to rotate, a moving rod 20 moves left and right to drive a piston 19 to move left and right in an air cylinder 18, hot air heated and heated by the heating drying plate 8 is controlled to be sucked into the air cylinder 18 through an air suction hopper, then the hot air is sprayed to the knitting fabric through an air outlet so as to facilitate drying processing on the knitting fabric, the upper moving frame 7 and the lower moving frame 7 move up and down to drive the first rack 9 to move up and down to drive the first gear 10 to rotate so as to drive the second gear 11 to rotate, the second rack 12 and the left-right moving frame 13 are moved left and right, so that the rollers 14 are driven to level the knitted fabric, and meanwhile, the detection paper 15 on the rollers 14 is used for detecting whether the knitted fabric is attached with dye or not, so that whether the knitted fabric is faded or not is detected by rolling.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the spirit of the present disclosure, features from the above embodiments or from different embodiments may also be combined, steps may be implemented in any order, and there are many other variations of different aspects of one or more embodiments of the present description as described above, which are not provided in detail for the sake of brevity.

In addition, well-known power/ground connections to Integrated Circuit (IC) chips and other components may or may not be shown in the provided figures, for simplicity of illustration and discussion, and so as not to obscure one or more embodiments of the disclosure. Furthermore, devices may be shown in block diagram form in order to avoid obscuring the understanding of one or more embodiments of the present description, and this also takes into account the fact that specifics with respect to implementation of such block diagram devices are highly dependent upon the platform within which the one or more embodiments of the present description are to be implemented (i.e., specifics should be well within purview of one skilled in the art). Where specific details (e.g., circuits) are set forth in order to describe example embodiments of the disclosure, it should be apparent to one skilled in the art that one or more embodiments of the disclosure can be practiced without, or with variation of, these specific details. Accordingly, the description is to be regarded as illustrative instead of restrictive.

While the present disclosure has been described in conjunction with specific embodiments thereof, many alternatives, modifications, and variations of these embodiments will be apparent to those of ordinary skill in the art in light of the foregoing description. For example, other memory architectures (e.g., dynamic ram (dram)) may use the discussed embodiments.

It is intended that the one or more embodiments of the present specification embrace all such alternatives, modifications and variations as fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of one or more embodiments of the present disclosure are intended to be included within the scope of the present disclosure.