CN112969322A - Special case equipment for automatic instrument - Google Patents

Abstract

The invention discloses a special case device for an automatic instrument, which structurally comprises a case structure, handles, a controller and an observation window, wherein the observation window is embedded on the surface of the case structure, the controller is arranged on the surface of the case structure, the handles are clamped on the left side and the right side of the case structure, the observation window is positioned on the left side of the controller, the colliding vibration force is transmitted in a buffer structure, so that a bending force is generated on a supporting plate when a pressing plate is stressed and extruded, a compression ball is attached to the inner side of the supporting plate to be extruded, the collision force is damped, the instrument case is prevented from being influenced by the vibration generated by collision, the deformation mechanism is extruded after the pressing plate is collided, meanwhile, the ball is attached to the left side of the pressing plate to be compressed by the deformation mechanism, and the deformation plate is bent outwards through a rubber block through mutual transmission of the force among the balls, so that the, the deformation mechanism disperses the collision force, and the extrusion plate is prevented from being deformed by the collision force.

Description

Special case equipment for automatic instrument

Technical Field

The invention relates to the field of flow instruments and meters, in particular to a special case device for an automatic instrument and meter.

Background

The automatic instrument has the functions of automatic control, alarming, signal transmission, data processing and the like, can sense and measure physical quantity which can not be sensed by human sense organs, and has higher recording speed and accuracy, but the instrument is easy to damage and needs special case equipment to fix the instrument.

Fixed instrument and meter silk adopts the block fixed, and quick-witted case material adopts the aluminum alloy material simultaneously, and it is lighter to have a weight, and the cost is lower, and the characteristics of difficult corruption, and the thermal diffusivity of aluminum alloy is superior to other materials simultaneously, but the easy atress of aluminum alloy material is crooked, and its surface can produce pressure when the machine case receives punctiform object impact, thereby makes quick-witted case produce invagination deformation, leads to planar aluminum alloy to produce pressure to inside instrument and meter easily, thereby deformation leads to the fact the damage to instrument and meter.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides an automatic change special quick-witted case equipment of instrument and meter, its structure includes quick-witted case structure, handle, controller, observation window, the observation window inlays admittedly at quick-witted case structure surface, the controller is installed in quick-witted case structure surface, the handle block is in the quick-witted case structure left and right sides, the observation window is located the controller left side, machine case structure is equipped with instrument case, fixed block, compression mechanism, the instrument case is installed inside the fixed block, the compression mechanism block is inside the fixed block, the instrument case outside carries out clearance fit with the compression mechanism inboard, the controller is installed in the instrument case surface, the fixed block is equipped with four, is the distribution of rectangle state.

As a further improvement of the invention, the compression mechanism is provided with a buffer structure, a blocking mechanism and an extrusion plate, wherein the buffer structure is attached to the left side of the blocking mechanism, the extrusion plate is arranged on the right side of the blocking mechanism, the buffer structure is clamped in the fixed block, and the left side and the right side of the buffer structure are connected with the inside of the fixed block.

The buffer structure is further improved by comprising a telescopic rod, a support plate, an extrusion plate and a bending mechanism, wherein the telescopic rod is welded on the inner side of the support plate, the extrusion plate is attached to the outer side of the support plate, the bending mechanism is installed on the inner side of the support plate, the telescopic rod is located on the upper side and the lower side of the bending mechanism, the right side of the extrusion plate is attached to the left side of the blocking mechanism, the telescopic rod is in a parallel state, the effect of enabling the support plate to bear force in parallel is achieved, and the inner side of the.

As a further improvement of the invention, the bending mechanism is provided with a compression ball, a bending plate and a telescopic ring, the telescopic ring is attached to the inner side of the bending plate, the compression ball is embedded and fixed in the telescopic ring, the bending plate is installed on the inner side of the supporting plate, the compression ball is made of rubber and has the characteristic of large elasticity, and the telescopic ring is made of sponge and has the characteristic of strong deformation effect.

