KR100957238B1 - Unit for transferring glass plate - Google Patents

Abstract

PURPOSE: A glass plate transferring unit is provided to minimize the impact due to vibration generated during transferring a glass plate by installing a buffer member in a glass plate transferring unit. CONSTITUTION: A body frame(1) includes a horizontal stand(1a,1b), a vertical stand(1c,1d), and a perpendicular stand(1e). A cradle groove(201) perpendicularity leaves a plurality of glass plates with a uniform interval. A traction bar(3) is formed in the upper part the body frame. In one side of a holder, an elastic member where a plurality of elastic plates(401) are formed in a body is combined in the elastic member(4). A support stand(7) forms a support groove(701) where a side of the glass plate is inserted. In both end parts of the support stand, a fixing unit(702) is formed.

Description

Unit for transferring glass plate

The present invention relates to a glass plate conveying unit, and more particularly, to a glass plate conveying unit capable of preventing damage to the glass plate by suppressing an impact applied to the glass plate generated in the process of transferring a plurality of glass plates.

Glass plate is widely used in a wide variety of technical fields, the most commonly used field is the display field, in particular, as the sales of large TVs increases, the production of glass plates used in large TVs is rapidly increasing.

However, unlike a general glass plate, a large glass plate is easily broken by external shocks or damages such as scratches on the surface. Therefore, in order to prevent this, it is common to perform a heat treatment for hardening the surface of the glass plate.

In other words, when the glass plate is heat-treated, the surface is strengthened and resistant to external impacts such as scratches and scratches, so that the durability is greatly improved and the light transmittance is improved. Since the screens of various display products to be used can be more sharply obtained, most of the glass plates used in such display products have recently undergone heat treatment.

However, as the demand for glass plates subjected to heat treatment increases as described above, a lot of automation equipment for glass plate heat treatment is installed. In such a facility, it is very necessary to transfer glass plates between processes.

In other words, when heat-treating a glass plate, a large glass plate is heat-treated and then cut into a required size. Therefore, in a heat treatment automation facility, a large glass plate needs to be transferred between processes. It is common to use glass plate conveying units which can be conveyed at one time.

The conventional glass plate conveying unit is configured to form a hexagonal body frame by using a crossbar, a vertical rod and a vertical stand, and then a holder having a mounting groove formed thereon so as to vertically mount a plurality of glass plates in the body frame in the body frame. By installing and mounting a number of glass plates in the mounting groove, the main frame is transported to transfer several glass plates at once.

However, when a plurality of glass plates are mounted on the glass plate conveying unit, since the total weight of the glass plate reaches tens to hundreds of kilograms, the glass plate conveying unit must also have excellent durability and strength in order to endure the weight. do.

Therefore, after a plurality of glass plates are vertically mounted on a metal plate conveying unit made of metal, fine vibrations are generated in the process of conveying the glass plate conveying unit using a conveying means such as a moving cart or a conveying rail. As it is delivered to the glass plate through the glass plate, the impact of the glass plate mounted on the cradle is very frequent.

As such, when a crack occurs in the glass plate, the glass plate is not usable, and thus, the glass plate is not immediately processed, thereby causing a large number of defects of the glass plate in the glass plate heat treatment process.

The present invention has been made in order to solve the above-mentioned conventional problems, by installing a cushioning member in the holder on which the glass plate is mounted in the glass plate transfer unit to minimize the external shock is directly transmitted to the glass plate damage of the glass plate generated during the glass plate transfer The purpose is to help prevent this.

In order to achieve the above object, the present invention is installed in the body frame (1) and the body frame (1) constituted by combining the cross bars (1a, 1b), vertical bars (1c, 1d) and vertical stand (1e) And a cradle (2) having a mounting groove (201) for vertically mounting a plurality of glass plates at regular intervals, and a tow (3) formed on the body frame (1) to carry the body frame (1) In the glass plate conveying unit,

Between the vertical frame (1c) located in the lower portion of the main frame (1) formed integrally the cradle (2) formed with a constant groove 201 at a predetermined interval, the inside of the cradle (201) of the cradle (2) It is provided with a buffer means,

Between the longitudinal stand (1d) located in the upper portion of the body frame (1) is a configuration in which the support (7) formed with the support groove 701 is fitted in the left and right symmetry.

