CN113258480B

CN113258480B - Intelligent anti-shaking multifunctional oil well control cabinet

Info

Publication number: CN113258480B
Application number: CN202110702836.6A
Authority: CN
Inventors: 任峰峰; 刘宏通; 张朋飞; 张继良; 于立海
Original assignee: Shandong Wanhai Electric Technology Co ltd
Current assignee: Shandong Wanhai Electric Technology Co ltd
Priority date: 2021-06-24
Filing date: 2021-06-24
Publication date: 2021-10-29
Anticipated expiration: 2041-06-24
Also published as: CN113258480A

Abstract

The invention discloses an intelligent anti-shaking multifunctional oil well control cabinet, which relates to the technical field of control cabinets and has the advantage of reducing shaking of the control cabinet caused by external vibration, and the key points of the technical scheme are as follows: including setting up the damping platform at cabinet body lower extreme, the embedded groove that supplies cabinet body lower extreme embedding is seted up on the damping bench, the embedded groove is the circular recess, just the tank bottom of embedded groove has a plurality of circular standing grooves, each along embedded groove centre of a circle array all placed the ball in the standing groove, the notch of standing groove is extended to ball upper end, and contradicts with the terminal surface under the cabinet body, be equipped with on the cell wall of embedded groove and lie in the peripheral arc of the cabinet body and support the touch panel, each be equipped with first compression spring on the touch panel, first compression spring keeps away from the one end of supporting the touch panel and is connected with the cell wall of embedded groove.

Description

Intelligent anti-shaking multifunctional oil well control cabinet

Technical Field

The invention relates to the technical field of control cabinets, in particular to an intelligent anti-shaking multifunctional oil well control cabinet.

Background

The oil well control cabinet is a control device for ensuring the safe production of an oil well, and when various electrical equipment switching devices, measuring instruments, protective electrical appliances and auxiliary equipment are actually installed in the control cabinet, some of the control cabinets are installed on a back plate, and some of the control cabinets are separately installed on a bearing frame according to different structures in the cabinet body.

But oil well control cabinet can receive some operational environment's influence when using, for example rig or the during operation of some other powerful equipment of some can make the ground produce the vibration, and the switch board also can rock itself because of the vibration produces this moment, and the switch board makes inside instrument equipment connect unstably in such environment for a long time.

Disclosure of Invention

Aiming at the technical defects, the invention aims to provide an intelligent anti-shaking multifunctional oil well control cabinet which has the advantage of reducing shaking of the control cabinet caused by external vibration.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides an intelligent anti-shaking multifunctional oil well control cabinet which comprises a damping table arranged at the lower end of a cabinet body, wherein an embedded groove for embedding the lower end of the cabinet body is formed in the damping table, the embedded groove is a circular groove, a plurality of circular placing grooves are arrayed at the bottom of the embedded groove along the circle center of the embedded groove, balls are placed in the placing grooves, the upper end parts of the balls extend out of the notches of the placing grooves and are abutted against the lower end face of the cabinet body, arc-shaped abutting plates located on the periphery of the cabinet body are arranged on the groove walls of the embedded groove, a first compression spring is arranged on each abutting plate, and one end, away from the abutting plates, of the first compression spring is connected with the groove walls of the embedded groove.

Through adopting above-mentioned technical scheme, place the cabinet body on the damping bench, this moment cabinet body lower extreme be with embedded groove complex cylinder, the setting of ball reduces the friction between the cabinet body and the embedded groove tank bottom, and the cabinet body of being convenient for is along with the displacement of touch panel according to the vibration of reality, the setting of touch panel is convenient for the cabinet body can slow down the vibrational force of part through first compression spring when producing the vibration according to ground, in addition when the external world does not have the vibration, first compression spring makes the touch panel fix the cabinet body stable in the embedded groove, have the advantage that the reduction switch board received external vibration and rocked.

Preferably, the bottom of the circle center of the embedded groove is provided with an anti-shaking groove, the bottom of the anti-shaking groove is provided with a balancing weight with a size smaller than that of the anti-shaking groove, after the cabinet body is placed into the embedded groove, the lower end face of the cabinet body is provided with a clamping groove for the upper end of the balancing weight to enter, and the upper end of the balancing weight is provided with a limiting part for limiting the position of the balancing weight in the clamping groove.

