阅读说明：本技术 一种仪器仪表运输设备 (Instrument and meter transportation equipment ) 是由 郭莹莹 于 2021-07-20 设计创作，主要内容包括：本发明公开了一种仪器仪表运输设备,其结构包括支撑底座、移动轮、散热槽、放置机构、顶盖机构,支撑底座底部四角均设有移动轮,并且支撑底座内部贯穿有散热槽,随着仪器仪表自身的重量对托盘进行下压,对挤压管进行下压,挤压管内部的气压从四个导气管内部进行挤出,将气压排到曝气膜内部,通过鼓起的曝气膜对仪器仪表四周表面进行抵触,提高仪器仪表安装在分隔板内部的牢固性,抵触机构对仪器仪表顶部进行抵触,抵触的同时通过重力球在箱盖内部产生滑动,升降杆带动升降板进行高度调节,弹力片在升降板底部发生弹性形变,提高弹力片对仪器仪表顶部的弹力抵触,避免仪器仪表移动过程中发生晃动碰撞。(The invention discloses an instrument and meter transportation device which structurally comprises a supporting base, moving wheels, radiating grooves, a placement mechanism and a top cover mechanism, wherein the moving wheels are arranged at four corners of the bottom of the supporting base, the radiating grooves penetrate through the inside of the supporting base, a tray is pressed down along with the weight of an instrument and meter, an extrusion pipe is pressed down, air pressure in the extrusion pipe is extruded out from the inside of four air guide pipes, the air pressure is discharged into an aeration membrane, the peripheral surfaces of the instrument and meter are abutted through the expanded aeration membrane, the firmness of the instrument and meter installed in a partition plate is improved, the abutting mechanism abuts against the top of the instrument and meter, the instrument and meter slide in a box cover through a gravity ball while abutting against the top of the box, a lifting rod drives a lifting plate to perform height adjustment, an elastic sheet is elastically deformed at the bottom of the lifting plate, and the elastic force of the elastic sheet on the top of the instrument and meter is improved, avoid the instrument and meter to remove the in-process and take place to rock the collision.)

1. The utility model provides an instrument transportation equipment, its structure is including supporting base (1), removing wheel (2), radiating groove (3), placement machine structure (4), top cap mechanism (5), it all is equipped with and removes wheel (2) to support base (1) bottom four corners to it has radiating groove (3) to support base (1) inside to run through, placement machine structure (4) bottom fixed mounting is at support base (1) up end, and placement machine structure (4) top is equipped with top cap mechanism (5), its characterized in that:

the placing mechanism (4) comprises a placing box (41), a bottom support mechanism (42) and a separating mechanism (43), wherein the separating mechanism (43) is fixedly arranged inside the placing box (41), the bottom support mechanism (42) is located inside the separating mechanism (43), the bottom support mechanism (42) is arranged at the bottom of the inner side of the placing box (41), and a top cover mechanism (5) is arranged at the top of the placing box (41).

2. An instrument transportation device according to claim 1, wherein: collet mechanism (42) are including tray (421), sucking disc (422), slider (423), guide way board (424), extrusion pipe (425), tray (421) up end embedded solid installs sucking disc (422) to tray (421) outside end welding has slider (423), slider (423) slidable mounting is inside guide way board (424), and guide way board (424) fixed mounting is at partition mechanism (43) inner wall, tray (421) bottom is equipped with extrusion pipe (425), and extrusion pipe (425) lower extreme is fixed with the inboard bottom of placing case (41), extrusion pipe (425) link up with partition mechanism (43) inside mutually.

3. An instrument transportation device according to claim 2, wherein: partition mechanism (43) are including division board (431), air duct (432), aeration membrane (433), right angle buffer (434), division board (431) are installed and are being placed case (41) inside to division board (431) inside embedded fixed installation has air duct (432), air duct (432) lower extreme and extrusion pipe (425) link up mutually, and inside air duct (432) upper end was located aeration membrane (433) and division board (431) junction, establish at division board (431) inside surface in aeration membrane (433), division board (431) inside four corners all is equipped with right angle buffer (434).

