CN118382244B - Industrial control cabinet with shockproof function - Google Patents

Abstract

The invention discloses an industrial control cabinet with a shockproof function, which relates to the technical field of industrial control cabinets and comprises a base, wherein the base is vertically and slidably connected with a cabinet body, cylinder barrels symmetrically distributed along the base are fixedly connected with the base, the cylinder barrels are horizontally and slidably connected with piston rods, first springs are fixedly connected between the piston rods and the adjacent cylinder barrels, and the cylinder barrels are horizontally and slidably connected with a cover frame. According to the invention, when the cabinet body is subjected to small impact, the cover frame does not cover the cylinder barrel, the first spring can rapidly buffer the cabinet body and enable the cabinet body to rapidly reset, the cabinet body only slightly swings up and down, and when the cabinet body is subjected to large impact, the cover frame is used for covering the cylinder barrel, so that the first spring and the piston rod are slowly reset, and finally, the cabinet body is slowly reset, so that the original buffer effect on the cabinet body is ensured, and the situation that the cabinet body is damaged due to collision caused by large rebound force when the cabinet body is subjected to large impact is avoided.

Description

Industrial control cabinet with shockproof function

Technical Field

The invention relates to the technical field of industrial control cabinets, in particular to an industrial control cabinet with a shockproof function.

Background

Industrial control computers are short for industrial control computers, and are usually used in industrial environments, such environments may often face adverse conditions such as vibration and impact, and sensitive electronic components in cabinets, such as hard disks, mainboards and memory chips, are easy to be damaged or loosened due to physical damage caused by vibration, and storage devices such as hard disks are damaged in vibration to generate read-write errors, so that data can be damaged or lost. Such losses can be catastrophic for important data in an industrial process. Thus, the cabinet needs to be subjected to vibration-proof design by using vibration-proof pads, spring vibration-proof devices and the like.

Although the spring damping device can play a certain buffering role on the cabinet when the cabinet body is impacted, when the cabinet body is impacted severely, the spring damping device can absorb the initial huge impact energy and then rebound rapidly, so that the buffered cabinet rebounds rapidly, and secondary collision occurs when the cabinet body rebounds. This not only increases the risk of damage to the equipment or structure, but may also cause injury to staff therein.

The patent with the publication number of CN215222695U discloses a sheet metal cabinet with an internal damping mechanism, which is combined with a damping spring and a damping device of an air cylinder, so that the air pressure in the air cylinder needs to be overcome when the damping spring is reset, the reset elasticity of the damping spring is reduced, and the bottom plate is slowly moved upwards. This patent can reduce the elasticity that damping spring reset when the cabinet body receives huge impact, but under certain circumstances, for example when carrying the cabinet body, the cabinet body receives the impact of low margin, high frequency generally, if the damping spring of the cabinet body still slowly kick-backs this moment, then leads to damping spring not kick-backs yet and resets, just the horse carries out the impact of next time, so repeatedly, will finally lead to damping spring to be unable to follow in time and absorb vibrations because of the resilience is rapid enough to weaken absorbing effect one by one.

Based on the above situation, the invention provides an industrial control cabinet with a shockproof function, so that the industrial control machine can switch a shock absorption mode according to the amplitude and the vibration frequency.

Disclosure of Invention

In order to overcome the defect that the cabinet body can not switch the damping mode according to the amplitude and the vibration frequency, the invention aims to provide the industrial control cabinet with the shockproof function.

The utility model provides an industrial control rack with shockproof function, includes the base, the vertical sliding connection of base has the cabinet body, the cabinet body rotates and is connected with the revolving door, the base rigid coupling has the edge the cylinder of base symmetric distribution, cylinder horizontal sliding connection has the piston rod, the piston rod with rotate between the cabinet body and be connected with the connecting rod, the piston rod with adjacent the rigid coupling has first spring between the cylinder, cylinder horizontal sliding connection has the lid, the cylinder is close to adjacent one side of lid sets up to spacingly, the lid with the rigid coupling has the edge between the cylinder lid symmetric distribution's second spring, the lid is opened there is the round hole, the cabinet body is provided with and is used for the drive the lid is closed the power pack of cylinder.

