CN221027685U - Bagged spring manufacturing equipment - Google Patents

Abstract

The utility model belongs to the technical field of mattress production and manufacturing, and particularly relates to bagged spring manufacturing equipment, which comprises an unreeling mechanism, a cloth tensioning mechanism and a cloth welding mechanism; the unreeling mechanism is used for unreeling the non-woven fabric roll into non-woven fabric; the cloth stretching mechanism is used for adjusting the tensioning degree of the non-woven fabrics; the cloth welding mechanism is used for sealing and conveying the non-woven fabric bags with the springs. Compared with the prior art, the utility model omits the use of the non-woven fabric deviation correcting mechanism and the cloth feeding mechanism, has more simplified structure, is simpler and more convenient to use, has higher practical degree and higher economic value.

Description

Bagged spring manufacturing equipment

Technical Field

The utility model belongs to the technical field of mattress production and manufacturing, and particularly relates to a bagged spring manufacturing device.

Background

The mechanism of the existing bagged spring manufacturing equipment is complex and complicated, for example, a non-woven fabric deviation correcting mechanism and a cloth feeding mechanism are needed, driving parts needed to be used are relatively more, the maintenance cost is high, the practical degree is lower, and the economic value is also lower.

In view of this, the present utility model has been proposed.

Disclosure of utility model

The utility model aims to provide a pocket spring manufacturing device with a simple structure, which comprises the following specific scheme:

A manufacturing device of a bagged spring comprises an unreeling mechanism, a cloth stretching mechanism and a cloth welding mechanism; the unreeling mechanism is used for unreeling the non-woven fabric roll into non-woven fabric; the cloth stretching mechanism is used for adjusting the tensioning degree of the non-woven fabrics; the cloth welding mechanism is used for sealing and conveying the non-woven fabric bags with the springs.

The unreeling mechanism comprises an unreeling roller and a driving motor, and the driving motor is connected with the unreeling roller to drive the unreeling roller to unreel.

The cloth stretching mechanism comprises a plurality of cloth guide rollers and an adjusting assembly which are arranged up and down; the adjusting component comprises a tensioning roller capable of being adjusted up and down and/or a non-woven fabric tightness adjusting piece, and the non-woven fabric tightness adjusting piece comprises a rotating piece and a stretching spring.

The cloth guide roller is provided with an adjusting wheel which is used for adapting to non-woven fabrics with different widths.

The welding mechanism comprises a transverse welding mechanism and a vertical welding mechanism, the transverse welding mechanism and the vertical welding mechanism both comprise an ultrasonic die head and a sealing knife which are arranged opposite to each other, the ultrasonic die head and the sealing knife are close to each other and can clamp and weld the non-woven fabric bag, and the ultrasonic die head and the sealing knife are far away from each other and can release the non-woven fabric bag.

The vertical cloth welding mechanism is movable relative to the non-woven fabric bag along the left-right direction of the non-woven fabric bag, namely, the non-woven fabric bag can be driven to move forwards when the non-woven fabric bag is welded by the vertical cloth welding mechanism.

One side of the welding mechanism is provided with a conveying mechanism, the conveying mechanism comprises at least one part of V-shaped conveying belt, and the V-shaped conveying belt is used for compressing and conveying springs.

A plurality of driving wheel components are arranged between the conveying mechanism and the welding mechanism.

The bagged spring manufacturing equipment further comprises a cloth folding mechanism, wherein the cloth folding mechanism is used for folding the non-woven fabrics into non-woven fabrics bags and wrapping the springs.

One side of the welding mechanism is provided with a guiding mechanism, and the guiding mechanism comprises a compression conveying belt and a guide plate.

The beneficial effects of the utility model are as follows:

compared with the prior art, the application omits the use of the non-woven fabric deviation correcting mechanism and the cloth feeding mechanism, has more simplified structure, is simpler and more convenient to use, has higher practical degree and higher economic value.

