KR101733099B1 - Cutting Apparatus for Desiccant - Google Patents

Abstract

The desiccant cutting apparatus according to an embodiment of the present invention includes a supply roller which is formed by intersecting a joint portion and a storage portion and supplies a strip-shaped desiccant strip formed with an eye mark to the joint portion, A mark sensor for sensing an eye mark; a desiccant belt having passed through the mark sensor passes between a fixing roller and an elastic roller, the fixing roller and the elastic roller are rotated by abutting against each other, and the elastic roller is connected to an elastic member A driving motor connected to the fixing roller to rotate the fixing roller and the elastic roller in a forward or reverse direction, a feeding motor connected to the fixing roller for detecting movement of the tension roller, A cutting sensor for detecting the position of the moisture-permeable strip conveyed by the tension roller, And a discharge sensor for detecting the position of the desiccant strip cut by the cutting unit, wherein the mark sensor, the cutting sensor, the feeding sensor and the discharge sensor The drive motor rotates in the forward or reverse direction in accordance with the detection signal of the detection sensor to correct the position of the moisture desorber strip.

Description

{Cutting Apparatus for Desiccant}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a desiccant cutting apparatus, and more particularly, to a desiccant cutting apparatus for precisely cutting a desiccant to prevent cutting failure.

Desiccants are packed together when packing foodstuffs such as steaming, dry chemicals, precise machinery, and electronics. This desiccant is mainly used in which silica gel (silica-gel) is contained in the packaging material.

 Generally, the desiccant is prepared by putting a silica gel in an envelope-type wrapping paper in the form of a long strip, joining the upper and lower ends of the silica gel accommodating portion and continuously wrapping the unit desiccant. The unit desiccant is introduced one by one at the time of packaging such as the kimchi packaging. At this time, an apparatus for cutting the desiccant has been developed since it is necessary to cut the continuous desiccant packed with the unit desiccant and input.

A related art is disclosed in Korean Patent Laid-Open No. 10-2004-0011581 (Apr. 2, 2004.) discloses a desiccant manufacturing apparatus. The present invention relates to a desiccant manufacturing apparatus, A process of manufacturing a continuously supplied nonwoven fabric with a certain type of wrapping paper, a process of filling silica gel as an absorbent into the inside of the wrapping paper, a process of filling the inside of the wrapping paper with a silica gel and then sealing And a series of desiccant manufacturing processes for cutting the packaged desiccant can be performed in one apparatus, thereby enabling the mass production of the desiccant. The conventional technology for this purpose is a nonwoven fabric feeding device for feeding a nonwoven fabric, a nonwoven fabric lapping device for folding the supplied nonwoven fabric in half, an ultrasonic adapter for bonding a nonwoven fabric by ultrasonic welding to form a bag, An absorber filling pipe for filling the nonwoven fabric bag, an absorbent compaction means for filling the absorber filled in the nonwoven fabric bag down to the lower side, a sorbent hopper for storing the absorbent in a predetermined amount, a cutter for cutting the finished desiccant in a single unit, A desiccant conveying means for forcibly conveying the desiccant in the downward direction, and a control panel for controlling the entirety of the apparatus.

In the case of silica gel, it is very important to prevent the silica gel from leaking when a desiccant is contained in the packaging material of a food or medicine as a possible carcinogen that can cause skin diseases or dyspnea.

However, in the conventional technique, the silica gel is cut at the boundaries between the upper side and the lower side of the nonwoven fabric bag in which the silica gel is accommodated through the cutter, so that the cutter cuts the nonbonded portion not the bonded boundary portion of the nonwoven fabric bag, There is a problem that the means for preventing exposure to the chemical or the chemical is not provided.

It is an object of the present invention to solve the above-mentioned problems and to prevent the harmful substances such as silica gel, which are contained in the desiccant, from leaking to the outside by cutting the joint formed on the desiccant strip precisely.

The present invention relates to an image forming apparatus comprising a supply roller which is formed by intersecting a joint portion and a storage portion and supplies a long strip-shaped moisture desorber strip formed with an eye mark to the joint portion, a mark sensor which detects an eye mark of the moisture desorber strip supplied from the supply roller, The moisture permeable belt having passed through the mark sensor passes between the fixing roller and the elastic roller and the outer peripheral edge of the fixing roller and the elastic roller are in contact with each other to rotate and the elastic roller is connected to the elastic member, A driving motor connected to the fixing roller for rotating the fixing roller and the elastic roller in the forward or reverse direction, a feeding sensor for detecting the movement of the tension roller, A cut detection sensor for detecting the position of the conveyed moisture desorber strip; And a discharge sensor for detecting the position of the desiccant strip cut by the cutting unit, wherein the drive motor is driven in response to a detection signal of the mark sensor, the cutting sensor, the feeding sensor and the discharge sensor, And correcting the position of the desiccant strip by forward or reverse rotation of the desiccant strip.

