KR102139442B1 - Prefabricated exhibition booth - Google Patents

Abstract

The present invention relates to a prefabricated exhibition booth capable of increasing the advertising effect of a product to be exhibited and improving the safety of support of the booth. The prefabricated exhibition booth includes: a floor for forming an exhibition space; pillar frames installed along the edge of the floor; a booth wall installed between one pillar frame and another pillar frame to form a wall surface; at least one information desk installed on one side of an upper portion of the floor, and having a space for seating a guide who guides a corresponding exhibition booth; at least one electric signboard installed to deliver information on the corresponding exhibition booth by emitting light by a light emitting means installed thereinside; lights installed on the pillar frame or on a horizontal frame installed across the pillar frames to illuminate the corresponding exhibition booth; and a support for supporting the outside of the pillar frame or the booth wall to prevent the pillar frame or the booth wall from tilting.

Description

Prefab exhibition booth{PREFABRICATED EXHIBITION BOOTH}

The present invention relates to a prefabricated exhibition booth, and more particularly, to a prefabricated exhibition booth implemented to increase the advertising effect of the product to be exhibited and to improve the support safety of the booth.

In general, an exhibition booth is an installation structure used to sell or display goods by dividing a part of a wide area, such as a street, an exhibition hall, or other event space, and construct a professional structure in the field with wood or rebar, or carry and install a structure. Each member is configured so that it can be assembled freely so that it can be assembled in the field to form a structure.

In particular, the prefabricated booth may be formed as an open type, consisting of a plurality of frames forming a skeleton so that the inside can be seen, and a connector firmly connecting the frame, or closed by installing a panel forming a surface between the frame and the frame. It may be formed of.

Conventional exhibition booths or exhibition booth assemblies or assembly devices for exhibition booths are formed by connecting a frame and a frame to each other by connecting a plurality of connecting pieces three-dimensionally, and being disposed between a frame and a connector or between a frame and a frame. The length of the frame and the assembly angle and selection width of the frame and the frame are wide, so that booths of various shapes can be built, and the assembly and disassembly of the frame and frame are easy.

On the other hand, the above-described background technology is the technical information acquired by the inventor for the derivation of the present invention or acquired in the derivation process of the present invention, and is not necessarily a known technology disclosed to the public before filing the present invention. .

Korean Registered Utility Model No. 20-0411784 Korean Registered Utility Model No. 20-0484378

One aspect of the present invention provides a booth for a prefabricated exhibition, which is implemented to construct an exhibition booth, a product display wall, or a partition in a building, for example, for advertisement of a product.

In addition, there is provided a prefabricated exhibition booth implemented to support a pillar frame or a booth wall using a support frame.

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

Prefabricated exhibition booth according to an embodiment of the present invention, the floor forming a space for the exhibition; A pillar frame installed along the edge of the floor; A booth wall installed between one pillar frame and the other pillar frame to form a wall surface; At least one information desk which is installed on an upper side of the floor and forms a space for a receptionist to guide the booth for the exhibition; At least one electric signboard that is emitted by the light emitting means installed inside to transmit information of the corresponding booth; Lighting to illuminate the exhibition booth is installed on the pillar frame or a horizontal frame that is installed across the pillar frame; And a support supporting the outside of the pillar frame or the booth wall to prevent the pillar frame or the booth wall from being inclined.

In one embodiment, the support is, the upper frame is installed on the outside of the pillar frame or the booth wall; An upper side surface forming an upper sloped surface facing the lower sloped surface of the upper cradle, and a lower cradle installed on the floor; And a support frame installed between the upper holder and the lower holder to support the pillar frame or the booth wall.

In one embodiment, the support frame, the base plate is fixed to the upper inclined surface of the lower holder; A support pillar extending upwardly from the upper portion of the base plate in a square pillar shape; And it is formed in the form of a hexagonal column, and is seated in the vertical direction from the top of the support column, the column support portion for supporting the lower inclined surface of the upper cradle seated on the upper side using an elastic force; may include.

In one embodiment, the pillar support portion is formed in a flat plate support plate for supporting the lower inclined surface of the upper holder; A hexagonal frame extending in a downward direction from a lower portion of the support plate in a hexagonal columnar shape; And a braking lag gear formed in the vertical direction along at least one of the six faces of the hexagonal frame.

