KR101688570B1 - Hybrid wall panel structure for unit bathroom - Google Patents

Abstract

The present invention relates to a construction structure of a hybrid wall panel for a prefabricated bathroom, which is to reduce construction time in accordance with bathroom construction as every connection part of a panel is finished to have molding as a large panel of a composite ultralight material and an insulation composite panel are applied to the inside of a bathroom and to form a wall and a ceiling in a bathroom so that a whole structure of the bathroom with insulation is efficiently constructed. The construction structure of the hybrid wall panel for a prefabricated bathroom includes: a wall panel unit comprising a base board layer formed of a calcium carbonated component as a raw material and a PVC component and bonded along a wall on a bathroom side, and a surface sheet layer bonded on the surface on one side of the base board layer; a ceiling panel unit comprising an inner board layer assembled to correspond to the bathroom ceiling and forming the inner surface to correspond to the ceiling surface, an outer board layer forming the outer surface at intervals on the inner board layer, and a foam insulation layer foaming and filling between the inner board layer and the outer board layer; and a connection molding unit including a wall panel molding connecting and fixing the wall panel units and a ceiling panel molding to connect and fix the wall panel unit to the ceiling panel unit.

Description

{HYBRID WALL PANEL STRUCTURE FOR UNIT BATHROOM}

The present invention relates to a hybrid wall panel construction structure for a built-in bathroom, and more particularly, to a method of constructing a hybrid wall panel construction structure for a bathroom by applying a large-sized panel of a super lightweight material and a composite insulation panel in a bathroom, The present invention relates to a hybrid wall panel construction structure for a bathroom, which is capable of effectively constructing an overall structure of a bathroom having a heat insulating property.

Generally, in a residential space such as an apartment, an office building, or a single-family house, various types of apparatuses (for example, a bathtub, a washbowl, a toilet, etc.) are connected to a water supply facility so that a toilet, a bath, You will use the bathroom to be constructed.

However, when the bathroom is old and remodeled, it is necessary to remove all the equipment and walls of the entire bathroom, then use the brick and cement to rebuild the bathroom and finish the inside and outside. It is difficult to precisely construct a structure, and a construction quality is deteriorated due to a lack of a specialist. In addition, there is a problem that a lot of noise, vibration, and dust are generated due to construction.

Recently, the factory has manufactured the materials needed for the side walls and ceiling of the bathroom, and the UBR (Unit Bath Room) has been developed by the dry method to complete the bathroom construction by simply assembling the materials in the field.

In the prior art disclosed in the above-mentioned prefabricated bathroom, Korean Patent Registration No. 1040167 (Jun. 2, 2011) discloses a method for manufacturing a bathroom having a frame connecting member which is horizontally and vertically oriented And a tile is attached to a front surface of the wall panel. The frame connecting member includes a frame connecting member, which is connected to the frame, And a fitting portion inserted into the front end portion of the frame facing the horizontal direction and the vertical direction in the corner body so as to extend in a plane perpendicular to the fitting portion and to face the rectangular space in which the filling material is embedded And the projecting portion has a protruding portion, Wall panels, prefabricated bathrooms to be configured; And a corner position body having an angled face so as to face the edge face of each of the wall panels disposed on both sides of the corner panel, the corner body being positioned at a corner portion formed by arranging the wall panels at an angle with each other, A lower connecting member having ribs connected to the angled surfaces of the corner position bodies so as to be coupled to the fitting grooves and the cutouts of the coupled frame connecting members so as to be spaced apart from each other and vertically fitted to the upper or lower side, A wall panel connecting member of a built-in bathroom, which can be coupled to and fixed to a lower end portion of a corner portion between the wall panels positioned at the lowest layer; A bottom wall corresponding to a bottom floor of the bathroom, and a bottom wall corresponding to the bottom wall of the bottom wall, And the lower connecting member is installed on the bottom surface of the waterproofing plate to provide a wall panel mounting structure of the assembled bathroom.

However, in the case of the above-mentioned prior art, there is a difference in the construction quality depending on the function of the operator because the construction is performed by adding the tile again to the existing tile. In the case of the tile wall panel having heavy weight, There has been a problem that the construction time is excessively required due to the application of a large number of heavy tile tiles.