As a further improvement of the invention, the blocking mechanism is provided with a connecting plate, a spring, a deformation mechanism and a ball body, the deformation mechanism is embedded and fixed on the right side of the connecting plate, the spring is welded on the outer side of the left end of the deformation mechanism, the ball body is in clearance fit with the inner side of the deformation mechanism, the right side of the deformation mechanism is arranged on the left side of the extrusion plate, the deformation mechanism is of a triangular structure, and three corners of the deformation mechanism are in a fixed state.

As a further improvement of the invention, the deformation mechanism is provided with a rubber block, a friction strip and a deformation plate, the rubber block is fixedly embedded at the left end of the inner side of the deformation plate, the friction strip is arranged at the inner side of the deformation plate, the deformation plate is fixedly embedded at the right side of the connecting plate, and the friction strip is made of rubber and has the characteristics of large compression force and strong friction force.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. when compressing mechanism receives the impact, the stripper plate in the compressing mechanism outside produces the effort and compresses blocking mechanism, thereby the vibrational force of collision transmits in buffer structure, thereby produce the bending force to the backup pad when the stripper plate atress extrudees, make the bending plate in the bending mechanism crooked through the telescopic link, drive the expansion ring and carry out the expansion on the diameter, thereby the compression ball laminating extrudees in the backup pad inboard, carry out the shock attenuation to the impact, thereby cushion vibration effort through buffer structure, the vibration of avoiding the collision to produce influences the instrument shelter.

2. The stripper plate extrudees deformation mechanism after receiving the collision to deformation mechanism is crooked to the outside, extrudees the spring, and the spheroid laminating is in the compression of stripper plate left side direction deformation mechanism simultaneously, through the mutual transmission of power between the spheroid, thereby the spheroid blocks on the friction strip, makes deformation board pass through the rubber piece and crooked to the outside, makes the collision power turn into the crooked extrusion force of deformation board, makes deformation mechanism disperse to the collision power, avoids the collision power to make the stripper plate produce deformation.

Drawings

Fig. 1 is a schematic structural diagram of a special case device for an automated instrument of the present invention.

Fig. 2 is a front internal structure diagram of a case structure according to the present invention.

Fig. 3 is a schematic side view of a compression mechanism according to the present invention.

Fig. 4 is a schematic side view of a buffer structure according to the present invention.

Fig. 5 is a schematic side view of a bending mechanism according to the present invention.

Fig. 6 is a partial h enlarged structural schematic diagram of a blocking mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a deformation mechanism according to the present invention.

In the figure: the device comprises a case structure-1, a handle-2, a controller-3, an observation window-4, an instrument case-11, a fixed block-12, a compression mechanism-13, a buffer structure-13 a, a blocking mechanism-13 b, an extrusion plate-13 c, an expansion rod-a 1, a supporting plate-a 2, an extrusion plate-a 3, a bending mechanism-a 4, a compression ball-a 41, a bending plate-a 42, an expansion ring-a 43, a connecting plate-b 1, a spring-b 2, a deformation mechanism-b 3, a ball-b 4, a rubber block-b 31, a friction strip-b 32 and a deformation plate-b 33.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-5:

the invention relates to a special case device for an automatic instrument, which structurally comprises a case structure 1, handles 2, a controller 3 and an observation window 4, wherein the observation window 4 is embedded in the surface of the case structure 1, the controller 3 is arranged on the surface of the case structure 1, the handles 2 are clamped on the left side and the right side of the case structure 1, the observation window 4 is positioned on the left side of the controller 3, the case structure 1 is provided with an instrument case 11, a fixed block 12 and a compression mechanism 13, the instrument case 11 is arranged in the fixed block 12, the compression mechanism 13 is clamped in the fixed block 12, the outer side of the instrument case 11 is in clearance fit with the inner side of the compression mechanism 13, the controller 3 is arranged on the surface of the instrument case 11, the fixed blocks 12 are four and are distributed in a rectangular state, and the instrument case 11 is fixedly arranged through the fixed blocks 12.

