KR102134553B1 - Pocket Spring Auto Alignment Entry - Google Patents

Abstract

The present invention relates to an automatic pocket spring alignment retractor, and more particularly, to an automatic pocket spring alignment retractor capable of uniformly aligning the spacing of each pocket spring when assembling a pocket spring and performing a continuous and automated process. The automatic pocket spring alignment retractor according to the present invention, as a device that cuts and aligns a pocket spring connector with a spring inserted into a plurality of pockets connected in a row into a predetermined length, comprises: a conveyor for transferring a pocket spring connector; a pair of left and right first and second rotating bodies for supplying the pocket spring connector to the conveyor; a mounting module for mounting the pocket spring connector between the pair of first and second rotating bodies; and a cutting module disposed between the first and second rotating bodies and the mounting module and cutting the pocket spring connector into a predetermined length. Each pocket spring constituting the pocket spring connector passes through the pair of first and second rotating bodies and is transferred through the conveyor in a state in which the distance between the pocket springs is uniformly aligned.

Description

Pocket Spring Auto Alignment Entry

The present invention relates to a pocket spring automatic alignment drawing device, and more particularly, to a pocket spring automatic alignment drawing device capable of uniformly aligning the spacing of each pocket spring when assembling the pocket spring and performing a continuous and automated process.

In general, the mattress is a mattress paper which is laminated with a padding made of sponge, wool, cotton, etc. on a non-woven fabric, and a mattress paper interposed between the mattress paper and a cushioning material, which is located at the bottom of the mattress, It is composed of a spring frame in which the upper and lower ends are mounted with helical coils so that a plurality of springs that give elasticity to the sides are arranged in the vertical and horizontal directions.

However, since such a mattress is composed of a number of helical coils connected to each other, when a body load is applied to a part of the bed, the impact is transmitted to the surrounding helical coils and the bed is double-sized. In this case, the lungs that interfere with the sleep of the next person are exposed.

In consideration of the above problems, it is known that the pocket spring is composed of springs wrapped in a shell such as a non-woven fabric so that they are isolated one by one, which is easier to manufacture than when the upper and lower ends of the springs are individually tied and mounted with a helical coil. Since the springs are independent of each other, when an impact is applied to any one part, the shock can be absorbed and absorbed at the affected part without transferring the shock, so that the shock is not spread to other parts of the surrounding area. Particularly, in the case of a double bed, there was an advantage such as not to interfere with the sleep of the person lying next to it.

On the other hand, the above pocket spring is manufactured as a string in a state in which the pocket springs are continuously connected on a band for the convenience of automation and continuity of the manufacturing operation and the construction of the mattress, which is continuously supplied while forming the pocket to be springed. It is to insert the spring into the pocket portion of the outer shell and form a fused portion that bonds integrally between the spring and the spring by using a high-frequency adhesive or the like so that the pocket is configured as a single band.

The mattress is constructed by arranging and concatenating the strings of the bands side by side through a separate bonding process.

However, in the case of a continuous process in which the pockets are formed in one band shape, there is a problem in that the spacing between each spring is non-uniform on the conveyor as shown in FIG.

Republic of Korea Registered Patent No. 10-1155595 Republic of Korea Utility Model No. 20-0316851

The present invention has been devised to solve the problems of the prior art, and the object of the present invention is to automatically align the pocket springs to align the intervals of each pocket spring when assembling the pocket springs and to perform a continuous and automated process. Is to provide a device.

The problem to be solved of the present invention is not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the pocket spring automatic aligning inlet device according to the present invention relates to a device for cutting and aligning a pocket spring connector in which a spring is inserted into a plurality of pockets connected in a line to a predetermined length, and connecting the pocket spring A conveyor for conveying a sieve; A pair of left and right first and second rotating bodies for supplying a pocket spring connection body to the conveyor; A mounting module for mounting a pocket spring connection between the pair of first and second rotating bodies; And a cutting module disposed between the first and second rotating bodies and the mounting module and cutting a pocket spring connector to a predetermined length. Each pocket spring constituting the pocket spring connector includes the pair of first , It is characterized in that while passing through the two rotating bodies, the distance between the pocket springs is constantly aligned and transferred through the conveyor.

In addition, in the pocket spring automatic alignment lead-in device according to the present invention, the pair of first and second rotating bodies are each made of a cylindrical shape having a plurality of seating grooves formed in a semi-circular shape to seat the pocket spring along the outer circumferential surface, , The seating grooves of the first rotating body and the seating grooves of the second rotating body are arranged to correspond to each other.

In addition, in the pocket spring automatic alignment drawing device according to the present invention, the conveyor is composed of a pair of lower conveyors and an upper conveyor, and is characterized in that the inlet side to which the pocket spring connecting body is supplied has a structure vertically widened.

