CN211097449U - High-ductility cement billiard table top mounting structure - Google Patents

Abstract

The utility model discloses a high ductility cement billiard ball desktop mounting structure, including mount table and four heel posts, mount table both sides lower extreme welds perpendicularly four heel posts corresponding with the heel post, and all overlaps on four heel posts to be equipped with powerful spring, and equal horizontal welding has the guide bar in the mount table both sides, and overlaps respectively on the guide bar to be equipped with spacing spring and sliding sleeve. The utility model discloses make the welding in the heel post is established to the heel post sliding sleeve on the mount table, recycle powerful spring and provide powerful elastic support for heel post and heel post, through setting up the guide bar in the heel post both sides correspondence, utilize spacing spring elasticity spacing sliding sleeve on the guide bar, utilize the branch between sliding sleeve and the heel post to pass through further balanced support for the mount table; through set up vertical strengthening rib and horizontal strengthening rib of groined type in the mount table of slot-shaped structure to pack the ductile concrete layer, utilize expansion bolts and spacing groove to adorn the billiard ball face in the mount table is firm.

Description

High-ductility cement billiard table top mounting structure

Technical Field

The utility model relates to a billiard table preparation technical field especially relates to a high ductility cement billiard table desktop mounting structure.

Background

Billiards is an elegant indoor sport widely popularized internationally, and is an indoor entertainment sport which uses a ball rod to hit a ball on a table and determines the success or failure of a game by calculating scores. Billiards have evolved into a variety of forms: there are eight balls in chinese, russian, snooker, kelang, american and snooker, of which snooker is the most common and has become a game. With the wide range of billiard ball movement, the level of equipment requirements for the billiard ball itself is increasing. In order to reduce the influence of external force factors on operation as much as possible, more and more stabilizing technologies are applied to the installation of the billiard table surface, but because the external force extrudes the billiard table surface all the time, the billiard table surface manufactured under the traditional technology lacks sufficient stability, the stability of the billiard table surface is difficult to ensure, because the billiard table surface easily causes the movement of billiards everywhere, the billiard table has great interference effect on the billiard movement, and the fairness of billiard games has great negative influence.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that is difficult in the prior art and providing a high-ductility cement billiard table top mounting structure.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a high ductility cement billiard ball desktop mounting structure, includes mount table and four heel posts, mount table both sides lower extreme welds perpendicularly four heel posts corresponding with the heel post, and all overlaps on four heel posts to be equipped with powerful spring, equal horizontal welding has the guide bar in the mount table both sides, and overlaps respectively on the guide bar to be equipped with spacing spring and sliding sleeve, be connected with branch between sliding sleeve and the heel post, the mount table four sides all sets up flutedly, the recess wherein is equipped with vertical strengthening rib between the twice, and the recess wherein is equipped with horizontal strengthening rib between the twice in addition, ductile concrete layer has been pour jointly on vertical strengthening rib and the horizontal strengthening rib, be equipped with the billiard surface on the ductile concrete layer, and fixedly connected with expansion bolt between ductile concrete layer and the billiard surface.

Preferably, the four bearing columns are of hollow structures with openings at the upper ends, and one ends of the four bearing rods, which are far away from the mounting table, are respectively sleeved in the four bearing columns in a vertically sliding manner.

Preferably, two ends of the strong spring respectively abut against the mounting table and the bearing column.

Preferably, two the guide bar uses the bearing bar to correspond the setting as the plumb line, the fixed cover of spacing spring one end is located the guide bar and is kept away from one of bearing bar and serve, and locate on the guide bar with spacing spring free end looks welded sliding sleeve slip cap, the branch both ends are connected with mount table and bearing column pin shaft respectively.

Preferably, the longitudinal reinforcing ribs and the transverse reinforcing ribs are arranged in a crossed mode to form a # -shaped structure, limiting grooves corresponding to four edges of the upper end of the billiard surface are formed in the upper ends of the four edges of the mounting table, and the four edges of the upper end of the billiard surface are respectively clamped and sleeved in the four limiting grooves.

Compared with the prior art, the utility model discloses possess following advantage:

1. the utility model vertically welds four bearing rods connected with the bearing column sleeves at the lower end of the mounting platform, and utilizes the sleeved strong springs to provide elastic support for the bearing rods and the mounting platform; through set up the wire pole in the mount table of bearing bar both sides to utilize spacing spring elasticity to set up the sliding sleeve on the guide bar, utilize the branch of being connected between sliding sleeve and the heel post to provide further supporting role for the mount table, in order to ensure the overall stability of mount table.

