CN209759929U - Gap permeable brick - Google Patents
Gap permeable brick Download PDFInfo
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- CN209759929U CN209759929U CN201821934966.2U CN201821934966U CN209759929U CN 209759929 U CN209759929 U CN 209759929U CN 201821934966 U CN201821934966 U CN 201821934966U CN 209759929 U CN209759929 U CN 209759929U
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Abstract
The utility model relates to a gap brick that permeates water. The brick comprises a brick body, wherein more than one lower groove which extends along the longitudinal direction and has a downward notch is arranged at the lower part of the brick body, and when the number of the lower grooves is more than two, the lower grooves are sequentially distributed at intervals along the transverse direction; at least one side wall of the brick body in the longitudinal direction is also provided with a side groove, and the bottom wall of the channel of the side groove is communicated with the lower groove; the side groove comprises an upper transition section and a lower transition section; the distance from the notch of the upper transition section channel to the groove bottom is gradually reduced from top to bottom, and the distance from the notch of the lower transition section channel to the groove bottom is gradually increased from top to bottom; the distance from the upper end to the lower end of the lower transition section channel is greater than the distance from the notch of the lower groove to the bottom of the groove. The utility model provides a gap permeable brick, wherein, larger gravels can be left on the upper transition section which is open, so that the gravels can be easily cleaned; and smaller dust can flow out from the lower groove from the lower transition section, so the water permeable brick is not easy to be blocked by sand and dust, the water is smoothly drained, and the preparation efficiency is high.
Description
Technical Field
the utility model belongs to the municipal works field, concretely relates to gap brick that permeates water.
Background
At present, the gap water permeable brick in the market has the following problems: 1. easily blocked by sand and dust; when the sand is blocked, the sand in the blocked water permeable gap can not be cleaned; 2. the drainage is not smooth; 3. the preparation efficiency is low.
SUMMERY OF THE UTILITY MODEL
the utility model provides a gap permeable brick, wherein a K-shaped permeable channel is formed between two adjacent permeable bricks in the longitudinal direction due to the side grooves, larger gravels can be left on the upper transition section, and the upper transition section is opened due to the large upper part and the small lower part, so that the upper transition section can be easily cleaned; and smaller dust can flow out from the lower groove from the lower transition section, so the water permeable brick is not easy to be blocked by sand and dust, the water is smoothly drained, and the preparation efficiency is high.
A gap water permeable brick, comprising a brick body, wherein the brick body is made of materials which are impermeable to water or have low water permeability:
the lower part of the brick body is provided with more than one lower groove which extends along the longitudinal direction and has a downward notch, and when the number of the lower grooves is more than two, the lower grooves are sequentially distributed at intervals along the transverse direction;
at least one side wall of the brick body in the longitudinal direction is also provided with a side groove which vertically penetrates through the upper surface and the lower surface of the brick body, and the bottom wall of the channel of the side groove is communicated with a lower groove at the lower part of the brick body;
The side groove comprises an upper transition section and a lower transition section; the distance from the notch of the upper transition section channel to the groove bottom is gradually reduced from top to bottom, and the distance from the notch of the lower transition section channel to the groove bottom is gradually increased from top to bottom;
the distance from the upper end to the lower end of the lower transition section channel is greater than the distance from the notch of the lower groove to the groove bottom.
As is well known, the appearance of grit is not spherical, but has the arris angle, use current brick that permeates water, will block in the permeable gap of brick that permeates water and can not clear up when the grit rolls, thereby plug up the permeable gap, this scheme the cross section of last changeover portion highly from last to diminishing gradually down, thereby make it be big-end-up's open form, thereby clear away the grit of stifled changeover portion above that easily, the dust can drop down from it, reduce the dust and pile up quantity, can effectively block the dust, the side concave groove lower part is big, link to each other with brick lower part logical groove, can effectively discharge accumulational dust along with the rainwater, so be difficult to by grit and dust jam, and then the offal is smooth and easy rapidly, when preparing, can adopt vertical mode shaping, thereby can a plurality of bricks that permeate water of preparation by a board, and then preparation efficiency is high.