Preferably, the locating part is including seting up the rotation groove at balancing weight upper end center, the center rotation in rotation groove is connected with the carousel, the balancing weight up end is rotating the groove periphery and is seted up a plurality ofly and rotate the intercommunication groove intercommunication, the intercommunication groove is kept away from the one end in rotation groove and is extended the lateral wall of balancing weight, each the intercommunication inslot all slides and is connected with the slider, each the slider all is connected with along the kelly that communicates groove length direction distributes in the one end of keeping away from the rotation groove, when kelly one end shifts out the intercommunication groove notch, set up the spacing hole that supplies the kelly embedding on the draw-in groove cell wall, be equipped with the driving piece that the drive slider removed in the intercommunication inslot on the carousel.

Preferably, the driving part comprises swing rods hinged to the disc surface of the rotary disc, the number of the swing rods corresponds to the number of the communication grooves, one end, far away from the rotary disc, of each swing rod is hinged to the sliding block, a swing groove for swinging the swing rods is formed in one end, facing the rotating groove, of each communication groove, and the rotary disc is coaxially driven by a motor fixed in the counterweight block.

Preferably, a plurality of rolling balls are embedded in one end of the balancing weight, which is abutted against the bottom of the shaking prevention groove, when the clamping groove is opposite to the upper end of the balancing weight, the lower end face of the cabinet body is detachably connected with a plurality of positioning rods at the periphery of the balancing weight, and positioning holes for the positioning rods to enter are formed at the periphery of the balancing weight.

Preferably, the locating lever includes the first pole of being connected with cabinet body lower terminal surface and the second pole with the coaxial setting of first pole, the one end of the cabinet body is kept away from at first pole to the second pole setting, the one end coaxial third pole that is equipped with of first pole is kept away from to the second pole, the size of second pole is greater than first pole and third pole, the size of first pole and third pole is unanimous, the locating hole including be close to the cabinet body the first hole and with first hole intercommunication second hole, the length in second hole is longer than the length of third pole, the diameter in second hole is unanimous with the size of third pole, the length in first hole is the length sum of first pole and second pole to and the diameter in first hole is the diameter size of second pole.

Preferably, the limiting part comprises a connecting plate rotatably connected to the upper end of the balancing weight, two clamping blocks are arranged on the periphery of the connecting plate, an arc-shaped groove for the clamping blocks to enter and the balancing weight to enter the clamping groove along with the rotation of the connecting plate is formed in the groove wall of the clamping groove, and the connecting plate is driven by a motor fixed on the balancing weight.

Preferably, the damping platform is including placing the first board on ground and being located the second board of first board top, the embedded groove sets up on the second board, the first board is equipped with south pole magnet in the one side towards the second board, the second board is equipped with the north pole magnet relative with south pole magnet in the one side towards the first board, has the clearance this moment between second board and the first board, be equipped with the bolster between first board and the second board.

Preferably, the buffer member comprises a plurality of second compression springs arranged on the periphery of the first plate, each second compression spring is vertically arranged, and one end, far away from the first plate, of each second compression spring is connected with the second plate.

Preferably, each of the second compression springs is disposed at a periphery of the second plate, a guide groove for the second compression spring to be inserted into is formed at a side of the second plate, and a guide sleeve is sleeved on the first plate at a lower end outside the second compression spring.

The invention has the beneficial effects that: place the cabinet body on the damping bench, this moment cabinet body lower extreme be with embedded groove complex cylinder, the setting of ball reduces the friction between the cabinet body and the embedded groove tank bottom, and the cabinet body of being convenient for is along with the displacement of touch panel according to the vibration of reality, the setting of touch panel is convenient for the cabinet body can slow down the vibrational force of part through first compression spring when producing the vibration according to ground, when external when not vibrating in addition, first compression spring makes the touch panel with the stable fixing of the cabinet body in the embedded groove, have the advantage that the reduction switch board received external vibration and rocked.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a schematic structural diagram of a touch panel embodying the present embodiment;

FIG. 3 is a schematic structural diagram of the present embodiment for embodying balls;

FIG. 4 is a schematic structural diagram of a counterweight block according to this embodiment;

FIG. 5 is an enlarged view of portion A of FIG. 4;

FIG. 6 is a schematic structural diagram for embodying the turntable in the present embodiment;

FIG. 7 is a schematic structural diagram of the present embodiment for embodying a positioning rod;

FIG. 8 is a schematic structural view of the present embodiment for embodying an arc-shaped groove;

fig. 9 is a schematic structural diagram for embodying the damping table of the present embodiment.

