CN215598664U - Vibration detection device of fire-fighting equipment - Google Patents

Abstract

The utility model discloses a vibration detection device of fire fighting equipment, which comprises: the conveying device comprises a rack, and an output frame and a conveying frame which are respectively arranged at the front end and the rear end of the rack; the frame comprises a support frame, a vibration mechanism arranged at the bottom of the support frame, an electric slide rail arranged on the upper portion of the support frame and located above the vibration mechanism, and a clamping mechanism connected to the electric slide rail in a matching mode, wherein the clamping mechanism clamps the fire fighting equipment above the vibration mechanism for vibration testing. The vibration detection device of the fire fighting equipment can utilize the clamping device to carry out conveying on the conveying frame, the vibration mechanism and the output frame, is convenient to realize assembly line operation, and improves the detection efficiency.

Description

Vibration detection device of fire-fighting equipment

Technical Field

The utility model relates to the technical field of fire fighting equipment, in particular to a vibration detection device of the fire fighting equipment.

Background

The fire-fighting equipment is a necessary article for building fire prevention and is widely applied to various public places, living residences, vehicles and other transportation tools. The fire-fighting equipment is taken as emergency equipment, and need pass through vibration detection before leaving the factory to receive the vibration influence under the jolt or the uphill, downhill path or the turn signal condition of different degrees in the simulation transportation, thereby avoid the transportation vibration to the damage of fire-fighting equipment, can be normal after guaranteeing to carry to each place to the fire-fighting equipment and use.

The fire fighting equipment is provided with different specifications according to the requirements of different occasions, so that the detection of the fire fighting equipment with different specifications and models is difficult to complete by a single vibration detection device; or need pass through more loaded down with trivial details installation procedure when changing the equipment detection of different specifications, need operating personnel to wait to detect fire-fighting equipment manual put into detection device and rely on the manual work to carry out the fixed regulation operation again, operating personnel is harder.

Therefore, it is highly desirable to design a vibration detecting apparatus for a fire fighting device that can reduce the burden on the operator.

SUMMERY OF THE UTILITY MODEL

The object of the present invention is to solve at least the above drawbacks and to provide at least the advantages that will be explained later.

Another object of the present invention is to provide a vibration detecting apparatus of a fire fighting device capable of improving detection efficiency.

It is still another object of the present invention to provide a vibration detecting apparatus of a fire fighting device capable of saving labor.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, the present invention provides a vibration detecting apparatus of a fire fighting device, comprising: the frame and set up output frame and carriage in the frame front, rear end respectively.

Wherein, the frame includes the support frame, sets up vibrating mechanism, the relative setting of support frame bottom are in support frame upper portion and being located the electronic slide rail and the cooperation of vibrating mechanism top are connected fixture on the electronic slide rail, fixture is in the fire-fighting equipment centre gripping is in vibrating the top of mechanism and is carried out the vibration test.

The conveying frame and the output frame are both in height consistency with the testing platform of the vibration mechanism, and the fire fighting equipment is conveyed from the conveying frame to the vibration mechanism in a placement state when being detected on the vibration mechanism; when the clamping mechanism slides to the rearmost end, the clamping mechanism is located above the conveying frame so as to clamp the fire fighting equipment located above the conveying frame; when the clamping mechanism slides to the foremost end, the clamping mechanism is located above the output frame so as to clamp the fire fighting equipment.

Among the above-mentioned technical scheme, at first, through in advance on the carriage according to the fire-fighting equipment detection time measuring placement state will wait to carry out the fire-fighting equipment that detects and discharge, then carry out the vibration detection through fixture with the fire-fighting equipment centre gripping on the carriage to the vibration mechanism, on the fire-fighting equipment that will detect the completion shifts to the output frame through fixture again after the detection, be convenient for realize pipelining, improve detection efficiency.

Secondly, the carriage with the output frame all with vibration mechanism's test platform highly uniform to directly detect the direct vibration mechanism centre gripping again to the output frame on following vibration mechanism with fire-fighting equipment and directly from the carriage centre gripping, need not adjust fixture's height in addition, thereby improve work efficiency.

