CN115753408A - Rubber support mechanics various experimental equipment - Google Patents

Abstract

The invention discloses a rubber support mechanics diversity experimental device which structurally comprises a base mechanism, a guide post, a cylinder seat, a cylinder and a pressure plate, wherein the upper end face of the middle part of the base mechanism is fixed with the bottom of the guide post, the cylinder seat is arranged at the top of the guide post, the bottom surface of a basin-type rubber support and the upper end face of a chassis are comprehensively adsorbed and fixed through five suckers, the firmness of the basin-type rubber support placed on the chassis is improved, meanwhile, a buckle plate at the outer side end of an extrusion rod elastically supports the outer side end faces of four support legs, the firmness of the basin-type rubber support placed at the bottom of the basin-type rubber support is enhanced, the position deviation of the basin-type rubber support during supporting pressure test is avoided, a vertical connecting angle is formed between the four rotating plates and the base, the effect of comprehensively and uniformly supporting the bottom of the base is improved, the adsorption plate performs vacuum adsorption on the horizontal ground, the stability of the base placed on the horizontal ground is improved, and the accuracy of the supporting pressure test of the basin-type rubber support is improved.

Description

Rubber support mechanics various experimental equipment

Technical Field

The invention relates to the field of mechanical experiments, in particular to a rubber support mechanical diversified experimental device.

Background

Basin rubber support is the novel bridge beam supports that steel member and rubber combination formed, compare with other model basin supports of the same kind and cast steel roller shaft support, it is big to have a bearing capacity, the horizontal displacement volume is big, advantages such as rotate in a flexible way, basin rubber support produces after the experiment test to its support pressure through the various experimental facilities of mechanics, but because the various experimental facilities of mechanics are carrying out the in-process that supports pressure test to basin rubber support, directly place basin rubber support under the cylinder of the various experimental facilities of mechanics, it exerts pressure to the basin rubber support down to drive the pressure plate through the cylinder, the in-process of exerting pressure, the supporting legs in basin rubber support bottom four corners takes place offset on the various experimental facilities of mechanics easily, lead to the pressure plate to produce the skew to the holistic pressure application degree of basin rubber support, lead to taking place the damage in-process that basin rubber support tested, the various experimental facilities of mechanics place on horizontal ground simultaneously, the various experimental facilities of mechanics take place to rock easily on ground level in the applied in-process, lead to the various experimental facilities, lead to there is the error in basin rubber support pressure test.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this various experimental facilities of rubber support mechanics, its structure includes base mechanism, guide post, cylinder block, cylinder, pressure plate, base mechanism middle part up end is fixed mutually with the guide post bottom to the guide post top is equipped with the cylinder block, the cylinder is installed to cylinder block up end middle-end, cylinder bottom output is fixed mutually with pressure plate up end middle-end to the guide post adopts clearance fit to run through inside the pressure plate outside, base mechanism includes base, placement mechanism, stabilizing mean, base up end middle part is equipped with placement mechanism to placement mechanism up end is fixed mutually with the guide post bottom, stabilizing mean installs in the base four corners outside.

As a further improvement of the invention, the placing mechanism comprises a bearing plate, an adsorption mechanism and placing grooves, wherein the bearing plate is embedded in the middle of the upper end face of the base, the adsorption mechanism is installed in the middle of the upper end face of the bearing plate, the placing grooves are embedded in the upper end face of the bearing plate and are positioned on the outer sides of the adsorption mechanism, and the number of the placing grooves is four, and the placing grooves are positioned on four positions on the outer sides of the adsorption mechanism.

As a further improvement of the invention, the adsorption mechanism comprises a chassis, a sucker, a buffer tube and a collision mechanism, the chassis is arranged in the middle of the upper end of the bearing plate, the upper end surface of the chassis is connected with the sucker and the bottom through the buffer tube, the collision mechanism is arranged on the outer side of the bottom of the chassis, the outer side end of the collision mechanism is positioned in the placing groove, and the sucker and the buffer tube are respectively provided with five parts and are arranged in the middle and four positions of the upper end surface of the chassis.

