阅读说明：本技术 一种基于大数据的作业设备 (Operation equipment based on big data ) 是由 黎璨 于 2021-09-22 设计创作，主要内容包括：本发明涉及新一代信息技术技术领域,且公开了一种基于大数据的作业设备,包括壳体、连接机构、产热机构、反应机构、限位机构,所述壳体的内壁活动连接有所述连接机构,所述壳体的内壁活动连接有所述产热机构,所述产热机构用于将振动产生的机械能转换为热能,所述壳体的内壁活动连接有所述反应机构。该基于大数据的作业设备,通过产热机构将传递来的机械能吸收,基于有机硅橡胶层的特性,进一步将吸收的机械能转化为热能,实现了当调节阀顶部作用于阀杆的弹簧刚度不足时,避免调节阀输出信号不稳定而急剧变动,避免调节阀振荡,防止衬氟调节阀控制的流量发生变化,避免衬氟调节阀的内部出现损坏,提高了衬氟调节阀的使用寿命。(The invention relates to the technical field of new-generation information technology and discloses operating equipment based on big data, which comprises a shell, a connecting mechanism, a heat generating mechanism, a reaction mechanism and a limiting mechanism, wherein the connecting mechanism is movably connected to the inner wall of the shell, the heat generating mechanism is movably connected to the inner wall of the shell and is used for converting mechanical energy generated by vibration into heat energy, and the reaction mechanism is movably connected to the inner wall of the shell. This operation equipment based on big data absorbs the mechanical energy that comes through heat production mechanism with the transmission, based on the characteristic of organosilicon rubber layer, further turns into absorptive mechanical energy heat energy, realized when the spring rate that the governing valve top acted on the valve rod is not enough, avoid governing valve output signal unstability and sharp variation, avoid the governing valve oscillation, prevent that the flow that the fluorine lining governing valve controlled from changing, avoid the inside of fluorine lining governing valve to appear damaging, improved the life of fluorine lining governing valve.)

1. A big data-based work apparatus, characterized in that: including casing (1), coupling mechanism (2), heat production mechanism (5), reaction mechanism (8), stop gear (9), the inner wall swing joint of casing (1) has coupling mechanism (2), the inner wall swing joint of casing (1) has heat production mechanism (5), heat production mechanism (5) are used for converting the mechanical energy that the vibration produced into heat energy, the inner wall swing joint of casing (1) has reaction mechanism (8), reaction mechanism (8) are used for the increase pressure in stop gear (9), casing (1) inner wall swing joint has stop gear (9), stop gear (9) are used for restricting the removal of coupling mechanism (2).

2. The big-data-based work apparatus according to claim 1, wherein: coupling mechanism (2) include valve rod (21), recess (22) and piston board (23), the inner wall swing joint of casing (1) has valve rod (21), seted up the inner wall of valve rod (21) recess (22), the inner wall elastic connection of recess (22) has piston board (23).

3. The big-data-based work apparatus according to claim 1, wherein: heat production mechanism (5) are including vibration mechanism (3) and conversion mechanism (4), the inner wall swing joint of casing (1) has vibration mechanism (3), vibration mechanism (3) are including vibration groove (31), vibrating spring (32) and vibration ball (33), the inner wall of casing (1) has been seted up vibration groove (31), the inner wall fixedly connected with of vibration groove (31) vibrating spring (32), the inboard fixedly connected with of vibrating spring (32) vibration ball (33).

4. A big-data-based working apparatus according to claim 3, wherein: the inner wall fixedly connected with of casing (1) conversion mechanism (4), conversion mechanism (4) are including producing heat groove (41), sheet metal (42) and organosilicon rubber layer (43), the inner wall of casing (1) has been seted up produce heat groove (41), the inner wall of producing heat groove (41) run through have with casing (1) fixed connection sheet metal (42), the outside fixedly connected with of sheet metal (42) organosilicon rubber layer (43), sheet metal (42) run through in the inner wall of vibration groove (31).

5. The big-data-based work apparatus according to claim 1, wherein: reaction unit (8) include drive mechanism (6) and hold mechanism (7), the inner wall fixedly connected with of casing (1) drive mechanism (6), drive mechanism (6) are including intercommunication groove (61), reaction tank (62), fixed block (63), nail pole (64) and through-hole (65), the inner wall of casing (1) has been seted up intercommunication groove (61), the inner wall of casing (1) just is close to the inboard of intercommunication groove (61) has been seted up reaction tank (62), the inboard fixedly connected with of reaction tank (62) fixed block (63), the inner wall of fixed block (63) has been seted up through-hole (65), the inner wall sliding connection of fixed block (63) has nail pole (64).