In addition, conventionally, due to the characteristics of the tile, the tile step and the gap between the tiles are irregular even after the specification in the manufacturing process, and hygroscopies due to the mold generation on the back side of the tile are weak due to moisture penetration in the gaps formed between the tiles and the tiles , There is a problem that the cooling and heating function in the bathroom is remarkably deteriorated due to the heat conduction in the functional aspect of the tile and the finishing efficiency is remarkably deteriorated due to the difficulty in processing in the projecting form such as the window or the corner.

In the prior art, stainless steel, aluminum and the like are used instead of silicon as a packing for connecting a corner portion. However, since the use and functions of the stainless steel and aluminum are not suitable, another defect is caused. And the aluminum packing is easily corroded to cause a cosmetic impairment.

Korean Registered Patent No. 10-1040167 (June 26, 2011)

The present invention has been made to solve the above problems and it is an object of the present invention to provide a composite panel using a large-sized ultra-light panel and a foamed material, Hybrid wall panel for prefabricated bathroom that minimizes the construction time and labor cost, minimizes the heat loss in the bathroom, eliminates contamination and defects inside and outside the wall due to mage finish, and also improves the finish. It has a purpose of providing a construction structure.

In addition, the present invention is configured to dry the supporting finishing material for the bathroom appliance equipment, thereby improving the continuity of the overall bathing operation, providing convenience for the work and the single workability, and minimizing the occurrence of contamination after construction And to provide a hybrid wall panel construction structure.

A hybrid wall panel construction structure for a built-in bathroom according to the present invention is a construction structure for a bathroom wall panel assembled so as to form a side wall and a ceiling wall on a wall surface of a bathroom, a base board layer formed by using a carbonated material as a raw material and a topsheet layer adhered to one surface of the base board layer; An inner board layer which is assembled in response to a bathroom ceiling and forms an inner surface corresponding to a ceiling wall surface and an outer board layer which forms an outer surface with an interval between the inner board layers, And a foamed insulation layer formed by foaming and filling the foamed insulation layer between the foamed insulation layer and the foamed insulation layer. And a connection molding part having a side wall panel molding for interconnection and fixing between the side wall panel parts and having a ceiling panel molding for interconnection and fixing between the side wall panel part and the ceiling panel part.

Wherein the base board layer is composed of 25 to 28 parts by weight of a CC component based on 100 parts by weight of the entire blend including the PVC component and the CC component, and the sidewall panel portion is composed of a composite ultralight panel having a thickness of 6 to 6.5 mm .

The surface sheet layer of the side wall panel part is formed by UV coating the ASA sheet, which is synthetic resin.

The side wall panel portion is provided with a sheet bonding layer formed by applying a polyurethane (PUR) adhesive between the base board layer and the topsheet layer.

The outer board layer of the ceiling panel part is made of a foamed calcium carbonate board foamed to have a specific gravity of 0.35 kg / m 2 and a thickness of 3 to 4 mm.

Further, the outer board layer of the ceiling panel part may further include a ceiling sheet layer formed by using an ASA sheet, which is a synthetic resin adhesive, formed on the outer surface of the outer board layer.

The ceiling sheet layer has an emmy protrusion formed on the outer surface thereof in a predetermined pattern.

The side wall panel molding of the connection molding part includes a panel inlet groove into which both ends of the side wall panel part can be introduced, an inner support end part supporting the inner wall surface of the side wall panel part introduced into the panel inlet groove, And an outer supporting end portion supporting the outer wall surface of the side wall panel portion.

The side wall panel molding may include a flat molding member for connecting the pair of side wall panel parts to form a plane between the side wall panel parts forming a symmetrical direction of the panel inlet direction, And a corner molding member which forms a right angle and connects the side wall panel parts so as to form a right angle.

The corner molding member of the side wall panel molding has a reinforcing support end that forms a gentle curved surface on the outer support end.

The ceiling panel molding part of the connection molding part has a block body for supporting the ceiling panel part and an attachment support end extending upward from the block body so as to be fixedly mounted on the surface of the side wall panel part.

Further, the present invention can be configured to further include a Zhendai frame fixedly installed on the bathroom side wall surface by a dry method to support and fix the facilities of the bathroom facilities.