Furthermore, the groove walls on the two transverse sides of the upper transition section channel extend obliquely downwards and inwards from the top ends of the two transverse sides of the brick body respectively, and the groove walls on the two transverse sides of the lower transition section channel extend vertically downwards from the lower ends of the groove walls on the two transverse sides of the upper transition section channel. This scheme makes the opening of going up the changeover portion bigger, sweeps out the grit more easily.
Furthermore, the groove walls at the two transverse sides of the upper transition section channel extend downwards and inwards in an inclined mode from the top ends of the two transverse sides of the brick body respectively, the groove walls at the two transverse sides of the lower transition section channel continue to extend downwards and inwards in an inclined mode from the lower ends of the groove walls at the two transverse sides of the upper transition section channel, and the inclined angles of the lower transition section and the upper transition section are consistent. This scheme makes the opening of going up the changeover portion bigger, sweeps out the grit more easily.
The upper transition section and the lower transition section are provided with connecting sections, and the distance from the groove opening of the connecting section channel to the groove bottom is consistent from top to bottom.
The groove walls on the two transverse sides of the upper transition section groove channel respectively extend downwards and inwards in an inclined mode from the top ends of the two transverse sides of the brick body; the transverse groove walls on the two sides of the connecting section channel respectively start to continuously extend downwards and inwards in an inclined manner from the lower ends of the transverse groove walls of the upper transition section channel, and the inclined angles of the upper transition section and the connecting section are consistent; the groove walls at the two transverse sides of the lower transition section groove channel extend vertically and downwards from the lower ends of the groove walls at the two transverse sides of the connecting section groove channel.
The groove walls on the two transverse sides of the upper transition section groove channel respectively extend downwards and inwards in an inclined mode from the top ends of the two transverse sides of the brick body; the transverse groove walls on the two sides of the connecting section channel respectively start to continuously extend downwards and inwards in an inclined manner from the lower ends of the transverse groove walls on the two sides of the upper transition section channel; the groove walls at the two transverse sides of the lower transition section groove channel start to continuously extend downwards and inwards in an inclined mode from the lower ends of the groove walls at the two transverse sides of the connecting section groove channel, and the inclined angles of the upper transition section, the connecting section and the lower transition section are consistent.
the upper surface of the brick body is provided with anti-skid stripes.
The utility model discloses a show the advantage and lie in: the sand and stone can be swept out from the upper transition section, and the dust can directly reach the lower transition section through the upper transition section and enter the lower groove to be taken away, so that the water permeable brick is not easily blocked by the sand and stone and the dust; the middle transition section can better block dust and can be formed by a vertical die, so that a plurality of water permeable bricks can be prepared on one plate, and the preparation efficiency is greatly improved. This scheme adopts anti-skidding stripe to enable the brick body antiskid.
Drawings
Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.
Fig. 2 is a schematic structural diagram of embodiment 2 of the present invention.
fig. 3 is a schematic structural diagram of embodiment 3 of the present invention.
fig. 4 is a schematic structural diagram of embodiment 4 of the present invention.
1. The brick comprises a brick body, 1-1 parts of lower grooves, 1-2 parts of side grooves, 1-2-1 parts of upper transition sections, 1-2-2 parts of lower transition sections, 1-2-3 parts of lower transition sections and connecting sections.
Detailed Description
Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and thus their detailed description will be omitted.
Example 1
As shown in fig. 1, the gap water permeable brick according to the present embodiment includes a brick body 1, and the brick body 1 is made of a material that is impermeable to water or has low water permeability:
The lower part of the brick body 1 is provided with more than one lower groove 1-1 which extends along the longitudinal direction and has downward notch, and when the number of the lower grooves 1-1 is more than two, the lower grooves 1-1 are distributed at intervals along the transverse direction;
At least one side wall of the brick body 1 in the longitudinal direction is also provided with a side groove 1-2 which vertically penetrates through the upper surface and the lower surface of the brick body 1, and the bottom wall of a channel of the side groove 1-2 is communicated with a lower groove 1-1 at the lower part of the brick body 1;
the side groove 1-2 comprises an upper transition section 1-2-1 and a lower transition section 1-2-2; the distance from the notch of the upper transition section 1-2-1 channel to the bottom of the groove is gradually reduced from top to bottom, and the distance from the notch of the lower transition section 1-2-2 channel to the bottom of the groove is gradually increased from top to bottom;
The distance from the upper end to the lower end of the channel of the lower transition section 1-2-2 is greater than the distance from the notch of the lower groove 1-1 to the groove bottom.
