阅读说明：本技术 一种结晶器振动装置试车台架 (Test run rack of crystallizer vibration device ) 是由 李立 张磊 于 2020-07-21 设计创作，主要内容包括：本发明涉及设备安装领域,特别涉及一种结晶器振动装置试车台架。本发明的底部支架上设置多个活动块,通过底部固定螺栓将活动块固定在底部支架上,活动块上设置底部连接螺栓,底部连接螺栓用于底部支架与振动装置的连接；第一台架本体设置第一活动支架,第二台架本体设置第二活动支架,第一活动支架和第二活动支架上设置多个中间连接块,中间连接块上设置多个中间连接孔,中间连接孔插入中间固定螺栓,通过中间固定螺栓将中间连接块固定在第一活动支架或者第二活动支架上,可实现安装位置的纵向、横向双向调节,另设置双工作位,可实现高效连续振动试车。本发明的试车台架可以非常方便的安装各种不同型号的振动装置。(The invention relates to the field of equipment installation, in particular to a trial run rack of a crystallizer vibration device. The bottom bracket is provided with a plurality of movable blocks, the movable blocks are fixed on the bottom bracket through bottom fixing bolts, and bottom connecting bolts are arranged on the movable blocks and used for connecting the bottom bracket with the vibration device; the first movable support is arranged on the first rack body, the second movable support is arranged on the second rack body, a plurality of intermediate connecting blocks are arranged on the first movable support and the second movable support, a plurality of intermediate connecting holes are formed in the intermediate connecting blocks, the intermediate connecting holes are inserted into the intermediate connecting holes, the intermediate connecting blocks are fixed on the first movable support or the second movable support through the intermediate fixing bolts, longitudinal and transverse bidirectional adjustment of the mounting position can be achieved, and in addition, double working positions are arranged, so that efficient continuous vibration test running can be achieved. The test run bench can be used for conveniently mounting various vibration devices with different models.)

1. The utility model provides a crystallizer vibrating device rack of taking a trial run, includes bottom support, first rack body, second rack body, and first rack body, second rack body and bottom support are fixed subaerial, its characterized in that: the bottom bracket is provided with a plurality of movable blocks, each movable block is provided with a plurality of bottom connecting holes, the movable blocks are fixed on the bottom bracket through bottom fixing bolts, and bottom connecting bolts are arranged on the movable blocks and used for connecting the bottom bracket with the vibration device; the first movable support is arranged on the first rack body, the second movable support is arranged on the second rack body, a plurality of middle connecting blocks are arranged on the first movable support and the second movable support, a plurality of middle connecting holes are formed in the middle connecting blocks, middle fixing bolts are inserted into the middle connecting holes, the middle connecting blocks are fixed on the first movable support or the second movable support through the middle fixing bolts, middle connecting bolts are arranged on the middle connecting blocks, and the middle connecting blocks are fixedly connected with the vibrating device through the middle connecting bolts.

2. The trial run bench of a mold oscillating device according to claim 1, wherein: the bottom bracket is provided with 2 movable blocks.

3. The trial run bench of a mold oscillating device according to claim 1, wherein: each movable block is provided with 4 bottom connecting holes.

4. The trial run bench of a mold oscillating device according to claim 1, wherein: the first movable support and the second movable support are identical in structure.

5. The trial run bench of a mold oscillating device according to claim 1, wherein: the first movable support is provided with 4 middle connecting blocks.

6. The trial run bench of a mold oscillating device according to claim 1, wherein: the second movable support is provided with 4 middle connecting blocks.

Technical Field

The invention relates to the field of equipment installation, in particular to a trial run rack of a crystallizer vibration device.

Background

Along with the increase of square billet demand in recent years, the quantity of square billet crystallizer vibration devices required by manufacturers is increased, the existing method for fixedly welding the vibration devices on the test run rack directly causes difficulty in equipment replacement, installation and debugging along with the continuous increase of product models and types, the test run rack needs to be related to each product, the test run rack needs to be replaced when the vibration devices are replaced in an upgrading mode, the installation is redesigned to match with a new vibration device, and the installation cost is increased.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a trial run rack of a crystallizer vibration device. The movable block and the middle connecting block can flexibly adjust positions according to the vibration device, so that the test run rack can be used for conveniently mounting various vibration devices of different types.