The Zendai frame includes a metal bracket fixedly installed on a sidewall, a body plate mounted on the metal bracket and dimensionally variable according to an installation area, and a side plate connected to both sides of the body plate, Respectively.

According to the construction method of the hybrid wall panel construction for a bathroom according to the present invention, since the ultra-light large panel made of CC (calcium carbonate) ingredient is applied to the PVC component, the panel installation is simple and the construction time is shortened, It is possible to secure the uniformity of quality without affecting the construction quality from the skill of the worker according to the processing, and to reduce the defect cost for the customer claim, and it is possible to realize various designs as well as easy maintenance by the enlargement of the panel. Furthermore, by applying a composite panel using a foamed material, it is possible to reduce the energy consumption, reduce the interlaminar noise from the sound insulation structure, and prevent discoloration during use.

In addition, since the hybrid wall panel construction structure for a bathroom according to the present invention comprises a connection molding part having a packing structure selectively depending on the connection part between the panels, it is possible to simplify the construction of the mage construction and to prevent leakage due to the gap It is possible to prevent discoloration due to contaminants and chemical reactions in the bathroom, and to achieve various shapes of packing and color depending on the construction form of the panel.

In addition, since the hybrid wall panel construction structure for a built-in bathroom according to the present invention employs a dry method that can be secured by the continuity of the construction work for the equipment installation in the bathroom construction, the construction time is remarkably reduced, Construction work can be carried out even in the case of a consumer residence, and maintenance can be performed easily in the future.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a constructional view schematically showing an embodiment according to the present invention,
2 is a plan view schematically showing an embodiment according to the present invention,
3 is a partial cross-sectional view illustrating a side wall panel portion according to an embodiment of the present invention.
FIG. 4 is a sectional view showing a first embodiment of a ceiling panel according to an embodiment of the present invention, FIG.
5 is an enlarged sectional view showing a second embodiment of a ceiling panel part according to an embodiment of the present invention,
6 (a) - (c) are cross-sectional views illustrating sidewall panel molding according to an embodiment of the present invention,
FIG. 7 is a cross-sectional view illustrating a ceiling panel molding in an embodiment according to the present invention. FIG.
8 is a construction diagram showing another embodiment according to the present invention,
9 is a sectional view showing a Zendai frame according to another embodiment of the present invention.

The present invention relates to a bathroom wall panel construction structure assembled so as to form a side wall and a ceiling wall on a wall surface of a bathroom, which is adhered along a bathroom side wall surface, and is provided with a calcium carbonate (CC) A base board layer and a topsheet layer adhered to one surface of the base board layer; An inner board layer which is assembled in response to a bathroom ceiling and forms an inner surface corresponding to a ceiling wall surface and an outer board layer which forms an outer surface with an interval between the inner board layers, And a foamed insulation layer formed by foaming and filling the foamed insulation layer between the foamed insulation layer and the foamed insulation layer. And a connection molding part having a side wall panel molding for interconnection and fixing between the side wall panel parts and having a ceiling panel molding for interconnection and fixing between the side wall panel part and the ceiling panel part. The panel construction structure is characterized by the technical composition.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, a preferred embodiment of a hybrid wall panel construction structure for a built-in bathroom according to the present invention will be described in detail with reference to the drawings.

1 and 2, an embodiment of a hybrid wall panel construction structure for a built-in bathroom according to the present invention is a building structure for a bathroom wall panel to be assembled so as to form side walls and ceiling walls on a wall surface of a bathroom A side wall panel part 10, a ceiling panel part 20, and a connection molding part 30.

The side wall panel part 10 is installed by sequentially mounting a plurality of pieces of the side wall panel part 10 along the existing bathroom side wall surface so as to form a new side wall in the bathroom.

The sidewall panel part 10 is formed by applying an adhesive on the wall surface of an existing bathroom in the lateral direction and then applying the adhesive on the wall surface of the bathroom in a predetermined interval so as to prevent pivoting of the connection molding part 30. [ It is, of course, possible to easily adjust mutual steps with respect to the individual side wall panel portions 10. Furthermore, in the case of an adhesive, since the amount of the adhesive is applied to the appliance installation portion of the bathroom, it is preferable to configure the appliance so as to prevent the wall plate from being dented by the screw fixation.