6. The big-data-based work apparatus according to claim 5, wherein: the inner wall fixedly connected with of reaction tank (62) receiving mechanism (7), receiving mechanism (7) are including leather bag one (71) and leather bag two (72), the inner wall fixedly connected with of reaction tank (62) leather bag one (71), the inner wall fixedly connected with of reaction tank (62) leather bag two (72).

7. The big-data-based work apparatus according to claim 5, wherein: the inner side of the reaction tank (62) is filled with an aqueous solution, the inner side of the first leather bag (71) is filled with citric acid powder, and the inner side of the second leather bag (72) is filled with baking soda powder.

8. The big-data-based work apparatus according to claim 5, wherein: stop gear (9) are including spacing groove (91) and limiting piston (92), the inner wall of casing (1) has been seted up spacing groove (91), the inboard sliding connection of spacing groove (91) has limiting piston (92), limiting piston (92) closely laminate with the inner wall of spacing groove (91), limiting groove (91) with reaction tank (62) intercommunication.

Technical Field

The invention relates to the technical field of new-generation information technology, in particular to operating equipment based on big data.

Background

Along with the development of the data era, the fluorine lining regulating valve and various pipeline accessories thereof are rapidly applied and popularized in various fields of petroleum, printing and dyeing, chemical engineering and the like, the fluorine lining regulating valve is a mechanical element, a top guide structure is adopted, and a multi-spring execution mechanism developed by a Jiangsu Jingmai automation instrument is matched, the fluorine lining regulating valve controls the flow by controlling the movement of a valve rod in the using process, the movement of the valve rod depends on the rigidity of a spring at the top of the regulating valve, and the vibration phenomenon of a regulating valve body can occur in the long-term using process of the existing fluorine lining regulating valve.

The current lining fluorine governing valve is in long-time use, because the interior hydraulic pressure of lining fluorine governing valve acts on the valve rod for a long time, can cause the spring rate that the governing valve top acted on the valve rod not enough, causes the governing valve output signal unstable and sharp variation, causes the governing valve oscillation, leads to lining fluorine governing valve controlled flow to change, can cause lining fluorine governing valve's inside to appear damaging, has reduced lining fluorine governing valve's life.

Therefore, we propose a big data based working device to solve the above problems.

Disclosure of Invention

Technical scheme (I)

In order to realize the purposes of avoiding unstable and rapid change of the output signal of the regulating valve, avoiding oscillation of the regulating valve, preventing the flow controlled by the fluorine lining regulating valve from changing, avoiding damage to the interior of the fluorine lining regulating valve and prolonging the service life of the fluorine lining regulating valve when the rigidity of the spring acting on the valve rod at the top of the regulating valve is insufficient, the invention provides the following technical scheme: the utility model provides an operation equipment based on big data, includes casing, coupling mechanism, heat production mechanism, reaction mechanism, stop gear, the inner wall swing joint of casing has coupling mechanism, the inner wall swing joint of casing has heat production mechanism, heat production mechanism is used for converting the mechanical energy that the vibration produced into heat energy, the inner wall swing joint of casing has reaction mechanism, reaction mechanism is used for the increase pressure in the stop gear, the inner wall swing joint of casing has stop gear, stop gear is used for restricting coupling mechanism's removal.

Further, coupling mechanism includes valve rod, recess and piston plate, the inner wall swing joint of casing has the valve rod, the inner wall of valve rod has been seted up the recess, the inner wall elastic connection of recess has the piston plate, the inner wall evenly distributed of valve rod has the recess.

Further, heat production mechanism includes vibration mechanism and conversion mechanism, the inner wall swing joint of casing has vibration mechanism, vibration mechanism includes vibration tank, vibrating spring one and vibration ball, the inner wall of casing has been seted up the vibration tank, the inner wall fixedly connected with of vibration tank vibrating spring one, vibrating spring one's inboard fixedly connected with the vibration ball, a vibrating spring symmetric distribution is in the both sides of vibration ball.

Further, the inner wall of the shell is fixedly connected with the conversion mechanism, the conversion mechanism comprises a heat generating groove, a metal sheet and an organic silicon rubber layer, the heat generating groove is formed in the inner wall of the shell, the metal sheet is fixedly connected with the shell in a penetrating mode, the outer side of the metal sheet is fixedly connected with the organic silicon rubber layer, and the metal sheet penetrates through the inner wall of the vibration groove.