As a further improvement of the invention, the collision mechanism comprises a central shaft, a spring pipe sleeve, an extrusion rod and pinch plates, wherein the central shaft is fixedly arranged on the bottom surface of the chassis, the outer side end of the central shaft is fixed with the inner side end of the spring pipe sleeve, the inner side end of the extrusion rod is arranged in the outer side end of the spring pipe sleeve in a clearance fit manner, the pinch plates are welded at the outer side ends of the extrusion rod, the extrusion rod and the pinch plates are respectively positioned in the placing grooves, the number of the spring pipe sleeve, the number of the extrusion rod and the number of the pinch plates are four, and the four arc-shaped pinch plates are respectively positioned in the four placing grooves.

As a further improvement of the invention, the stabilizing mechanism comprises four pull rods, four spring slide rails, four clamping rods and four supporting foot mechanisms, wherein the pull rods are slidably arranged in the spring slide rails, the spring slide rails are embedded at the bottom of the base, the upper ends of the pull rods are fixed with the bottom of the inner side ends of the clamping rods, the clamping rods are slidably arranged at the bottom of the base, the outer side ends of the clamping rods are clamped and arranged in the outer side ends of the supporting foot mechanisms, the inner side ends of the supporting foot mechanisms are hinged with the bottom of the base, and the four supporting foot mechanisms are respectively arranged at the four corner ends of the bottom of the base.

As a further improvement of the present invention, the leg supporting mechanism includes a torsion shaft, a rotating plate, two supporting legs, two telescopic hoses and an adsorption disc, wherein the inner end of the rotating plate is hinged to the bottom of the base through the torsion shaft, the supporting legs are arranged at the bottom of the inner end of the rotating plate, the telescopic hoses are arranged in the middle of the supporting legs, the adsorption disc is mounted at the bottom of the supporting legs, the inner end of the rotating plate is connected with the outer end of the clamping rod in a clamping manner, and the two torsion shafts are arranged at the upper end and the lower end of the connecting position of the inner end of the rotating plate and the bottom of the base.

The invention has the beneficial effects that:

1. carry out comprehensive absorption fixedly to basin formula rubber support bottom surface and chassis up end through five sucking discs, improve the fastness that basin formula rubber support placed on the chassis, stretch into four stabilizer blades of standing groove inside simultaneously and provide flexible elasticity for the stripper bar through the spring pipe box, thereby make the buckle of stripper bar outside end carry out the elasticity conflict to the outside terminal surface of four stabilizer blades, strengthen the fastness that basin formula rubber support bottom stabilizer blade was placed, take place offset when avoiding basin formula rubber support to carry out the bearing pressure test, ensure that the whole pressure degree of exerting that receives of basin formula rubber support keeps balanced, avoid basin formula rubber support to take place to damage.

2. Elastic torsion is exerted through the torsion shaft of rotor plate medial extremity, ensure that rotor plate shifts out back automatically regulated from the base bottom and carries out on vertical position with the base, form perpendicular connection angle through four rotor plates and base, improve the effect to the comprehensive even support in base bottom, gravity makes the bellows atress extrusion at supporting legs middle part, extrude the inside air of adsorption disc, make the adsorption disc carry out vacuum adsorption at the subaerial level, improve the subaerial stability of base placement at the level, avoid taking place to rock at the subaerial level in the test procedure, improve the precision of basin formula rubber support bearing support pressure test.

Drawings

Fig. 1 is a schematic structural diagram of a rubber support mechanics diversified experimental device of the present invention.

Fig. 2 is a schematic bottom view of a base mechanism according to the present invention.

Fig. 3 is a schematic top view of a placement mechanism according to the present invention.

FIG. 4 is a schematic diagram of a top view and a partial enlarged structure of an adsorption mechanism according to the present invention.

Fig. 5 is a schematic bottom view of a collision mechanism according to the present invention.

FIG. 6 is a schematic view of a fixing mechanism and a partially enlarged structure according to the present invention.

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

In the figure: the device comprises a base mechanism-V, a guide column-S, a cylinder seat-Z, a cylinder-Q, a pressure plate-Y, a base-V5, a placing mechanism-V1, a stabilizing mechanism-V8, a bearing plate-V16, an adsorption mechanism-V12, a placing groove-V19, a chassis-23, a sucker-2X, a buffer tube-2S, a collision mechanism-25, a middle shaft-25 c, a spring tube sleeve-25 t, an extrusion rod-25 j, a buckle plate-25 k, a pull rod-V84, a spring sliding rail-V82, a clamping rod-V87, a supporting foot mechanism-V88, a torsion shaft-89, a rotating plate-81, a supporting foot-86, a flexible hose-8S, an adsorption plate-8 e and a basin-type rubber support-X.