As shown in FIG. 3, the side wall panel portion 10 is formed by applying an eco-friendly material including a harmless component. The side wall panel portion 10 includes a base board layer 11 and a topsheet layer 13.

The base board layer 11 is formed by using a calcium carbonate (CC) component as a raw material for the PVC component. That is, since the base board layer 11 is formed at a compounding ratio of 25 to 28 parts by weight of the CC component based on 100 parts by weight of the total blend including the PVC component and the CC component, it is possible to improve the tensile strength and elongation, It is possible to form such that there is no change in physical properties at all.

In general, the calcium carbonate component is relatively low in cost and small in specific gravity, and therefore widely used in the industrial field.

The side wall panel part 10 is composed of a composite light-weight panel having a thickness of 6 to 6.5 mm.

Since the side wall panel unit 10 can flexibly adjust the size according to the height of the ceiling, but the basic size is set to 600 x 2,200 mm, it is preferable that the side wall panel unit is constructed to have an ultra light weight relative to the tile with a unit weight of about 9 kg.

The topsheet layer 13 is adhered to one surface of the base board layer 11 so as to form the inner wall of the bathroom.

The surface sheet layer 13 is formed by using an ASA sheet (HPM, artificial marble, PET, PP, PVC, CMMA, PMMA, acrylic or the like) So that excellent glossiness can be achieved, and there is no wall color, and it is possible to prevent dust generation at the time of cutting due to strong moisture resistance.

The side wall panel part 10 is provided with a sheet bonding layer 15 formed by applying a polyurethane (PUR) adhesive between the base board layer 11 and the topsheet layer 13.

The ceiling panel part 20 is assembled to the upper end of the side wall panel part 10 in correspondence with the bathroom ceiling.

As shown in FIG. 4, the ceiling panel unit 20 includes an inner board layer 21 forming an inner surface corresponding to a ceiling wall surface, and an outer board layer 21 forming an outer surface And a foaming insulating layer 25 formed by foaming and filling between the inner board layer 21 and the outer board layer 23.

The outer board layer 23 is made of a foamed calcium carbonate board foamed to have a specific gravity of 0.35 kg / m 2 and a thickness of 3 to 4 mm. That is, the outer board layer 23 is formed using a foamed sheet, but using a calcium carbonate board having a low specific gravity of foam, and the foaming insulating layer 25 is made of a foaming agent, thereby minimizing the heat loss rate due to the overhead portion, It is possible to maximize the efficiency and improve the soundproofing function.

The inner board layer 21 may be formed using a board made of general magnesium or a calcium carbonate board like the outer board layer 23.

Although not shown in the drawing, the ceiling panel unit 20 is constructed so as to cut the mounting portion of the lighting device.

As shown in FIG. 5, the outer board layer 23 of the ceiling panel 20 further includes a ceiling sheet layer 27 formed by using an ASA sheet, which is an adhesive resin, It is also possible.

The ceiling sheet layer 27 is selectively formed to have a variety of shapes and colors to thereby form a design surface.

Further, since the ceiling sheet layer 27 is provided with an emboss pattern protruding in a predetermined pattern on its outer surface, it is possible to further improve the functional function.

The connection molding part 30 interconnects the plurality of side wall panel parts 10 and closes the side wall panel part 10 and the ceiling panel part 20 to each other.

The connection molding part 30 includes a side wall panel molding 31 for fixing the side wall panel parts 10 to each other and fixing the side wall panel part 10 and the ceiling panel part 20 to each other. And a ceiling panel molding 35 for a ceiling panel.

The side wall panel part 10 and the ceiling panel part 20 may be made of a polystyrene material and may be made of a mixture of various materials such as pearl, transfer, and film on the outer surface.

As shown in FIGS. 2 and 6, the side wall panel molding 31 has a panel inlet groove 31a and an inner support end 31b and an outer support end 31c, .

The panel inlet grooves 31a are formed to allow both ends of the side wall panel part 10 to flow.

The panel inlet grooves 31a may be formed in such a manner that the side wall panel part 10 can flow in a straight line which can form a plane or the side wall panel part 10 can be introduced into the panel wall part 10 in a direction perpendicular to the side wall panel part 10, Thereby forming a panel inlet groove 31a.