4. An instrument transportation device according to claim 3, wherein: the right-angle buffer (434) comprises a linkage rod (34a), a sliding shaft (34b), a sliding groove (34c) and a contact resisting piece (34d), one end of the linkage rod (34a) is installed inside the partition plate (431), the other end of the linkage rod (34a) is provided with the sliding shaft (34b), the sliding shaft (34b) is installed inside the sliding groove (34c) in a sliding mode, and the sliding groove (34c) is embedded inside the upper end face of the contact resisting piece (34 d).

5. An instrument transportation device according to claim 1, wherein: top cover mechanism (5) are including case lid (51), gravity ball (52), lifter (53), conflict mechanism (54), case lid (51) are installed and are being placed case (41) top to gravity ball (52) adopt clearance fit to install inside case lid (51) lower extreme, the welding of gravity ball (52) lower extreme has lifter (53), and inside lifter (53) upper end slidable mounting was inside case lid (51) lower extreme, lifter (53) lower extreme is fixed mutually with conflict mechanism (54) outside.

6. An instrument transportation device according to claim 5, wherein: the collision mechanism (54) comprises a lifting plate (54a), a spring (54b), an extrusion ball rod (54c), an elastic sheet (54d) and a sponge pad (54e), the spring (54b) is installed at the middle end inside the lower end of the lifting plate (54a), the lower end of the spring (54b) is fixed to the top of the extrusion ball rod (54c), the outer side of the lower end of the extrusion ball rod (54c) is abutted to the inner side surface of the elastic sheet (54d), and the sponge pad (54e) is tightly attached to the outer side surface of the elastic sheet (54 d).

Technical Field

The invention relates to the field of automatic instruments and meters, in particular to instrument and meter transportation equipment.

Background

Instruments and meters are instruments or equipment for detecting, measuring, observing and calculating various physical quantities, material components, physical parameters and the like, and after the instruments and meters are produced, instrument and meter transportation equipment is required, the instruments and meters can be stored regularly and transported at the same time, but because the instruments and meters need to be moved after being placed in the transportation equipment, certain shaking is often generated in the moving process, so that the instrument and the meter are easy to collide with the inside of the transportation equipment, meanwhile, four corners of the outer shell of the instrument are in a right-angle structure, when the four corners of the outer shell of the instrument collide with the inside of the transportation equipment, the inside four corners protection effect to the shell four corners of instrument and meter of transportation equipment is relatively poor, and instrument and meter's shell produces the fracture easily to lead to the shell damaged, influence instrument and meter's normal use.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this instrument and meter transportation equipment, its structure is including supporting the base, removing wheel, radiating groove, placement mechanism, top cap mechanism, it all is equipped with the removal wheel to support base bottom four corners to it has the radiating groove to support the inside running through of base, placement mechanism bottom fixed mounting is at supporting the base up end, and the placement mechanism top is equipped with top cap mechanism, placement mechanism is including placing case, collet mechanism, partition mechanism, it has partition mechanism to place incasement portion fixed mounting to collet mechanism is located inside the partition mechanism, collet mechanism installs and places incasement side bottom, it installs top cap mechanism to place the roof portion.

As a further improvement of the invention, the bottom support mechanism comprises a tray, a sucker, a slider, two guide groove plates and two extrusion pipes, wherein the sucker is fixedly embedded in the upper end face of the tray, the slider is welded at the outer side end of the tray, the slider is slidably mounted in the guide groove plates, the guide groove plates are fixedly mounted on the inner wall of the separation mechanism, the extrusion pipes are arranged at the bottom of the tray, the lower ends of the extrusion pipes are fixed with the bottom of the inner side of the placing box, the extrusion pipes are communicated with the inside of the separation mechanism, and the two suckers are arranged at equal intervals on the upper end face of the tray.