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 a rubber support mechanics diversity experimental device which structurally comprises a base mechanism V, a guide post S, a cylinder seat Z, a cylinder Q and a pressure plate Y, wherein the upper end face of the middle of the base mechanism V is fixed with the bottom of the guide post S, the cylinder seat Z is arranged at the top of the guide post S, the cylinder Q is installed at the middle end of the upper end face of the cylinder seat Z, the output end of the bottom of the cylinder Q is fixed with the middle of the upper end face of the pressure plate Y, the guide post S penetrates through the inside of the outer side of the pressure plate Y in a clearance fit mode, the base mechanism V comprises a base V5, a placing mechanism V1 and a stabilizing mechanism V8, the placing mechanism V1 is arranged in the middle of the upper end face of the base V5, the upper end face of the placing mechanism V1 is fixed with the bottom of the guide post S, and the stabilizing mechanism V8 is installed on the outer sides of four corners of the base V5.

The placing mechanism v1 comprises a bearing plate v16, an adsorption mechanism v12 and a placing groove v19, the bearing plate v16 is embedded in the middle of the upper end face of a base v5, the adsorption mechanism v12 is installed in the middle of the upper end of the bearing plate v16, the placing groove v19 is embedded in the upper end face of the bearing plate v16, the placing groove v19 is located on the outer side of the adsorption mechanism v12, the number of the placing grooves v19 is four, the placing grooves v12 are located on four positions on the outer side of the adsorption mechanism v12, four support legs at the bottom of the pot type rubber support X can be placed into the four placing grooves v19, and the pot type rubber support X can be fixedly placed.

Wherein, adsorption apparatus constructs v12 includes chassis 23, sucking disc 2X, buffer tube 2s, conflict mechanism 25, chassis 23 is installed at bearing plate v16 upper end middle part to chassis 23 up end passes through buffer tube 2s and is connected with sucking disc 2X, bottom, 23 bottom outsides on chassis are equipped with conflict mechanism 25, and conflict mechanism 25 outside end is located inside standing groove v19, sucking disc 2X and buffer tube 2s all are equipped with five to establish on the middle part and four position of 23 up end on chassis, do benefit to and carry out comprehensive absorption fixedly to benzvalene form rubber support X bottom surface and 23 up end on chassis, improve benzvalene form rubber support X and place the fastness on chassis 23.

The collision mechanism 25 comprises a middle shaft 25c, a spring pipe sleeve 25t, an extrusion rod 25j and a pinch plate 25k, the middle shaft 25c is fixedly installed on the bottom surface of the chassis 23, the outer side end of the middle shaft 25c is fixed with the inner side end of the spring pipe sleeve 25t, the inner side end of the extrusion rod 25j is installed inside the outer side end of the spring pipe sleeve 25t in a clearance fit mode, the pinch plate 25k is welded at the outer side end of the extrusion rod 25j, the extrusion rod 25j and the pinch plate 25k are located inside the placing groove v19, the spring pipe sleeve 25t, the extrusion rod 25j and the pinch plate 25k are four, the four arc-shaped pinch plates 25k are located inside the four placing grooves v19 respectively, elastic collision of supporting legs at the bottom of the basin-type rubber support X placed inside the placing groove v19 is facilitated, the firmness of placement of the supporting legs at the bottom of the basin-type rubber support X is enhanced, and the position deviation of the basin-type rubber support X is avoided when the supporting pressure test is carried out.