In one embodiment, the support pillar, a pillar body extending from the top of the base plate in the form of a square pillar upwards; A support groove formed in a shape corresponding to the shape of the hexagonal frame on an upper portion of the pillar body so that the hexagonal frame can be inserted; A braking unit installed on one side of the support groove facing the braking lag gear, and braking the hexagonal column in close contact with the braking lag gear as the hexagonal frame descends; And elasticity for seating on the lower side of the support groove to support the hexagonal frame seated on its upper side using elastic force, and supplying the fluid contained in the internal space to the braking unit as the hexagonal frame is lowered and compressed. Pedestal; may include.

In one embodiment, the braking unit, a seating plate seated on the braking groove formed on one side of the support groove facing the braking lag gear; A forward cylinder installed on a rear surface of the seating plate and receiving fluid supplied from the elastic pedestal to advance the seating plate in the hexagonal frame direction; It is connected to the front of the seating plate, and forms a close-contact leg gear having a shape corresponding to the braking leg gear on the front side facing the braking lag gear, and is in close contact with the braking lec gear as the seating plate moves forward. A braking plate that brakes the hexagonal frame so that it no longer descends; A sliding groove extending in the vertical direction along the front surface of the seating plate; An elastic body installed under the sliding groove; And a sliding bar installed on the rear surface of the braking plate facing the sliding groove, seated on the sliding groove and slidingly moving in the vertical direction, and supported by the elastic body.

In one embodiment, the elastic pedestal, the upper plate for supporting the hexagonal frame seated on the upper side; A lower plate spaced apart from the lower side of the upper plate and seated on the lower side of the support groove; At least one support spring installed between the upper plate and the lower plate to support the upper plate from an upper side of the lower plate using an elastic force; A fluid tank which is installed between the upper plate and the lower plate and compresses as the upper plate descends to supply a fluid accommodated in an interior space; And a fluid supply pipe extending from the fluid tank to the forward cylinder and transferring fluid supplied from the fluid tank to the forward cylinder.

In one embodiment, the floor, the lower plate seated on the bottom surface of the exhibition space; A buffer plate seated on the upper side of the lower plate to cushion the impact transmitted from the upper side, and a plurality of perforated holes are spaced apart from each other at regular intervals to form perforations; An upper plate seated on an upper side of the buffer plate; And it is seated in each of the perforated holes of the buffer plate, a plate support for supporting the upper plate seated on the upper side of the buffer plate; may include.

In one embodiment, the plate support, an upper plate seated on the lower side of the upper plate to support the upper plate; A lower plate seated on an upper side of the lower plate; A space support unit installed at least one along the upper plate and the lower plate to support a gap between the upper plate and the lower plate using elastic force; It is installed between the upper plate and the lower plate to prevent the gap between the upper plate and the lower plate from opening, and when the upper plate and the lower plate are compressed in a direction close to each other, the fluid contained in the inner space is discharged. A fluid supply ring for supplying; And an upper side or a lower side of the gap supporting portion, which is installed in a symmetrical structure on the lower side of the upper plate and the upper side of the lower plate, on which the gap supporting portion is seated, and is stretched when fluid is supplied from the fluid supply ring. It may include a; elastic compression cylinder that increases the elastic force of the gap support by compressing the gap support.

In one embodiment, the fluid supply ring, the first square ring formed in the form of a square ring; A second square ring formed in a square ring shape and cross-connected to the first square ring; A first support tube extending from the upper portion of the first square ring to the upper plate and having a fluid movement passage for fluid to be transmitted along the inner side; A second support tube extending from the lower portion of the second square ring to the lower plate and having a fluid movement passage for fluid to be transmitted along the inner side; The fluid is accommodated in the inner space, seated in the inner space of the first square ring, and compressed by the upper side of the second square ring as the upper plate and the lower plate are close to each other, and accommodated in the inner space. A first fluid pouch for supplying fluid to the elastic adjustment cylinder through the fluid movement passage of the first support tube; And a fluid accommodated in the inner space, seated in the inner space of the second square ring, and compressed by the lower surface of the first square ring as the upper plate and the lower plate are close to each other to be accommodated in the inner space. It may include; a second fluid pouch for supplying the fluid to the elastic adjustment cylinder through the fluid movement passage of the second support tube.

In one embodiment, the elastic adjustment cylinder is installed on the lower surface of the upper plate or the upper surface of the lower plate, the housing forming an inner space; And a seating plunger seated on the housing and contracting the gap support installed on the outer surface by being pushed out of the housing by the pressure of the fluid as the fluid is supplied to the housing.

According to one aspect of the present invention described above, by implementing so as to be able to configure the exhibition booth, product display wall or a partition in a building for advertising the product, it is possible to efficiently display or promote the product, and install And it can provide an effect to perform the decomposition more efficiently.

