CN218566839U - Novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes - Google Patents

Abstract

The utility model relates to a novel electromagnetic type vibration testing machine technical field discloses a novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes, the utility model provides a current novel electromagnetic type vibration testing machine damper's shock attenuation effect not good, can reduce the life's of equipment problem. The utility model provides a novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes, comprising a base plate, a supporting plate, vibration mechanism and driving plate, the driving plate both ends all are provided with horizontal shock absorber mechanism, the vibration mechanism lower extreme is provided with vertical shock absorber mechanism, horizontal shock absorber mechanism includes first damper and second damper, vertical shock absorber mechanism includes fixed subassembly and third damper, through first damper, second damper, fixed subassembly and third damper's setting, the purpose of moving away to avoid possible earthquakes of novel electromagnetic type vibration testing machine has been realized, the problem that novel electromagnetic type vibration testing machine life can reduce in long-term great vibrations environment has been solved.

Description

Novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes

Technical Field

The utility model relates to a novel electromagnetic type vibration testing machine technical field specifically is a novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes.

Background

The novel electromagnetic type vibration testing machine is generally used for finding early faults, practical condition examination and structural strength test are simulated, large transverse vibration and longitudinal vibration can be generated in the using process of the novel electromagnetic type vibration testing machine, the use of equipment can be influenced, the damping mechanism of the existing novel electromagnetic type vibration testing machine is simple in structure, the damping effect of the novel electromagnetic type vibration testing machine is poor, the novel electromagnetic type vibration testing machine can still generate large vibration after the damping mechanism acts on the novel electromagnetic type vibration testing machine, and the equipment can generate adverse effects on the service life of the equipment in the environment with large vibration for a long time.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes, adopt this device to work to solved current novel electromagnetic type vibration testing machine's damper simple structure, it is not good to novel electromagnetic type vibration testing machine's shock attenuation effect, make novel electromagnetic type vibration testing machine still can produce great vibrations after damper acts on it, equipment is in the problem that can produce adverse effect to the life of equipment itself in the great environment of vibrations for a long time.

In order to achieve the above object, the utility model provides a following technical scheme: a novel electromagnetic vibration testing machine with double shock-absorbing functions comprises a bottom plate and supporting plates fixedly connected to two ends of the bottom plate, wherein a shock mechanism is arranged between the two groups of supporting plates, a placing table is arranged at the upper end of the shock mechanism, a transmission plate is fixedly connected to the outer side of the middle part of the shock mechanism, transverse shock-absorbing mechanisms are arranged at two ends of the transmission plate, and a longitudinal shock-absorbing mechanism is arranged at the lower end of the shock mechanism;

the transverse shock absorbing mechanism comprises a first shock absorbing assembly arranged at one end of the transmission plate, second shock absorbing assemblies are arranged on two sides of the first shock absorbing assembly, and the longitudinal shock absorbing mechanism comprises a fixed assembly arranged at the upper end of the bottom plate and a third shock absorbing assembly arranged at the upper end of the fixed assembly.

Preferably, the longitudinal shock absorbing mechanism is provided with three groups, the first shock absorbing assembly comprises a fixing block fixedly connected to one end of the transmission plate, first clamping members are arranged on two sides of the fixing block, and the first clamping members are provided with multiple groups.

Preferably, first damper still includes the fixed strip of fixed connection in the backup pad inboard, and the fixed strip is provided with two sets ofly, and the fixed block is located two sets of the fixed strip between, two sets of the fixed strip inboard all be provided with the second block component, and the second block component is provided with the multiunit.

Preferably, the plurality of sets of second engaging members and the first engaging members are members made of the same structure, and the plurality of sets of second engaging members and the first engaging members are arranged in a staggered manner.

Preferably, the second clamping component comprises a first spring fixedly connected inside one side of the fixing strip, the other end of the first spring is fixedly connected with a moving block, a triangular block is fixedly connected to the other end of the moving block, and the first damping assembly is used for reducing transverse vibration generated by the vibration mechanism.