2. The utility model discloses an open the recess in the mount table of cell structure, alternately set up vertical strengthening rib and horizontal strengthening rib in the recess of subtend in order to constitute the bearing structure of groined type structure, pack ductile concrete layer on vertical strengthening rib and horizontal strengthening rib, recycle expansion bolts fixed supporting bench sphere to make the fixed suit of billiard ball face in the mount table.

To sum up, the utility model enables the bearing rod welded on the mounting table to be sleeved in the bearing column in a sliding way, and then utilizes the strong spring to provide strong elastic support for the bearing column and the bearing rod, and utilizes the limiting spring to elastically limit the sliding sleeve on the guiding rod by correspondingly arranging the guiding rods on both sides of the bearing rod, and utilizes the support rod between the sliding sleeve and the bearing column to support the mounting table through further balance; through set up vertical strengthening rib and horizontal strengthening rib of groined type in the mount table of slot-shaped structure to pack the ductile concrete layer, utilize expansion bolts and spacing groove to adorn the billiard ball face in the mount table is firm.

Drawings

Fig. 1 is a schematic structural view of a high-ductility cement billiard table surface mounting structure provided by the present invention;

FIG. 2 is a top view of the internal structure of a mounting table of the high-ductility cement billiard table mounting structure provided by the present invention;

fig. 3 is a top view of the mounting table structure of the high-ductility cement billiard table surface mounting structure provided by the utility model.

In the figure: the device comprises an installation table 1, a bearing column 2, a bearing rod 3, a strong spring 4, a guide rod 5, a limiting spring 6, a sliding sleeve 7, a support rod 8, a groove 9, a longitudinal reinforcing rib 10, a transverse reinforcing rib 11, a ductile concrete layer 12, a spherical surface 13, an expansion bolt 14 and a limiting groove 15.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-3, a high-ductility cement billiard table top mounting structure comprises a mounting table 1 and four bearing columns 2, and specifically referring to fig. 2, the mounting table 1 is a groove-shaped structure with an open upper end, four bearing rods 3 corresponding to the bearing columns 2 are vertically welded at the lower ends of two sides of the mounting table 1, strong springs 4 are respectively sleeved on the four bearing rods 3, the bearing rods 3 and the mounting table 1 are elastically supported by taking the bearing columns 2 as fulcrums, guide rods 5 are horizontally welded in two sides of the mounting table 1, limit springs 6 and sliding sleeves 7 are respectively sleeved on the guide rods 5, the sliding sleeves 7 horizontally slide on the guide rods 5 under the tension of the limit springs 6, supporting rods 8 are connected between the sliding sleeves 7 and the bearing columns 2, the two supporting rods 8 are obliquely arranged and correspondingly positioned at two sides of the bearing rods 5, so as to provide a supporting function for maintaining balance for the mounting table 1, the four sides of the mounting table 1 are all provided with grooves 9, the four grooves 9 can be arranged into a rectangular structure which is connected end to end, the grooves 9 are provided with longitudinal reinforcing ribs 10 between the two grooves, the grooves 9 are provided with transverse reinforcing ribs 11 between the other two grooves, a ductile concrete layer 12 is poured on the longitudinal reinforcing ribs 10 and the transverse reinforcing ribs 11, the ductile concrete layer 12 is provided with a table top surface 13, and expansion bolts 14 are fixedly connected between the ductile concrete layer 12 and the table top surface 13.

With specific reference to the accompanying figures 1-2, further description is provided:

firstly, two ends of a longitudinal reinforcing rib 10 and two ends of a transverse reinforcing rib 11 are fixedly inserted into corresponding grooves 9, and the longitudinal reinforcing rib 10 and the transverse reinforcing rib 11 are horizontally laid;

secondly, the longitudinal reinforcing ribs 10 and the transverse reinforcing ribs 11 are alternately inserted to form a plurality of groined bearing structures, so that the ductile concrete layers 12 are conveniently poured on the longitudinal reinforcing ribs 10 and the transverse reinforcing ribs 11.

Four heel posts 2 are upper end open-ended hollow structure, and four heel posts 3 keep away from the one end of mount table 1 and during four heel posts 2 are located to perpendicular slip cap respectively, 4 both ends of powerful spring offset with mount table 1 and heel post 2 respectively, under mount table 1 and exogenic action influence, mount table 1 extrudees heel post 3, make heel post 3 to shrink in the heel post 2, in order to extrude powerful spring 4, under the tensile effect of powerful spring 4, for heel post 3 and mount table 1 provide reverse supporting effect.