Drawings

FIG. 1 is a schematic view of a pocket spring manufacturing apparatus of the present utility model;

FIG. 2 is a schematic diagram of a pocketed spring manufacturing apparatus according to the present utility model;

FIG. 3 is a schematic view of a portion of a pocketed spring manufacturing apparatus according to the present utility model;

FIG. 4 is a schematic diagram of a portion of a pocketed spring manufacturing apparatus according to the present utility model;

FIG. 5 is a schematic view of a portion of a pocketed spring manufacturing apparatus according to the present utility model;

FIG. 6 is a schematic view showing a part of a construction of a pocketed spring manufacturing apparatus according to the present utility model;

Wherein the reference numerals: 1 is a frame, 2 is an unreeling mechanism, 21 is an unreeling roller, and 22 is a driving motor. 31 is a cloth guide roller, 32 is a tension roller, 33 is an adjusting groove, 34 is a non-woven fabric tightness adjusting piece, 341 is a rotating piece, 342 is an extension spring, 343 is an axle center, 35 is an adjusting wheel, 36 is a gear rack assembly, 41 is a transverse cloth welding mechanism, 42 is a vertical cloth welding mechanism, 5 is a non-woven fabric roll, 51 is a non-woven fabric, 52 is a non-woven fabric bag, 6 is a spring, 7 is a cloth folding mechanism, 8 is a conveying mechanism, 81 is a V-shaped conveying belt, 9 is a guiding mechanism, 91 is a compression conveying belt, 92 is a guide plate, 10 is a bagged spring, and 11 is a driving wheel assembly.

Detailed Description

The utility model will be further described with reference to the following specific embodiments.

In the following description, all concepts related to the directions (or azimuths) of up, down, left, right, front and rear are directed to the position states where the drawings are being described, so as to facilitate public understanding, and thus should not be construed as being particularly limiting to the technical solutions provided by the present utility model.

As shown in fig. 1 to 6, a pocket spring manufacturing apparatus includes an unreeling mechanism 2, a cloth opening mechanism, and a cloth welding mechanism; the unreeling mechanism 2 is used for unreeling the non-woven fabric roll 5 into a non-woven fabric 51; the cloth stretching mechanism is used for adjusting the tensioning degree of the non-woven fabric 51; the welding mechanism is used for sealing and conveying the non-woven fabric bag 52 provided with the spring 6.

The unreeling mechanism 2 includes an unreeling roller 21 and a driving motor 22, and the driving motor 22 is connected with the unreeling roller 21 to drive the unreeling roller 21 to unreel. The cloth-stretching mechanism comprises a plurality of cloth guide rollers 31 and an adjusting component which are arranged up and down; the adjusting assembly includes a tension roller 32 and/or a non-woven fabric tension adjusting member 34 which can be adjusted up and down, and the non-woven fabric tension adjusting member 34 includes a rotating member 341 and a tension spring 342. The cloth guide roller 31 is provided with an adjusting wheel 35, and the adjusting wheel 35 is used for adapting to non-woven fabrics 51 with different widths, namely when the width of the non-woven fabrics 51 is larger, the distance between the adjusting wheels 35 at the two ends of the cloth guide roller 31 is increased; when the width of the nonwoven fabric 51 is small, the distance between the regulating wheels 35 at both ends of the cloth guide roller 31 is reduced.

The welding mechanism comprises a transverse welding mechanism 41 and a vertical welding mechanism 42, wherein the transverse welding mechanism 41 and the vertical welding mechanism 42 comprise an ultrasonic die head and a sealing knife which are arranged opposite to each other, the ultrasonic die head and the sealing knife are close to each other and can clamp and weld the non-woven fabric bag 52, and the ultrasonic die head and the sealing knife are far away from each other and can release the non-woven fabric bag 52. The vertical welding mechanism 42 is movable relative to the non-woven fabric bag 52 along the left-right direction of the non-woven fabric bag 52, that is, the non-woven fabric bag 52 is driven to move forward while the non-woven fabric bag 52 is welded by the vertical welding mechanism 42.

