CN112900795B - Ceramic tile soaking equipment for building engineering - Google Patents

Abstract

The invention discloses a ceramic tile soaking device for construction engineering, which structurally comprises wheels, a soaking box and an internal grid, wherein the wheels are fixed at the bottom of the soaking box, the soaking box and the internal grid are of an integrated structure, an extension frame and the top of the soaking box are of an integrated structure, when two smooth surfaces of a ceramic tile are placed together face to face, the bottom of the ceramic tile is supported by a bottom interlayer, adjacent ceramic tiles can fall on a lug and are mainly contacted by a top ball, an arc strip can pull a laminated layer to assist in pulling, the bottom of the laminated layer is enabled to form certain fluctuation and dislocation, the inclined ceramic tile is prevented from being attached, a bent groove is forced to spread on a support core, a rubber top block in the bent groove is forced to mainly bear external force to spread on a connecting part, a hard block is stretched and pulled to assist in pulling, the whole ceramic tile is prevented from sliding on the bottom end, the ceramic tile is difficult to take out, and the ceramic tile can be further fixed in a staggered position and prevented from being integrally adhered when the ceramic tile is placed in parallel.

Description

Ceramic tile soaking equipment for building engineering

Technical Field

The invention belongs to the field of buildings, and particularly relates to a ceramic tile soaking device for constructional engineering.

Background

When the ceramic tile in the building construction process needs to be soaked, the problems of hollowing, falling and the like of the ceramic tile in subsequent laying are prevented, the ceramic tile is placed into the soaking barrel in batches, and the ceramic tile is taken out in sequence for use.

Based on the inventor, the existing soaking equipment for the building engineering ceramic tiles mainly has the following defects, such as:

put into together and soak when the smooth surface of two ceramic tiles, its bottom of placing is the coplanar, and the helping hand through water more easily can let its two smooth surfaces glue tighter, has increased the gravity of self, is difficult to take out one of them.

Therefore, a ceramic tile soaking device for construction engineering needs to be provided.

Disclosure of Invention

Put into together and soak in order to solve the smooth surface of two ceramic tiles of above-mentioned technique, its bottom of putting and placing is the coplanar, can let its two smooth surfaces glue tighter through the helping hand of water more easily, has increased the gravity of self, is difficult to the problem of taking out one of them.

The invention relates to a ceramic tile soaking device for constructional engineering, which is realized by the following specific technical means:

the structure of the novel multifunctional soaking tank comprises wheels, a soaking tank, an extension frame and a built-in grid, wherein the wheels are fixed at the bottom of the soaking tank, the soaking tank and the built-in grid are of an integrated structure, and the extension frame and the top of the soaking tank are of an integrated structure.

The soaking box comprises a bottom interlayer and an outer solid shell, wherein the bottom interlayer is arranged inside the outer solid shell.

As a further improvement of the invention, the bottom interlayer comprises convex blocks, side fixing blocks, a bottom adhesive layer and spacer blocks, the spacer blocks are arranged between the two convex blocks, the convex blocks and the spacer blocks are arranged between the two side fixing blocks, the bottom ends of the convex blocks are adhered to the bottom adhesive layer, five convex blocks are arranged and are uniformly distributed in the horizontal direction, and the bottom adhesive layer is made of rubber materials and has certain toughness.

As a further improvement of the invention, the bump comprises clamping blocks, a spacing surface and a middle rod, the spacing surface is attached to the outer surfaces of the clamping blocks, two clamping blocks are connected with the middle rod, and the clamping blocks are of symmetrical structures.

As a further improvement of the invention, the middle rod comprises an outer top block, an arc strip, a lamination layer and a middle supporting block, wherein the outer top block is fixed on the top surface of the middle supporting block, the arc strip and the lamination layer are of an integrated structure, the lamination layer is attached to the outer surface of the outer top block, the arc strip is made of rubber materials, and the lamination layer is formed by stacking multiple layers of rubber.

As a further improvement of the invention, the middle supporting block comprises an outer wrapping layer, a top ball, an inner bending block and a rubber layer, the rubber layer is attached between the two inner bending blocks, the outer surface of each inner bending block is attached with the outer wrapping layer, the top ball is mounted at the top of each inner bending block, each inner bending block has certain elasticity, the top ball is of a ball body structure, and the rubber layer is made of rubber materials.

As a further improvement of the invention, the spacer block comprises a support core and a bent groove, the bent groove is abutted against the outer surface of the support core, and the support core is of a symmetrical structure.