Further, the power component comprises a fixing frame which is symmetrically distributed along the cabinet body, the fixing frame is fixedly connected to the bottom of the cabinet body, the fixing frame is horizontally and slidably connected with a pull rod, the piston rod moves to be in contact with the pull rod, the cabinet body is rotationally connected with first guide blocks which are symmetrically distributed along the cabinet body, the first guide blocks are movably connected with adjacent pull rods, a telescopic rod is fixedly connected with the cover frame, the telescopic rod is in contact with the adjacent first guide blocks, the first guide blocks are provided with guide grooves, second guide blocks are fixedly connected in the guide grooves of the first guide blocks, and the telescopic rod passes through the second guide blocks when entering the guide grooves of the first guide blocks from an inlet.

Further stated, the contact surface of the first guide block and the adjacent telescopic rod is arranged to be convex.

Further, under the guiding action of the second guiding block, the telescopic rod penetrates out of the guiding groove of the first guiding block from the outlet, and under the extrusion action of the second guiding block, the telescopic rod is gradually compressed.

Further, the second guide block has a thickness on a side near the inlet that is thinner than a thickness on a side near the outlet.

Further stated, an industrial control cabinet with shockproof function further comprises a limiting frame for locking the rotary door, wherein the limiting frame is vertically and slidably connected to one side, close to the rotary door, of the cabinet body, a guide plate is fixedly connected to the piston rod on one side, the guide plate is slidably connected with the cabinet body, and the limiting frame is in limiting fit with the guide plate.

Further stated, the guide plate is provided with a through hole for guiding the limit frame.

Further stated, the industrial control cabinet with shockproof function further comprises at least one buffer plate fixedly connected to the side wall of the cabinet body and used for buffering the side wall of the cabinet body.

Further stated, the industrial control cabinet with shockproof function also comprises at least one reflector fixedly connected with the buffer plate.

Further stated, the industrial control cabinet with shockproof function further comprises at least four cushions, wherein the cushions are fixedly connected to the base and used for buffering the bottom of the cabinet body.

The beneficial effects are that: according to the invention, when the cabinet body is subjected to small impact, the cover frame does not cover the cylinder barrel, the first spring can rapidly buffer the cabinet body and enable the cabinet body to rapidly reset, the cabinet body only slightly swings up and down, and when the cabinet body is subjected to large impact, the cover frame is used for covering the cylinder barrel, so that the first spring and the piston rod are slowly reset, and finally, the cabinet body is slowly reset, so that the original buffer effect on the cabinet body is ensured, and the situation that the cabinet body is damaged due to collision caused by large rebound force when the cabinet body is subjected to large impact is avoided.

According to the invention, when the cabinet body is impacted by a large external force, the limiting frame is upwards slid and clamped into the rotating door to lock the rotating door, so that the phenomenon that parts in the cabinet body are scattered out due to the fact that the rotating door is swayed and opened when the cabinet body is impacted and swayed is avoided.

Under the action of the buffer plate and the buffer pad, the side face and the bottom of the cabinet body can be well buffered, and the side face and the bottom of the cabinet body are prevented from being knocked and damaged.

Under the action of the reflecting plate, a worker can observe the condition that the cabinet body continuously shakes, so that the problem of impact shake of the cabinet body caused by continuous external force is solved in time.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a cross-sectional view of a three-dimensional structure of the present invention.

Fig. 3 is a schematic perspective view of the base and the connecting rod.

Fig. 4 is a schematic perspective view of the first spring, the cover frame, the second spring and the like.

Fig. 5 is a schematic perspective view of the piston rod, the first spring, the cap frame and other components of the present invention.

Fig. 6 is a schematic perspective view of the base, cabinet and fixing frame of the invention.

Fig. 7 is a schematic perspective view of a first guide block, a telescopic rod and a second guide block according to the present invention.

Fig. 8 is a schematic perspective view of a first guide block and a second guide block according to the present invention.

Fig. 9 is a schematic perspective view of a second guide block according to the present invention.

Fig. 10 is a schematic perspective view of the rotating door, the limiting frame, the guide plate and other parts of the present invention.