In addition, in the pocket spring automatic alignment lead-in device according to the present invention, the mounting module includes a rail-formed support; A moving shelf mounted movably back and forth on the rail of the support; Included in the left and right of the rear area of the mobile shelf to secure the pocket spring connection; includes, wherein the grip portion is a fixed panel, a movable panel disposed to face the fixed panel, and the fixed panel and the movable panel It is characterized in that it consists of a cylinder device that is connected to move the moving panel to the left and right.

In addition, in the pocket spring automatic alignment drawing device according to the present invention, the cutting module is composed of a pair of first and second cutting bodies that are moved to the left and right and opened and closed, and the first cutting body is provided with a cutter installed to be elevated. In addition, the second cutting body is characterized in that a vertical guide groove is formed so as to move up and down in a state in which a part of the cutter is fitted when in contact with the first cutting body.

In addition, in the pocket spring automatic alignment drawing device according to the present invention, a pocket spring support plate is disposed in one front region of the mobile shelf, and the pocket spring support plate seated on the mobile shelf is on the left and right sides of the mobile panel. It is characterized in that a magnet is provided to provide a magnetic force to pull each spring inserted into the pocket spring connector so as not to be overturned by the shock generated during movement.

According to the pocket spring automatic alignment drawing device according to the present invention, when assembling the pocket spring, the spacing of each pocket spring is uniformly aligned, and there is an effect of performing a continuous and automated process.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will become apparent to those skilled in the art from the following description.

1A to 1C are diagrams schematically showing a state in which the pocket spring automatic alignment drawing device according to the present invention is operated.
2 is a perspective view showing a mounting module of the present invention.
3 is a perspective view showing a cutting module of the present invention.
4A is a perspective view showing a rotating body of the present invention, and FIG. 4B is a plan view showing a state in which the rotating body of the present invention operates.
5 is a perspective view showing a conveyor of the present invention.
6 is a view showing the structure of the drive roller provided at the end of the conveyor of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail.

In describing the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or precedent. Therefore, the definition should be made based on the contents throughout this specification.

1A to 1C are views schematically showing a state in which the pocket spring automatic alignment drawing device operates according to the present invention, and FIG. 2 is a perspective view showing a mounting module of the present invention, and FIG. 3 shows a cutting module of the present invention It is a perspective view, Figure 4a is a perspective view showing a rotating body of the present invention, Figure 4b is a plan view showing a state of operation of the rotating body of the present invention, Figure 5 is a perspective view showing the conveyor of the present invention, Figure 6 is the present invention It is a view showing the structure of the drive roller provided at the end of the conveyor.

1 to 6, the pocket spring automatic alignment drawing device 100 according to the present invention pre-determined the pocket spring connector 10 in which the spring 12 is inserted in a plurality of pockets 11 connected in series. It is intended to assemble the bed mattress 20 by cutting and aligning it in length, largely a cutting module 130, a mounting module 110, first and second rotating bodies 150a, 150b, and conveyors 160a, 160b ).

The mounting module 110 of the present invention serves to mount the pocket spring connecting body 10 between a pair of first and second rotating bodies 150a and 150b, and the support 111 with the rail 112 formed thereon. , The movable shelf 113 mounted movably back and forth on the rail 112 of the support 111, and a grip portion that is parallel to the left and right of the rear area of the movable shelf 113 to secure the pocket spring connector 10 It may be configured to include 115.

The mobile shelf 113 is provided with a pocket spring support portion 113a at the front end, and the pocket spring support portion 113a is first as shown in FIG. 1C when the pocket spring connecting body 10 is held and advanced. , It is disposed adjacent to the two rotating bodies (150a, 150b) so that the frontmost pocket spring is seated in the seating groove (151) of the first and second rotating bodies (150a, 150b). In addition, an upper support plate 118 is installed on the upper side of the pocket spring support portion 113a to support the upper surface of the pocket spring connecting body 10. Guide protrusions 113b (guide protrusions) may be provided on the upper surface of the pocket spring support portion 113a and the lower surface of the upper support plate 118 so that the pocket spring connecting body 10 is not pushed back.

When the moving shelf 113 is advanced toward the first and second rotating bodies 150a and 150b, the grip portion 115 is compressed and fixed by the pocket spring connector 10 (see FIG. 1C ), and the pocket spring connector When the (10) is conveyed through the conveyor (160a, 160b) serves to release the crimp (see FIG. 1b), it is arranged to face the fixed panel 116a, and the fixed panel 116a installed on one side The moving panel 116b and the fixed panel 116a and the moving panel 116b may be connected to a cylinder device 117 that moves the moving panel 116b left and right. Here, the cylinder device 117 is fixed to the back of the fixing panel 116a, and the piston rod 117a is fixed to the moving panel 116b, and thus the moving panel 116b according to the forward and backward movement of the piston rod 117a. The pocket spring connector 10 is grasped and released while moving from side to side.

