阅读说明：本技术 一种抗震自动化设备框架 (Antidetonation automation equipment frame ) 是由 陈梦霞 凌东兴 赵斌 宿高明 于 2019-09-16 设计创作，主要内容包括：本发明公开了一种抗震自动化设备框架,包括底座和框架,底座的上表面固定连接有均匀分布的第一套管,第一套管的内侧壁滑动连接有第二套管,第二套管的上表面固定连接有卡板,通过底座、框架、第一套管、第二套管、卡板、第一弹簧、卡块、滑槽、滑块、第二弹簧、伸缩装置和限位装置的配合使用,将设备安装在框架的上表面,因设备自身的重力,使伸缩装置收缩,卡板与框架的下表面贴合,第一弹簧压缩,第二套管向下滑动,卡块与滑块贴合,滑块在滑槽内滑动,第二弹簧压缩,在设备工作时所产生震动通过第一弹簧和第二弹簧弹力作用达到减震的目的,降低设备运行时产生的震动,进而起到抗震效果。(The invention discloses an anti-seismic automation equipment frame, which comprises a base and a frame, wherein the upper surface of the base is fixedly connected with first sleeves which are uniformly distributed, the inner side wall of each first sleeve is connected with a second sleeve in a sliding manner, the upper surface of each second sleeve is fixedly connected with a clamping plate, the equipment is arranged on the upper surface of the frame through the matching use of the base, the frame, the first sleeves, the second sleeves, the clamping plates, a first spring, a clamping block, a sliding groove, a sliding block, a second spring, a telescopic device and a limiting device, the telescopic device is contracted due to the gravity of the equipment, the clamping plates are attached to the lower surface of the frame, the first spring is compressed, the second sleeves slide downwards, the clamping block is attached to the sliding block, the sliding block slides in the sliding groove, the second spring is compressed, the vibration generated when the equipment works can achieve the aim of shock absorption through the elastic force of the first spring and the second, thereby having the anti-seismic effect.)

1. The utility model provides an antidetonation automation equipment frame which characterized in that: including base and frame, the last fixed surface of base is connected with evenly distributed's first sleeve pipe, first sheathed tube inside wall sliding connection has the second sleeve pipe, the second sheathed tube last fixed surface is connected with the cardboard, the first spring of fixedly connected with between the lower extreme of cardboard and the base, the fixture block of second sheathed tube lateral wall fixedly connected with evenly distributed, first sheathed tube inside wall seted up with fixture block assorted spout, the inside wall sliding connection of spout has the slider, fixedly connected with second spring between slider and the base, fixed mounting has the telescoping device between frame and the base, the spiro union has stop device between frame and the base.

2. An earthquake-resistant automation equipment frame as in claim 1 wherein: the telescoping device includes the branch of the upper surface fixed connection of base, the lower fixed surface of frame is connected with the third sleeve pipe, the sheathed tube inside wall of third and branch looks sliding connection, fixedly connected with third spring between the upper end of branch and the frame.

3. An earthquake-resistant automation equipment frame as in claim 2 wherein: the upper surface of the clamping plate is provided with a through hole, the outer side wall of the third sleeve is in sliding connection with the through hole, and the outer side wall of the supporting rod is located in the second sleeve.

4. An earthquake-resistant automation equipment frame as in claim 1 wherein: the upper surface integrated into one piece of cardboard has the bolt, the slot has been seted up to the lower surface of frame, the lateral wall of bolt is pegged graft in the slot.

5. An earthquake-resistant automation equipment frame as in claim 1 wherein: stop device includes the T shape dead lever that the lower surface spiro union of frame has, first slide bar has been cup jointed to T shape dead lever lateral wall, first T shape draw-in groove has been seted up to the upper surface of first slide bar, the lateral wall and the first T shape draw-in groove looks sliding connection of T shape dead lever, the lateral wall fixedly connected with stopper of first slide bar, the upper surface spiro union of base has the second slide bar, the second T shape draw-in groove has been seted up to the upper surface of second slide bar, the lateral wall and the second T shape draw-in groove looks sliding connection of stopper.

6. An earthquake-resistant automation equipment frame as in claim 1 wherein: the outer diameter of the first spring is smaller than that of the second spring, and the first spring is located inside the second spring.

Technical Field

The invention relates to the technical field of earthquake resistance, in particular to an earthquake-resistant automatic equipment frame.

Background

The existing automatic equipment frame is generally single in structure and does not have an anti-seismic function, when equipment placed on the automatic equipment frame runs, the vibration generated by the equipment is transmitted to the automatic equipment frame to enable the automatic equipment frame to generate vibration, if the vibration is severe, devices inside the equipment can be damaged, the service life of the equipment is shortened, the probability of equipment failure is increased, and in order to enable the automatic equipment frame to have an anti-seismic effect, the anti-seismic automatic equipment frame is specially provided.