According to a preferred aspect of the present invention, the cutting unit stops when it deviates from a set value of a detection signal of the mark sensor, the cutting sensor, the feeding sensor and the discharge sensor, and the driving motor corrects the position of the moisture- .

According to a preferred aspect of the present invention, at least one or more auxiliary rollers through which a desiccant strip passes from the supply roller are arranged in a transverse direction between the supply roller and the tension roller, and a desiccant belt, A longitudinal guide slot through which the moisture-permeable strip is passed is formed so as to be accurately transferred to the roller portion.

According to an embodiment of the present invention, the desiccant cutting apparatus accurately detects the joint formed on the desiccant strip, cuts the desiccant strip at a precise position according to sensing the position of the desiccant strip many times, The driving motor rotates in the forward direction or the reverse direction to correct the position of the moisture desorber strip so that the work can be carried out without interruption, thereby reducing the defective rate and increasing the productivity.

1 is a side view of a desiccant cutting apparatus according to an embodiment of the present invention;
FIG. 2A is a front view of a desiccant strip inserted into a desiccant cutting apparatus according to an embodiment of the present invention; FIG.
Fig. 2b is a front view of the unit desiccant cut by the desiccant cutting apparatus according to an embodiment of the present invention. Fig.
3 is a longitudinal sectional view of a desiccant cutting apparatus according to an embodiment of the present invention.
4 is a plan view of a desiccant cutting apparatus according to an embodiment of the present invention;
5 is a partially enlarged side view of a desiccant cutting apparatus according to an embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It will be understood by those of ordinary skill in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator And the definitions of these terms should be based on the contents throughout this specification.

The desiccant cutting apparatus 1 according to the embodiment of the present invention is a desiccant cutting apparatus 1 which is formed by intersecting a joint portion and a storage portion and is provided with a feed roller 3 for supplying a long strip-shaped desiccant strip 3 having an eye mark 3c formed on the joint portion 3a, A mark sensor s1 for sensing an eye mark 3c of the moisture-permeable strip 3 supplied from the supply roller 10 and a moisture-sensing strip 3 passing through the mark sensor S1; The fixing roller 21 and the elastic roller 23 rotate while contacting the outer circumferences of the fixing roller 21 and the elastic roller 23 while the elastic roller 23 is connected to the elastic member 23a A tension roller portion 20 which moves in the transverse direction according to the thickness of the moisture barrier strip 3 and a tension roller portion 20 which is connected to the fixing roller 10 so as to move the fixing roller 21 and the elastic roller 23 in a forward or reverse direction A feeding sensor S2 for detecting the movement of the tension roller unit 20 and a driving motor S2 for rotating the tension roller unit S2, A cutting sensor 30 for detecting the position of the desiccant strip transferred by the cutting sensor s3 and a cutting unit 30 for cutting the seam 3a of the desiccant strip 3 passing through the cutting sensor s3, And a discharge sensor S4 for detecting the position of the desiccant strip 3 cut by the cutting unit 30. The mark sensor s1, the cutting sensor S3, the feeding sensor S2, The drive motor 21a is rotated in the forward or reverse direction according to the detection signal of the discharge sensor S4 to correct the position of the moisture desorber strip 3. [

As shown in FIGS. 2A and 2B, the desiccant strip 3 includes a receiving portion 3b having a moisture-proof material such as silica gel therein, and the desiccant strip 3 is formed on the upper and lower sides of the receiving portion 3b The unit moisture desorber 3 'is continuously provided in a form before the unit moisture desorber 3' is cut to form the unit desiccant 3 'so that the receiving unit 3b and the unit desiccant 3' Means a packaging material in the form of a long strip in which the joints 3a are formed at intersections. An eye mark 3c is formed on the joint 3a so as to enable mass production. The space may contain various functional materials including deoxidizing agent as well as silica gel which is a moisture-proof material.

The desiccant cutting device 1 according to the present invention is formed by mounting various sensors and devices on a housing H as shown in FIG.

The desiccant belt 3 is wound around the feeding roller 10 and fed to a device installed in the housing H which is a non-driving roller formed in a transverse direction, The dehumidifying agent cutting device 1 according to the embodiment of the present invention is characterized in that the supply roller 10 is rotated by the force of the conveying force of the desiccant belt 3 in the housing H, And the supply roller 10 is vertically formed from the arm 10a. The supply roller 10 is fixed to one end of the arm 10a which is connected to the upper side and is elongated in the rear direction.