Further, reaction unit includes drive mechanism and holds the mechanism, the inner wall fixedly connected with of casing drive mechanism, drive mechanism includes intercommunication groove, reaction tank, fixed block, nail pole and through-hole, the inner wall of casing has been seted up the intercommunication groove, the inner wall of casing just is close to the inboard in intercommunication groove has been seted up the reaction tank, the inboard fixedly connected with of reaction tank the fixed block, the inner wall of fixed block has been seted up the through-hole, the inner wall sliding connection of fixed block has the nail pole, the intercommunication groove with heat production groove intercommunication.

Further, the inner wall fixedly connected with of reaction tank hold the mechanism, hold the mechanism and include leather bag one and leather bag two, the inner wall fixedly connected with of reaction tank leather bag one, the inner wall fixedly connected with of reaction tank leather bag two, leather bag one with the material of leather bag two is the rubber material.

Further, the inner side of the reaction tank is filled with an aqueous solution, the inner side of the first leather bag is filled with citric acid powder, and the inner side of the second leather bag is filled with baking soda powder.

Further, stop gear includes spacing groove and spacing piston, the inner wall of casing has been seted up the spacing groove, the inboard sliding connection of spacing groove has spacing piston, spacing piston closely laminates with the inner wall of spacing groove, the spacing groove with the reaction tank intercommunication.

(II) advantageous effects

Compared with the prior art, the invention provides operating equipment based on big data, which has the following beneficial effects:

1. this operation equipment based on big data absorbs the mechanical energy that comes through heat production mechanism with the transmission, based on the characteristic of organosilicon rubber layer, further turns into absorptive mechanical energy heat energy, realized when the spring rate that the governing valve top acted on the valve rod is not enough, avoid governing valve output signal unstability and sharp variation, avoid the governing valve oscillation, prevent that the flow that the fluorine lining governing valve controlled from changing, avoid the inside of fluorine lining governing valve to appear damaging, improved the life of fluorine lining governing valve.

2. This operation equipment based on big data through the increase of the interior pressure of heat production mechanism, and then promotes the removal of nail pole, can produce a large amount of carbon dioxide gas's characteristic based on the mixture of citric acid powder and baking soda powder reacts with aqueous solution for pressure increase in the reaction mechanism, and then realized the braking to the valve rod, too much mechanical structure's use has been avoided to this process, has avoided mechanical failure's emergence, has improved the life of lining fluorine governing valve.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a schematic view of the housing structure of the present invention;

FIG. 4 is an enlarged view of a portion B of FIG. 3 according to the present invention.

In the figure: 1. a housing; 2. a connecting mechanism; 3. a vibration mechanism; 4. a conversion mechanism; 5. a heat generating mechanism; 6. a transmission mechanism; 7. an accommodating mechanism; 8. a reaction mechanism; 9. a limiting mechanism; 21. a valve stem; 22. a groove; 23. a piston plate; 31. a vibration groove; 32. a first vibration spring; 33. vibrating the ball; 41. a heat generating tank; 42. a metal thin plate; 43. a silicone rubber layer; 61. a communicating groove; 62. a reaction tank; 63. a fixed block; 64. a nail rod; 65. a through hole; 71. a first leather bag; 72. a second leather bag; 91. a limiting groove; 92. and limiting the piston.

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.

The first embodiment is as follows:

referring to fig. 1-4, an operation device based on big data comprises a shell 1, a connecting mechanism 2, a heat generating mechanism 5, a reaction mechanism 8 and a limiting mechanism 9, wherein the inner wall of the shell 1 is movably connected with the connecting mechanism 2, the connecting mechanism 2 comprises a valve rod 21, a groove 22 and a piston plate 23, the inner wall of the shell 1 is movably connected with the valve rod 21, the inner wall of the valve rod 21 is provided with the groove 22, the inner wall of the groove 22 is elastically connected with the piston plate 23, and the inner wall of the valve rod 21 is uniformly distributed with the groove 22;

the inner wall of the shell 1 is movably connected with a heat generating mechanism 5, the heat generating mechanism 5 comprises a vibration mechanism 3 and a conversion mechanism 4, the inner wall of the shell 1 is movably connected with the vibration mechanism 3, the vibration mechanism 3 comprises a vibration groove 31, a first vibration spring 32 and a vibration ball 33, the inner wall of the shell 1 is provided with the vibration groove 31, the inner wall of the vibration groove 31 is fixedly connected with the first vibration spring 32, the inner side of the first vibration spring 32 is fixedly connected with the vibration ball 33, the first vibration spring 32 is symmetrically distributed at two sides of the vibration ball 33, the inner wall of the shell 1 is fixedly connected with the conversion mechanism 4, the conversion mechanism 4 comprises a heat generating groove 41, a metal sheet 42 and an organic silicon rubber layer 43, the inner wall of the shell 1 is provided with a heat generating groove 41, the inner wall of the heat generating groove 41 is penetrated with a metal sheet 42 fixedly connected with the shell 1, the outer side of the metal sheet 42 is fixedly connected with an organic silicon rubber layer 43, the metal sheet 42 is penetrated through the inner wall of the vibration groove 31, the heat generating mechanism 5 is used for converting mechanical energy generated by vibration into heat energy;