Description of reference numerals:

in the figure: 1. a cabinet body; 11. a damping table; 12. a groove is embedded; 121. a placement groove; 122. a ball bearing; 123. a touch plate; 124. a first compression spring; 13. an anti-sloshing groove; 131. a balancing weight; 132. a card slot; 14. a rotating groove; 141. a turntable; 142. a communicating groove; 143. a slider; 144. a clamping rod; 145. a limiting hole; 146. a swing rod; 147. a swing groove; 148. a motor; 15. a rolling ball; 16. positioning a rod; 161. a first lever; 162. a second lever; 163. a third lever; 17. positioning holes; 171. a first hole; 172. a second hole; 18. a connecting plate; 181. a clamping block; 182. an arc-shaped slot; 19. a first plate; 191. a second plate; 192. a second compression spring; 193. a guide groove; 194. and a guide sleeve.

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 utility model provides a multi-functional oil well switch board is prevented shaking by intelligence, as figure 1 and figure 2 and figure 3, including setting up damping platform 11 at the 1 lower extreme of the cabinet body, set up embedded groove 12 that supplies the embedding of the 1 lower extreme of the cabinet body on the damping platform 11, embedded groove 12 is the circular slot, and there are a plurality of circular standing grooves 121 along embedded groove 12 centre of a circle array in the tank bottom of embedded groove 12, ball 122 has all been placed in each standing groove 121, ball 122's size is less than standing groove 121's size, the notch of standing groove 121 is extended to ball 122 upper end part, and contradict with the terminal surface under the cabinet body 1, be equipped with on the cell wall of embedded groove 12 and be located the peripheral arc of the cabinet body 1 and support touch panel 123, be equipped with first compression spring 124 on each support touch panel 123, the one end that support touch panel 123 was kept away from to first compression spring 124 is connected with the cell wall of embedded groove 12.

As shown in fig. 2 and fig. 3, place the cabinet body 1 on damping platform 11, this moment the cabinet body 1 lower extreme be with embedded groove 12 complex cylinder, the setting of ball 122 reduces the friction between the cabinet body 1 and the embedded groove 12 tank bottom, and be convenient for the cabinet body 1 along with the displacement of touch pad 123 according to the vibration of reality, the setting of touch pad 123 is convenient for can slow down partial vibrational force through first compression spring 124 when the cabinet body 1 produces the vibration according to ground, in addition when the external world does not have the vibration, first compression spring 124 makes touch pad 123 fix the cabinet body 1 stable in embedded groove 12, have the advantage that the reduction switch board received external vibration and rocked.

As shown in fig. 4 and 5, in order to further reduce the shaking prevention of the cabinet body 1, the shaking prevention groove 13 is formed at the bottom of the center of the embedded groove 12, the balancing weight 131 with a size smaller than the shaking prevention groove 13 is placed at the bottom of the shaking prevention groove 13, after the cabinet body 1 is placed in the embedded groove 12, the lower end surface of the cabinet body 1 is provided with a clamping groove 132 for the upper end of the balancing weight 131 to enter, and the upper end of the balancing weight 131 is provided with a limiting member for limiting the position of the balancing weight 131 in the clamping groove 132. At this moment, the weight-balancing block 131 is fixed in the clamping groove 132 by the limiting member, the weight-balancing block 131 is integrated with the cabinet body 1, the weight of the cabinet body 1 is increased, and when the external world shakes, the shaking of the cabinet body 1 is reduced due to the arrangement of the weight-balancing block 131. Because the balancing weight 131 is detachably connected with the cabinet 1, the user can select whether to connect the balancing weight 131 according to actual use conditions.