Preferably, the second damping component comprises a fixing plate fixedly connected to one side of the supporting plate, the fixing plate is provided with two groups, the two groups are fixedly connected with a fixing rod and a limiting rod between the fixing plates, and a movable block is slidably connected to the outer side of the fixing rod.

Preferably, movable block and gag lever post swing joint, movable block both sides and two sets of the fixed plate inboard between equal fixedly connected with second spring, two sets of the second spring slide and cup joint in the dead lever outside, the movable block other end rotates and is connected with the dwang, the dwang other end rotates with the driving plate to be connected, second damper is used for reducing the horizontal vibrations that vibrations mechanism produced.

Preferably, the fixing assembly comprises a fixing shell fixedly connected to the upper end of the bottom plate and a blocking plate fixedly connected to the upper end of the fixing shell, the lower end of the vibrating mechanism is fixedly connected with a transmission column, and the other end of the transmission column penetrates through the blocking plate and is fixedly connected with a rubber block.

Preferably, the set casing inner wall be provided with the unsmooth line of block rubber assorted, block rubber lower extreme fixedly connected with third spring, the third spring other end and set casing lower extreme inner wall fixed connection, third damper assembly is used for reducing the vertical vibrations that vibrations mechanism produced.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a pair of novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes through first damper, second damper, fixed subassembly and third damper's setting, has realized the purpose to the dual shock absorber of novel electromagnetic type vibration testing machine, has solved the problem that novel electromagnetic type vibration testing machine life can reduce in long-term great vibrations environment.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the lateral shock absorbing mechanism of the present invention;

FIG. 3 is a schematic structural view of a first damper assembly of the present invention;

fig. 4 is a schematic structural view of a second engaging member of the present invention;

FIG. 5 is a schematic structural view of a second damping assembly of the present invention;

fig. 6 is a schematic structural view of the longitudinal shock absorbing mechanism of the present invention.

In the figure: 1. a base plate; 2. a vibration mechanism; 3. a placing table; 4. a transverse shock absorbing mechanism; 41. a first dampening member; 411. a fixed block; 412. a first engaging member; 413. a fixing strip; 414. a second engaging member; 4141. a first spring; 4142. a moving block; 4143. a triangular block; 42. a second dampening member; 421. a fixing plate; 422. a fixing rod; 423. a limiting rod; 424. a movable block; 425. a second spring; 426. rotating the rod; 5. a longitudinal shock absorbing mechanism; 51. a fixing assembly; 511. a stationary housing; 512. a blocking plate; 52. a third dampening member; 521. a drive post; 522. a rubber block; 523. a third spring; 6. a drive plate; 7. and a support plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings.

Combine fig. 1, fig. 2 and fig. 6, a novel electromagnetic type vibration testing machine with dual shock-absorbing function, including bottom plate 1 and the backup pad 7 of fixed connection at 1 both ends of bottom plate, be provided with vibration mechanism 2 between two sets of backup pads 7, 2 upper ends of vibration mechanism are provided with places platform 3, 2 middle part outside fixedly connected with driving plate 6 of vibration mechanism, 6 both ends of driving plate all are provided with horizontal shock absorber mechanism 4, 2 lower extremes of vibration mechanism are provided with vertical shock absorber mechanism 5, horizontal shock absorber mechanism 4 is including setting up the first damper 41 in 6 one end of driving plate, first damper 41 both sides all are provided with second damper 42, vertical shock absorber mechanism 5 is including setting up fixed subassembly 51 in 1 upper end of bottom plate and setting up third damper 52 in fixed subassembly 51 upper end.

The present invention will be further described with reference to the following examples.

