.tb-container[data-toolset-blocks-container="76b9e19aebd78b467b04c64acfe33167"] { padding: 0; } .tb-grid[data-toolset-blocks-grid="739f7186adc218f474dd3e59a80ce4ce"] { grid-template-columns: minmax(0, 0.5fr) minmax(0, 0.5fr);grid-row-gap: 0px;grid-auto-flow: row } .tb-grid[data-toolset-blocks-grid="739f7186adc218f474dd3e59a80ce4ce"] > .tb-grid-column:nth-of-type(2n + 1) { grid-column: 1 } .tb-grid[data-toolset-blocks-grid="739f7186adc218f474dd3e59a80ce4ce"] > .tb-grid-column:nth-of-type(2n + 2) { grid-column: 2 } .tb-gallery[data-toolset-blocks-gallery="0e74e6e01d975540307c1c886f5c6ddd"] { margin-top: -25px; } .tb-gallery[data-toolset-blocks-gallery="0e74e6e01d975540307c1c886f5c6ddd"] .tb-gallery--grid { grid-template-columns: minmax(0, 1fr);grid-row-gap: 0px;grid-column-gap: 0px; } .tb-grid-column[data-toolset-blocks-grid-column="3034fbe886c11054e95b46b09d3e4112"] { display: flex; } .tb-button[data-toolset-blocks-button="e8a21434c7d8dc82700aea56c8a67145"] .tb-button__link { background-color: rgba( 119, 19, 19, 1 );border-radius: 1px;margin-top: 12px;margin-bottom: 50px;font-size: 12px;font-weight: bold;text-transform: uppercase; } .tb-button[data-toolset-blocks-button="e8a21434c7d8dc82700aea56c8a67145"] .tb-button__link:hover { background-color: rgba( 207, 46, 46, 1 ); } .tb-fields-and-text[data-toolset-blocks-fields-and-text="ed47b6fac8332c3518fd6a2e58424f92"] { font-size: 16px;font-weight: bold; } .tb-fields-and-text[data-toolset-blocks-fields-and-text="ed47b6fac8332c3518fd6a2e58424f92"] p { font-size: 16px;font-weight: bold; } [data-toolset-blocks-image="998f7296432ca48842c787e8c78171f6"] { max-width: 100%; } [data-toolset-blocks-image="998f7296432ca48842c787e8c78171f6"] img { box-shadow: 1px 1px 12px 0 rgba( 0, 0, 0, 0.5 ); } @media only screen and (max-width: 781px) { .tb-grid[data-toolset-blocks-grid="739f7186adc218f474dd3e59a80ce4ce"] { grid-template-columns: minmax(0, 0.5fr) minmax(0, 0.5fr);grid-auto-flow: row } .tb-grid[data-toolset-blocks-grid="739f7186adc218f474dd3e59a80ce4ce"] > .tb-grid-column:nth-of-type(2n + 1) { grid-column: 1 } .tb-grid[data-toolset-blocks-grid="739f7186adc218f474dd3e59a80ce4ce"] > .tb-grid-column:nth-of-type(2n + 2) { grid-column: 2 } .tb-gallery[data-toolset-blocks-gallery="0e74e6e01d975540307c1c886f5c6ddd"] .tb-gallery--grid { grid-template-columns: minmax(0, 1fr);grid-row-gap: 0px;grid-column-gap: 0px; } .tb-grid-column[data-toolset-blocks-grid-column="3034fbe886c11054e95b46b09d3e4112"] { display: flex; }  } @media only screen and (max-width: 599px) { .tb-grid[data-toolset-blocks-grid="739f7186adc218f474dd3e59a80ce4ce"] { grid-template-columns: minmax(0, 1fr);grid-auto-flow: row } .tb-grid[data-toolset-blocks-grid="739f7186adc218f474dd3e59a80ce4ce"]  > .tb-grid-column:nth-of-type(1n+1) { grid-column: 1 } .tb-gallery[data-toolset-blocks-gallery="0e74e6e01d975540307c1c886f5c6ddd"] .tb-gallery--grid { grid-template-columns: minmax(0, 1fr);grid-row-gap: 0px;grid-column-gap: 0px; } .tb-grid-column[data-toolset-blocks-grid-column="3034fbe886c11054e95b46b09d3e4112"] { display: flex; }  } 