As a further improvement of the invention, the supporting core comprises an adhesive tape, a sectional block and a middle solid body, the adhesive tape is attached to the inside of the sectional block, the sectional block is connected with the middle solid body, and the adhesive tape is made of a rubber material and has a certain pulling effect.

As a further improvement of the invention, the curved groove comprises hard blocks, rubber top blocks, concave grids and a pulling strip, wherein the concave grids and the hard blocks are of an integrated structure, the rubber top blocks are fixed between the two hard blocks, the bottom ends of the hard blocks are connected with the pulling strip, the rubber top blocks are made of rubber materials and have certain toughness, and the hard blocks are of a symmetrical structure.

Compared with the prior art, the invention has the following beneficial effects:

1. when two blocks of ceramic tile smooth surfaces are placed face to face together, its ceramic tile bottom will be supported by end interlayer, the ceramic tile that closes on will have and fall on the lug, carry out most main contact by the kickball, thereby the pressure that bears will be toward going up the interior curved block and executed the exhibition, when outside atress surpasss the scope that self can bear, will form crooked support, when letting the ceramic tile conflict on the kickball, its arc strip will drag the stromatolite supplementary pulling in the lump, the crooked scope of the kicking block outside the restriction, can be when the ceramic tile smooth surface is laminated in same face, let its bottom form certain undulation dislocation, and produce the slope to it, prevent the laminating.

2. Its curved groove atress will toward propping and carry out the exhibition on the core, its curved inslot portion glues the kicking block and carries out the atress, mainly bear external force and carry out the exhibition toward linking up the position, it pulls the strip when hard piece stretches out and will be pulled in the lump and open and assist in the lump, its curved groove will have and sink to some extent, let the separation that the ceramic tile can more misplace, and when single ceramic tile was placed, its bottom will be intercepted by lug and spacer, prevent that its whole cunning is behind the bottom, be difficult to take out it, can be when ceramic tile one is put in side by side, it is fixed to further dividing the dislocation, prevent to adhere in an organic whole.

Drawings

Fig. 1 is a schematic structural view of a ceramic tile soaking device for constructional engineering according to the present invention.

FIG. 2 is a front view of the interior of the soaking tank of the present invention.

FIG. 3 is a schematic front view of an inner structure of a bottom spacer according to the present invention.

Fig. 4 is a schematic front view of an internal structure of a bump according to the present invention.

Fig. 5 is a front view of the internal structure of a middle rod according to the present invention.

Fig. 6 is a schematic front view of an internal structure of a middle support block according to the present invention.

FIG. 7 is a schematic front view of an internal structure of a spacer according to the present invention.

Fig. 8 is a schematic front view of an inner structure of a core of the present invention.

FIG. 9 is a front view of an internal structure of a curved slot of the present invention.

In the figure: the wheel-11, the soaking box-22, the extension frame-33, the built-in grid-44, the bottom interlayer-201, the outer solid shell-202, the convex block-001, the side solid block-002, the bottom adhesive layer-003, the spacer block-004, the clamping block-e 01, the adhesive surface-e 02, the middle rod-e 03, the outer top block-w 11, the arc strip-w 12, the lamination-w 13, the middle support block-w 14, the outer wrapping layer-m 11, the top ball-m 12, the inner bending block-m 13, the glue layer-m 14, the support core-g 01, the bending groove-g 02, the glue strip-511, the segment block-512, the middle solid-513, the hard block-s 11, the glue top block-s 12, the inner concave grid-s 13 and the pulling strip-s 14.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a ceramic tile soaking device for construction engineering, which structurally comprises wheels 11, a soaking box 22, an extension frame 33 and a built-in grid 44, wherein the wheels 11 are fixed at the bottom of the soaking box 22, the soaking box 22 and the built-in grid 44 are of an integrated structure, and the extension frame 33 and the top of the soaking box 22 are of an integrated structure.

The soaking tank 22 comprises a bottom interlayer 201 and an outer solid shell 202, wherein the bottom interlayer 201 is arranged inside the outer solid shell 202.

Wherein, end interlayer 201 includes lug 001, the solid piece 002 of side, end paste layer 003, spacer 004 is installed between two lug 001, install lug 001 and spacer 004 between the solid piece 002 of side two, the laminating of lug 001 bottom has end paste layer 003, lug 001 is equipped with five, and is horizontal direction evenly distributed, end paste layer 003 is made by the rubber material, has certain toughness, spacer 004 evenly divides holistic bulge to rather than forming the distance of undulation, end paste layer 003 consolidates holistic mounted position, the object that lug 001 placed the butt end carries out ejecting certain distance.