The above scheme may further include the following technical details to better achieve the technical effect: the carriage is connected with fire-fighting equipment's canning machine to directly carry the fire-fighting equipment that the canning was accomplished to vibration mechanism and carry out vibration detection, thereby improve work efficiency, also need not to make a round trip to carry fire-fighting equipment simultaneously and save the labour.

Preferably, the vibration mechanism comprises a test platform and a lifting mechanism connected below the test platform to drive the test platform to vibrate up and down; the lifting mechanism comprises a motor, a transmission mechanism connected with an output shaft of the motor, a cam connected with the transmission mechanism and a mandril connected above the cam and matched with the cam; the test platform is connected to the upper end of the ejector rod and vibrates along with the vibration of the ejector rod when the cam rotates to drive the ejector rod to vibrate up and down.

Preferably, the transmission mechanism includes a first gear, a second gear engaged with the first gear, and a turbine reducer; the first gear is connected with an output shaft of the motor; the second gear is connected with an input shaft of the turbine speed reducer; the cam is connected to an output shaft of the turbine speed reducer, and when the motor drives the first gear to rotate, the second gear rotates along with the rotation of the first gear, so that the turbine speed reducer is driven to rotate, and the cam is driven to rotate.

Preferably, the clamping mechanism comprises a sliding block matched with the electric sliding rail, an electric telescopic supporting rod connected to the sliding block and an electric clamping jaw connected to the electric telescopic supporting rod; wherein, two electronic clamping jaws set up in opposite directions and press from both sides the fire-fighting equipment tightly, just be equipped with on the electronic clamping jaw and be used for with fire-fighting equipment surface looks butt's gyro wheel.

In the scheme, the clamping mechanism is connected to the electric sliding rail in a matched mode through the sliding block, the sliding block is driven to move on the electric sliding rail to drive the clamping device to clamp and convey the fire fighting equipment on the conveying frame, the vibrating mechanism and the output frame, labor force is saved, and working efficiency is improved.

Secondly, the electric clamping jaw is connected to the sliding block through an electric telescopic supporting rod so as to clamp and loosen the fire fighting equipment by adjusting the electric telescopic supporting rod; meanwhile, the extension length of the electric clamping jaw can be adjusted conveniently according to different specifications of the fire fighting equipment, so that the fire fighting equipment can be clamped.

Preferably, the electric slide rail further comprises limiting blocks arranged at two ends of the electric slide rail and electric telescopic blocks arranged on the electric slide rail, and the electric telescopic blocks are arranged at two ends of the position of the slide block when the clamping mechanism places the fire-fighting equipment at the middle position of the test platform; when the electric telescopic block extends, the sliding block is limited to slide back and forth.

Among the above-mentioned scheme, when fixture carries out the vibration test with the fire equipment centre gripping to the test platform centre of vibration mechanism position, through the position with the extension of electronic flexible piece in order to inject the slider to avoid receiving test platform's vibration influence and making fixture slip the position deviation that leads to fire equipment great at the in-process that the vibration detected.

Preferably, the support frame comprises at least 4 support vertical rods and cross rods for connecting the support vertical rods into a whole; the supporting vertical rod is an electric hydraulic telescopic rod, and when the supporting vertical rod extends upwards, the height of the electric slide rail is adjusted upwards; when the supporting vertical rod is shortened downwards, the height of the electric sliding rail is adjusted downwards.

In the above scheme, through the height of the adjustable electronic slide rail of electric hydraulic telescopic handle, be convenient for adjust the position height of centre gripping according to the different specifications of fire-fighting equipment to the fire-fighting equipment homoenergetic to different specifications carries out the centre gripping better.

Preferably, the rack, the output frame and the conveying frame are connected through connecting plates respectively, and the height of each connecting plate is consistent with that of a test platform of the vibration mechanism.

In the above-mentioned scheme, connect frame, output frame and carriage through the connecting plate to fixture conveys fire-fighting equipment between frame, output frame and carriage, even if fixture breaks down the centre gripping and can not lead to fire-fighting equipment to fall from the gap between frame, output frame and the carriage yet.