The inner supporting end portion 31b is formed to support the inner wall surface of the side wall panel portion 10 introduced into the panel inlet groove 31a and the outer supporting end portion 31c is formed in the panel inlet groove 31a And is formed to support the outer wall surface of the inflow side wall panel part 10.

It is preferable that the inner support end 31b and the outer support end 31c are formed to have different lengths according to the installation form so as to achieve structural stability.

The side wall panel molding 31 includes a planar molding member 32 connected in a planar manner between the side wall panel parts 10 as shown in FIG. 6A, And a corner molding member (33) connected to each other so as to be perpendicular to each other.

The flat molding member 32 connects the panel inlet direction of the pair of side wall panel parts 10, that is, the panel inlet groove 31a to form a left-right symmetrical direction.

The flat molding member 32 is formed by extending a length of the inner support end portion 31b for supporting the inner wall surface of the side wall panel portion 10 in contact with the outer wall surface of the side wall panel portion 10, The length of the outer support end portion 31c supporting the side wall panel portion 10 is relatively short so that it is possible to stably support the side wall panel portion 10 and to produce a simple yet beautiful appearance.

The corner molding member 33 connects the panel inflow direction of the pair of side wall panel parts 10, that is, the panel inflow grooves 31a, so as to form a direction perpendicular to each other.

As shown in FIG. 6 (c), the corner molding member 33 is provided with a reinforcing support end 34 which forms a gentle curved surface on the outer supporting end 31c, 10 can be improved.

Although not shown in the drawings, when the horizontal state of the bathroom side wall surface (tile) is poor when the side wall panel molding 31 is connected, a horizontal support is provided on the wall of the bathroom so as to support the side wall panel molding 31 in a horizontal state It is desirable to install it.

In order to install the horizontal support, an adhesive using glue gun, silicone, and epoxy is applied and fixed.

As shown in FIG. 7, the ceiling panel molding 35 is for supporting the ceiling panel part 20 on the side wall panel part 10 and supports the ceiling panel part 20, And an attachment support end 37 extending upwardly upwardly of the block body 36 so as to be fixedly mounted on the surface of the side wall panel part 10. [

In order to attach and fix the ceiling panel molding 35 on the side wall panel part 10, a double-faced tape is fixed on the contact surface with the side wall panel part 10 and the ceiling panel part 20, Further, it is fixedly installed.

The contact surface between the block body 36 and the ceiling panel 20 is coated with silicone so as to maintain the attached state.

That is, according to the construction of the hybrid wall panel construction for a built-in bathroom according to the present invention, since the ultra-light large panel made of CC (calcium carbonate) ingredient is applied to the PVC component, the panel installation is simple and the construction time is shortened By reducing the labor cost and securing the uniformity of quality without affecting the construction quality from the skill of the worker according to the on-site processing, it is possible to reduce the defect cost against the customer's claim, It is possible to implement. Furthermore, it is possible to reduce the energy consumption, reduce the interlayer noise from the sound insulation structure, and prevent the discoloration shape during use by applying the composite panel using the foam material.

In addition, since the present invention forms a connection molding part having a packing structure selectively according to the connection part between the panels, it is possible to prevent the leakage due to the gap and to prevent chemical leakage It is possible to realize packing and color of various shapes according to the construction form of the panel.

As shown in FIG. 8, another embodiment of the hybrid wall panel construction structure for a built-in bathroom according to the present invention includes a Zendai frame 40 fixedly installed on a bathroom side wall by a dry method to support and fix bathroom facilities .

9, the Zendai frame 40 includes a metal bracket 41 fixed to the wall surface of the bathroom, a body plate 43 fixedly mounted on the metal bracket 41, 43 are closed by a side plate 45 connected to both sides thereof.

The metal brackets 41 are installed on a wall surface of the bathroom so as to have a plurality of holes, and are installed on the same horizontal line with a space therebetween, thereby supporting the body plate 43 in a horizontal state.

The body plate 43 is dimensionally variable according to the installation area to be installed on the bathroom wall surface. That is, when the installation area of the Zendai frame 40 is narrow, the end of the Zendai frame 40 is cut to cut the length of the Zendai frame 40, thereby varying the size of the body plate 43.

It is preferable that a reinforcing neck (not shown in the figure) is provided inside each body plate 43 at positions where a bathroom mechanism (sink, soda water receiver, etc.) is to be installed, .