the inner wall of the shell 1 is movably connected with a reaction mechanism 8, the reaction mechanism 8 comprises a transmission mechanism 6 and a containing mechanism 7, the inner wall of the shell 1 is fixedly connected with the transmission mechanism 6, the transmission mechanism 6 comprises a communicating groove 61, a reaction groove 62, a fixing block 63, a nail rod 64 and a through hole 65, the communicating groove 61 is formed in the inner wall of the shell 1, the reaction groove 62 is formed in the inner wall of the shell 1 and close to the communicating groove 61, the fixing block 63 is fixedly connected to the inner side of the reaction groove 62, the through hole 65 is formed in the inner wall of the fixing block 63, the nail rod 64 is slidably connected to the inner wall of the fixing block 63, the communicating groove 61 is communicated with the heat generating groove 41, the containing mechanism 7 is fixedly connected to the inner wall of the reaction groove 62, the containing mechanism 7 comprises a first leather bag 71 and a second leather bag 72, the first leather bag 71 is fixedly connected to the inner wall of the reaction groove 62, the second leather bag 72 is fixedly connected to the inner wall of the reaction groove 62, the first leather bag 71 and the second bag 72 are both made of rubber material, the inner side of the reaction tank 62 is filled with aqueous solution, the inner side of the first leather bag 71 is filled with citric acid powder, the inner side of the second leather bag 72 is filled with baking soda powder, and the reaction mechanism 8 is used for increasing the pressure in the limiting mechanism 9.

Example two:

referring to fig. 1-4, an operation device based on big data comprises a shell 1, a connecting mechanism 2, a heat generating mechanism 5, a reaction mechanism 8 and a limiting mechanism 9, wherein the inner wall of the shell 1 is movably connected with the connecting mechanism 2, the connecting mechanism 2 comprises a valve rod 21, a groove 22 and a piston plate 23, the inner wall of the shell 1 is movably connected with the valve rod 21, the inner wall of the valve rod 21 is provided with the groove 22, the inner wall of the groove 22 is elastically connected with the piston plate 23, and the inner wall of the valve rod 21 is uniformly distributed with the groove 22;

the inner wall of the shell 1 is movably connected with a heat generating mechanism 5, the heat generating mechanism 5 comprises a vibration mechanism 3 and a conversion mechanism 4, the inner wall of the shell 1 is movably connected with the vibration mechanism 3, the vibration mechanism 3 comprises a vibration groove 31, a first vibration spring 32 and a vibration ball 33, the inner wall of the shell 1 is provided with the vibration groove 31, the inner wall of the vibration groove 31 is fixedly connected with the first vibration spring 32, the inner side of the first vibration spring 32 is fixedly connected with the vibration ball 33, the first vibration spring 32 is symmetrically distributed at two sides of the vibration ball 33, the inner wall of the shell 1 is fixedly connected with the conversion mechanism 4, the conversion mechanism 4 comprises a heat generating groove 41, a metal sheet 42 and an organic silicon rubber layer 43, the inner wall of the shell 1 is provided with a heat generating groove 41, the inner wall of the heat generating groove 41 is penetrated with a metal sheet 42 fixedly connected with the shell 1, the outer side of the metal sheet 42 is fixedly connected with an organic silicon rubber layer 43, the metal sheet 42 is penetrated through the inner wall of the vibration groove 31, the heat generating mechanism 5 is used for converting mechanical energy generated by vibration into heat energy;