Fig. 11 is a schematic perspective view of the limiting frame, the guide plate and other parts of the present invention.

Fig. 12 is a schematic perspective view of the buffer plate, the reflector, and the like according to the present invention.

Fig. 13 is a schematic perspective view of a base and cushion according to the present invention.

Wherein the above figures include the following reference numerals: 101: base, 102: cabinet body, 103: rotating door, 104: cylinder barrel, 105: connecting rod, 106: piston rod, 107: first spring, 108: cover frame, 109: second spring, 110: round hole, 201: fixing frame, 202: pull rod, 203: first guide block, 204: telescoping rod, 205: second guide block, 206: inlet, 207: outlet, 301: limit frame, 302: guide plate, 401: buffer plate, 402: reflector, 501: and a cushion pad.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It should be understood that these examples are illustrative of the present application and are not intended to limit the scope of the present application. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

Example 1: the utility model provides an industrial computer rack with shockproof function, combine fig. 1 through 5, including base 101, base 101 is connected with cabinet body 102 along upper and lower direction sliding connection, the front side of cabinet body 102 rotates and is connected with revolving door 103, the cylinder 104 along base 101 bilateral symmetry distribution all is fixed with around the top of base 101, cylinder 104 is connected with piston rod 106 along horizontal direction sliding connection, rotate between piston rod 106 and the cabinet body 102 and be connected with connecting rod 105, the rigid coupling has first spring 107 between piston rod 106 and the adjacent cylinder 104, cylinder 104 is connected with lid 108 along horizontal direction sliding connection, the cylinder 104 is close to the side of adjacent lid 108 and sets up to be spacedly, lid 108 slides to the side that is close to cylinder 104 and can cover the spacedly of cylinder 104, make cylinder 104 closed, the rigid coupling has the second spring 109 along lid 108 bilateral symmetry distribution between lid 108, lid 108 is kept away from one side of first spring 107 and is opened to the cabinet body 102 is provided with the power pack that is used for driving lid 108 closed cylinder 104.

Referring to fig. 6 to 9, the power assembly includes four fixing frames 201 symmetrically distributed along the left and right sides of the cabinet 102, the fixing frames 201 are fixedly connected to the bottom of the cabinet 102, the fixing frames 201 are slidably connected with pull rods 202 along the left and right directions, the piston rods 106 move inwards to contact with the pull rods 202, the piston rods 106 move outwards to contact with the pull rods 202, the bottom of the cabinet 102 is rotatably connected with first guide blocks 203 symmetrically distributed along the left and right sides of the cabinet 102, the first guide blocks 203 are four, the first guide blocks 203 are movably connected with adjacent pull rods 202, one side of the cover 108 close to the round hole 110 is fixedly connected with telescopic rods 204, the telescopic rods 204 are contacted with adjacent first guide blocks 203, the contact surface of each first guide block 203 and each adjacent telescopic rod 204 is provided with a convex surface, the first guide block 203 is provided with a guide groove, a second guide block 205 is fixedly connected in the guide groove of each first guide block 203, the telescopic rods 204 enter the guide groove of each first guide block 203 from an inlet 206, under the guide action of the second guide blocks 205, the telescopic rods 204 are gradually compressed from one side of the first guide blocks 205 to the outlet 205, and the second guide blocks 205 are gradually compressed from the side of the inlet 205 to the side of the second guide blocks 205.

