CN220433252U - Shaping equipment for clothing production - Google Patents

Abstract

The utility model provides a shaping device for clothing production, which comprises a placing plate, a portal frame and shaping rollers. Wherein, the portal frame internal connection clamp plate, and connect the spring between the top in clamp plate and the portal frame, the setting roller setting rotates under the clamp plate, and sets up the heating pipe in the setting roller. During operation, the clothing to be tidied is flattened as much as possible and placed on the placing plate, and air in the placing plate is pumped out through the air pump, so that the clothing on the placing plate is flatly adsorbed on the placing plate, then the heating pipe is controlled to heat and the portal frame is controlled to move to the clothing on the placing plate, so that the heated shaping roller rolls and presses down the clothing on the placing plate, a hot-pressing working process is formed, the clothing to be tidied is pressed and shaped, and wrinkles of the clothing are removed. This is less labor intensive and facilitates mass production than is possible with an iron by an operator.

Description

Shaping equipment for clothing production

Technical Field

The utility model relates to the field of clothing processing equipment, in particular to shaping equipment for clothing production.

Background

The whole production process of the clothing needs a lot of production equipment, so that a large number of wrinkles are formed on the clothing fabric after the clothing is produced, and the clothing is required to be shaped and wrinkle-removed before being packaged. Conventionally, an operator holds an iron to iron clothes, so that the clothes are hot-pressed and shaped, and wrinkles are removed. Such an operation is labor intensive for the operator, and long-term operation will result in reduced efficiency, thus being unfavorable for mass production.

Disclosure of Invention

In view of the shortcomings of the background art, the utility model provides a shaping device for clothing production.

The utility model adopts the following technical proposal

A sizing device for garment production, the sizing device comprising:

the clothes placing device comprises a placing plate for placing clothes, wherein a cavity is formed in the placing plate, adsorption holes are distributed on the upper surface of the placing plate, and the cavity in the placing plate is communicated with an air inlet of an air pump;

the portal frame slides relative to the placing plate, a pressing plate is arranged in the portal frame, a spring is connected between the pressing plate and the top in the portal frame, and the elastic acting force of the stretching of the spring presses the pressing plate to the upper surface of the placing plate;

the shaping roller is connected with the shaping roller rotating under the pressing plate, two ends of the axis of the shaping roller penetrate through, a heating pipe is arranged in the shaping roller, and two ends of the heating pipe penetrate out of the shaping roller respectively and then are fixed to the pressing plate and are connected to the conducting wire.

In one possible implementation, the placement plate is fixed on a frame, a rotatable screw is connected in the frame, and the screw is driven by a moving motor fixed at the end of the frame; the two sides of the portal frame are in sliding connection with the two sides of the placing plate, the portal frame is fixedly connected with a connecting beam below the placing plate, the connecting beam is fixedly connected with a nut support, and the nut support is in threaded connection with the screw rod.

In one possible implementation manner, the two ends above the pressing plate are respectively fixed with an adjusting screw, the two springs are respectively sleeved outside the two adjusting screws, the two ends at the top of the portal frame are respectively provided with a connecting hole, the two adjusting screws respectively penetrate out of the two connecting holes, the two adjusting screws are respectively and spirally connected with an adjusting nut at the top of the portal frame, and the outer diameter of the adjusting nut is larger than the aperture of the connecting hole.

In one possible implementation manner, the bearing seats are fixed at two ends of the bottom surface of the pressing plate, the diameter reducing sections with reduced diameters are arranged at two ends of the shaping roller, and the two diameter reducing sections respectively penetrate through the two bearing seats in an adaptive manner.

As can be seen from the above description of the structure of the present utility model, compared with the prior art, the present utility model has the following advantages: when the clothes to be tidied are flattened and placed on the placing plate as much as possible, air in the placing plate is pumped out through the air pump, so that the clothes on the placing plate are flatly adsorbed on the placing plate, the heating pipe is controlled to heat and the portal frame is controlled to move to the clothes on the placing plate, so that the heated setting roller rolls and presses the clothes on the placing plate, a hot pressing working process is formed, the clothes to be tidied are pressed and set, and wrinkles of the clothes are removed. Compared with the mode that an operator adopts an iron, the clothes placing plate is low in labor intensity, labor efficiency is not reduced, and multiple pieces of clothes to be tidied can be placed on the placing plate at one time, so that mass production is facilitated.

Drawings

Fig. 1 is a schematic perspective view of the present utility model from a top view.

Fig. 2 is a schematic perspective view of the bottom view of the present utility model.

Fig. 3 is an enlarged schematic view at a in fig. 2.

Fig. 4 is a schematic view of the structure of the gantry and the components connected under the gantry.

Fig. 5 is an enlarged schematic view at B in fig. 4.