The technical scheme of the invention is as follows: the utility model provides a crystallizer vibrating device rack of taking a trial run, includes bottom support, first rack body, second rack body, and first rack body, second rack body and bottom support are fixed subaerial, its characterized in that: the bottom bracket is provided with a plurality of movable blocks, each movable block is provided with a plurality of bottom connecting holes, the movable blocks are fixed on the bottom bracket through bottom fixing bolts, and bottom connecting bolts are arranged on the movable blocks and used for connecting the bottom bracket with the vibration device; the first movable support is arranged on the first rack body, the second movable support is arranged on the second rack body, a plurality of middle connecting blocks are arranged on the first movable support and the second movable support, a plurality of middle connecting holes are formed in the middle connecting blocks, middle fixing bolts are inserted into the middle connecting holes, the middle connecting blocks are fixed on the first movable support or the second movable support through the middle fixing bolts, middle connecting bolts are arranged on the middle connecting blocks, and the middle connecting blocks are fixedly connected with the vibrating device through the middle connecting bolts.

According to a crystallizer vibrating device test run rack as above, its characterized in that: the bottom bracket is provided with 2 movable blocks.

According to a crystallizer vibrating device test run rack as above, its characterized in that: each movable block is provided with 4 bottom connecting holes.

According to a crystallizer vibrating device test run rack as above, its characterized in that: the first movable support and the second movable support are identical in structure.

According to a crystallizer vibrating device test run rack as above, its characterized in that: the first movable support is provided with 4 middle connecting blocks.

According to a crystallizer vibrating device test run rack as above, its characterized in that: the second movable support is provided with 4 middle connecting blocks.

The invention has the beneficial effects that: firstly, the adjusting range is small and very flexible. And secondly, the replacement of the equipment is quickly finished without re-processing the mounting part, and the working efficiency is improved. Thirdly, the structure is relatively simple, need not to abandon spare part more than in the change, has reduced installation cost, sets up two work positions in addition, can realize that a test carries out the installation preparation work of another simultaneously, realizes continuously high-efficiently.

Drawings

Fig. 1 is a schematic perspective view of the present invention (without a vibrating device).

Fig. 2 is a front view of the present invention (including the vibrating device).

Fig. 3 is a schematic structural view of the movable support.

Description of reference numerals: the movable support comprises a bottom support 1, a first rack body 2, a second rack body 3, a first movable support 4, a second movable support 5, a vibrating device 8, a bottom connecting bolt 11, a bottom connecting hole 12, a movable block 13, an intermediate connecting bolt 41, an intermediate connecting hole 42 and an intermediate connecting block 43.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

As shown in fig. 1 and 2, the mold trial run bench of the present invention comprises a bottom bracket 1, a first bench body 2, and a second bench body 3, wherein the first bench body 2, the second bench body 3, and the bottom bracket 1 are fixed on the ground, and the distance therebetween is determined according to the overall size of the vibration device 8. Like this to the vibrating device 8 of different models, if its installation size when the difference is great, can adjust the mounting point through the distance of adjusting between first rack body 2, second rack body 3 and the bottom support 1 to use different vibrating device 8's installation demand.

As shown in fig. 1, the bottom bracket 1 of the present invention is provided with a plurality of movable blocks 13, two movable blocks 13 are provided in fig. 1, each movable block 13 is provided with a plurality of bottom connection holes 12, fig. 1 includes four bottom connection holes 12, the bottom connection holes 12 are inserted into bottom fixing bolts, and the movable blocks 13 are fixed on the bottom bracket 1 by the bottom fixing bolts. The movable block 13 is provided with a bottom connecting bolt 11, and the bottom connecting bolt 11 is used for connecting the bottom bracket 1 with the vibration device 8.

As shown in FIG. 3, the first movable frame 4 is disposed on the first frame body 2, the second movable frame 5 is disposed on the second frame body 3, and the first movable frame 4 and the second movable frame 5 are preferably identical in structure, so that they can be exchanged and maintained. A plurality of intermediate connecting blocks 43 are arranged on the first movable support 4 and the second movable support 5, 4 intermediate connecting blocks 43 are arranged in fig. 3, a plurality of intermediate connecting holes 42 are arranged on the intermediate connecting blocks 43, intermediate fixing bolts are inserted into the intermediate connecting holes 42, and the intermediate connecting blocks 43 are fixed on the first movable support 4 or the second movable support 5 through the intermediate fixing bolts. The intermediate connecting block 43 is provided with an intermediate connecting bolt 41, and the intermediate connecting block 43 is fixedly connected with the vibration device 8 through the intermediate connecting bolt 41. The intermediate connecting blocks 43 of the invention can adjust the positions and the number of the intermediate connecting blocks 43 on the first movable bracket 4 and the second movable bracket 5 according to the different installation positions of the vibration devices 8, thereby being suitable for the installation of the vibration devices 8 of different models.

As shown in fig. 2, after the vibration device 8 of the present invention is installed and fixed, the installation work of the vibration device 8 can be completed by locking the corresponding bolts, so that the vibration device 8 can be installed and fixed quickly, and when the equipment needs to be replaced, the positions of the bracket, the connecting block and the movable block can be adjusted again to adapt to new equipment, thereby completing the replacement of the equipment quickly without machining the installation part again.