Example 1:

referring to fig. 3-5, the longitudinal shock absorbing mechanism 5 has three sets, the first shock absorbing assembly 41 includes a fixing block 411 fixedly connected to one end of the transmission plate 6, two sides of the fixing block 411 are respectively provided with a first engaging member 412, and the first engaging member 412 has a plurality of sets, the first shock absorbing assembly 41 further includes a fixing strip 413 fixedly connected to the inner side of the supporting plate 7, and the fixing strip 413 has two sets, the fixing block 411 is located between the two sets of fixing strips 413, the inner sides of the two sets of fixing strips 413 are respectively provided with a second engaging member 414, and the second engaging member 414 is provided with a plurality of sets, the plurality of sets of second engaging members 414 and the first engaging member 412 are members made of the same structure, and the plurality of sets of second engaging members 414 and the first engaging members 412 are arranged alternately, when the vibration mechanism 2 generates a transverse vibration, the transmission plate 6 also vibrates therewith, the transmission plate 6 drives the fixing block 411 to transversely vibrate between the two sets of fixing strips 413, so that the multiple sets of the first clamping component 412 and the second clamping component 414 are mutually extruded, the second clamping component 414 comprises a first spring 4141 fixedly connected inside one side of the fixed bar 413, the other end of the first spring 4141 is fixedly connected with a moving block 4142, the other end of the moving block 4142 is fixedly connected with a triangular block 4143, when the multiple sets of the first clamping component 412 and the second clamping component 414 are mutually extruded, the multiple sets of the first spring 4141 can continuously extend and retract and can consume the kinetic energy of vibration, the second damping component 42 comprises a fixed plate 421 fixedly connected on one side of the supporting plate 7, the fixed plate 421 is provided with two sets, a fixed rod 422 and a limiting rod 423 are fixedly connected between the two sets of the fixed plate 421, a movable block 424 is slidably connected outside the fixed rod 422, the movable block 424 is movably connected with the limiting rod 423, and the limiting rod 423 limits the movable block 424, avoid the movable block 424 to rotate, equal fixedly connected with second spring 425 between movable block 424 both sides and two sets of fixed plate 421 inboardly, two sets of second spring 425 slide to cup joint in the dead lever 422 outside, dead lever 422 makes gag lever post 423 only can stretch out and draw back along dead lever 422, the movable block 424 other end rotates and is connected with dwang 426, the dwang 426 other end rotates with driving plate 6 to be connected, when 2 production horizontal vibrations of vibrations mechanism, driving plate 6 can drive dwang 426 rotates, dwang 426 can drive the movable block 424 and slide in the dead lever 422 outside.

Example 2:

referring to fig. 6, the fixing assembly 51 includes a fixing shell 511 fixedly connected to the upper end of the bottom plate 1 and a blocking plate 512 fixedly connected to the upper end of the fixing shell 511, a transmission column 521 is fixedly connected to the lower end of the vibration mechanism 2, the other end of the transmission column 521 penetrates through the blocking plate 512 and is fixedly connected to a rubber block 522, the blocking plate 512 can prevent the rubber block 522 from coming off from the inside of the fixing shell 511, concave-convex lines matched with the rubber block 522 are arranged on the inner wall of the fixing shell 511, a third spring 523 is fixedly connected to the lower end of the rubber block 522, and the other end of the third spring 523 is fixedly connected to the inner wall of the lower end of the fixing shell 511.

In summary, the following steps: the utility model discloses a novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes, when 2 functions of vibrations mechanism, the horizontal vibrations that 2 produced of vibrations mechanism can drive movable block 424 and slide in the dead lever 422 outside, make two sets of second spring 425 incessantly stretch out and draw back, can change vibrations into two sets of second spring 425's mechanical energy, horizontal vibrations drive the first block member 412 and the second block member 414 of multiunit each other extrudees simultaneously, can consume the kinetic energy of most vibrations, can reduce the horizontal vibrations of vibrations mechanism 2, the vertical vibrations that 2 produced of vibrations mechanism can drive third spring 523 flexible, third spring 523 will shake the buffering and change into the mechanical energy of third spring 523, the friction between rubber block 522 and the set casing 511 inner wall can reduce the amplitude of third spring 523 simultaneously, make third spring 523 fast stable, can reduce the vertical vibrations of vibrations mechanism 2, thereby can realize two-way shock attenuation to 2 of vibrations mechanism, avoid the life of vibrations mechanism 2 to shorten.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a novel electromagnetic type vibration testing machine with dual function of moving away to avoid possible earthquakes, includes bottom plate (1) and backup pad (7) of fixed connection at bottom plate (1) both ends, is two sets of backup pad (7) between be provided with vibration mechanism (2), vibration mechanism (2) upper end is provided with places platform (3), vibration mechanism (2) middle part outside fixedly connected with driving plate (6), its characterized in that: the two ends of the transmission plate (6) are respectively provided with a transverse shock absorbing mechanism (4), and the lower end of the vibration mechanism (2) is provided with a longitudinal shock absorbing mechanism (5);