Disclosure of Invention

The present invention is directed to a shock-resistant automation equipment frame to solve the problems set forth in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an antidetonation automation equipment frame, includes base and frame, the last fixed surface of base is connected with evenly distributed's first sleeve pipe, first sheathed tube inside wall sliding connection has the second sleeve pipe, second sheathed tube last fixed surface is connected with the cardboard, the first spring of fixedly connected with between the lower extreme of cardboard and the base, the fixture block of second sheathed tube lateral wall fixedly connected with evenly distributed, first sheathed tube inside wall seted up with fixture block assorted spout, the inside wall sliding connection of spout has the slider, fixedly connected with second spring between slider and the base, fixed mounting has the telescoping device between frame and the base, the spiro union has stop device between frame and the base.

Further, the telescoping device includes the branch of the upper surface fixed connection of base, the lower fixed surface of frame is connected with the third sleeve pipe, the inside wall and the branch looks sliding connection of third sleeve pipe, fixedly connected with third spring between the upper end of branch and the frame.

Furthermore, a through hole is formed in the upper surface of the clamping plate, the outer side wall of the third sleeve is connected with the through hole in a sliding mode, and the outer side wall of the supporting rod is located in the second sleeve.

Furthermore, the upper surface integrated into one piece of cardboard has the bolt, the slot has been seted up to the lower surface of frame, the lateral wall of bolt is pegged graft in the slot.

Further, stop device includes the T shape dead lever that the lower surface spiro union of frame has, first slide bar has been cup jointed to T shape dead lever lateral wall, first T shape draw-in groove has been seted up to the upper surface of first slide bar, the lateral wall and the first T shape draw-in groove looks sliding connection of T shape dead lever, the lateral wall fixedly connected with stopper of first slide bar, the upper surface spiro union of base has the second slide bar, the second T shape draw-in groove has been seted up to the upper surface of second slide bar, the lateral wall and the second T shape draw-in groove looks sliding connection of stopper.

Further, the outer diameter of the first spring is smaller than that of the second spring, and the first spring is located inside the second spring.

Compared with the prior art, the invention has the beneficial effects that: the utility model provides an antidetonation automation equipment frame, the on-line screen storage device comprises a base, a frame, first sleeve pipe, the second sleeve pipe, the cardboard, first spring, the fixture block, the spout, the slider, the second spring, telescoping device and stop device's cooperation is used, with the upper surface of equipment fixing at the frame, because of the gravity of equipment self, make the telescoping device shrink, the lower surface laminating of cardboard and frame, first spring compression, the second sleeve pipe lapse, fixture block and slider laminating, the slider slides in the spout, second spring compression, produced vibrations reach the absorbing purpose through first spring and second spring elastic force effect when equipment work, the vibrations that produce when reducing equipment operation, and then play the effect, stop device makes the distance between base and the frame obtain the restriction, avoid the increase of distance between base and the frame, influence its result of use.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

In the figure: the device comprises a base 1, a frame 2, a first sleeve 3, a second sleeve 4, a clamping plate 5, a first spring 6, a clamping block 7, a sliding groove 8, a sliding block 9, a second spring 10, a telescopic device 11, a limiting device 12, a supporting rod 13, a third sleeve 14, a third spring 15, a through hole 16, a bolt 17, a slot 18, a T-shaped fixing rod 19, a first sliding rod 20, a first T-shaped clamping groove 21, a limiting block 22, a second sliding rod 23 and a second T-shaped clamping groove 24.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: an anti-seismic automation equipment frame comprises a base 1 and a frame 2, wherein the upper surface of the base 1 is fixedly connected with first sleeves 3 which are uniformly distributed, the inner side wall of each first sleeve 3 is connected with a second sleeve 4 in a sliding manner, the upper surface of each second sleeve 4 is fixedly connected with a clamping plate 5, a first spring 6 is fixedly connected between the lower end of each clamping plate 5 and the base 1, the outer side wall of each second sleeve 4 is fixedly connected with a clamping block 7 which is uniformly distributed, the inner side wall of each first sleeve 3 is provided with a sliding groove 8 matched with the clamping block 7, the inner side wall of each sliding groove 8 is connected with a sliding block 9 in a sliding manner, a second spring 10 is fixedly connected between each sliding block 9 and the base 1, a telescopic device 11 is fixedly arranged between the frame 2 and the base 1, a limiting device 12 is screwed between the frame 2 and the base 1, equipment is arranged on the upper surface, cardboard 5 and frame 2's bottom surface laminating, cardboard 5 downstream, first spring 6 compression, second sleeve 4 slides in first sleeve 3, laminate until fixture block 7 and slider 9, fixture block 7 promotes slider 9 and slides in spout 8, second spring 10 compression, until offsetting the gravity of equipment, the vibrations that produce when equipment starts reach when giving frame 2, because of the elastic force effect of first spring 6 and second spring 10, absorb the vibrations that equipment produced, and then reach shock-resistant effect, reduce the damage of the inside device of equipment, increase its life.