The above scheme may further include the following technical details to better achieve the technical effect: the connecting plates are respectively connected to the support frames of the rack, the output frame and the conveying frame, and cannot vibrate along with the transmission of the output frame and the conveying frame and the vibration of the vibration mechanism.

The utility model at least comprises the following beneficial effects:

firstly, the vibration detection device of the fire fighting equipment discharges the fire fighting equipment to be detected on the conveying frame in advance according to the placement state of the fire fighting equipment during detection, then clamps the fire fighting equipment on the conveying frame to the vibration mechanism through the clamping mechanism for vibration detection, and transfers the detected fire fighting equipment to the output frame through the clamping mechanism after the detection is finished, so that the assembly line operation is convenient to realize, and the detection efficiency is improved.

Secondly, in the vibration detection device of the fire fighting equipment, the height of the conveying frame and the height of the output frame are both consistent with the height of the test platform of the vibration mechanism, so that the fire fighting equipment is directly clamped on the vibration mechanism from the conveying frame for detection and then is directly clamped on the output frame by the vibration mechanism, and the height of the clamping mechanism does not need to be adjusted additionally, thereby improving the working efficiency.

In addition, the clamping mechanism of the vibration detection device of the fire fighting equipment is connected to the electric slide rail in a matching mode through the slide block, and the slide block is driven to move on the electric slide rail to drive the clamping device to clamp and convey the fire fighting equipment on the conveying frame, the vibration mechanism and the output frame, so that labor force is saved, and working efficiency is improved.

In the vibration detection device of the fire fighting equipment, the electric clamping jaw is connected to the sliding block through the electric telescopic supporting rod, so that the fire fighting equipment can be clamped and loosened by adjusting the electric telescopic supporting rod; meanwhile, the extension length of the electric clamping jaw can be adjusted conveniently according to different specifications of the fire fighting equipment, so that the fire fighting equipment can be clamped.

Furthermore, when the clamping mechanism clamps the fire fighting equipment to the position right in the middle of the testing platform of the vibration mechanism for vibration testing, the electric telescopic block is extended to limit the position of the sliding block, so that the situation that the clamping mechanism slides to cause large position deviation of the fire fighting equipment due to the vibration influence of the testing platform in the vibration testing process is avoided.

Furthermore, the vibration detection device of the fire fighting equipment can adjust the height of the electric slide rail through the electric hydraulic telescopic rod, so that the clamping position height can be conveniently adjusted according to different specifications of the fire fighting equipment, and the fire fighting equipment with different specifications can be better clamped.

Finally, the utility model relates to a vibration detection device of a fire fighting apparatus.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic structural view of a vibration detecting apparatus of a fire fighting device in embodiment 1 of the present invention;

fig. 2 is a plan view showing the structure of a vibration detecting device of the fire fighting equipment in embodiment 1 of the present invention;

fig. 3 is a schematic structural view of a vibration detection device of a fire fighting apparatus according to embodiment 2 of the present invention;

fig. 4 is a top view of the clamping mechanism and the electric slide rail in the vibration detecting apparatus of the fire fighting device according to embodiment 2 of the present invention;

fig. 5 is a schematic structural view of a clamping mechanism and an electric slide rail in a vibration detection device of fire fighting equipment according to embodiment 2 of the present invention;

fig. 6 is a perspective view showing the structure of a vibration detecting device of a fire fighting apparatus according to embodiment 2 of the present invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the utility model by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

Example 1

As shown in fig. 1 to 2, a vibration detecting apparatus for a fire fighting device includes: the device comprises a frame 1, and an output frame 2 and a conveying frame 3 which are respectively arranged at the front end and the rear end of the frame 1.

Wherein, frame 1 includes support frame 11, sets up vibrating mechanism 12, the relative setting in support frame 11 bottom are in 11 upper portions of support frame just are located electronic slide rail 13 and the cooperation of vibrating mechanism 12 top are connected fixture 14 on the electronic slide rail 13, fixture 14 is in the fire-fighting equipment centre gripping the vibration test is carried out to the top of vibrating mechanism 12.