As shown in fig. 1, in order to prevent the brick body from slipping, the upper surface of the brick body 1 of this embodiment is provided with anti-slip stripes, and the upper surface of the brick body 1 of this embodiment may also be partially provided with anti-slip stripes.
In this embodiment, the two lateral groove walls of the channel of the upper transition section 1-2-1 extend obliquely downward and inward from the top ends of the two lateral sides of the brick body 1, respectively, and the two lateral groove walls of the channel of the lower transition section 1-2-2 extend vertically downward from the lower ends of the two lateral groove walls of the channel of the upper transition section 1-2-1.
Example 2
As shown in fig. 2, different from the above embodiment, the two lateral groove walls of the channel of the upper transition section 1-2-1 in this embodiment extend obliquely downward and inward from the top ends of the two lateral sides of the brick body 1, the two lateral groove walls of the channel of the lower transition section 1-2-2 continue to extend obliquely downward and inward from the lower ends of the two lateral groove walls of the channel of the upper transition section 1-2-1, and the oblique angles of the lower transition section 1-2-2 and the upper transition section 1-2-1 are the same.
Example 3
As shown in fig. 3, different from the above embodiments, a connection section 1-2-3 is further disposed between the upper transition section 1-2-1 and the lower transition section 1-2-2 in this embodiment, and distances from the notch of the channel of the connection section 1-2-3 to the bottom of the channel are consistent from top to bottom.
the groove walls at the two transverse sides of the channel of the upper transition section 1-2-1 are respectively extended downwards and inwards from the top ends at the two transverse sides of the brick body 1 in an inclined way; the groove walls at the two transverse sides of the connecting section 1-2-3 groove channel respectively start to continuously extend downwards and inwards in an inclined manner from the lower ends of the groove walls at the two transverse sides of the upper transition section 1-2-1 groove channel, and the inclined angles of the upper transition section 1-2-1 and the connecting section 1-2-3 are consistent; the groove walls at the two transverse sides of the lower transition section 1-2-2 channel extend vertically and downwards from the lower ends of the groove walls at the two transverse sides of the connecting section 1-2-3 channel.
Example 4
As shown in fig. 4, unlike the embodiment 3, the two lateral groove walls of the channel of the upper transition section 1-2-1 in this embodiment extend obliquely downwards and inwards from the top ends of the two lateral sides of the brick body 1; the groove walls at the two transverse sides of the connecting section 1-2-3 groove channel respectively start to continuously extend downwards and inwards in an inclined way from the lower ends of the groove walls at the two transverse sides of the upper transition section 1-2-1 groove channel; the groove walls at the two transverse sides of the groove channel of the lower transition section 1-2-2 continue to extend downwards and inwards in an inclined mode from the lower ends of the groove walls at the two transverse sides of the groove channel of the connecting section 1-2-3, and the inclined angles of the upper transition section 1-2-1, the connecting section 1-2-3 and the lower transition section 1-2-2 are consistent.
Claims (7)
1. The utility model provides a gap brick that permeates water which characterized in that: the brick comprises a brick body (1), wherein the brick body (1) is made of a material which is impermeable to water or has low water permeability:
The lower part of the brick body (1) is provided with more than one lower groove (1-1) which extends along the longitudinal direction and has downward notch, and when the number of the lower grooves (1-1) is more than two, the lower grooves (1-1) are distributed at intervals along the transverse direction;
At least one side wall of the brick body (1) in the longitudinal direction is also provided with a side groove (1-2) which vertically penetrates through the upper surface and the lower surface of the brick body (1), and the bottom wall of a channel of the side groove (1-2) is communicated with a lower groove (1-1) at the lower part of the brick body (1);
The side groove (1-2) comprises an upper transition section (1-2-1) and a lower transition section (1-2-2); the distance from the notch of the channel of the upper transition section (1-2-1) to the bottom of the groove is gradually reduced from top to bottom, and the distance from the notch of the channel of the lower transition section (1-2-2) to the bottom of the groove is gradually increased from top to bottom;
The distance from the upper end to the lower end of the channel of the lower transition section (1-2-2) is greater than the distance from the notch of the lower groove (1-1) to the groove bottom.