On the other hand, the buffer means is a mounting groove 201 formed in the holder (2) has an elastic plate (401) formed to be bent from the upper portion of the elastic member (4) by coupling the elastic member 4 to one side of the holder (2) It includes what is located in).

In addition, the buffer means includes installing the spring (5, 5 ') in the mounting hole (201a) formed on the bottom surface or the bottom surface of the mounting groove 201 of the holder (2).

In addition, the buffer means includes inserting the buffer block 6 made of a material having excellent elastic force in the installation hole (201a) formed on the bottom surface of the mounting groove 201 of the holder (2).

Further, fixing portions 702 are formed at both ends of the support 7, respectively, and an insertion groove 702a into which the longitudinal stand 1d is fitted is formed at the bottom of the fixing portion 702, and the fixing portion 702 The outer side surface includes a fixing screw 702b for fixing the position of the fixing portion 702 into which the longitudinal stand 1d is fitted.

As described above, the present invention has an effect of preventing the breakage of the glass plate during the glass plate transfer process by installing a shock absorbing member in the glass plate transfer unit to minimize the direct transfer of the shock caused by the vibration generated during the glass plate transfer process to the glass plate. have.

In addition, since the breakage of the glass plate during the transfer between the glass plate heat treatment process can be prevented, there is also an effect that can improve the productivity of the glass plate heat treatment process.

1 is a perspective view showing a configuration according to a preferred embodiment of the present invention, as shown in the drawings constituted by combining the cross bars (1a, 1b), vertical bars (1c, 1d) and vertical bar (1e) in the shape of a cube In order to carry the main frame 1, the holder (2) formed in the main frame 1 and the mounting groove (201) for vertically mounting a plurality of glass plates at regular intervals, and the main frame (1) Tow (3) formed on the main frame (1) and the cradle (2) formed in the cradle (2) in the cradle groove (201) of the cradle (2) is a buffer means for protecting the glass plate from impact, Consists of the support (7) of the glass plate between the longitudinal poles (1c, 1d) located on the upper portion of the main frame 1, each component will be described in more detail as follows.

First, the main frame 1 of the present invention by combining the cross bars (1a, 1b), vertical bars (1c, 1d) and vertical stand (1e) made of metal in the shape of a cube, the vertical pole (1c) horizontally on the top and bottom, respectively , 1d is configured, and the crossbars 1a and 1b and the vertical bar 1e are coupled between the vertical bars 1c and 1d.

In addition, the reinforcing bar (1f) is laid between the crossbar (1b) located on the top and the crossbar (1c) located on the bottom for structural strength and stability.

Since the main frame 1 configured as described above has a hexahedral shape, the main frame 1 can not only bear the load of the glass plate but also maintain structural stability even when a plurality of glass plates are loaded therein.

On the other hand, inside the main frame (1) is to install a cradle (2) formed a mounting groove 201 for vertically mounting a plurality of glass plates at regular intervals, the cradle (2) is a lower portion constituting the main frame (1) The longitudinal poles 1c are integrally formed by a method such as welding.

At this time, since the mounting grooves 201 are formed at predetermined intervals in the holder 2, the glass plates 8 are inserted into the mounting grooves 201 one by one to be mounted.

In addition, when the glass plate 8 is inserted into the mounting groove 201, the length of the vertical pole 1c is provided when installing the holder 2 between the lower vertical poles 1c so as to stably mount the large glass plate. It would be desirable to install them at regular intervals along the direction.

In addition, the cradle (2) installed in the main frame (1) as described above is to constitute a buffer means for protecting the glass plate that is fitted in the mounting groove 201 from the impact.

That is, the elastic plate 401 is a cradle by combining the elastic member 4 having a plurality of elastic plates 401 integrally formed on one side of the cradle 2 installed between the longitudinal stands 1c of the main frame 1. When the glass plate 8 is inserted into the mounting groove 201 to be mounted inside the mounting groove 201 formed at a predetermined interval in (2), the bottom surface of the glass plate is mounted because the elastic plate 401 supports the glass plate. The mounting is made on the elastic plate 401 without directly contacting the bottom surface of the groove 201.

Therefore, the shock caused by vibration generated when moving or transporting the glass plate conveying unit while the glass plate conveying unit is mounted on the glass plate conveying unit is not directly transmitted to the glass plate through the holder 2, Since the bottom plate is transmitted to the glass plate indirectly through the elastic plate 401 supporting the glass plate, the impact can be reduced.