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

according to the invention, the basin-type rubber support X is placed on the upper end face of the bearing plate v16, four support legs at the bottom of the basin-type rubber support X extend into four placing grooves v19, the four support legs at the bottom of the basin-type rubber support X are placed in a limiting manner through the four placing grooves v19, then the sucker 2X is pressed down through the self weight of the basin-type rubber support X, the buffer tube 2s is squeezed and contracted after being pressed down to change the internal air pressure, so that the air pressure inside the sucker 2X is squeezed out, the sucker 2X carries out vacuum adsorption on the bottom face of the basin-type rubber support X, the bottom face of the basin-type rubber support X and the upper end face of the chassis 23 are comprehensively adsorbed and fixed through the five suckers 2X, the firmness of the basin-type rubber support X placed on the chassis 23 is improved, meanwhile, the four support legs extending into the placing grooves v19 provide stretching elastic force for the extrusion rod 25j through the spring tube sleeve 25t, so that the pinch plate 25k at the outer end of the extrusion rod 25j elastically collides with the outer side faces of the four support legs, the pressure plate X is strengthened, the placement of the basin-type rubber support X is prevented from being placed, the pressure plate is prevented from being damaged when the basin-type rubber support X is placed, and the pressure plate is kept in a Y-type rubber support, and the pressure plate is prevented from being damaged after the basin-type rubber support X is tested, and the pressure plate is kept from being damaged, and the basin-type rubber support X, and the pressure plate is kept in a pressure application, and the pressure application of the basin-type rubber support is prevented from being uniformly applied, and the pressure plate is prevented from being damaged.

Example 2:

as shown in fig. 6 to 7:

the stabilizing mechanism v8 comprises a pull rod v84, a spring slide rail v82, a clamping rod v87 and a supporting foot mechanism v88, the pull rod v84 is slidably mounted inside the spring slide rail v82, the spring slide rail v82 is embedded at the bottom of the base v5, the upper end of the pull rod v84 is fixed to the bottom of the inner side end of the clamping rod v87, the clamping rod v87 is slidably mounted at the bottom of the base v5, the outer side end of the clamping rod v87 is clamped and mounted inside the outer side end of the supporting foot mechanism v88, the inner side end of the supporting foot mechanism v88 is hinged to the bottom of the base v5, the supporting foot mechanisms v88 are provided with four parts which are respectively arranged at four corner ends of the bottom of the base v5, stable supporting force can be provided for four corners of the base v5, the base v5 is prevented from shaking on the horizontal ground after being pressurized, and the stability of the basin-type rubber support X in the supporting pressure test is improved.

The foot supporting mechanism v88 comprises a torsion shaft 89, a rotating plate 81, supporting feet 86, a telescopic hose 8s and an adsorption disc 8e, wherein the inner end of the rotating plate 81 is hinged to the bottom of the base v5 through the torsion shaft 89, the supporting feet 86 are arranged at the bottom of the inner end of the rotating plate 81, the telescopic hose 8s is arranged in the middle of the supporting feet 86, the adsorption disc 8e is installed at the bottom of the supporting feet 86, the inner end of the rotating plate 81 is connected with the outer end of a clamping rod v87 in a clamping mode, the number of the torsion shaft 89 is two, the two torsion shaft 89 are arranged at the upper end and the lower end of the connecting position of the inner end of the rotating plate 81 and the bottom of the base v5, automatic elastic torsion is provided for the rotating plate 81, the rotating plate 81 is guaranteed to be automatically adjusted to be in a vertical direction with the base v5 after being moved out from the bottom of the base v5, a vertical connecting angle is formed between the four rotating plates 81 and the base v5, and the effect of overall and uniform support of the bottom of the base v5 is improved.

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

according to the invention, after the base v5 is placed on the horizontal ground, the pull rod v84 is pulled to elastically move in the spring slide rail v82, so that the clamping rod v87 is driven to move and move out of the inner side end of the rotating plate 81, and the clamping capacity on the rotating plate 81 is lost, at the moment, elastic torsion is applied through the torsion shaft 89 at the inner side end of the rotating plate 81, and automatic elastic torsion is provided for the rotating plate 81, so that the rotating plate 81 is automatically adjusted to be in a vertical position with the base v5 after moving out of the bottom of the base v5, a vertical connecting angle is formed between the four rotating plates 81 and the base v5, the effect of comprehensively and uniformly supporting the bottom of the base v5 is improved, after the four rotating plates 81 rotate out of the four positions at the bottom of the base v5, the adsorption disc 8e is adsorbed on the horizontal ground, the telescopic hose 8s in the middle of the supporting legs 86 is stressed and extruded by gravity, air in the adsorption disc 8e is extruded, so that the adsorption disc 8e is horizontally adsorbed in vacuum adsorption on the horizontal ground, the stability of the base v5 on the horizontal ground is improved, the occurrence of a basin-type pressure support in a test process is improved, and the accuracy of a basin-type pressure support is improved.