When the cabinet 102 is impacted by external force to slide downwards and buffer, the cabinet 102 pushes the piston rod 106 to slide outwards through the connecting rod 105, the first spring 107 is compressed, if the impact force is small, the piston rod 106 does not contact with the pull rod 202 when moving outwards, if the impact force is large, the piston rod 106 contacts with the pull rod 202 when moving outwards and drives the pull rod 202 to move outwards together, the pull rod 202 drives the first guide block 203 to rotate, so that the convex surface of the first guide block 203 is not contacted with the telescopic rod 204 any more, at this time, the second spring 109 in a compressed state resets to drive the cover frame 108 to slide inwards to cover the open end of the cylinder barrel 104, the cover frame 108 drives the telescopic rod 204 to move inwards to the guide groove inlet 206 of the first guide block 203, so when the cabinet 102 is no longer impacted by external force, the first spring 107 is reset gradually, because the cylinder barrel 104 can only charge air through the round hole 110 on the cover frame 108, the piston rod 106 can only slowly slide inwards to slow down the reset speed of the first spring 107, the piston rod 106 pushes the cabinet 102 to slowly slide upwards to reset through the connecting rod 105, the piston rod 106 contacts with the pull rod 202 when moving inwards and drives the pull rod 202 to slowly move inwards to reset, the pull rod 202 drives the first guide block 203 to reversely rotate to reset, at the moment, the telescopic rod 204 penetrates into the guide groove of the first guide block 203 from the inlet 206, when passing through the second guide block 205, under the extrusion action of the second guide block 205, the telescopic rod 204 is gradually compressed, under the guide action of the second guide block 205, the telescopic rod 204 penetrates out of the guide groove of the first guide block 203 from the outlet 207, the telescopic rod 204 also drives the cover frame 108 to slide outwards, the second spring 109 is gradually compressed, when penetrating out, the telescopic rod 204 is reset to be in convex contact with the first guide block 203, at the moment, the cover 108 slides outwardly to no longer block the cylinder 104.

In summary, in the invention, when the cabinet 102 is subjected to a small impact, the cover frame 108 does not cover the cylinder 104, the first spring 107 can quickly buffer the cabinet 102, and the cabinet 102 is quickly reset, so that the cabinet 102 can only slightly shake up and down, thereby being suitable for the impact with high frequency and small amplitude, and when the cabinet 102 is subjected to a large impact, the cover frame 108 covers the cylinder 104, so that the first spring 107 and the piston rod 106 are slowly reset, and finally, the cabinet 102 is also slowly reset, so that the cabinet 102 is prevented from being damaged due to collision caused by larger rebound force when the cabinet 102 is subjected to a large impact.

Embodiment 2, on the basis of embodiment 1, referring to fig. 10 to 11, an industrial control cabinet with shockproof function further includes a limit frame 301 for locking the revolving door 103, the limit frame 301 is slidably connected to one side of the cabinet body 102 near the revolving door 103 along the up-down direction, a guide plate 302 is fixedly connected to a piston rod 106 on the left side of the front portion, the guide plate 302 is slidably connected to the cabinet body 102, the limit frame 301 is in limit fit with the guide plate 302, and the guide plate 302 is provided with a through hole for guiding the limit frame 301.

When the left piston rod 106 at the front part slides outwards, the guide plate 302 is pulled to move leftwards, under the action of the through holes for guiding the guide plate 302, when the cabinet 102 is impacted slightly, the guide plate 302 only slides leftwards along the limiting frame 301 horizontally, when the cabinet 102 is impacted greatly, the inclined surface of the guide plate 302 can squeeze the limiting frame 301 to slide upwards and clamp into the rotating door 103, the rotating door 103 is locked, when the cabinet 102 is impacted and rocked, the rotating door 103 is prevented from rocking and opening, internal parts of the cabinet 102 are scattered, when the left piston rod 106 at the front part slides inwards gradually, the guide plate 302 is pushed to move inwards, and the limiting frame 301 slides downwards gradually to unlock the rotating door 103.

Embodiment 3, on the basis of embodiment 2, referring to fig. 1, fig. 12 and fig. 13, an industrial control cabinet with shockproof function further includes four buffer plates 401, where the buffer plates 401 are fixedly connected to the side wall of the cabinet body 102 and are used for buffering the side wall of the cabinet body 102, the buffer plates 401 are fixedly connected with four reflective plates 402, the base 101 is fixedly connected with four buffer pads 501, and the buffer pads 501 are used for buffering the bottom of the cabinet body 102.

Under the effect of buffer board 401 and cushion 501, the side and the bottom of cabinet body 102 homoenergetic carry out better buffering, avoid the side and the bottom of cabinet body 102 to collide with impaired, and under reflector 402 effect, the condition that cabinet body 102 constantly rocks can be observed to the staff to in time solve the external force and last the impact that causes cabinet body 102 and rock the problem.