Meanwhile, a pocket spring support plate 114 is disposed in one front region of the mobile shelf () as shown in FIG. 2, and a magnet 114a is elongated in the front-rear direction inside the pocket spring support plate 114.

The magnet 114a prevents the compression of the moving panel 116b as shown in FIG. 1A or prevents the pocket spring on the pocket spring support portion 113a from collapsing when the moving shelf 113 moves back and forth as shown in FIG. 1B. Provides magnetic force for. That is, the magnet pulls and supports the iron spring 12 inserted into the pocket spring connector 10 so as not to be collapsed by the shock generated by the left and right movement of the moving panel or the front and rear movement of the moving shelf 113. Plays a role. However, it is preferable that the magnetic force of the magnet is limited to an intensity that does not significantly affect when the pocket spring connecting body 10 moves by the first and second rotating bodies 150a and 150b as shown in FIG. 1C.

The cutting module 130 of the present invention serves to cut the pocket spring connector 10 to a predetermined length, and is composed of a pair of first and second cutting bodies 131a and 131b that are moved to the left and right and opened and closed. do.

The first and second cutting bodies 131a and 131b are arranged to come into contact with each other to cut the pocket spring connecting body 10 as shown in FIG. 1A, and when cutting is completed, as shown in FIGS. 1B and 1C. By retreating from each other, the movable shelf 113 to the pocket spring connecting body 10 are arranged to be open and open to pass through.

A cutter movement groove 133 is formed at one end of the first cutting body 131a vertically and vertically, and a cutter 132 is installed at the cutter movement groove 133 to be elevated.

A vertical guide groove 134 is formed at one end of the second cutting body 131b so as to move up and down in a state where a part of the cutter 132 is inserted when it comes into contact with the first cutting body 131a. .

The first and second rotating bodies 150a and 150b of the present invention are juxtaposed left and right, and the rotating shaft 153 is connected to a motor (not shown) to rotate.

The first rotating body 150a rotates clockwise as illustrated in FIG. 1C, and the second rotating body 150b rotates counterclockwise to the middle of the first and second rotating bodies 150a and 150b. The pocket spring connector 10 is transported while rotating to converge.

And the seating grooves 151 provided on the outer circumferential surfaces of the first and second rotating bodies 150a and 150b are installed to correspond to each other. That is, the seating grooves 151 of the first rotating body 150a and the seating grooves 151 of the second rotating body 150b are each formed in a semicircle shape, and the two seating grooves 151 that abut against each other form a circle. While it is a structure for receiving each spring 12 constituting the pocket spring connecting body (10).

In general, the pocket spring connecting body 10 is a structure in which a plurality of springs are inserted into a non-woven fabric having a hollow tube shape and heat-sealed between the springs to divide the pocket springs into a plurality of pocket springs. Occurs. However, in the related art, since the pocket spring connecting bodies 10 were supplied to the conveyor without the first and second rotating bodies 150a and 150b, there was a problem in that the spacing between the pocket springs 12 was not uniform.

Even in the present invention, since the pocket spring connecting body 10 is not aligned on the left with respect to the first and second rotating bodies 150a and 150b as shown in FIG. 4B, the intervals P1 and P2 between each pocket spring ) Is not constant (P1 ≠ P2), but the space between the pocket springs (P1', P2') is constantly aligned while passing through the first and second rotating bodies 150a, 150b (P1' = P2') ) Is supplied to the conveyor, so that defects as in the prior art do not occur.

Conveyors 160a and 160b of the present invention are composed of a lower conveyor 160a and an upper conveyor 160b, and the interval between the lower conveyor 160a and the upper conveyor 160b corresponds to the height of the pocket spring connecting body 10 Adjust it to. And it is preferable that the inlet side to which the pocket spring connecting body 10 is supplied is a structure that is opened up and down, which is a pocket spring connecting body 10 supplied through the first and second rotating bodies 150a and 150b. This is to prevent the gap between the lower conveyor 160a and the upper conveyor 160b from being arranged at the inlet side of the 160a, 160b, without any friction or resistance, to be disturbed again. The inclination of the conveyor inlet side may be implemented through a combination of the positions of the plurality of guide rollers 161 and 162 as shown in FIG. 5.