As shown in fig. 5 and 6, the limiting member includes a rotating groove 14 formed in the center of the upper end of the weight block 131, the center of the rotating groove 14 is rotatably connected with a rotating disc 141, the upper end surface of the weight block 131 is provided with a plurality of communicating grooves 142 communicating with the rotating groove 14 at the periphery of the rotating groove 14, one ends of the communicating grooves 142 far away from the rotating groove 14 extend out of the side wall of the weight block 131, each communicating groove 142 is connected with a sliding block 143 in a sliding manner, one end of each sliding block 143 far away from the rotating groove 14 is connected with a clamping rod 144 distributed along the length direction of the communicating groove 142, when one end of the clamping rod 144 moves out of the notch of the communicating groove 142, a limiting hole 145 for the clamping rod 144 to be embedded into is formed in the wall of the clamping groove 132, and a driving member for driving the sliding block 143 to move in the communicating groove 142 is provided on the rotating disc 141.

As shown in fig. 5 and 6, at this time, the driving member drives the sliding block 143 to move back and forth in the communicating groove 142, so that the clamping rods 144 enter or move out of the limiting holes 145, and further the counterweight block 131 is mounted and dismounted, and each clamping rod 144 enters the limiting hole 145 at the same time, so that the counterweight block 131 is stably connected.

As shown in fig. 5 and 6, the driving member includes swing rods 146 hinged on the disk surface of the rotating disk 141, the number of the swing rods 146 is set corresponding to the number of the communication grooves 142, and one end of the swing rod 146 far away from the rotating disk 141 is hinged with the sliding block 143, the communication groove 142 is provided with a swing groove 147 for the swing of the swing rod 146 at one end facing the rotating groove 14, and the rotating disk 141 is coaxially driven by a motor 148 fixed in the counterweight 131. When the motor 148 rotates, the rotating disc 141 is driven to rotate, so that the swing rod 146 on the rotating disc 141 pushes the sliding block 143 to move in the communicating groove 142, the clamping rods 144 move into the limiting holes 145 simultaneously, and the operation is convenient.

As shown in fig. 4 and 7, the weight block 131 has a plurality of rolling balls 15 embedded at one end abutting against the bottom of the anti-sloshing groove 13, so that the weight block 131 can move in a buffering manner along with the cabinet 1, and the weight block 131 can be placed in the slot 132, so that when the slot 132 is opposite to the upper end of the weight block 131, the lower end surface of the cabinet 1 can be detachably connected with a plurality of positioning rods 16 at the periphery of the weight block 131, and the periphery of the weight block 131 is provided with positioning holes 17 for the positioning rods 16 to enter. When the cabinet body 1 is placed in the insertion groove 12, the positioning rod 16 is opposite to the positioning hole 17, so that the upper end of the counterweight block 131 is opposite to the clamping groove 132, and the clamping rod 144 is opposite to the limiting hole 145, thereby facilitating the installation of the counterweight block 131.

Referring to fig. 4 and 7, the positioning rod 16 includes a first rod 161 connected to the lower end surface of the cabinet 1 and a second rod 162 coaxially disposed with the first rod 161, the second rod 162 is disposed at an end of the first rod 161 away from the cabinet 1, a third rod 163 is coaxially disposed at an end of the second rod 162 away from the first rod 161, the second rod 162 has a size larger than that of the first rod 161 and the third rod 163, the first rod 161 and the third rod 163 have the same size, the positioning hole 17 includes a first hole 171 close to the cabinet 1 and a second hole 172 communicated with the first hole 171, the second hole 172 has a length longer than that of the third rod 163, so that the second rod 162 and the third rod 163 can enter into the first hole 171 for the counterweight 131 to support the lower end of the cabinet 1, the diameter of the second hole 172 is the same as the size of the third rod 163, the length of the first hole 171 is the sum of the lengths of the first rod 161 and the second rod 162, and the diameter of the first hole 171 is the diameter size of the second rod 162. The purpose of this design is, on the one hand, to facilitate the third rod 163 entering the first hole 171, which is larger in size than itself, to facilitate the positioning rod 16 entering the positioning hole 17, and then the second rod 162 cooperates with the second hole 172, reducing the wobbling of the positioning rod 16 in the positioning hole 17.