Fig. 6 is a schematic cross-sectional structure of the present utility model.

Fig. 7 is an enlarged schematic view at C in fig. 5.

FIG. 8 is a schematic cross-sectional view of the connection of the platen, the sizing roller and the heating tube.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the present application will be described in further detail with reference to the accompanying drawings.

Hereinafter, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

Furthermore, in this application, directional terms "upper", "lower", etc. are defined with respect to the orientation in which the components are schematically disposed in the drawings, and it should be understood that these directional terms are relative concepts, which are used for description and clarity with respect thereto, and which may be varied accordingly with respect to the orientation in which the components are disposed in the drawings.

Disclosed is a setting apparatus for clothing production, as shown in figures 1 and 2, comprising a placement plate 1, a portal frame 2 and setting rollers 4.

As shown in fig. 1 and 5, a cavity is formed inside the placement plate 1, and adsorption holes 101 are distributed on the upper surface of the placement plate 1. The cavity inside the placing plate 1 is communicated with the air inlet of an air pump 12 through pipeline connection. In the process that the air in the placing plate 1 is pumped out by the air pump 12 during operation, the air on the upper surface of the placing plate 1 can be pumped into the placing plate 1 through the adsorption holes 101, so that after the garment to be shaped is placed on the placing plate 1, the garment to be shaped can be adsorbed and fixed on the placing plate 1 when the air is sucked into the placing plate 1 through the adsorption holes 101. Specifically, after the garment to be shaped is flatly placed on the placement plate 1, the air pump 12 is controlled to work.

As shown in fig. 2 to 4, the placement plate 1 is fixed to a frame 11, a rotatable screw 21 is connected to the frame 11, and the screw 21 is driven by a moving motor 22 fixed to an end of the frame 11. The two sides of the portal frame 2 are in sliding connection with the two sides of the placing plate 1, the sliding connection mode can be that the two sides of the frame 11 are respectively provided with a fixed sliding rail 23, the two sliding rails 23 are respectively connected with a sliding block 24 in an adapting mode, and the two ends of the portal frame 2 are respectively and fixedly connected with the two sliding blocks 24, so that the portal frame 2 can only slide relatively to the placing plate 1 in a straight line. The portal frame 2 is fixedly connected with a connecting beam 26 below the placing plate 1, the connecting beam 26 is fixedly connected with a nut support 25, and the nut support 25 is in spiral connection with the screw rod 21, namely the screw rod 21 passes through the nut support 25 in a spiral mode. During operation, the screw rod 21 is driven to rotate by the moving motor 22 so as to drive the nut support 25 and the portal frame 2 to move.

As shown in fig. 4 and 8, a pressing plate 3 is arranged in the portal frame 2, and a shaping roller 4 is connected under the pressing plate 3 to rotate. The connection mode can be that the bearing seats 41 are fixed at two ends of the bottom surface of the pressing plate 3, the diameter reducing sections 401 with reduced diameters are arranged at two ends of the shaping roller 4, and the two diameter reducing sections 401 respectively penetrate through the inner rings of the two bearing seats 41 in an adapting mode. The two ends of the shaft axis of the shaping roller 4 penetrate, a heating pipe 5 is arranged in the shaping roller 4, the two ends of the heating pipe 5 penetrate out of the shaping roller 4 respectively and then are fixed on the pressing plate 3 and are connected to a zero line and a fire line of the conducting wire 51 respectively, so that the heating pipe 5 can be electrified through the conducting wire 51 to convert electric energy into heat energy, the heating pipe 5 heats air around the heating pipe to form high-temperature hot air, the high-temperature hot air conducts temperature to the shaping roller 4, and the shaping roller 4 forms high temperature. In addition, the side of the frame 11 can be connected with a tank chain 13, and a conductive wire 51 connected with the heating pipe 5 is arranged in the tank chain 13, so that the protection function of the conductive wire 51 is realized.

In addition, a spring 33 is connected between the pressing plate 3 and the top in the portal frame 2, and the elastic force of the stretching of the spring 33 presses the pressing plate 3 and the shaping roller 4 to the upper surface of the placing plate 1, so as to form the pressure of the shaping roller 4 to the clothing on the placing plate 1. In operation, when the portal frame 2 moves on the placement plate 1, the shaping roller 4 can roll on the clothing on the placement plate 1 to realize heating shaping of the clothing.