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.

Claims (6)

1. The utility model provides a various experimental facilities of rubber support mechanics, its structure includes base mechanism (V), guide post (S), cylinder block (Z), cylinder (Q), pressure plate (Y), base mechanism (V) middle part up end is fixed with guide post (S) bottom to guide post (S) top is equipped with cylinder block (Z), cylinder (Q) are installed to cylinder block (Z) up end middle-end, cylinder (Q) bottom output is fixed with pressure plate (Y) up end middle part to inside guide post (S) adopt clearance fit to run through in pressure plate (Y) outside, its characterized in that:

the base mechanism (V) comprises a base (V5), a placing mechanism (V1) and a stabilizing mechanism (V8), wherein the placing mechanism (V1) is arranged in the middle of the upper end face of the base (V5), the upper end face of the placing mechanism (V1) is fixed to the bottom of the guide column (S), and the stabilizing mechanism (V8) is installed on the outer sides of four corners of the base (V5).

2. The experimental equipment for mechanical diversity of rubber supports as claimed in claim 1, wherein: the placing mechanism (v 1) comprises a bearing plate (v 16), an adsorption mechanism (v 12) and a placing groove (v 19), the bearing plate (v 16) is embedded in the middle of the upper end face of the base (v 5), the adsorption mechanism (v 12) is installed in the middle of the upper end face of the bearing plate (v 16), the placing groove (v 19) is embedded in the upper end face of the bearing plate (v 16), and the placing groove (v 19) is located on the outer side of the adsorption mechanism (v 12).

3. The experimental equipment for mechanical diversity of rubber supports as claimed in claim 2, wherein: adsorption apparatus constructs (v 12) including chassis (23), sucking disc (2 x), buffer tube (2 s), conflict mechanism (25), install in bearing plate (v 16) upper end middle part chassis (23) to chassis (23) up end is connected with sucking disc (2 x), bottom through buffer tube (2 s), chassis (23) bottom outside is equipped with conflict mechanism (25), and conflict mechanism (25) outside end is located inside standing groove (v 19).

4. The experimental equipment for mechanical diversity of rubber supports as claimed in claim 3, wherein: the anti-collision mechanism (25) comprises a middle shaft (25 c), a spring pipe sleeve (25 t), an extrusion rod (25 j) and a buckle plate (25 k), the middle shaft (25 c) is fixedly installed on the bottom surface of the chassis (23), the outer side end of the middle shaft (25 c) is fixed with the inner side end of the spring pipe sleeve (25 t), the inner side end of the extrusion rod (25 j) is installed inside the outer side end of the spring pipe sleeve (25 t) in a clearance fit mode, the buckle plate (25 k) is welded at the outer side end of the extrusion rod (25 j), and the extrusion rod (25 j) and the buckle plate (25 k) are located inside the placing groove (v 19).

5. The experimental facility of claim 1, wherein: firm mechanism (v 8) includes pull rod (v 84), spring slide rail (v 82), block pole (v 87), spike mechanism (v 88), pull rod (v 84) slidable mounting is inside spring slide rail (v 82) to spring slide rail (v 82) inlays in base (v 5) bottom, pull rod (v 84) upper end is fixed with block pole (v 87) medial extremity bottom, and block pole (v 87) slidable mounting is in base (v 5) bottom, block pole (v 87) lateral extremity block is installed inside spike mechanism (v 88) lateral extremity to spike mechanism (v 88) medial extremity is articulated with base (v 5) bottom.

6. The experimental facility of claim 5 for the mechanical diversity of rubber supports, wherein: the supporting foot mechanism (v 88) comprises a torsion shaft (89), a rotating plate (81), a supporting foot (86), a telescopic hose (8 s) and an adsorption disc (8 e), wherein the inner side end of the rotating plate (81) is hinged with the bottom of the base (v 5) through the torsion shaft (89), the bottom of the inner side end of the rotating plate (81) is provided with the supporting foot (86), the middle of the supporting foot (86) is provided with the telescopic hose (8 s), the adsorption disc (8 e) is installed at the bottom of the supporting foot (86), and the inner side end of the rotating plate (81) is connected with the outer side end of the clamping rod (v 87) in a clamping mode.

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