Wherein, lug 001 includes clamping block e01, pastes and separates face e02, king-rod e03, paste and separate face e02 and laminate in clamping block e01 surface, be connected with king-rod e03 between two clamping block e01, clamping block e01 is symmetrical structure, king-rod e03 control outer central point puts, clamping block e01 wraps up and links up the position, plays the effect of consolidating the installation.

Wherein, well pole e03 includes outer kicking block w11, arc strip w12, stromatolite w13, well kicking block w14, outer kicking block w11 is fixed in well kicking block w14 top surface, arc strip w12 and stromatolite w13 are the integrated structure, stromatolite w13 is laminated in outer kicking block w11 surface, arc strip w12 is made by the rubber material, stromatolite w13 forms for the multilayer rubber stack, outer kicking block w11 keeps holistic hard power, arc strip w12 when linking position atress, will pull and stretch out, play supplementary effect, stromatolite w13 when extending out in the outer layer, originally stack up and will stretch out in the position of stretching an organic whole, supplementary extension to the restriction extension scope.

The middle supporting block w14 comprises an outer wrapping layer m11, a top ball m12, inner bending blocks m13 and a glue layer m14, the glue layer m14 is attached between the two inner bending blocks m13, the outer surface of each inner bending block m13 is attached with the outer wrapping layer m11, the top ball m12 is mounted at the top of each inner bending block m13, each inner bending block m13 has certain elasticity, each top ball m12 is of a ball structure, the glue layer m14 is made of rubber materials, the glue layer m14 can be stretched to form certain auxiliary force when the joint part is stressed, the inner bending blocks m13 can form bending support when the external stress exceeds the range capable of bearing, the inner parts are wrapped by the outer wrapping layer m11, and the moving range of the inner bending blocks is limited during moving.

The specific use mode and function of the embodiment are as follows:

according to the invention, a ceramic tile is placed in the built-in grid 44, water is injected into the built-in grid 44 together, the height between the ceramic tile and the water level is limited through the outer fixing shell 202, so that the ceramic tile is completely immersed in the water, when two smooth surfaces of the ceramic tile are placed together face to face, the bottom of the ceramic tile is supported by the bottom interlayer 201, adjacent ceramic tiles can fall on the bump 001, the periphery of the adjacent ceramic tile falls on the spacer 004, the bump 001 is abutted by the bottom of the jacked ceramic tile, the middle rod e03 is supported by the middle rod e03, the clamping block e01 at the bottom of the middle rod e03 can consolidate the installation position of the middle rod, when the rod e03 supports an object, the top ball m12 is in primary contact, so that the borne pressure can be exerted on the inner bending block m13, the inner bending block m13 can pull the glue layer m14 to bear an external force to bend to a certain degree, the outer wrapping layer m11 abuts on the inner bending block m13 to limit, when the top ball m12 is pushed, the outer wrapping layer m12 can obliquely pull the glue layer m14 to separate the outer bending block m13 of the ceramic tile from the spacer 12, and the outer wrapping layer w of the spacer 12 can be separated from the outer bending of the ceramic tile, and the outer wrapping layer w of the spacer 12, so that the ceramic tile can be separated from the outer stacking block w of the spacer 12, and the outer stacking block w of the spacer 12, and the stack can be further limit the outer stacking block w, and the stack of the stack.

Example 2:

as shown in fig. 7 to 9:

wherein, spacer 004 is including propping core g01, curved groove g02 supports and is propping core g01 surface, it is symmetrical structure to prop core g01, curved groove g02 guides the position of the conflict of foreign object, prop the conflict state at outer linking position of core g01 support, follow external force and carry out the deformation.

The support core g01 comprises an adhesive tape 511, a section block 512 and a middle solid 513, wherein the adhesive tape 511 is attached to the inside of the section block 512, the section block 512 is connected with the middle solid 513, the adhesive tape 511 is made of rubber materials and has a certain pulling effect, the middle solid 513 fixes the center position of an outer layer, the joint part is uniformly separated by the adhesive tape 511, and the section block 512 keeps the integral hard force.