In addition, by supporting the pillar frame or the booth wall using a support frame, it is possible to effectively prevent the present invention from being damaged due to vibration or shock transmitted to the pillar frame or the booth wall.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within a range apparent to those skilled in the art from the following description.

1 and 2 are diagrams showing a schematic configuration of a booth for a prefabricated exhibition according to an embodiment of the present invention.
3 is a view showing the support of Figure 1;
FIG. 4 is a view showing the support frame of FIG. 3.
5 and 6 are views showing the support pillar of FIG. 4.
7 is a view showing the installation structure of the braking part of FIG. 5.
8 is a view showing the braking part of FIG. 5.
9 and 10 are views showing the bottom of FIG. 1.
FIG. 11 is a view showing the plate support of FIG. 9.
12 is a view showing the fluid supply ring of FIG.
13 is a view showing the elastic adjustment cylinder of FIG.
14 is a view for explaining the contraction direction of the gap support portion by the elastic adjustment cylinder of FIG. 13.
15 to 19 are views showing another embodiment of the plate support of FIG. 10.

For a detailed description of the present invention, which will be described later, reference is made to the accompanying drawings that illustrate, by way of example, specific embodiments in which the invention may be practiced. These examples are described in detail enough to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the invention are different, but need not be mutually exclusive. For example, certain shapes, structures, and properties described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it should be understood that the location or placement of individual components within each disclosed embodiment can be changed without departing from the spirit and scope of the invention. Therefore, the following detailed description is not intended to be taken in a limiting sense, and the scope of the present invention, if appropriately described, is limited only by the appended claims, along with all ranges equivalent to those claimed. In the drawings, similar reference numerals refer to the same or similar functions across various aspects.

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

1 and 2 are diagrams showing a schematic configuration of a booth for a prefabricated exhibition according to an embodiment of the present invention.

1 and 2, the prefabricated exhibition booth 10 according to an embodiment of the present invention, the floor 11, the pillar frame 12, the booth wall 13, the information desk 14, at least one The above includes the electronic display board 15, the lighting 16 and the support 17.

The floor 11 forms a space for exhibition.

A plurality of pillar frames 12 are installed along the rim of the floor 11 to support the booth wall 13 and are supported by a support 17.

The booth wall 13 is installed between one pillar frame 12 and another pillar frame 12 to form a wall surface, and is supported by a support 17.

The information desk 14 is installed on the upper side of the floor 11 and forms a space for a receptionist to guide the booth for the exhibition.

The electronic display board 15 is emitted to emit light by a light emitting means provided inside, and is installed to transmit information of the corresponding booth.

The lighting 16 is installed in the horizontal frame 18 installed across the pillar frame 12 or between the pillar frames 12 to illuminate the corresponding booth.

The support 17 supports the outside of the pillar frame 12 or the booth wall 13 so as to prevent the pillar frame 12 or the booth wall 13 from tilting.

The prefabricated exhibition booth 10 according to an embodiment of the present invention having the configuration as described above is implemented so that an exhibition booth for advertisement of a product, a wall for product display, or a partition in a building, etc., can be implemented. It is possible to make the exhibition or promotion efficiently, and to install and disassemble more efficiently.

3 is a view showing the support of Figure 1;

Referring to FIG. 3, the support 17 includes an upper mount 100, a lower mount 200 and a support frame 800.

The upper cradle 100 is installed outside the pillar frame 12 or the booth wall 13.

The lower cradle 200, the upper side is formed on the bottom 11 to form an upper slope facing the lower slope of the upper cradle 100.

The support frame 800 is installed between the upper mount 100 and the lower mount 200 to support the pillar frame 12 or the booth wall 13.

The support 17 having the above-described configuration is supported by the pillar frame 12 or the booth wall 13 using the support frame 800, thereby being transferred to the pillar frame 12 or the booth wall 13 The present invention can be effectively prevented from being damaged due to vibration or shock.

FIG. 4 is a view showing the support frame of FIG. 3.

Referring to FIG. 4, the support frame 800 includes a base plate 810, a support column 820, and a column support 830.

The base plate 810 is fixedly installed on the upper inclined surface of the lower cradle 200, and the support pillar 820 is formed extending from the upper portion.

The support pillar 820 is formed to extend from the upper portion of the base plate 810 to a square pillar shape, and a support groove 822 for inserting the pillar support portion 830 is formed at the upper portion.

The pillar support portion 830 is formed in a hexagonal pillar shape, and is inserted and seated vertically and vertically through a support groove 822 formed at an upper portion of the support pillar 820, and uses the elastic force of the elastic pedestal 824 to the upper side. It supports the lower inclined surface of the upper cradle 100 seated on.