In addition, when the impact caused by the vibration during the movement or transport of the glass plate transfer unit as described above, the elastic plate 401 vibrates up and down as shown in FIG. It will be possible to prevent damage.

In addition, the shock absorbing means for protecting the glass plate fitted in the mounting groove 201 of the holder (2) from the impact as described above, as well as the elastic member (4) as described above as shown in Figures 4 to 6 (5, 5 ') or a buffer block 6 made of a material such as synthetic rubber having excellent elasticity may be used.

Thus, when using the spring (5, 5 ') or the buffer block (6) by welding the spring (5) directly to the bottom surface of the mounting groove 201, or mounting holes (bottom of the mounting groove 201) 201a is formed, and the spring 5 'or the buffer block 6 is inserted into the installation hole 201a. When the glass plate is inserted into the mounting groove 201, the spring 5, 5' or the buffer block ( 6) by supporting the bottom of the glass plate it is possible to protect the glass plate from the impact by inhibiting the direct transmission of the impact from the holder (2) to the glass plate.

On the other hand, between the vertical pole (1c, 1d) located in the upper portion of the main frame 1 is provided with a support (7) for supporting the glass plate symmetrically.

The support 7 is installed in the support 7 is formed at a predetermined interval, the support groove 701 is formed in the interval is formed the same as the interval formed the mounting groove 201 of the cradle (2).

Therefore, the upper part of the side of the glass plate that is inserted into the mounting groove 201 of the holder (2) is fitted in the support grooves 701 opposed to each other in the support 7 is installed symmetrically on the bottom and both sides of the glass plate, respectively It is to be able to stably mount a plurality of glass plates by being fitted in the mounting groove 201 and the support groove 701.

In addition, fixing portions 702 are formed at both ends of the support 7, respectively, and an insertion groove 702a into which the vertical pole 1d is fitted is formed at the bottom of the fixing portion 702. By installing a fixing screw 702b for fixing the position of the fixing part 702 into which the vertical stand 1d is inserted, the fixing screw 702b after moving the support 7 to the desired position along the vertical stand 1d. Tighten the fixing screw 702b to the side of the longitudinal stand (1d) strongly to be able to firmly fix the position of the support (7).

Therefore, since the support 7 is easy to move and fix the position, it is possible to mount the glass plate of various sizes more stably by moving and fixing the support 7 to an appropriate position according to the size of the glass plate.

1 is a perspective view showing an embodiment according to a preferred configuration of the present invention

Figure 2 is a side cross-sectional view of the present invention

Figure 3 is a side cross-sectional view showing the operation of the buffer member installed on one side of the cradle of the present invention

4, 5, 6 is a side cross-sectional view showing another embodiment of the buffer member of the present invention

Figure 7 is a schematic cross-sectional view showing a coupling state of the crossbar and the longitudinal bar of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: main frame 1a, 1b: crossbar

1c, 1d: vertical stand 1e: vertical stand

2: holder 201: holder

3: traction table 4: elastic member

401: elastic plates 5, 5 ': spring

6: buffer block 7: support

701: support groove 702: fixing portion

702a: Insertion groove 702b: Set screw

8: glass plate

Claims (6)

A main frame 1 formed by combining the cross bars 1a and 1b, the cross bars 1c and 1d, and the vertical stand 1e; Between the vertical frame (1c) located in the lower portion of the main frame 1 to form a mounting groove (201) for vertically mounting a plurality of glass plates at regular intervals and the holder (2); A traction table 3 formed above the main frame 1 to carry the main frame 1; The elastic plate 401 coupled to one side of the cradle 2 to bend from the upper portion of the elastic member 4 is buffered in the mounting groove 201 formed in the cradle 2 In the glass plate conveying unit composed of means, Between the longitudinal stand (1d) located in the upper portion of the main frame 1 is provided with a support (7) formed symmetrically with the support groove 701 is inserted into the side of the glass plate, the high end on both ends of the support (7) Each of the fixing parts 702 is formed to form the insertion groove 702a into which the vertical pole 1d is fitted on the bottom of the fixing part 702, and the fixing part with the vertical pole 1d fitted to the outer surface of the fixing part 702. The glass plate conveying unit containing the installation screw 702b for fixing the position of 702. delete delete delete delete delete

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