Two guide bars 5 use bearing bar 3 as the perpendicular bisector and correspond the setting, and the fixed cover of 6 one ends of spacing spring is located guide bar 5 and is kept away from one end of bearing bar 3, and locates on guide bar 5 with the sliding sleeve 7 sliding sleeve of 6 free end looks welded of spacing spring, and branch 8 both ends are respectively with mount table 1 and bearing post 2 round pin hub connection.

Like above-mentioned process, mount table 1 atress moves down, extrudees branch 8, and branch 8 atress uses heel post 2 to discover to support sliding sleeve 7 as the fulcrum, and sliding sleeve 7 atress uses guide bar 5 to slide for the direction level to extrude spacing spring 6, under spacing spring 6's tension effect, for sliding sleeve 7 and branch 8 provide reverse support, thereby maintain mount table 1's balance.

The longitudinal reinforcing ribs 10 and the transverse reinforcing ribs 11 are arranged in a crossed manner to form a groined structure, which is beneficial to increasing the connection stability between the longitudinal reinforcing ribs 10 and the transverse reinforcing ribs 11, so that the groined longitudinal reinforcing ribs 10 and the transverse reinforcing ribs 11 have enough bearing performance.

Limiting grooves 15 corresponding to the four edges of the upper end of the billiard surface 13 are formed in the upper ends of the four edges of the mounting table 1, and the four edges of the upper end of the billiard surface 13 are respectively clamped and sleeved in the four limiting grooves 15.

Referring to fig. 3 for specific description, the billiard surface 13 is sleeved in the mounting table 1, and four sides of the upper end of the billiard surface are respectively clamped and sleeved in four limiting grooves 15, which is helpful for further limiting the position of the billiard surface 12 and avoiding the billiard surface 13 from being stressed and raised.

Claims (5)

1. A high-ductility cement billiard table top mounting structure comprises a mounting table (1) and four bearing columns (2), and is characterized in that the lower ends of the two sides of the mounting table (1) are vertically welded with four bearing rods (3) corresponding to the bearing columns (2), the four bearing rods (3) are respectively sleeved with a strong spring (4), the two sides of the mounting table (1) are horizontally welded with guide rods (5), the guide rods (5) are respectively sleeved with a limiting spring (6) and a sliding sleeve (7), a support rod (8) is connected between the sliding sleeve (7) and the bearing columns (2), the four side edges of the mounting table (1) are respectively provided with a groove (9), a longitudinal reinforcing rib (10) is arranged between two of the grooves (9), a transverse reinforcing rib (11) is arranged between the other two of the grooves (9), and ductile concrete layers (12) are jointly poured on the longitudinal reinforcing rib (10) and the transverse reinforcing rib (11), the billiards cue is characterized in that a billiards surface (13) is arranged on the ductile concrete layer (12), and an expansion bolt (14) is fixedly connected between the ductile concrete layer (12) and the billiards surface (13).

2. The high-ductility cement billiard table top mounting structure as claimed in claim 1, wherein the four bearing columns (2) are all hollow structures with openings at upper ends, and one ends of the four bearing rods (3) far away from the mounting table (1) are respectively vertically sleeved in the four bearing columns (2) in a sliding manner.

3. A high ductility cement billiard table top mounting structure as claimed in claim 2, wherein the two ends of the strong spring (4) respectively abut against the mounting table (1) and the bearing pillar (2).

4. The high-ductility cement billiard table top mounting structure as claimed in claim 3, wherein the two guide rods (5) are correspondingly arranged with the bearing rod (3) as a perpendicular bisector, one end of the limiting spring (6) is fixedly sleeved on the end of the guide rod (5) far away from the bearing rod (3), the sliding sleeve (7) welded to the free end of the limiting spring (6) is slidably sleeved on the guide rod (5), and the two ends of the support rod (8) are respectively pin-jointed with the mounting table (1) and the bearing column (2).

5. The high-ductility cement billiard table top mounting structure as claimed in claim 4, wherein the longitudinal reinforcing ribs (10) and the transverse reinforcing ribs (11) are arranged in a crossed manner to form a # -shaped structure, limiting grooves (15) corresponding to four sides of the upper end of the billiard table surface (13) are formed in the upper ends of the four sides of the mounting table (1), and the four sides of the upper end of the billiard table surface (13) are respectively clamped and sleeved in the four limiting grooves (15).

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