In one embodiment, the pillar support 830 may include a support plate 831, a hexagonal frame 832, and a braking lag gear 833.

The support plate 831 is formed in a flat shape to support the lower inclined surface of the upper holder 100, and a hexagonal frame 832 is formed from the lower surface.

The hexagonal frame 832 is formed to extend downward from the lower portion of the support plate 831 in the form of a hexagonal column, and a braking lag gear 833 is formed on at least one of the six surfaces.

The braking lag gear 833 is formed in the vertical direction along at least one of the six surfaces of the hexagonal frame 832, and prevents the hexagonal frame 832 from descending as the braking plate 8233 is in close contact.

5 and 6 are views showing the support pillar of FIG. 4.

5 and 6, the support pillar 820 includes a pillar body 821, a support groove 822, a braking portion 823, and an elastic base 824.

The pillar body 821 is formed to extend from the upper portion of the base plate 810 to a square pillar shape, and a supporting groove 822 for inserting a hexagonal frame 832 is formed on the upper portion.

The support groove 822 is formed in a shape corresponding to the shape of the hexagonal frame 832 on the upper portion of the pillar body 821 so that the hexagonal frame 832 can be inserted, and an elastic pedestal 824 is provided on the lower side of the groove. It is seated, and a braking portion 823 is formed on at least one side surface.

The braking portion 823 is installed on one side of the support groove 822 that faces the braking lag gear 833, and as the hexagonal frame 832 descends, it is in close contact with the braking lag gear 833 to brake the hexagonal column. Order.

That is, when the brake rake gear 833 is installed on the three surfaces of the hexagonal frame 832 as shown in FIG. 7, three brakes 823a, 823b, and 823c are installed. It can be.

The elastic pedestal 824 supports the hexagonal frame 832 seated on the lower side of the support groove 822 and seated on its upper side using elastic force. As the hexagonal frame 832 descends and compresses, The received fluid is supplied to the braking portion 823.

In one embodiment, the elastic pedestal 824 may include an upper plate 8281, a lower plate 8242, a support spring 8243, a fluid tank 8244, and a fluid supply pipe 8245.

The upper plate 8281 is supported by a support spring 8243, is spaced apart from the upper side of the lower plate 8242, supports the hexagonal frame 832 seated on the upper side, and the lower plate as the hexagonal frame 832 descends. The fluid tank 8244 installed between (8242) is compressed.

The lower plate 8242 is spaced apart from the lower side of the upper plate 8281 and seated on the lower side of the support groove 822, and a support spring 8243 and a fluid tank 8442 are installed between the upper plate 8281. .

The support spring 8243 is installed between at least one of the upper plate 8281 and the lower plate 8242 to support the upper plate 8281 from the upper side of the lower plate 8242 by using an elastic force.

The fluid tank 8244 is installed between the upper plate 8281 and the lower plate 8242, and is compressed as the upper plate 8281 descends to supply the fluid contained in the interior space through the fluid supply pipe 8245.

The fluid supply pipe 8245 is formed extending from the fluid tank 8442 to the forward cylinder 8232, and transfers the fluid supplied from the fluid tank 8244 to the forward cylinder 8232.

8 is a view showing the braking part of FIG. 5.

5 and 8, the braking portion 823 includes a seating plate 8231, a forward cylinder 8232, a braking plate 8233, a sliding groove 8234, an elastic body 8235, and a sliding bar 8236 It includes.

The seating plate 8231 is seated in a braking groove 8221 formed on one side of the supporting groove 822 facing the braking lag gear 833, and is moved in the front-rear direction by a forward cylinder 8232 installed at the rear side. As it moves, the braking plate 8233, which is connected to the front surface as it moves forward, is brought into close contact with the braking rack gear 833.

The forward cylinder 8232 is installed on the rear surface of the seating plate 8231 and receives the fluid supplied from the elastic pedestal 824 through the fluid supply pipe 8237 to receive the seating plate 8231 in the hexagonal frame 832 direction. Advance.

The braking plate 8233 is connected to the front surface of the seating plate 8231, and forms a close-legged lag gear G having a shape corresponding to the braking lag gear 833 on the front side facing the braking lag gear 833, , As the seating plate 8231 advances, it is in close contact with the braking lag gear 833 to brake the hexagonal frame 832 so that it is no longer descending.

The sliding groove 8234 is formed to extend in the vertical direction along the front surface of the seating plate 8231, and the sliding bar 8236 is seated and slidingly moved in the vertical direction, and an elastic body 8235 is installed at the lower side.