Telescoping device 11 includes the branch 13 of the upper surface fixed connection of base 1, the lower fixed surface of frame 2 is connected with third sleeve pipe 14, the inside wall and the 13 looks sliding connection of third sleeve pipe 14, fixedly connected with third spring 15 between the upper end of branch 13 and the frame 2, when telescoping device 11 contracts, third sleeve pipe 14 slides down, third spring 15 compresses, the slip takes place for the lateral wall and the third sleeve pipe 14 of branch 13, the third spring 15 of vibrations that equipment produced contracts in third sleeve pipe 14, play absorbing effect.

Through-hole 16 has been seted up to cardboard 5's upper surface, and the lateral wall and the through-hole 16 looks sliding connection of third sleeve 14, and the lateral wall of branch 13 is located second sleeve 4, and when the staff installed equipment on frame 2, because of the gravity telescoping device 11 of equipment contracts in through-hole 16, frame 2 downstream, cardboard 5 and the laminating of frame 2 are injectd the position of telescoping device 11.

Cardboard 5's upper surface integrated into one piece has bolt 17, slot 18 has been seted up to frame 2's lower surface, the lateral wall of bolt 17 is pegged graft in slot 18, when the staff installed equipment on the frame, because of the gravity of equipment forces frame 2 downstream, cardboard 5 and the laminating of frame 2, bolt 17 inserts in slot 18, increase the area of contact between cardboard 5 and the frame 2, avoid taking place to slide between cardboard 5 and the frame 2.

The limiting device 12 comprises a T-shaped fixing rod 19 screwed on the lower surface of the frame 2, a first slide bar 20 is sleeved on the outer side wall of the T-shaped fixing rod 19, a first T-shaped clamping groove 21 is formed in the upper surface of the first slide bar 20, the outer side wall of the T-shaped fixing rod 19 is in sliding connection with the first T-shaped clamping groove 21, a limiting block 22 is fixedly connected to the outer side wall of the first slide bar 20, a second slide bar 23 is screwed on the upper surface of the base 1, a second T-shaped clamping groove 24 is formed in the upper surface of the second slide bar 23, the outer side wall of the limiting block 22 is in sliding connection with the second T-shaped clamping groove 24, when the limiting device 12 is installed, the first slide bar 20 is sleeved in the second T-shaped clamping groove 24, then the T-shaped fixing rod 19 is sleeved in the first T-shaped clamping groove 21, the T-shaped fixing rod 19 is screwed on the lower surface of the frame 2, the second slide bar 23, the lower end of the T-shaped fixing rod 19 is clamped with the upper end of the first T-shaped clamping groove 21, the distance between the frame 2 and the base 1 is limited, when a worker installs equipment on the frame, the limiting device 12 contracts, the T-shaped fixing rod 19 slides into the first T-shaped clamping groove 21, and the first sliding rod 20 slides into the second T-shaped clamping groove 24.

The outer diameter of the first spring 6 is smaller than that of the second spring 10, and the first spring 6 is located inside the second spring 10, so that the shock absorption can be enhanced, when the first spring 6 contracts to the point that the fixture 7 is in contact with the slider 9, the first spring 6 and the second spring 10 are compressed simultaneously, and the elastic forces of the first spring 6 and the second spring 10 are combined to increase the elastic force.

The working principle is as follows: the staff installs equipment on frame 2, because of the gravity of equipment, make frame 2 downstream, telescoping device 11 contracts, branch 13 slides in third sleeve pipe 14, third spring 15 compresses, until cardboard 5 and the bottom surface laminating of frame 2, bolt 17 inserts in slot 18, prescribe a limit to the position of cardboard 5, increase the area of contact of cardboard 5 and frame 2, then second sleeve pipe 4 slides in first sleeve pipe 3, first spring 6 compresses, cardboard 5 slides down, until fixture block 7 and slider 9 contact, slider 9 slides in spout 8, second spring 10 compresses, until offsetting the gravity of equipment, when equipment starts, the vibrations that produce because of equipment transmit frame 2, the vibrations of frame 2 are absorbed through first spring 6, the elastic action of second spring 10 and telescoping device 11, and then reach antidetonation effect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.