As a further improvement of the invention, the separation mechanism comprises a separation plate, air guide pipes, an aeration membrane and a right-angle buffer, the separation plate is arranged in the placing box, the air guide pipes are fixedly embedded in the separation plate, the lower ends of the air guide pipes are communicated with the extrusion pipe, the upper ends of the air guide pipes are positioned in the connecting part of the aeration membrane and the separation plate, the aeration membrane is arranged on the inner side surface of the separation plate, the right-angle buffers are arranged at four corners in the separation plate, the separation plate is of a zigzag structure, the number of the air guide pipes and the number of the aeration membrane are four, and the four air guide pipes are arranged in the four sides of the separation plate.

As a further improvement of the invention, the right-angle buffer comprises coupling rods, sliding shafts, sliding grooves and abutting sheets, wherein one ends of the coupling rods are arranged in the partition plate, the other ends of the coupling rods are provided with the sliding shafts, the sliding shafts are slidably arranged in the sliding grooves, the sliding grooves are embedded in the upper end surfaces of the abutting sheets, the number of the coupling rods is five, one ends of the five coupling rods are connected together, and one end of each of the five coupling rods is provided with one sliding shaft.

As a further improvement of the invention, the top cover mechanism comprises a box cover, gravity balls, lifting rods and a collision mechanism, wherein the box cover is arranged at the top of the placing box, the gravity balls are arranged in the lower end of the box cover in a clearance fit mode, the lifting rods are welded at the lower end of the gravity balls, the upper ends of the lifting rods are slidably arranged in the lower end of the box cover, the lower ends of the lifting rods are fixed with the outer side ends of the collision mechanism, and the collision mechanism is provided with eight collision mechanisms which are independently arranged at the lower end of the box cover at equal intervals.

As a further improvement of the invention, the abutting mechanism comprises a lifting plate, a spring, an extrusion ball rod, an elastic sheet and a sponge pad, the spring is mounted at the middle end inside the lower end of the lifting plate, the lower end of the spring is fixed with the top of the extrusion ball rod, the outer side of the lower end of the extrusion ball rod abuts against the inner side surface of the elastic sheet, the sponge pad is tightly attached to the outer side surface of the elastic sheet, the elastic sheet and the sponge pad are both in arc structures, and the extrusion ball rod abuts against the center of the arc surface of the elastic sheet.

The invention has the beneficial effects that:

1. along with instrument and meter self weight pushes down the tray, pushes down the extrusion pipe, and the inside atmospheric pressure of extrusion pipe is extruded from four air duct insides, arranges atmospheric pressure inside the aeration membrane, and the aeration membrane through the drum-up conflicts instrument surface all around, improves instrument and meter and installs the fastness inside the division board, avoids removing the in-process and produces and rock, causes instrument and meter four corners to collide impaired.

2. Conflict mechanism contradicts the instrument and meter top, and it slides through the gravity ball at the inside production of case lid in the time of contradicting, and the lifter drives the lifter plate and carries out the altitude mixture control, and elastic sheet takes place elastic deformation in the lifter plate bottom, improves the elastic force conflict of elastic sheet to the instrument and meter top, avoids instrument and meter to remove the in-process and takes place to rock the collision.

Drawings

FIG. 1 is a schematic view of the structure of an instrument transportation device of the present invention.

Fig. 2 is a schematic diagram of the internal structure of a placement mechanism of the present invention.

Fig. 3 is a schematic perspective view of a shoe mechanism according to the present invention.

Fig. 4 is a schematic top view of the separating mechanism according to the present invention.

FIG. 5 is a schematic top view of a right-angle bumper according to the present invention.

Fig. 6 is a schematic diagram of a top cover mechanism and a partially enlarged structure according to the present invention.

Fig. 7 is a schematic structural diagram of a collision mechanism according to the present invention.