The elastic body 8235 is installed below the sliding groove 8234 and supports the sliding bar 8236 seated in the sliding groove 8234 using elastic force.

The sliding bar 8236 is installed on the rear surface of the braking plate 8233 facing the sliding groove 8234, seated on the sliding groove 8234, sliding in the vertical direction, and supported by the elastic body 8235.

9 and 10 are views showing the bottom of FIG. 1.

Referring to FIG. 9, the bottom 11 includes a lower plate 300, a buffer plate 400, an upper plate 500 and a plate support 700.

The lower plate 300 is seated on the bottom surface of the exhibition space, and the buffer plate 400 is seated on the upper side.

The buffer plate 400 is seated on the upper side of the lower plate 300 to cushion the impact transmitted from the upper side, and a plurality of perforated holes 410 and 420 are spaced apart from each other at regular intervals to form perforations, and the upper plate on the upper side 500 is seated.

The upper plate 500 is a plate corresponding to the upper side exposed to the outside, and can be printed with a design of a product for aesthetic sense or can be made of a carpet or the like for the convenience of walking, and is provided on the upper side of the buffer plate 400. To settle down.

The plate support 700 is seated in each of the perforated holes 410 of the buffer plate 400, and supports the upper plate 500 seated on the upper side of the buffer plate 400.

Here, the perforated holes (410, 420), when the plate support 700 according to an embodiment is seated as shown in Figure 9 is formed with a perforated circular 410, the other as shown in Figure 10 When the plate support 600 according to the embodiment is seated, it may be perforated with a quadrangular shape 420.

FIG. 11 is a view showing the plate support of FIG. 9.

Referring to FIG. 11, the plate support 700 includes an upper plate 710, a lower plate 720, a gap support 730, a fluid supply ring 740, and an elastic adjustment cylinder 750.

The upper flat plate 710 is spaced apart from the upper side of the lower flat plate 720 by a gap support 730 and seated on the lower side of the upper flat plate 500 to support the upper plate 500.

The lower flat plate 720 is spaced apart from the lower side of the upper flat plate 710 by a gap support 730 and seated on the upper side of the lower plate 300.

The gap support portion 730 is formed of an elastic body such as a spring, and is installed between at least one of the upper plate 710 and the lower plate 720 to use the elastic force between the upper plate 710 and the lower plate 720. To support the gap.

The fluid supply ring 740 is installed between the upper plate 710 and the lower plate 720 to prevent the gap between the upper plate 710 and the lower plate 720 from widening, and the upper plate 710 and the lower plate When the flat plate 720 is compressed in a direction close to each other, the fluid L accommodated in the inner space is supplied to the elastic adjustment cylinder 750.

The elastic adjustment cylinder 750 is respectively installed in a symmetrical structure on the lower surface of the upper plate 710 on which the gap supporting portion 730 is seated and the upper surface of the lower plate 720, so that the upper or lower side of the gap supporting portion 730 is provided. It is installed, and when fluid is supplied from the fluid supply ring 740, it is extended to compress the gap support 730 to increase the elastic force of the gap support 730.

The plate support 700 having the configuration as described above does not simply support an object by using an elastic force, but according to the gap support unit 730 forming an elastic force in the case where vibration or shock continuously increases. By compressing, the elastic force by the gap support 730 is increased to prevent the gap between the top plate 710 and the bottom plate 720 from becoming narrower, and vibration or shock can be attenuated more efficiently.

12 is a view showing the fluid supply ring of FIG.

Referring to FIG. 12, the fluid supply ring 740 includes a first square ring 741, a second square ring 742, a first support tube 743, a second support tube 744, and a first fluid pouch 745 and a second fluid pouch 746.

The first square ring 741 is formed in the shape of a square ring and is cross-connected with the second square ring 742 as shown in FIG. 12, and the first support tube 743 is installed on the upper side, and the ring The first fluid pouch 745 is installed in the inner space.

The second square ring 742 is formed in the form of a square ring and is cross-connected with the first square ring 741, and a second support tube 744 is installed at the lower side, and a second in the inner space of the ring. The fluid pouch 746 is installed.

The first support pipe 743 is formed to extend from the upper portion of the first square ring 741 to the upper plate 710 and fluid for transferring the fluid L supplied from the first fluid pouch 745 along the inner side. A movement passage is formed, and the fluid L is transferred to the elastic adjustment cylinder 750 installed on the upper plate 710.