Wherein, compression mechanism 13 is equipped with buffer structure 13a, barrier mechanism 13b, stripper plate 13c, the laminating of buffer structure 13a is on the left of barrier mechanism 13b, stripper plate 13c installs in barrier mechanism 13b right side, buffer structure 13a block is inside fixed block 12, the buffer structure 13a left and right sides all is connected with fixed block 12 is inside for stop the effort when stripper plate 13c atress, cushion through buffer structure 13a is inside, avoid producing the vibration.

The buffer structure 13a is provided with an expansion link a1, a support plate a2, a squeezing plate a3 and a bending mechanism a4, the expansion link a1 is welded on the inner side of the support plate a2, the squeezing plate a3 is attached on the outer side of the support plate a2, the bending mechanism a4 is installed on the inner side of the support plate a2, the expansion link a1 is positioned on the upper side and the lower side of the bending mechanism a4, the right side of the squeezing plate a3 is attached on the left side of the blocking mechanism 13b, the expansion link a1 is in a parallel state, the support plate a2 is stressed in parallel, the inner side of the squeezing plate a3 is in an arc structure, the squeezing plate a3 generates bending force on the support plate a2 when being stressed and squeezed, and the bending mechanism a4 is bent through the expansion.

Wherein, bending mechanism a4 is equipped with compression ball a41, crooked board a42, expansion ring a43, expansion ring a43 laminates at crooked board a42 inboard, compression ball a41 inlays to be fixed inside expansion ring a43, crooked board a42 is installed in backup pad a2 inboard, compression ball a41 is the rubber material, has the big characteristic of elasticity, expansion ring a43 is the sponge material, has the strong characteristic of deformation effect, and when crooked board a42 carries out the bending, drives expansion ring a43 and expands to compression ball a41 laminates at backup pad a2 inboard, cushions the collision force.

The embodiment has the following specific use modes and functions:

in the invention, the handle 2 transfers the case structure 1, and the fixed block 12 fixes the instrument case 11, when the compression mechanism 13 receives the collision force, the pressing plate 13c outside the compression mechanism 13 generates the acting force to compress the blocking mechanism 13b, so that the vibration force of the collision is transmitted in the buffer structure 13a, whereby the pressing plate a3 generates a bending force to the support plate a2 when pressed by a force, bending force is blocked to a certain degree in the semicircular groove inside the pressing plate a3, simultaneously vibration bending force acts on the telescopic rod a1 to bend the bending plate a42 in the bending mechanism a4, the bending plate a42 drives the telescopic ring a43 to expand in diameter when bending, thereby the compression ball a41 is attached to the inner side of the supporting plate a2 to be pressed, the impact force is damped, so that the vibration action force is damped through the buffer structure 13a, and the influence of the vibration generated by the impact on the instrument box 11 is avoided.

Example 2:

as shown in fig. 6-7:

wherein, blocking mechanism 13b is equipped with connecting plate b1, spring b2, deformation mechanism b3, spheroid b4, deformation mechanism b3 inlays fixedly on connecting plate b1 right side, spring b2 welds in deformation mechanism b3 left end outside, spheroid b4 extrudees deformation mechanism b3 inboard clearance fit with deformation mechanism b, deformation mechanism b3 right side is installed on stripper plate 13c left side, deformation mechanism b3 is the triangle-shaped structure, and three angles are fixed state, and stripper plate 13c extrudees deformation mechanism b3 after receiving the collision to deformation mechanism b3 outside is crooked, extrudees spring b2, and spheroid b4 laminates in stripper plate 13c left side to deformation mechanism b3 compression simultaneously, through the mutual transmission of power between spheroid b4, disperses the collision force.

Wherein, deformation mechanism b3 is equipped with rubber block b31, rubbing strip b32, deformation board b33, rubber block b31 inlays to be fixed at the inboard left end of deformation board b33, rubbing strip b32 installs in deformation board b33 is inboard, deformation board b33 inlays to be fixed on connecting plate b1 right side, rubbing strip b32 is the rubber material, and it is big to have a compressive force, the strong characteristic of frictional force, and spheroid b4 blocks on rubbing strip b32 for deformation board b33 is outside crooked through rubber block b31, makes the collision force change into the crooked extrusion force of deformation board b 33.