the transverse shock absorbing mechanism (4) comprises a first shock absorbing assembly (41) arranged at one end of the transmission plate (6), second shock absorbing assemblies (42) are arranged on two sides of the first shock absorbing assembly (41), and the longitudinal shock absorbing mechanism (5) comprises a fixed assembly (51) arranged at the upper end of the bottom plate (1) and a third shock absorbing assembly (52) arranged at the upper end of the fixed assembly (51).

2. The electromagnetic vibration testing machine with the double shock-absorbing function as claimed in claim 1, wherein: the longitudinal shock absorption mechanism (5) is provided with three groups, the first shock absorption assembly (41) comprises a fixed block (411) fixedly connected to one end of the transmission plate (6), first clamping members (412) are arranged on two sides of the fixed block (411), and multiple groups of the first clamping members (412) are arranged.

3. The electromagnetic vibration testing machine with double shock-absorbing function as claimed in claim 2, wherein: first damper (41) still include fixed connection in backup pad (7) inboard fixed strip (413), and fixed strip (413) is provided with two sets ofly, fixed block (411) are located two sets of fixed strip (413) between, two sets of fixed strip (413) inboard all be provided with second block component (414), and second block component (414) are provided with the multiunit.

4. A novel electromagnetic vibration testing machine with dual shock-absorbing functions as claimed in claim 3, characterized in that: the plurality of groups of second clamping components (414) and the first clamping components (412) are components made of the same structure, and the plurality of groups of second clamping components (414) and the first clamping components (412) are arranged in a staggered mode.

5. The electromagnetic vibration testing machine with double shock-absorbing function as claimed in claim 4, wherein: the second clamping component (414) comprises a first spring (4141) fixedly connected to the inner portion of one side of the fixing strip (413), the other end of the first spring (4141) is fixedly connected with a moving block (4142), and the other end of the moving block (4142) is fixedly connected with a triangular block (4143).

6. The electromagnetic vibration testing machine with double shock-absorbing function as claimed in claim 5, wherein: second damper (42) are including fixed plate (421) of fixed connection in backup pad (7) one side, and fixed plate (421) are provided with two sets ofly, two sets of fixed plate (421) between fixedly connected with dead lever (422) and gag lever post (423), dead lever (422) outside sliding connection has movable block (424).

7. The electromagnetic vibration testing machine with the double shock-absorbing function as claimed in claim 6, is characterized in that: activity piece (424) and gag lever post (423) swing joint, activity piece (424) both sides and two sets of fixed plate (421) inboard between equal fixedly connected with second spring (425), two sets of second spring (425) slip cup joint in fixed rod (422) outside, activity piece (424) other end rotates and is connected with dwang (426), dwang (426) other end and driving plate (6) rotate and be connected.

8. The electromagnetic vibration testing machine with the double shock-absorbing function as claimed in claim 1, wherein: the fixed component (51) comprises a fixed shell (511) fixedly connected to the upper end of the bottom plate (1) and a blocking plate (512) fixedly connected to the upper end of the fixed shell (511), the lower end of the vibration mechanism (2) is fixedly connected with a transmission column (521), and the other end of the transmission column (521) penetrates through the blocking plate (512) and is fixedly connected with a rubber block (522).

9. The electromagnetic vibration testing machine with double shock-absorbing function as claimed in claim 8, wherein: the inner wall of the fixed shell (511) is provided with concave-convex lines matched with the rubber blocks (522), the lower end of each rubber block (522) is fixedly connected with a third spring (523), and the other end of each third spring (523) is fixedly connected with the inner wall of the lower end of the fixed shell (511).

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