In the figure: the device comprises a supporting base-1, a moving wheel-2, a heat dissipation groove-3, a placing mechanism-4, a top cover mechanism-5, a placing box-41, a bottom support mechanism-42, a separating mechanism-43, a tray-421, a suction cup-422, a slide block-423, a guide groove plate-424, an extrusion pipe-425, a separating plate-431, an air duct-432, an aeration membrane-433, a right-angle buffer-434, a linkage rod-34 a, a sliding shaft-34 b, a sliding groove-34 c, an interference sheet-34 d, a box cover-51, a gravity ball-52, a lifting rod-53, an interference mechanism-54, a lifting plate-54 a, a spring-54 b, an extrusion ball rod-54 c, an elastic sheet-54 d and a sponge pad-54 e.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention relates to instrument and meter transportation equipment which structurally comprises a support base 1, moving wheels 2, radiating grooves 3, a placement mechanism 4 and a top cover mechanism 5, wherein the moving wheels 2 are arranged at four corners of the bottom of the support base 1, the radiating grooves 3 penetrate through the support base 1, the bottom of the placement mechanism 4 is fixedly arranged on the upper end face of the support base 1, the top of the placement mechanism 4 is provided with the top cover mechanism 5, the placement mechanism 4 comprises a placement box 41, a bottom support mechanism 42 and a separation mechanism 43, the separation mechanism 43 is fixedly arranged in the placement box 41, the bottom support mechanism 42 is positioned in the separation mechanism 43, the bottom support mechanism 42 is arranged at the bottom of the inner side of the placement box 41, and the top cover mechanism 5 is arranged at the top of the placement box 41.

Wherein, collet mechanism 42 includes tray 421, sucking disc 422, slider 423, guide way board 424, extrusion pipe 425, tray 421 up end embedded fixed mounting has sucking disc 422 to the outside end welding of tray 421 has slider 423, slider 423 slidable mounting is inside guide way board 424, and guide way board 424 fixed mounting is at partition mechanism 43 inner wall, tray 421 bottom is equipped with extrusion pipe 425 to extrusion pipe 425 lower extreme is fixed with the inboard bottom of placing case 41, extrusion pipe 425 link up with partition mechanism 43 is inside mutually, sucking disc 422 is equipped with two altogether, and the equidistance is established at tray 421 up end, improves the adsorption effect of tray 421 surface and instrument and meter bottom.

Wherein, the separation mechanism 43 comprises a separation plate 431, a gas-guide tube 432, an aeration membrane 433 and a right-angle buffer 434, the separation plate 431 is installed inside the placing box 41, the gas-guide tube 432 is fixedly installed inside the separation plate 431, the lower end of the gas-guide tube 432 is communicated with the extrusion tube 425, the upper end of the gas-guide tube 432 is positioned inside the joint of the aeration membrane 433 and the separation plate 431, the aeration membrane 433 is arranged on the inner side surface of the separation plate 431, the right-angle buffers 434 are arranged at four corners inside the separation plate 431, the separation plate 431 is of a zigzag structure, which is beneficial for separating and protecting the periphery of the instrument, the gas-guide tubes 432 and the aeration membrane 433 are respectively provided with four gas-guide tubes 432, which are beneficial for conducting the air pressure extruded from the interior of the extrusion tube 425 to the interior of the aeration membrane 433, so that the aeration membrane 433 is bulged to support and buffer the periphery of the instrument, the peripheral surfaces of the instruments are prevented from being damaged by collision.

The right-angle buffer 434 comprises a linkage rod 34a, a sliding shaft 34b, a sliding groove 34c and an interference sheet 34d, wherein one end of the linkage rod 34a is installed inside the partition plate 431, the other end of the linkage rod 34a is provided with the sliding shaft 34b, the sliding shaft 34b is installed inside the sliding groove 34c in a sliding manner, the sliding groove 34c is embedded inside the upper end face of the interference sheet 34d, five linkage rods 34a are provided, one ends of the five linkage rods 34a are connected together, one end of each of the five linkage rods 34a is provided with the sliding shaft 34b, the sliding shafts 34b slide inside the sliding groove 34c through linkage of the linkage rods 34a, and at the moment, the position of the interference sheet 34d generates a certain offset, so that interference buffering is performed on an instrument and a four-corner instrument, and collision damage is avoided.