With continued reference to fig. 6 and 7, the connecting piece 53 is fixed on both sides of the pressing plate 3, the connecting piece 53 is a sheet metal part bent to form an L shape, and a fixing groove 531 is provided on a vertical surface of the connecting piece 53, and an opening of the fixing groove 531 is formed on a side surface of the connecting piece 53. Referring again to fig. 7, studs are provided on both of the heating pipes 5, and both studs are adapted to screw-connect the fixing nut 54. Before fixing the heating tube 5, the two ends of the shaping roller 4 are connected with the bearing blocks 41, then the heating tube 5 passes through the shaping roller 4, then the two ends of the heating tube 5 are screwed into the two fixing nuts 54, then the bearing blocks 41 are fixed under the pressing plate 3, the studs penetrate into the fixing grooves 531 of the connecting piece, and finally the two fixing nuts 54 are screwed to the two sides of the connecting piece 53 respectively, so that the heating tube 5 can be fixed.

Referring to fig. 5 again, the adjusting screws 31 are fixed at both ends above the pressing plate 3, and the two springs 33 are respectively sleeved outside the two adjusting screws 31. The both ends at portal frame 2 top all set up the connecting hole (not shown in the drawing), two adjusting screw 31 upwards wear out respectively outside two connecting holes to two adjusting screw 31 are at the equal screwed connection adjusting nut 32 in portal frame 2 top, and adjusting nut 32's external diameter is greater than the aperture of connecting hole. In this structure, the adjusting nut 32 can form a downward block to the pressing plate 3 to limit the elastic force of the pressing plate 3 stretched by the spring 33 to press against the upper surface of the placing plate 1, and the distance between the adjusting nut 32 and the pressing plate 3 can be adjusted by rotating the adjusting nut 32 to realize the minimum gap between the adjusting and shaping roller 4 and the upper surface of the placing plate 1, so that the utility model can be applied to the rolling and shaping of clothing with different thicknesses.

In addition, the utility model can be provided with a control system, which can be a PLC controller, for controlling the operation of the suction pump 12, the displacement motor 22 and the heating pipe 5.

In summary, when the present utility model is used, the clothing to be finished is flattened as much as possible and placed on the placing plate 1, and the air in the placing plate 1 is pumped out by the air pump 12 to flatly adsorb the clothing on the placing plate 1, and then the heating pipe 5 is controlled to heat and the portal frame 2 is controlled to move to the clothing on the placing plate 1, so that the heated shaping roller 4 rolls and presses the clothing on the placing plate 1, thereby forming a hot pressing working process, so that the clothing to be finished is pressed and shaped, and the wrinkles of the clothing are removed. Compared with the way of adopting an iron by an operator, the clothes placing plate 1 has the advantages that the labor intensity is low, the labor efficiency is not reduced, and a plurality of clothes to be tidied can be placed on the placing plate 1 at one time, so that the clothes placing plate is favorable for batch production.

The foregoing is merely illustrative of specific embodiments of the present utility model, but the design concept of the present utility model is not limited thereto, and any insubstantial modification of the present utility model by using the design concept shall fall within the scope of the present utility model.

Claims (4)

1. A sizing device for garment production, the sizing device comprising:

the clothes placing device comprises a placing plate for placing clothes, wherein a cavity is formed in the placing plate, adsorption holes are distributed on the upper surface of the placing plate, and the cavity in the placing plate is communicated with an air inlet of an air pump;

the portal frame slides relative to the placing plate, a pressing plate is arranged in the portal frame, a spring is connected between the pressing plate and the top in the portal frame, and the elastic acting force of the stretching of the spring presses the pressing plate to the upper surface of the placing plate;

the shaping roller is connected with the shaping roller rotating under the pressing plate, two ends of the axis of the shaping roller penetrate through, a heating pipe is arranged in the shaping roller, and two ends of the heating pipe penetrate out of the shaping roller respectively and then are fixed to the pressing plate and are connected to the conducting wire.

2. A sizing device for apparel production as in claim 1, wherein: the placing plate is fixed on a frame, a rotatable screw rod is connected in the frame, and the screw rod is driven by a moving motor fixed at the end part of the frame; the two sides of the portal frame are in sliding connection with the two sides of the placing plate, the portal frame is fixedly connected with a connecting beam below the placing plate, the connecting beam is fixedly connected with a nut support, and the nut support is in threaded connection with the screw rod.

3. A sizing device for apparel production as in claim 1, wherein: adjusting screws are fixed at two ends above the pressing plate, the springs are sleeved outside the two adjusting screws respectively, connecting holes are formed in two ends of the top of the portal frame, the two adjusting screws penetrate out of the two connecting holes respectively, the two adjusting screws are in threaded connection with adjusting nuts at the top of the portal frame, and the outer diameter of each adjusting nut is larger than the aperture of each connecting hole.

4. A sizing device for apparel production as in claim 1, wherein: bearing seats are fixed at two ends of the bottom surface of the pressing plate, diameter-reduced sections with reduced diameters are arranged at two ends of the shaping roller, and the two diameter-reduced sections respectively penetrate through the two bearing seats in an adaptive mode.