2. A gap water permeable brick according to claim 1, wherein: the groove walls at the two transverse sides of the upper transition section (1-2-1) groove channel extend downwards and inwards from the top ends of the two transverse sides of the brick body (1) in an inclined mode, and the groove walls at the two transverse sides of the lower transition section (1-2-2) groove channel extend downwards and vertically from the lower ends of the groove walls at the two transverse sides of the upper transition section (1-2-1) groove channel.
3. A gap water permeable brick according to claim 1, wherein: the groove walls at the two transverse sides of the upper transition section (1-2-1) groove channel extend downwards and inwards in an inclined mode from the top ends at the two transverse sides of the brick body (1), the groove walls at the two transverse sides of the lower transition section (1-2-2) groove channel continue to extend downwards and inwards in an inclined mode from the lower ends of the groove walls at the two transverse sides of the upper transition section (1-2-1), and the inclined angles of the lower transition section (1-2-2) and the upper transition section (1-2-1) are consistent.
4. A gap water permeable brick according to claim 1, wherein: a connecting section (1-2-3) is also arranged between the upper transition section (1-2-1) and the lower transition section (1-2-2), and the distances from the notch of the channel of the connecting section (1-2-3) to the bottom of the channel are consistent from top to bottom.
5. A gap water permeable brick according to claim 4, wherein: the groove walls at the two transverse sides of the channel of the upper transition section (1-2-1) extend downwards and inwards from the top ends of the two transverse sides of the brick body (1) in an inclined manner; the groove walls at the two transverse sides of the groove channel of the connecting section (1-2-3) respectively start to continuously extend downwards and inwards in an inclined manner from the lower ends of the groove walls at the two transverse sides of the groove channel of the upper transition section (1-2-1), and the inclined angles of the upper transition section (1-2-1) and the connecting section (1-2-3) are consistent; the groove walls at the two transverse sides of the groove channel of the lower transition section (1-2-2) vertically extend downwards from the lower ends of the groove walls at the two transverse sides of the groove channel of the connecting section (1-2-3).
6. A gap water permeable brick according to claim 4, wherein: the groove walls at the two transverse sides of the channel of the upper transition section (1-2-1) extend downwards and inwards from the top ends of the two transverse sides of the brick body (1) in an inclined manner; the groove walls at the two transverse sides of the connecting section (1-2-3) groove channel respectively start to continuously extend downwards and inwards in an inclined mode from the lower ends of the groove walls at the two transverse sides of the upper transition section (1-2-1) groove channel; the groove walls at the two transverse sides of the groove channel of the lower transition section (1-2-2) continue to incline and extend downwards and inwards from the lower ends of the groove walls at the two transverse sides of the groove channel of the connecting section (1-2-3), and the inclination angles of the upper transition section (1-2-1), the connecting section (1-2-3) and the lower transition section (1-2-2) are consistent.
7. a gap water permeable brick according to any one of claims 1 to 6, wherein: the upper surface of the brick body (1) is provided with anti-skid stripes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821934966.2U CN209759929U (en) | 2018-11-22 | 2018-11-22 | Gap permeable brick |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821934966.2U CN209759929U (en) | 2018-11-22 | 2018-11-22 | Gap permeable brick |
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CN209759929U true CN209759929U (en) | 2019-12-10 |
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CN201821934966.2U Active CN209759929U (en) | 2018-11-22 | 2018-11-22 | Gap permeable brick |
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2018
- 2018-11-22 CN CN201821934966.2U patent/CN209759929U/en active Active
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