As shown in fig. 8, or, the limiting member includes a connecting plate 18 rotatably connected to the upper end of the weight block 131, two locking blocks 181 are disposed on the periphery of the connecting plate 18, and an arc-shaped groove 182 is disposed on the groove wall of the locking groove 132 for the locking blocks 181 to enter and enable the weight block 131 to enter the locking groove 132 along with the rotation of the connecting plate 18. When putting the cabinet body 1 into the embedded groove 12, make the notch of fixture block 181 and arc wall 182 relative, put into the cabinet body 1 downwards afterwards for when the balancing weight 131 gets into the draw-in groove 132, the connecting plate 18 is driven by the motor fixed on the balancing weight 131, and the fixture block 181 moves along with the arc wall 182, until the fixture block 181 gets into the tank bottom of arc wall 182, and balancing weight 131 is spacing in the draw-in groove 132 this moment, unless the motor reverses balancing weight 131 can not be shifted out draw-in groove 132.

As shown in fig. 9, the damping platform 11 may also include a first plate 19 placed on the ground and a second plate 191 located above the first plate 19, the embedded groove 12 is provided on the second plate 191, the first plate 19 is provided with a south pole magnet on the side facing the second plate 191, the second plate 191 is provided with a north pole magnet opposite to the south pole magnet on the side facing the first plate 19, when there is a gap between the second plate 191 and the first plate 19, and a buffer is provided between the first plate 19 and the second plate 191, when the outside shakes, the second plate 191 will reduce the shake due to the gap and the buffer.

As shown in fig. 9, the buffering member includes a plurality of second compression springs 192 disposed at the periphery of the first plate 19, each second compression spring 192 is disposed vertically, and one end of each second compression spring 192 away from the first plate 19 is connected to the second plate 191. The second compression spring 192 reduces the shaking force generated to the second plate 191 while connecting the second plate 191, and the use in cooperation with the first compression spring 124 compensates for the movement of the cabinet 1.

As shown in fig. 9, each second compression spring 192 is disposed at the periphery of the second plate 191, a guide groove 193 into which the second compression spring 192 is inserted is formed at a side edge of the second plate 191, and a guide sleeve 194 is sleeved on the lower end of the first plate 19 outside the second compression spring 192. This facilitates better operation of the second compression spring 192.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The intelligent anti-shaking multifunctional oil well control cabinet is characterized by comprising a damping table (11) arranged at the lower end of a cabinet body (1), wherein an embedded groove (12) for embedding the lower end of the cabinet body (1) is formed in the damping table (11), the embedded groove (12) is a circular groove, the cabinet body (1) is placed on the damping table (11), the lower end of the cabinet body (1) is a cylinder matched with the embedded groove (12), a plurality of circular placing grooves (121) are arrayed at the bottom of the embedded groove (12) along the circle center of the embedded groove (12), balls (122) are placed in the placing grooves (121), the upper end parts of the balls (122) extend out of the notches of the placing grooves (121) and are abutted against the lower end face of the cabinet body (1), arc-shaped abutting plates (123) located on the periphery of the cabinet body (1) are arranged on the wall of the embedded groove (12), first compression springs (124) are arranged on the abutting plates (123), one end of the first compression spring (124) far away from the abutting plate (123) is connected with the groove wall of the embedded groove (12);

an anti-shaking groove (13) is formed in the bottom of the embedded groove (12) at the center of a circle, a balancing weight (131) with the size smaller than that of the anti-shaking groove (13) is placed at the bottom of the anti-shaking groove (13), after the cabinet body (1) is placed in the embedded groove (12), a clamping groove (132) for the upper end of the balancing weight (131) to enter is formed in the lower end face of the cabinet body (1), and a limiting piece for limiting the position of the balancing weight (131) in the clamping groove (132) is arranged at the upper end of the balancing weight (131);