The desiccant strip 3 supplied from the supply roller 10 may pass through at least one or more auxiliary rollers. The desiccant desiccator 1 according to an embodiment of the present invention may have a structure as shown in Figs. 1 and 4 A first auxiliary roller 11a provided at the other end of the arm 10a and supplying the desiccant belt 3 supplied from the supply roller downward and a second auxiliary roller 11b passing through the first auxiliary roller 11a A second auxiliary roller 11b formed on the upper rear side of the housing to raise the desiccant strip 3 upward and a desiccant belt 3 passing through the second auxiliary roller 11b downward, And a third auxiliary roller 11c formed on the upper front side of the housing H. The first, second, and third auxiliary rollers 11 may not necessarily be formed so as to accurately transfer the desiccant strip 3 to the tension roller unit 20 to be described later.

In addition, the first, second, and third auxiliary rollers 11 according to an exemplary embodiment of the present invention may be non-powered and rotated by the tension roller unit 20.

As shown in FIG. 1, the first auxiliary roller 11a may be formed as a device having a guide hole formed therein to allow the moisture-permeable strip to pass through the second auxiliary roller 11b .

The desiccant belt 3 having passed through the third auxiliary roller 11c passes through the guide slot 13a and is conveyed to the tension roller unit 20. The guide slot 13a is provided with a desiccant belt 3 falling downward, The guide slot 13 of the desiccant cutting apparatus 1 according to the embodiment of the present invention is formed so as to convey the desiccant belt 20 between the plurality of plates formed in the vertical direction, (3). The guide slot 13 may not be formed so as to accurately transfer the desiccant strip 3 to the tension roller portion 20 to be described later.

The mark sensor S1 senses the moisture desorber strip 3 passing through the guide slot 13a and passes through between the supply roller 10 and the tension roller portion 20 It is possible to detect the position of the eye mark 3c formed on the moisture barrier strip 3 and to detect the eye mark 3c formed on the moisture barrier strip 3 passing through the guide slot 13a according to an embodiment of the present invention When the position of the eye mark 3c deviates from the set value, the tension roller unit 20 performs the forward rotation or the reverse rotation to correct the position of the desiccant belt 3.

The desiccant belt 3 having passed through the mark sensor S1 is conveyed to the tension roller unit 20. The tension roller unit 20 is a device for pulling and conveying the desiccant belt 3, 5, the tension roller unit 20 of the desiccant cutting apparatus 1 according to the embodiment of the present invention includes a fixing roller 21 and an outer peripheral edge of the fixing roller 21, Elastic roller. A driving motor 21a is connected to the fixing roller 21 to rotate the elastic roller 21 and the elastic roller 23 is rotated in contact with the outer circumference of the fixing roller 21, And is rotated in the direction opposite to the fixing roller 21 by the rotational force of the roller 21. [ The elastic roller 23 is connected to the elastic member 23a formed on the housing H and is elastically biased toward the fixing roller 21 in the normal state and is positioned between the fixing roller 21 and the elastic roller 23 When the desiccant strip 3 is inserted, it moves in the lateral direction according to the thickness of the desiccant strip 3.

2A and 2B, the receiving portion 3b containing a moisture-proof material such as silica gel is thick because the moisture-proof material has a large volume, and the joint portion 3a is thick Both sides are bonded together and the thickness is very thin. When the receiving portion 3b of the desiccant belt 3 passes between the fixing roller 21 and the elastic roller 23, the elastic roller 23 moves in a direction opposite to the fixing roller 21, The elastic roller 23 moves toward the fixing roller 21 when the junction of the belt 3 is passed and the moisture barrier strip 3 is in close contact with the fixing roller 21 and the elastic roller 23 So that the moisture-desorber strip 3 is pulled by the tension roller portion 20.

The movement of the tension roller unit 20 is sensed by a feeding sensor S2 which senses the movement of the elastic roller 23 when it is opposed to the fixing roller 21, 3 when the elastic roller 23 is moved toward the fixing roller 21 and is detected as a junction 3a of the moisture barrier strip 3 so that the moisture barrier strip 3 can be received Thereby discriminating the position of the portion 3b and the joint 3a. When the position of the desiccant strip 3 is out of the set value, the position of the desiccant strip 3 is selectively corrected by rotating the driving motor 21a in the forward or reverse direction.

The position of the desiccant belt 3 conveyed by the tension roller unit 20 is detected by the cutting sensor S3. The cutting sensor S3 senses the position where the desiccant belt 3 is to be cut .

A guide slot 13b may be formed between the tension roller portion and the cutting unit so that the moisture desorber strip passing through the tension roller portion is accurately transferred toward the cutting unit.