The second support tube 744 is formed to extend from the lower portion of the second rectangular ring 742 to the lower plate 720 and fluid for transferring the fluid L supplied from the second fluid pouch 746 along the inner side. A movement passage is formed, and the fluid L is transferred to the elastic adjustment cylinder 750 installed on the lower plate 720.

The first fluid pouch 745, the fluid is accommodated in the inner space, seated in the inner space of the first square ring 741, the second square as the upper plate 710 and the lower plate 720 are close to each other The fluid compressed in the upper side of the ring 742 and accommodated in the inner space is supplied to the elastic adjustment cylinder 750 through the fluid movement passage of the first support tube 743.

The second fluid pouch 746, the fluid is accommodated in the inner space, seated in the inner space of the second square ring 742, the first square as the upper plate 710 and the lower plate 720 are close to each other The fluid compressed in the lower surface of the ring 741 and accommodated in the inner space is supplied to the elastic adjustment cylinder 750 through the fluid movement passage of the second support tube 744.

13 is a view showing the elastic adjustment cylinder of FIG.

Referring to FIG. 13, the elastic adjustment cylinder 750 includes a housing 751 and a seating plunger 752.

The housing 751 is installed on the lower surface of the upper plate 710 or the upper surface of the lower plate 720, and forms an inner space for receiving the fluid L, and the seating plunger 752 is connected. .

The seating plunger 752 is seated on the housing 751 and is pushed out of the housing 751 by the pressure of the fluid L as the fluid L is supplied to the housing 751 and installed on the outer surface. The support portion 730 is contracted.

The elastic adjustment cylinder 750 having the above-described configuration, as shown in FIG. 14(a), does not compress the gap support 730 at normal times, so that the length of the gap support 730 is t1. , As the upper plate 710 and the lower plate 720 are compressed, the length of the gap support 730 is t2 (t1) by compressing the gap support 730 by the fluid L supplied from the fluid supply ring 740 > t2) so that the elastic force by the gap support 730 can be increased.

15 to 19 are views showing another embodiment of the plate support of FIG. 10.

15, the plate support 600 according to another embodiment includes an upper support 610, a lower support 620, an upper support 630, a lower support 640 and a support spring 650. .

The upper pedestal 610 is seated on the lower side of the upper plate 500 to support the upper plate 500, and is formed in a box shape in which the lower side is open, as shown in FIG. 16, and both sides of the lower opening entrance Each of 611 is formed to be bent toward the inside, and is supported by the upper support 630.

The lower pedestal 620 is seated on the upper side of the lower plate 300, and is formed in a box shape in which the upper side is open to form an upper and lower symmetrical structure with the upper pedestal 610, as shown in FIG. 16, and the upper opening Both rims 621 of the entrance are formed to be bent toward the inside, and the lower support 640 is seated on the upper side.

The upper support 630 is installed under the upper support 610 to support the upper support 610, and is fastened to the upper side of the lower support 640.

The lower supporter 640 is connected to the lower side of the upper supporter 630 and seated on the upper side of the lower supporter 620 to support the upper supporter 630.

A plurality of support springs 650 are installed along the upper support 630 and the lower support 640 to support the upper support 630 and the lower support 640 using elastic force.

The plate support 600 having the configuration as described above is a configuration that is installed on the lower side of the upper plate 500, and can not only absorb vibrations and impacts in the vertical direction using the support spring 650, but also the upper portion. Through the sliding movement of the front and rear directions of the base 610 and the lower base 620, it is possible to provide a comfortable walking sense when walking by a pedestrian.

Referring to FIG. 17, the upper support 630 includes an upper body 631, two pairs of upper rails 632, four upper support rollers 633, an upper sliding rail 634, a fastening groove 635, and It includes a seating groove 636.

The upper body 631 is seated in the lower space of the upper pedestal 610 to support the upper pedestal 610 and is fastened to the upper side of the lower support 640 as shown in FIG. 19.

The upper rail 632 is formed to extend in the longitudinal direction in the left and right of the upper front end and the rear end of the upper main body 631, and the upper support roller 633 is seated on each rail.

The upper support roller 633 is seated on each of the two pairs of upper rails 632 so that the upper pedestal 610 seated on the upper body 631 is moved in the front-rear direction, and is seated on the upper side of the upper body 631. The upper pedestal 610 is supported.

At this time, the upper support roller 633, as shown in Figure 19, a part of the roller is exposed to the upper side of the upper body 631 to support the inner surface of the upper support 610, the upper support 610 follows this Seat it so that it can move in the front-rear direction.