The side plates 45 are basically provided at both ends of the body plate 43. The side plates 45 are installed only on one end of the body plate 43 according to the installation of the Zendai frame 40 It is also possible to do.

In other words, by constructing the present invention as in the above-mentioned other embodiments, the dry method that can be secured by the continuity of the construction work for the installation of the bathroom equipment during the construction of the bathroom is applied. Thus, the construction time is remarkably reduced, Construction can be carried out even in the case of a consumer residence, and it will be easy to maintain in the future.

In the other embodiments described above, the same configuration as that of the above-described embodiment can be employed, so that detailed description is omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. And this is also within the scope of the present invention.

10: side wall panel part 11: base board layer
13: top sheet layer 15: sheet bonding layer 20:
21: inner board layer 23: outer board layer 25: foamed insulating layer
27: ceiling sheet layer 30: connection molding part 31: side wall panel molding
31a: panel inlet groove 31b: inner supporting end 31c: outer supporting end
32: flat molding member 33: corner molding member 34: reinforcing supporting end
35: ceiling panel molding 36: block body 37: attachment support end
40: Zendai frame 41: Hardware bracket 43: Body plate
45: side plate

Claims (13)

When a bathroom is newly constructed or remodeled, a composite light-weight panel is sequentially adhered along a bathroom side wall, and a ceiling panel including a foam insulating layer is assembled on the upper side of a side wall panel. And a ceiling panel to be interconnected with each other by using a connection molding having a gap between the side wall panel and the ceiling panel so that the uniformity of the construction quality according to the worker is secured,
A base board layer 11 adhered along the bathroom side wall surface, the base board layer 11 comprising a PVC component using a CC (calcium carbonate) component as a raw material, and a topsheet layer 13 adhered to one surface of the base board layer 11 And a sheet bonding layer 15 formed by applying a polyurethane (PUR) adhesive between the base board layer 11 and the topsheet layer 13;
An inner board layer (21) which is assembled in response to a bathroom ceiling and forms an inner surface corresponding to a ceiling wall surface, and an inner board layer (21) which forms an outer surface with an interval therebetween and has a specific gravity of 0.35 kg / And a foam insulating layer 25 formed by foaming and filling between the inner board layer 21 and the outer board layer 23. The outer board layer 23 is made of a foamed calcium carbonate board foamed to have a thickness of 4 mm, A ceiling panel unit 20;
And a ceiling panel molding 35 for fixing the side walls of the side wall panel part 10 and the ceiling panel part 20 to each other, And a connection molding part (30)
The base board layer 11 is composed of 25 to 28 parts by weight of a CC component based on 100 parts by weight of the total blend including the PVC component and the CC component. The sidewall panel part 10 has a size of 600 × 2,200 mm, Lightweight panel having a thickness of 6 to 6.5 mm and a unit weight of 9 kg,
The ceiling panel molding 35 includes a block body 36 for supporting the ceiling panel part 20 and an upper side wall part 36 for mounting and fixing on the surface of the side wall panel part 10 The side wall panel part 10 and the ceiling panel part 10 are integrally formed with the side wall panel part 10 so as to fix the ceiling panel molding part 35 on the side wall panel part 10, 20, and is further fixedly installed using a screw. Silicone is applied to the contact surface between the block body 36 and the ceiling panel 20 to maintain the attached state,
The sidewall panel part 10 made of a complex ultra-light panel manufactured in advance at the factory and the ceiling panel part 20 having a heat insulating performance are simply assembled with the connection molding part 30 in the field, Wherein the hybrid wall panel construction structure for a bathroom is provided with a plurality of projections.
The method according to claim 1,
Wherein the topsheet layer (13) is formed by UV coating the ASA sheet, which is a synthetic resin, in a hybrid wall panel structure for a bathroom.
The method according to claim 1,
Wherein the outer board layer (23) is further formed with a ceiling sheet layer (27) formed by using an ASA sheet, which is an adhesive resin formed on an outer surface of the outer board layer (23).
The method of claim 3,
Wherein the ceiling sheet layer (27) is further formed with an emboss pattern protruding in a predetermined pattern on an outer surface thereof. delete delete delete delete delete delete delete delete delete

Images