The desiccant belt 3 passing through the tension roller unit 20 passes through the cutting unit 30. The cutting unit 30 cuts the joint 3b of the desiccant belt 3, According to an embodiment of the present invention, the cutting unit 30 includes a slide 31 with a stick nib for cutting the desiccant strip 3, and a slide motor 33 connected to the slide. The slide 31 is operated when the values of the mark sensor S1, the feeding sensor S2, the cutting sensor S3 and the discharge sensor S4 are within a set value, and the sensors S1, It is possible to precisely cut the joining portion 3a of the moisture desorber strip 3 by the use of the moisture absorbing material S2, .

The desiccant belt 3 having passed through the cutting unit 30 is cut by the cutting unit 30 and discharged to the outside of the housing H. [ At this time, a discharge sensor S4 is formed at the lower end of the cutting unit 30 to detect whether the moisture-permeable strip 3 is cut and discharged. The desorption sensor S4 checks the presence or absence of the desiccant strip 3. If the desiccant strip 3 is cut off, the desiccant strip 3 is not detected because the unit moisture desorber 3 ' , The moisture-permeable strip (3) is detected if the moisture-permeable strip (3) is not cut off. At this time, when the desiccant strip 3 is detected, the discharge sensor S4 sends a signal to the driving motor 21a of the tension roller unit 20 so that the joint of the desiccant strip 3 is positioned in the cutting unit The position of the moisture-desorber strip 3 is corrected by forward rotation or reverse rotation of the driving motor.

The sensors S1, S2, S3, and S4 may be turned on when the desiccant belt 3 is out of the set values of the mark sensor S1, the feeding sensor S2, the cutting sensor S3 and the discharge sensor S4. The position of the desiccant strip 3 can be corrected by moving the driving motor 21a after the cutting unit 30 is stopped and the cutting unit 30 can be restarted.

As described above, the desiccant strip 3 passes through the mark sensor S1, the feeding sensor S2, the cutting sensor S3 and the discharge sensor, and the position of the desiccant strip is divided into four stages The desiccant strip 3 can be cut by the cutting unit 30 at an accurate position and the desiccant strip 3 is sandwiched between the mark sensor S1 and the feeding sensor S2 and the cutting sensor S3, The driving motor 21a of the tension roller unit 20 is rotated in the forward or reverse direction to stop the drying unit 30 And the cutting unit 30 is restarted. Therefore, the desiccant cutting apparatus 1 according to an embodiment of the present invention can accurately and uniformly produce the unit desiccant 3 ', thereby preventing defects Productivity will increase.

1: Desiccant cutting device
3: Desiccant strip 3 ': Unit desiccant
3a: joint portion 3b: accommodating portion
3c: Eye mark H: Housing
10: Feed roller 11a: First auxiliary roller
11b: second auxiliary roller 11c: third auxiliary roller
13a, 13b: guide slot 20: tension roller portion
21: Fixing roller 21a: Driving motor
23: elastic roller 23a: elastic member
30: Cutting unit 31: Slide
33: Slide motor 40: Guide plate
S1: Mark sensor S2: Feeding sensor
S3: Cutting detection sensor S4: Emission detection sensor

Claims (4)

A supply roller which is formed by intersecting the abutment portion and the accommodating portion and supplies a long strip-shaped moisture-proof strip formed with an eye mark on the abutment portion;
A mark sensor for sensing an eye mark of the moisture-proof strip supplied from the supply roller;
The moisture-permeable belt passed through the mark sensor passes between a fixing roller and an elastic roller which are rotated by abutting against each other, and the elastic roller is connected to an elastic member, and a tension roller ;
A driving motor connected to the fixing roller for rotating the fixing roller and the elastic roller in a forward or reverse direction;
A cutting detection sensor for sensing a position of the moisture desorber strip conveyed by the tension roller;
A cutting unit for cutting a joint portion of the desiccant strip passed through the cutting detection sensor;
At least one or more auxiliary rollers arranged transversely between the feed roller and the tension roller and through which the moisture-permeable strip passes from the feed roller;
And a longitudinal guide slot mounted between the auxiliary roller and the tension roller for allowing the moisture-permeable strip having passed through the auxiliary roller to be accurately transferred to the tension roller, the longitudinal guide slot passing through the moisture-proof strip,
A feeding sensor for sensing movement of the tension roller;
And a discharge sensor for detecting the position of the desiccant strip cut by the cutting unit,
The cutting unit stops when the detection signal value of the mark sensor, the cutting sensor, the feeding sensor and the discharge sensor deviate from the set value, and the drive motor rotates forward or reverse to correct the position of the moisture- Wherein the drying is performed after the drying. delete delete The method according to claim 1,
Wherein a longitudinal guide slot is formed between the tension roller portion and the cutting unit so that the desiccant strip passing through the tension roller portion is accurately transferred to the cutting unit.

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