the limiting part comprises a rotating groove (14) formed in the center of the upper end of a balancing weight (131), the center of the rotating groove (14) is connected with a rotating disc (141) in a rotating mode, a plurality of communicating grooves (142) communicated with the rotating groove (14) are formed in the periphery of the rotating groove (14) on the upper end face of the balancing weight (131), one end, far away from the rotating groove (14), of each communicating groove (142) extends out of the side wall of the balancing weight (131), a sliding block (143) is connected in each communicating groove (142) in a sliding mode, one end, far away from the rotating groove (14), of each sliding block (143) is connected with a clamping rod (144) distributed along the length direction of each communicating groove (142), when one end of each clamping rod (144) moves out of the opening of each communicating groove (142), a limiting hole (145) for the clamping rod (144) to be embedded into is formed in the groove wall of each clamping groove (132), a driving part, driving parts and the sliding blocks (143) move in the communicating grooves (142), is arranged on the rotating disc (141), and the driving parts are hinged to the disc (141) The number of the swing rods (146) is set corresponding to that of the communication grooves (142), one end, far away from the rotary table (141), of each swing rod (146) is hinged to the corresponding slider (143), a swing groove (147) for enabling the swing rods (146) to swing is formed in one end, facing the rotary groove (14), of each communication groove (142), and the rotary table (141) is coaxially driven by a motor (148) fixed in the corresponding balancing weight (131);

or, the limiting part comprises a connecting plate (18) rotatably connected to the upper end of the balancing weight (131), two clamping blocks (181) are arranged on the periphery of the connecting plate (18), an arc-shaped groove (182) for the clamping blocks (181) to enter and the balancing weight (131) to enter the clamping groove (132) along with the rotation of the connecting plate (18) is formed in the groove wall of the clamping groove (132), and the connecting plate (18) is driven by a motor fixed on the balancing weight (131).

2. The intelligent anti-shaking multifunctional oil well control cabinet as claimed in claim 1, wherein a plurality of rolling balls (15) are embedded in one end of the balancing weight (131) abutting against the bottom of the anti-shaking groove (13), when the clamping groove (132) is opposite to the upper end of the balancing weight (131), a plurality of positioning rods (16) are detachably connected to the lower end surface of the cabinet body (1) at the periphery of the balancing weight (131), and positioning holes (17) for the positioning rods (16) to enter are formed at the periphery of the balancing weight (131).

3. The intelligent anti-shaking multifunctional oil well control cabinet as claimed in claim 2, wherein the positioning rod (16) comprises a first rod (161) connected with the lower end surface of the cabinet body (1) and a second rod (162) coaxially arranged with the first rod (161), the second rod (162) is arranged at one end of the first rod (161) far away from the cabinet body (1), a third rod (163) is coaxially arranged at one end of the second rod (162) far away from the first rod (161), the second rod (162) has a size larger than that of the first rod (161) and the third rod (163), the first rod (161) and the third rod (163) have the same size, the positioning hole (17) comprises a first hole (171) close to the cabinet body (1) and a second hole (172) communicated with the first hole (171), the length of the second hole (172) is longer than that of the third rod (163), and the diameter of the second hole (172) has the same size as that of the third rod (163), the length of the first hole (171) is the sum of the lengths of the first rod (161) and the second rod (162), and the diameter of the first hole (171) is the diameter dimension of the second rod (162).

4. The intelligent anti-shaking multifunctional oil well control cabinet as claimed in claim 1, wherein the damping platform (11) comprises a first plate (19) placed on the ground and a second plate (191) positioned above the first plate (19), the embedded grooves (12) are formed in the second plate (191), the first plate (19) is provided with south pole magnets on the side facing the second plate (191), the second plate (191) is provided with north pole magnets opposite to the south pole magnets on the side facing the first plate (19), a gap is formed between the second plate (191) and the first plate (19), and a buffer is arranged between the first plate (19) and the second plate (191).

5. The intelligent anti-sloshing multifunctional oil well control cabinet as claimed in claim 4, wherein the buffer member comprises a plurality of second compression springs (192) arranged on the periphery of the first plate (19), each second compression spring (192) is vertically arranged, and one end of each second compression spring (192) far away from the first plate (19) is connected with the second plate (191).

6. The intelligent anti-shaking multifunctional oil well control cabinet as claimed in claim 5, wherein each second compression spring (192) is arranged at the periphery of the second plate (191), a guide groove (193) for embedding the second compression spring (192) is formed in the side edge of the second plate (191), and a guide sleeve (194) is sleeved on the lower end of the first plate (19) outside the second compression spring (192).