Meanwhile, driving rollers 163 are disposed at opposite ends of the inlet side of the lower conveyor 160a and the upper conveyor 160b, and the driving rollers 163 of the lower conveyor 160a and the driving rollers of the upper conveyor 160b, respectively ( Since the 163 rotates simultaneously through one motor 164, the lower conveyor 160a and the upper conveyor 160b move at the same speed. Therefore, it is possible to transfer while maintaining the aligned state of the pocket spring connecting body 10 through the first and second rotating bodies 150a and 150b. To this end, a pair of lower first and second bevel gears 165a and 165b for driving the lower conveyor 160a and a pair of upper agents for driving the upper conveyor 160b are provided on the rotating shaft 164a of the motor 164. 1 and 2 bevel gears 166a and 166b are installed, and the lower first bevel gear 165a and the upper first bevel gear 166a are linked with the shaft 167. And it can be illustrated that the lower second bevel gear 165b and the upper second bevel gear 166b are structures connected to the driving rollers 163 through drive shafts, respectively.

And when the transfer of the pocket spring connecting body 10 from the conveyor is completed, an adhesive is applied to one side of the pocket spring connecting body 10, and then the assembly transfer platform 171 connected to the cylinder 172 provided on one side of the conveyor The pocket spring connector 10 is pushed to the assembly shelf 170 to transfer the pocket spring connector 10 to assemble the mattress.

The present invention described above is only exemplary, and those skilled in the art to which the present invention pertains will appreciate that various modifications and other equivalent embodiments are possible. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims.

100: pocket spring automatic alignment lead-in device
110: mounting module 111: support
112: rail 113: moving shelf
113a: Pocket spring support 113b: Guide projection
114: pocket spring support plate 114a: magnet
115: grip portion 116a, 116b: fixed panel, moving panel
117: cylinder device 117a: piston rod
117b: Guide bar 118: Upper support plate
118a: Bracket 118b: Guide projection
130: cutting module 131a: first cutting body
131b: second cutting body 132: cutter
133: cutter movement groove 134: vertical guide groove
150a, 150b: first and second rotating bodies 151: seating groove
153: rotating shaft 160a: lower conveyor
160b: Upper conveyor 161: Guide roller
162: guide roller 163: driving roller
164: motor 164a: motor rotating shaft
165a,165b: lower 1st, 2nd bevel gear 166a,166b: upper 1st, 2nd bevel gear
167: shaft 170: assembly shelf
171: assembly transport 172: cylinder
10: pocket spring connector 11: pocket
12: spring

Claims (6)

A device for cutting and aligning a pocket spring connector in which a spring is inserted into a plurality of pockets connected in a row to a predetermined length,
A conveyor for conveying the pocket spring connection body;
A pair of left and right first and second rotating bodies for supplying a pocket spring connection body to the conveyor;
A mounting module for mounting a pocket spring connection between the pair of first and second rotating bodies;
Includes; cutting module disposed between the first and second rotating body and the mounting module to cut the pocket spring connection body to a predetermined length;
While each pocket spring constituting the pocket spring connecting body passes through the pair of first and second rotating bodies, the gaps between the pocket springs are constantly aligned and transferred through the conveyor.
The mounting module,
A rail-formed support; A moving shelf mounted movably back and forth on the rail of the support; Includes; the side of the rear area of the mobile shelf parallel to the grip portion for fixing the pocket spring connection;
The grip portion comprises a fixed panel, a movable panel arranged to face the fixed panel, and a cylinder spring connected to the fixed panel and the movable panel to move the movable panel left and right. Device.
According to claim 1,
Each of the pair of first and second rotating bodies is formed in a cylindrical shape in which a plurality of seating grooves are formed in a semi-circular shape to seat the pocket spring along the outer circumferential surface,
Pocket spring automatic alignment inlet device, characterized in that the seating groove of the first rotating body and the seating groove of the second rotating body are arranged to correspond to each other.
According to claim 1,
The conveyor is composed of a pair of lower conveyors, and an upper conveyor, the pocket spring automatic alignment inlet device, characterized in that the inlet side to which the pocket spring connection is supplied is a structure that is opened up and down.
delete According to claim 1,
The cutting module,
Consists of a pair of first and second cutting bodies that move to the left and right and open and close
The first cutting body is provided with a cutter installed to be elevated,
The second cutting body is in contact with the first cutting body, the pocket spring automatic alignment inlet device, characterized in that a vertical guide groove is formed so as to move up and down in a state where a part of the cutter is fitted.
According to claim 1,
A pocket spring support plate is disposed in one front area of the mobile shelf,
The pocket spring support plate is provided with a magnetic force to pull each spring inserted in the pocket spring connector so that the pocket spring connector seated on the movable shelf does not collapse due to the shock generated during the left and right movement of the moving panel or the front and rear movement of the transport shelf. Pocket spring automatic alignment inlet device, characterized in that the magnet is installed.

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