The foregoing has outlined rather broadly the more detailed description of the application in order that the detailed description of the principles and embodiments of the application may be implemented in conjunction with the detailed description of the application that follows, the examples being merely intended to facilitate an understanding of the method of the application and its core concepts; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims (8)

1. The utility model provides an industrial control cabinet with shockproof function, is including base (101), vertical sliding connection of base (101) has cabinet body (102), cabinet body (102) rotate and are connected with revolving door (103), its characterized in that: the novel multifunctional electric cabinet is characterized by further comprising a cylinder barrel (104) symmetrically distributed along the base (101), wherein the cylinder barrel (104) is fixedly connected to the base (101), a piston rod (106) is connected between the cylinder barrel (104) in a horizontal sliding mode, a connecting rod (105) is connected between the piston rod (106) and the cabinet body (102) in a rotating mode, a first spring (107) is fixedly connected between the piston rod (106) and the adjacent cylinder barrel (104), a cover frame (108) is connected between the piston rod (106) and the adjacent cylinder barrel (104) in a horizontal sliding mode, one side, close to the cover frame (108), of the cylinder barrel (104) is provided with an opening, a second spring (109) symmetrically distributed along the cover frame is fixedly connected between the cover frame (108) and the cylinder barrel (104), a round hole (110) is formed in the cover frame (108), and a power assembly for driving the cover frame (108) to close the cylinder barrel (104) is arranged.

The power assembly comprises a fixing frame (201) symmetrically distributed on the cabinet body (102), the fixing frame (201) is fixedly connected to the bottom of the cabinet body (102), a pull rod (202) is connected to the fixing frame (201) in a horizontal sliding mode, a piston rod (106) moves to be in contact with the pull rod (202), a first guide block (203) symmetrically distributed on the cabinet body (102) is rotationally connected to the cabinet body (102), the first guide block (203) is movably connected with the adjacent pull rod (202), a telescopic rod (204) is fixedly connected to the cover frame (108), the telescopic rod (204) is in contact with the adjacent first guide block (203), a contact surface between the first guide block (203) and the adjacent telescopic rod (204) is a convex surface, a guide groove is formed in the first guide block (203), a second guide block (205) is fixedly connected to the guide groove in the first guide block (203), and the telescopic rod (204) passes through the second guide block (205) when entering the first guide block (203) from an inlet (206).

2. The industrial control cabinet with shockproof function according to claim 1, wherein: under the guiding action of the second guide block (205), the telescopic rod (204) penetrates out of the guide groove of the first guide block (203) from the outlet (207), and under the extrusion action of the second guide block (205), the telescopic rod (204) is gradually compressed.

3. The industrial control cabinet with shockproof function according to claim 2, wherein: the thickness of the side, close to the inlet (206), of the second guide block (205) is smaller than the thickness of the side, close to the outlet (207), of the second guide block (205).

4. An industrial control cabinet with shockproof function according to claim 3, wherein: the utility model provides an industrial control rack with shockproof function still includes spacing (301) that are used for right rotatory door (103) are locked, spacing (301) vertical sliding connection in cabinet body (102) are close to one side of rotatory door (103), one side piston rod (106) rigid coupling has deflector (302), deflector (302) with cabinet body (102) sliding connection, spacing (301) with deflector (302) spacing cooperation.

5. The industrial control cabinet with shockproof function according to claim 4, wherein: the guide plate (302) is provided with a through hole for guiding the limiting frame (301).

6. The industrial control cabinet with shockproof function according to claim 5, wherein: the industrial control cabinet with the shockproof function further comprises at least one buffer plate (401), wherein the buffer plate (401) is fixedly connected to the side wall of the cabinet body (102) and used for buffering the side wall of the cabinet body (102).

7. The industrial control cabinet with shockproof function according to claim 6, wherein: the industrial control cabinet with the shockproof function further comprises at least one reflecting plate (402), and the reflecting plate (402) is fixedly connected with the buffer plate (401).

8. The industrial control cabinet with shockproof function according to claim 7, wherein: the industrial control cabinet with the shockproof function further comprises at least four cushion pads (501), wherein the cushion pads (501) are fixedly connected to the base (101), and the cushion pads (501) are used for buffering the bottom of the cabinet body (102).