The embodiment has the following specific use modes and functions:

in the invention, the extrusion plate 13c is impacted by external force and then extrudes the deformation mechanism b3, so that the deformation mechanism b3 bends and compresses outwards, the ball b4 is acted by the extrusion plate 13c, the ball b4 performs blocking friction on the friction strip b32, the deformation plate b33 bends outwards after being compressed by the ball b4, the bending force is limited and blocked by the tensile force of the rubber block b31, the impact force received by the extrusion plate 13 is converted into the bending extrusion force of the deformation plate b33, the deformation mechanisms b3 are mutually attached after bending, the impact force is dispersed, and the spring b2 is extruded by the bending force when the deformation mechanism b3 bends, the ball b4 is attached to the left side of the extrusion plate 13c and compresses towards the deformation mechanism b3, and the impact force is mutually transmitted through the balls b4, so that the extrusion plate 13c is prevented from being deformed by the impact force.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims (6)

1. The utility model provides a special quick-witted case equipment of automatic change instrument and meter, its structure includes quick-witted case structure (1), handle (2), controller (3), observation window (4) are inlayed and are fixed on quick-witted case structure (1) surface, install in quick-witted case structure (1) surface controller (3), handle (2) block is in quick-witted case structure (1) left and right sides, observation window (4) are located controller (3) left side, its characterized in that:

case structure (1) is equipped with instrument box (11), fixed block (12), compressing mechanism (13), install in fixed block (12) inside instrument box (11), compressing mechanism (13) block is inside fixed block (12), instrument box (11) outside and compressing mechanism (13) inboard carry out clearance fit, install in instrument box (11) surface controller (3).

2. The special case device for the automatic instrument and meter as claimed in claim 1, wherein: compressing mechanism (13) are equipped with buffer structure (13a), stop gear (13b), stripper plate (13c), buffer structure (13a) laminating is on stop gear (13b) left side, stripper plate (13c) are installed in stop gear (13b) right side, buffer structure (13a) block is inside fixed block (12).

3. The special case device for the automatic instrument and meter as claimed in claim 2, wherein: buffer structure (13a) is equipped with telescopic link (a1), backup pad (a2), stripper plate (a3), bending mechanism (a4), telescopic link (a1) welding is inboard in backup pad (a2), stripper plate (a3) laminating is in the backup pad (a2) outside, bending mechanism (a4) is installed in backup pad (a2) inboard, telescopic link (a1) is located bending mechanism (a4) upper and lower both sides, stripper plate (a3) right side laminating is on blocking mechanism (13b) left side.

4. The special case device for the automatic instrument and meter as claimed in claim 3, wherein: the bending mechanism (a4) is provided with a compression ball (a41), a bending plate (a42) and an expansion ring (a43), the expansion ring (a43) is attached to the inner side of the bending plate (a42), the compression ball (a41) is embedded and fixed in the expansion ring (a43), and the bending plate (a42) is installed on the inner side of a supporting plate (a 2).

5. The special case device for the automatic instrument and meter as claimed in claim 2, wherein: stop gear (13b) are equipped with connecting plate (b1), spring (b2), deformation mechanism (b3), spheroid (b4), deformation mechanism (b3) inlays admittedly on connecting plate (b1) right side, spring (b2) welding is in deformation mechanism (b3) left end outside, spheroid (b4) and the inboard clearance fit of deformation mechanism (b3), deformation mechanism (b3) right side is installed in stripper plate (13c) left side.

6. The special case device for the automatic instrument and meter as claimed in claim 5, wherein: deformation mechanism (b3) is equipped with rubber block (b31), rubbing strip (b32), deformation board (b33), rubber block (b31) are inlayed and are fixed at deformation board (b33) inboard left end, rubbing strip (b32) are installed in deformation board (b33) inboard, deformation board (b33) are inlayed and are fixed on connecting plate (b1) right side.

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