The upper sliding rail 634, as shown in Fig. 19, the bent both side rims 611 of the upper pedestal 610 are fastened, so that the front and rear lengths are respectively on the upper sides of the upper body 631 so as to be slidable in the front-rear direction. It is formed to extend in the direction, and the rotating roller 612 is lined and installed along the bottom surface of the rail to reduce frictional force when sliding the upper pedestal 610.

The fastening grooves 635 are formed to extend in front and rear longitudinal directions, respectively, on both upper and lower sides of the lower support 640, that is, on both sides of the upper body 631 so that the fastening blades 642 can be fastened.

The seating groove 636 is formed to extend in the front-rear direction along the lower one side and the other side of the upper body 631 so that the support spring 650 can be seated.

Referring to FIG. 18, the lower support 640 includes a lower body 641, a fastening blade 642, two pairs of lower rails 643, four lower support rollers 644 and a sliding rail 645. .

The lower body 641 is seated on the lower pedestal 620, supports the upper body 631 seated on the upper side, and lower rails 643 are formed on the left and right sides of the lower front and rear ends, respectively.

The fastening blade 642 is formed to extend in an upward direction along one side and the other side of the upper side of the lower body 641, and the upper portion is bent in the inner direction to be fastened to the fastening groove 635 of the upper support 630.

The lower rail 643 is formed to extend in the longitudinal direction in the front and rear of the lower front and rear ends of the lower body 641, and the lower support roller 644 is seated on each rail.

The lower support rollers 644 are respectively seated on the two pairs of lower rails 643 so that the lower body 641 can move in the front-rear direction from the upper side of the lower pedestal 620.

At this time, the lower support roller 644, a part of the roller is exposed to the lower side of the lower body 641 as shown in Figure 19 to support the inner surface of the lower support 620, the lower support 620 follows It is seated so that it can move in the front-rear direction.

The sliding rails 645 are formed to extend in the longitudinal direction in both front and rear directions, respectively, at both lower portions of the lower body 641 so that the bent side edges 621 of the lower base 620 are fastened and slide in the front and rear directions, respectively. The rotating roller 642 is lined up and installed along the ceiling surface of the rail to reduce the frictional force during the sliding movement of the 620.

The above-described embodiments are for illustration only, and those having ordinary knowledge in the technical field to which the above-described embodiments belong can easily be modified into other specific forms without changing the technical idea or essential characteristics of the above-described embodiments. You will understand. Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope to be protected through the present specification is indicated by the claims, which will be described later, rather than the detailed description, and should be interpreted to include all modified or modified forms derived from the meaning and scope of the claims and equivalent concepts thereof. .

10: Prefab exhibition booth
11: bottom
12: Pillar frame
13: Booth wall
14: Information desk
15: Display board
16: Lights
17: Support

Claims (11)