the inner wall of the shell 1 is movably connected with a reaction mechanism 8, the reaction mechanism 8 comprises a transmission mechanism 6 and a containing mechanism 7, the inner wall of the shell 1 is fixedly connected with the transmission mechanism 6, the transmission mechanism 6 comprises a communicating groove 61, a reaction groove 62, a fixing block 63, a nail rod 64 and a through hole 65, the communicating groove 61 is formed in the inner wall of the shell 1, the reaction groove 62 is formed in the inner wall of the shell 1 and close to the communicating groove 61, the fixing block 63 is fixedly connected to the inner side of the reaction groove 62, the through hole 65 is formed in the inner wall of the fixing block 63, the nail rod 64 is slidably connected to the inner wall of the fixing block 63, the communicating groove 61 is communicated with the heat generating groove 41, the containing mechanism 7 is fixedly connected to the inner wall of the reaction groove 62, the containing mechanism 7 comprises a first leather bag 71 and a second leather bag 72, the first leather bag 71 is fixedly connected to the inner wall of the reaction groove 62, the second leather bag 72 is fixedly connected to the inner wall of the reaction groove 62, the first leather bag 71 and the second bag 72 are both made of rubber material, the inner side of the reaction tank 62 is filled with aqueous solution, the inner side of the first leather bag 71 is filled with citric acid powder, the inner side of the second leather bag 72 is filled with baking soda powder, and the reaction mechanism 8 is used for increasing the pressure in the limiting mechanism 9;

there is stop gear 9 in 1 inner wall swing joint of casing, and stop gear 9 includes spacing groove 91 and spacing piston 92, and spacing groove 91 has been seted up to casing 1's inner wall, and the inboard sliding connection of spacing groove 91 has spacing piston 92, and spacing piston 92 closely laminates with the inner wall of spacing groove 91, and spacing groove 91 communicates with reaction tank 62, and stop gear 9 is used for restricting coupling mechanism 2's removal.

The working principle is as follows: when the fluorine lining regulating valve is used normally, the valve rod 21 moves along the inner wall of the shell 1 under the action of the top spring to further drive the connecting mechanism 2 to move, at the moment, the vibration ball 33 in the vibration mechanism 3 cannot move under the action of the first vibration spring 32, at the moment, the vibration ball 33 cannot impact the metal sheet 42 in the conversion mechanism 4, no heat is generated in the conversion mechanism 4, and at the moment, the pressure inside the heat generating groove 41 cannot change;

when the fluorine lining regulating valve vibrates, the heat generating mechanism 5 is subjected to a vibration force along with the shell 1, at the moment, the vibration ball 33 in the vibration mechanism 3 rotates along the inner side of the vibration groove 31 under the action of the vibration spring I32, at the moment, the vibration ball 33 impacts the metal thin plate 42 in the conversion mechanism 4, when the metal thin plate 42 is impacted to generate bending vibration, the vibration energy is rapidly transmitted to the silicone rubber layer 43 tightly attached to the metal thin plate 42, the friction and the mutual dislocation in the silicone rubber layer 43 are caused, due to the internal loss and the large internal friction of the silicone rubber layer 43, a part of the vibration energy of the metal thin plate 42 is lost to be changed into heat energy to be dissipated, and the pressure in the inner side of the heat generating groove 41 is increased by the dissipated heat, so that the air pressure in the reaction mechanism 8 is changed;

because the communicating groove 61 in the transmission mechanism 6 is communicated with the heat generating groove 41, the air pressure in the communicating groove 61 is increased, expanded gas can enter the fixing block 63, the nail rod 64 is pushed to move through the through hole 65, the accommodating mechanism 7 is extruded, the first leather bag 71 and the second leather bag 72 are broken under the extrusion force of the nail rod 64, the citric acid powder filled in the first leather bag 71 and the baking soda powder filled in the second leather bag 72 can scatter into the reaction groove 62, the aqueous solution inside the reaction groove 62 reacts to generate a large amount of carbon dioxide gas, the generated carbon dioxide gas can enter the inner side of the limiting mechanism 9, the pressure inside the limiting groove 91 is increased, the limiting piston 92 is pushed to move inwards, and along with the movement of the connecting mechanism 2, finally under the extrusion force of the limiting piston 92, the limiting piston 92 can extrude the piston plate 23 to move along the inner wall of the groove 22, the limiting piston 92 is connected with the groove 22 in a clamped mode, further the valve rod 21 is prevented from moving continuously, vibration of the fluorine lining regulating valve is prevented, and then the fluorine lining regulating valve is inspected and maintained by workers and replaced by the shell 1, so that the fluorine lining regulating valve can be reused conveniently.

The process is as shown in fig. 3, when the rigidity of the spring acting on the valve rod 21 at the top of the regulating valve is insufficient, the output signal of the regulating valve is prevented from being unstable and changing rapidly, the oscillation of the regulating valve is avoided, the flow controlled by the fluorine lining regulating valve is prevented from changing, the damage to the inside of the fluorine lining regulating valve is avoided, and the service life of the fluorine lining regulating valve is prolonged.

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.