Wherein, curved groove g02 includes hard piece s11, gluey kicking block s12, indent check s13, pulls strip s14, indent check s13 and hard piece s11 structure as an organic whole, it is fixed in between two hard pieces s11 to glue kicking block s12, hard piece s11 bottom is connected with pulling strip s14, it makes for the rubber material to glue kicking block s12, has certain toughness, hard piece s11 is symmetrical structure, hard piece s11 keeps self hard power, when linking the position atress, will swing toward the certain extent, it mainly bears external force and carries out the exhibition toward linking position to glue kicking block s12, it plays supplementary effect of pulling to the atress position to pull strip s14.

The specific use mode and function of the embodiment are as follows:

in the invention, when a ceramic tile is placed on the spacer 004 in a staggered manner, the bottom of the ceramic tile is placed on the bent groove g02, the bent groove g02 is stressed to expand towards the support core g01, the rubber top block s12 in the bent groove g02 is stressed, the inner concave grid s13 expands the deformation range of the rubber top block s12, when the ceramic tile is pressed on the rubber top block s12, the hard blocks s11 on two sides are expanded, the hard blocks s11 are expanded and simultaneously the pulling strips s14 are pulled to assist, the hard blocks s11 are pressed on the sectional blocks 512, the sectional blocks 512 uniformly separate the whole body through the rubber strips 511, the middle end is fixed by the middle solid 513, the bent groove g02 is sunken, the ceramic tile can be separated in a staggered manner and stably placed, and when a single ceramic tile is placed, the bottom of the ceramic tile is intercepted by the convex blocks 001 and the spacer 004, so that the whole ceramic tile is prevented from sliding at the bottom end and is difficult to take out.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a ceramic tile soaks equipment for building engineering, its structure includes wheel (11), soaks case (22), extends frame (33), built-in check (44), wheel (11) are fixed in soaks case (22) bottom, soaks case (22) and built-in check (44) structure as an organic whole, it is structure as an organic whole, its characterized in that with soaks case (22) top to extend frame (33):

the soaking box (22) comprises a bottom interlayer (201) and an outer solid shell (202), wherein the bottom interlayer (201) is arranged inside the outer solid shell (202);

the bottom interlayer (201) comprises bumps (001), side fixing blocks (002), bottom adhesive layers (003) and spacer blocks (004), the spacer blocks (004) are arranged between the two bumps (001), the bumps (001) and the spacer blocks (004) are arranged between the two side fixing blocks (002), and the bottom adhesive layers (003) are attached to the bottom ends of the bumps (001);

the bump (001) comprises clamping blocks (e 01), a partition surface (e 02) and a middle rod (e 03), the partition surface (e 02) is attached to the outer surfaces of the clamping blocks (e 01), and two clamping blocks (e 01) are connected with the middle rod (e 03).

2. The tile soaking device for construction engineering according to claim 1, wherein: well pole (e 03) are including outer kicking block (w 11), arc strip (w 12), stromatolite (w 13), well vaulting block (w 14), kicking block (w 11) are fixed in vaulting block (w 14) top surface outward, arc strip (w 12) and stromatolite (w 13) structure as an organic whole, stromatolite (w 13) are laminated in outer kicking block (w 11) surface.

3. The tile soaking equipment for constructional engineering as claimed in claim 2, wherein: well kicking block (w 14) are including outer parcel layer (m 11), kicking ball (m 12), incurved piece (m 13), glue film (m 14) are laminated between two incurved pieces (m 13), the laminating of incurved piece (m 13) surface has outer parcel layer (m 11), kicking ball (m 12) are installed in incurved piece (m 13) top.

4. The tile soaking device for construction engineering according to claim 1, wherein: the spacer block (004) comprises a support core (g 01) and a bent groove (g 02), and the bent groove (g 02) abuts against the outer surface of the support core (g 01).

5. The tile soaking equipment for constructional engineering as claimed in claim 4, wherein: the support core (g 01) comprises an adhesive tape (511), a sectional block (512) and a middle solid body (513), wherein the adhesive tape (511) is attached to the inside of the sectional block (512), and the sectional block (512) is connected with the middle solid body (513).

6. The tile soaking equipment for constructional engineering as claimed in claim 4, wherein: curved groove (g 02) are including hard piece (s 11), gluey kicking block (s 12), interior concave grid (s 13), pull strip (s 14), interior concave grid (s 13) and hard piece (s 11) structure as an organic whole, it is fixed in between two hard pieces (s 11) to glue kicking block (s 12), hard piece (s 11) bottom is connected with pull strip (s 14).

Images