One side of the welding mechanism is provided with a conveying mechanism 8, the conveying mechanism 8 comprises at least one part of V-shaped conveying belt 81, and the V-shaped conveying belt 81 is used for compressing and conveying the spring 6. A plurality of driving wheel assemblies 11 are arranged between the conveying mechanism 8 and the welding mechanism and used for clamping the opening of the non-woven fabric 51, so that the welding mechanism is convenient for sealing welding. The cloth stretching mechanism is arranged below the conveying mechanism 8 and the cloth welding mechanism, so that the occupied space of the device is saved. The pocketed spring manufacturing apparatus further comprises a folding mechanism 7, the folding mechanism 7 being for folding the nonwoven fabric 51 into nonwoven fabric pockets 52 and for wrapping the springs 6 (as shown at the folding mechanism in fig. 3). One side of the welding mechanism is provided with a guiding mechanism 9, and the guiding mechanism 9 comprises a compression conveying belt 91 and a guide plate 92.

The working principle is as follows:

Firstly, the unreeling mechanism 2 unreels the non-woven fabric roll 5 into the non-woven fabric 51, then the spring 6 is conveyed on the conveying mechanism 8 from back to front, compressed by the V-shaped conveying belt 81 and wrapped in the non-woven fabric bag 52 folded by the folding mechanism 7, the non-woven fabric bag 52 is clamped by the opening of the non-woven fabric bag 52 through the driving wheel assembly 11 and then conveyed to the transverse welding mechanism 41 and the vertical welding mechanism 42 for transverse sealing and vertical sealing, and the spring 6 is completely sealed in the non-woven fabric bag 52 to form the bagged spring 10. In fact, when the sealing of the vertical cloth welding mechanism 42 is completed, the bagged springs 10 are driven to move forwards by swinging conveying or moving conveying, and after the bagged springs 10 are conveyed to the guiding-out mechanism 9, the bagged springs return to the front end of the conveying mechanism 8 to continue to be welded and conveyed to the next bagged spring 10.

Because of different unreeling speeds and conveying of the non-woven fabric 51, in order to ensure the flatness of the non-woven fabric 51 before entering the cloth folding mechanism 7, the application is provided with a cloth stretching mechanism for adjusting the tightness of the non-woven fabric 51. The cloth stretching mechanism can only adopt a cloth guide roller 31 and a tensioning roller 32 which can be adjusted up and down, a plurality of sensors are arranged on an adjusting groove 33 of the tensioning roller 32 and used for limiting the position of the tensioning roller 32 on the adjusting groove 33, so that the flatness of the non-woven fabric 51 before entering the cloth folding mechanism 7 is better (in order to ensure that the up-and-down movement process of the tensioning roller 32 in the adjusting groove 33 is more stable, the application is also provided with a gear rack assembly 36 as shown in fig. 6); particularly, the topmost end and bottommost end of the regulating groove 33 are provided with sensors to prevent the tensioning roller 32 from sliding out of the regulating groove 33 when moving up and down, and if more non-woven fabric 51 is discharged by the unreeling mechanism 2, the tensioning roller 32 can be moved downwards when the non-woven fabric 51 at the front end is loose; if the nonwoven fabric 51 discharged from the unreeling mechanism 2 is small, the tension roller 32 may be moved upward when the nonwoven fabric 51 at the front end is relatively tight, and the tightness of the nonwoven fabric 51 may be adjusted by the upward and downward movement of the tension roller 32.