The specific use mode and function of the embodiment are as follows:

in the invention, the top cover mechanism 5 is opened from the top of the placing mechanism 4, then the instrument is placed in the partition plate 431, at the moment, the bottom of the instrument extrudes the tray 421, the absorption firmness between the bottom of the instrument and the tray 421 is improved through the sucking disc 422, the tray 421 is pressed down along with the self weight of the instrument, at the moment, four sliding blocks 423 at the periphery of the tray 421 respectively slide down in four guide groove plates 424, the tray 421 is ensured to descend stably, the extrusion pipe 425 is pressed down, the extrusion pipe 425 contracts and plays a role of shock absorption and buffering, at the same time, the air pressure in the extrusion pipe 425 is extruded from the four air guide pipes 432, the air pressure is discharged into the aeration film 433, at the moment, the aeration film 433 swells, the surfaces at the periphery of the instrument are abutted through the swelled aeration film 433, and the firmness of the instrument and the instrument installed in the partition plate 431 is improved, simultaneously through the interlock of trace 34a for sliding shaft 34b slides in spout 34c is inside, and at this moment, the position of propping contact 34d produces certain skew, thereby carries out conflict buffering to the instrument and meter four corners, avoids rocking at the removal in-process production, causes the instrument and meter four corners to collide impaired.

Example 2:

as shown in fig. 6 to 7:

wherein, roof mechanism 5 includes case lid 51, gravity ball 52, lifter 53, conflict mechanism 54, case lid 51 is installed and is being placed case 41 top to gravity ball 52 adopts clearance fit to install inside case lid 51 lower extreme, the welding of gravity ball 52 lower extreme has lifter 53 to lifter 53 upper end slidable mounting is inside case lid 51 lower extreme, lifter 53 lower extreme and conflict mechanism 54 outside end are fixed mutually, conflict mechanism 54 is equipped with eight altogether to the equidistance is independently installed at case lid 51 lower extreme, does benefit to case lid 51 when covering, and eight conflict mechanisms 54 carry out independent conflict to placing eight instrument and meter tops inside eight division boards 431 respectively, ensure that instrument and meter are firm placing inside division board 431, reduce the rocking that the removal in-process produced.

The collision mechanism 54 comprises a lifting plate 54a, a spring 54b, an extrusion ball rod 54c, an elastic sheet 54d and a sponge pad 54e, the spring 54b is installed at the middle end inside the lower end of the lifting plate 54a, the lower end of the spring 54b is fixed with the top of the extrusion ball rod 54c, the outer side of the lower end of the extrusion ball rod 54c abuts against the inner side surface of the elastic sheet 54d, the sponge pad 54e is tightly attached to the outer side surface of the elastic sheet 54d, the elastic sheet 54d and the sponge pad 54e are both arc-shaped structures, the extrusion ball rod 54c abuts against the arc center of the elastic sheet 54d, the elastic force of the elastic sheet 54d against the top of the instrument is improved, meanwhile, the sponge pad 54e has a surface protection effect, and the top surface of the instrument is prevented from being damaged due to friction.

The specific use mode and function of the embodiment are as follows:

in the invention, after the placement of the instrument and meter is finished, the box cover 51 is covered on the top of the placement box 41, the collision mechanism 54 collides the top of the instrument and meter, the box cover 51 slides inside through the gravity ball 52 while colliding, downward gravity is applied at the same time, so that the lifting rod 53 drives the lifting plate 54a to perform height adjustment, meanwhile, the spring 54b applies elasticity to the extrusion ball rod 54c, the elastic sheet 54d generates elastic deformation at the bottom of the lifting plate 54a, the elastic collision of the elastic sheet 54d to the top of the instrument and meter is improved, the shaking collision in the moving process of the instrument and meter is avoided, meanwhile, the surface protection effect is achieved through the sponge pad 54e, and the friction damage caused by the collision of the surface of the top of the instrument and meter is avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.