A floor forming a space for exhibition;
A pillar frame installed along the edge of the floor;
A booth wall installed between one pillar frame and the other pillar frame to form a wall surface;
At least one information desk which is installed on an upper side of the floor and forms a space for a receptionist to guide the booth for the exhibition;
At least one electric signboard that is emitted by the light emitting means installed inside to transmit information of the corresponding booth;
Lighting to illuminate the exhibition booth is installed on the pillar frame or a horizontal frame that is installed across the pillar frame; And
It includes; a support for supporting the outside of the pillar frame or the booth wall to prevent the pillar frame or the booth wall from tilting;
The support,
An upper cradle installed outside the pillar frame or the booth wall;
An upper side surface forming an upper sloped surface facing the lower sloped surface of the upper cradle, and a lower cradle installed on the floor; And
It includes; a support frame installed between the upper and lower brackets to support the pillar frame or the booth wall;
The support frame,
A base plate fixedly installed on an upper inclined surface of the lower holder;
A support pillar extending upwardly from the upper portion of the base plate in a square pillar shape; And
It is formed in the form of a hexagonal column, and is seated in the vertical direction from the top of the support column, column support portion for supporting the lower inclined surface of the upper cradle seated on the upper side using an elastic force; includes,
The pillar support,
A support plate formed in a flat shape and supporting a lower inclined surface of the upper holder;
A hexagonal frame extending in a downward direction from a lower portion of the support plate in a hexagonal columnar shape; And
Containing, booth for a prefabricated exhibition, including; braking lag gear formed in the vertical direction along at least one of the six sides of the hexagonal frame.
delete delete delete According to claim 1, The support pillar,
A pillar body extending upwardly from the top of the base plate in a square pillar shape;
A support groove formed in a shape corresponding to the shape of the hexagonal frame on an upper portion of the pillar body so that the hexagonal frame can be inserted;
A braking unit installed on one side of the support groove facing the braking lag gear, and braking the hexagonal column in close contact with the braking lag gear as the hexagonal frame descends; And
An elastic pedestal seated on the lower side of the support groove and supporting the hexagonal frame seated on its upper side using an elastic force, and supplying fluid contained in an internal space to the braking unit as the hexagonal frame is lowered and compressed. Prefab exhibit booth containing a.
According to claim 5, The braking unit,
A seating plate seated in a braking groove formed on one side of the support groove facing the braking lag gear;
A forward cylinder installed on a rear surface of the seating plate and receiving fluid supplied from the elastic pedestal to advance the seating plate in the hexagonal frame direction;
It is installed connected to the front surface of the seating plate, and forms a close-contact leg gear having a shape corresponding to the braking lag gear on the front side facing the braking lag gear. A braking plate that brakes the hexagonal frame so that it no longer descends;
A sliding groove extending in the vertical direction along the front surface of the seating plate;
An elastic body installed under the sliding groove; And
It is installed on the rear surface of the braking plate facing the sliding groove, sliding sliding in the vertical direction seated on the sliding groove, including; a; a sliding bar supported by the elastic body.
According to claim 6, The elastic pedestal,
An upper plate supporting the hexagonal frame seated on an upper side;
A lower plate spaced apart from the lower side of the upper plate and seated on the lower side of the support groove;
At least one support spring installed between the upper plate and the lower plate to support the upper plate from an upper side of the lower plate using an elastic force;
A fluid tank which is installed between the upper plate and the lower plate and compresses as the upper plate descends to supply a fluid accommodated in an interior space; And
It is formed extending from the fluid tank to the forward cylinder, the fluid supply pipe for transmitting the fluid supplied from the fluid tank to the forward cylinder; includes, booth for assembly display.
The method of claim 1, wherein the bottom,
A lower plate seated on the bottom surface of the exhibition space;
A buffer plate seated on the upper side of the lower plate to cushion the impact transmitted from the upper side, and a plurality of perforated holes are spaced apart from each other at regular intervals to form perforations;
An upper plate seated on an upper side of the buffer plate; And
Included in each of the perforated holes of the buffer plate, a plate support for supporting the upper plate seated on the upper side of the buffer plate; includes, booth for assembly display.
The method of claim 8, wherein the plate support,
An upper plate seated under the upper plate to support the upper plate;
A lower plate seated on an upper side of the lower plate;
A space support unit installed at least one along the upper plate and the lower plate to support a gap between the upper plate and the lower plate using elastic force;
It is installed between the upper plate and the lower plate to prevent the gap between the upper plate and the lower plate from opening, and when the upper plate and the lower plate are compressed in a direction close to each other, the fluid contained in the inner space is discharged. A fluid supply ring for supplying; And
The spacing support is mounted on the lower surface of the upper plate and the upper surface of the lower plate are symmetrically installed, respectively, and the upper or lower side of the spacing support is installed. When fluid is supplied from the fluid supply ring, the gap is extended. Containing; a prefabricated exhibition booth, including; an elastic adjustment cylinder to increase the elastic force of the gap support by compressing the support.
The method of claim 9, wherein the fluid supply ring,
A first square ring formed in the form of a square ring;
A second square ring formed in a square ring shape and cross-connected to the first square ring;
A first support tube extending from the upper portion of the first square ring to the upper plate and having a fluid movement passage for fluid to be transmitted along the inner side;
A second support tube extending from the lower portion of the second square ring to the lower plate and having a fluid movement passage for fluid to be transmitted along the inner side;
The fluid is accommodated in the inner space, seated in the inner space of the first square ring, and compressed by the upper side of the second square ring as the upper plate and the lower plate are close to each other, and accommodated in the inner space. A first fluid pouch for supplying fluid to the elastic adjustment cylinder through the fluid movement passage of the first support tube; And
The fluid is accommodated in the inner space, seated in the inner space of the second square ring, and compressed by the lower side of the first square ring as the upper plate and the lower plate are close to each other, thereby being accommodated in the inner space. Including, a second fluid pouch for supplying the fluid to the elastic adjustment cylinder through the fluid movement passage of the second support tube, including, prefabricated exhibition booth.
The method of claim 10, wherein the elastic adjustment cylinder,
A housing which is installed on a lower surface of the upper plate or an upper surface of the lower plate and forms an internal space; And
A seating plunger seated on the housing and retracting from the housing by the pressure of the fluid as the fluid is supplied to the housing and contracting the gap support installed on the outer surface.

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