Or the cloth stretching mechanism can only adopt the cloth guide roller 31 and the non-woven fabric tightness adjusting piece 34, the tightness degree of the non-woven fabric 51 is adjusted through the rotating piece 341 and the stretching spring 342 in the non-woven fabric tightness adjusting piece 34, one end of the stretching spring 342 is fixed on the rotating piece 341, the other end of the stretching spring 342 is fixed on the frame 1, if the non-woven fabric 51 discharged by the unreeling mechanism 2 is more, when the non-woven fabric 51 at the front end is loose, the tension of the non-woven fabric 51 at the cloth folding mechanism 7 is larger than the elasticity of the stretching spring 342, and the rotation axis 343 is driven to rotate by the tension, so that the rotating piece 341 is driven to move upwards; if the unreeling mechanism 2 releases less nonwoven fabric 51, the tension of the nonwoven fabric at the front end will be greater than the elastic force of the tension spring 342 when the nonwoven fabric 51 at the front end is tighter, and the rotating member 341 will be pulled to move downward, so as to adjust the tightness of the nonwoven fabric 51.

Or the cloth tensioning mechanism adopts a cloth guide roller 31, a tensioning roller 32 capable of being adjusted up and down and a non-woven fabric tightness adjusting piece 34, and the tightness degree of the non-woven fabric 51 is adjusted through the cooperation of the tensioning roller 32 and the non-woven fabric tightness adjusting piece 34.

The foregoing is a further detailed description of the presently preferred embodiments of the present utility model, and is not intended to limit the practice of the utility model to the particular embodiments described, but rather to limit the scope of the utility model.

Claims (10)

1. A pocketed spring manufacturing apparatus, characterized in that: comprises an unreeling mechanism, a cloth stretching mechanism and a cloth welding mechanism;

The unreeling mechanism is used for unreeling the non-woven fabric roll into non-woven fabric;

The cloth stretching mechanism is used for adjusting the tensioning degree of the non-woven fabrics;

The cloth welding mechanism is used for sealing and conveying the non-woven fabric bags with the springs.

2. A pocketed spring manufacturing apparatus as claimed in claim 1, wherein: the unreeling mechanism comprises an unreeling roller and a driving motor, and the driving motor is connected with the unreeling roller to drive the unreeling roller to unreel.

3. A pocketed spring manufacturing apparatus as claimed in claim 1, wherein: the cloth stretching mechanism comprises a plurality of cloth guide rollers and an adjusting assembly which are arranged up and down; the adjusting component comprises a tensioning roller capable of being adjusted up and down and/or a non-woven fabric tightness adjusting piece, and the non-woven fabric tightness adjusting piece comprises a rotating piece and a stretching spring.

4. A pocketed spring manufacturing apparatus as claimed in claim 3, wherein: the cloth guide roller is provided with an adjusting wheel which is used for adapting to non-woven fabrics with different widths.

5. A pocketed spring manufacturing apparatus as claimed in claim 1, wherein: the welding mechanism comprises a transverse welding mechanism and a vertical welding mechanism, the transverse welding mechanism and the vertical welding mechanism both comprise an ultrasonic die head and a sealing knife which are arranged opposite to each other, the ultrasonic die head and the sealing knife are close to each other and can clamp and weld the non-woven fabric bag, and the ultrasonic die head and the sealing knife are far away from each other and can release the non-woven fabric bag.

6. A pocketed spring manufacturing apparatus as claimed in claim 5, wherein: the vertical cloth welding mechanism is movable relative to the non-woven cloth bag along the left-right direction of the non-woven cloth bag.

7. A pocketed spring manufacturing apparatus as claimed in claim 1, wherein: one side of the welding mechanism is provided with a conveying mechanism, the conveying mechanism comprises at least one part of V-shaped conveying belt, and the V-shaped conveying belt is used for compressing and conveying springs.

8. A pocketed spring manufacturing apparatus as claimed in claim 7, wherein: a plurality of driving wheel components are arranged between the conveying mechanism and the welding mechanism.

9. A pocketed spring manufacturing apparatus as claimed in claim 1, wherein: the folding mechanism is used for folding the non-woven fabrics into non-woven fabrics bags and wrapping the springs.

10. A pocketed spring manufacturing apparatus as claimed in claim 1, wherein: one side of the welding mechanism is provided with a guiding mechanism, and the guiding mechanism comprises a compression conveying belt and a guide plate.