The conveying frame 2 and the output frame 3 are both in height accordance with the test platform of the vibration mechanism 12, and fire fighting equipment is conveyed from the conveying frame to the vibration mechanism in a placement state when being detected on the vibration mechanism; when the clamping mechanism 14 slides to the rearmost end, the clamping mechanism 14 is positioned above the conveying frame 3 to clamp the fire fighting equipment positioned above the conveying frame 3; when the clamping mechanism 14 slides to the foremost end, the clamping mechanism 14 is located above the output frame 2 to clamp the fire fighting equipment.

According to the scheme of the embodiment, firstly, the fire fighting equipment to be detected is discharged according to the placing state of the fire fighting equipment during detection on the conveying frame 3 in advance, then the fire fighting equipment on the conveying frame 3 is clamped to the vibrating mechanism 12 through the clamping mechanism 14 to be subjected to vibration detection, and after the detection is finished, the fire fighting equipment which is detected completely is transferred to the output frame 2 through the clamping mechanism 14, so that the assembly line operation is convenient to realize, and the detection efficiency is improved.

Carriage 3 with output frame 2 all with the test platform height uniformity of vibration mechanism 12 to directly detect on vibration mechanism 12 from the direct centre gripping of carriage 3 with fire-fighting equipment, directly again from vibration mechanism 12 centre gripping to output frame 2, do not need to adjust fixture 14's height in addition, thereby improve work efficiency. During use, the conveying and outputting frequency of the conveying frame 3 and the output frame 2 can be set, so that during the process of clamping the fire fighting equipment on the conveying frame 3 to the vibrating mechanism 12, the conveying frame 3 is started to convey the next fire fighting equipment to the position where the clamping mechanism 14 can clamp the fire fighting equipment to wait; 3 ~ 5 seconds after fixture 14 is gone up with fire-fighting equipment centre gripping to the output frame, output frame 2 starts to remove with the fire-fighting equipment that finishes that will detect to reserve enough position and wait that the next fire-fighting equipment that finishes that detects places.

Example 2

As shown in fig. 3 to 6, a vibration detecting apparatus for a fire fighting device includes: the device comprises a frame 1, and an output frame 2 and a conveying frame 3 which are respectively arranged at the front end and the rear end of the frame 1.

Wherein, frame 1 includes support frame 11, sets up vibrating mechanism 12, the relative setting in support frame 11 bottom are in 11 upper portions of support frame just are located electronic slide rail 13 and the cooperation of vibrating mechanism 12 top are connected fixture 14 on the electronic slide rail 13, fixture 14 is in the fire-fighting equipment centre gripping the vibration test is carried out to the top of vibrating mechanism 12.

The conveying frame 2 and the output frame 3 are both in height accordance with the testing platform of the vibration mechanism, and the fire fighting equipment is conveyed from the conveying frame to the vibration mechanism in a placement state when being detected on the vibration mechanism; when the clamping mechanism 14 slides to the rearmost end, the clamping mechanism 14 is positioned above the conveying frame 3 to clamp the fire fighting equipment positioned above the conveying frame 3; when the clamping mechanism 14 slides to the foremost end, the clamping mechanism 14 is located above the output frame 2 to clamp the fire fighting equipment.

Further, the vibration mechanism 12 comprises a test platform 4 and a lifting mechanism 5 connected below the test platform 4 to drive the test platform 4 to vibrate up and down; the lifting mechanism 5 comprises a motor 51, a transmission mechanism 52 connected with an output shaft of the motor 51, a cam 53 connected with the transmission mechanism 52, and a mandril 54 connected above the cam 53 and matched with the cam 53; the testing platform 4 is connected to the upper end of the top bar 54, and when the cam 53 rotates to drive the top bar 54 to vibrate up and down, the testing platform 4 vibrates along with the vibration of the top bar 54.

Further, the transmission mechanism 52 includes a first gear 521, a second gear 522 engaged with the first gear 521, and a turbine speed reducer 523; the first gear 521 is connected with an output shaft of the motor 51; the second gear 522 is connected to an input shaft of the turbine speed reducer 523; the cam 53 is connected to an output shaft of the turbine speed reducer 523, and when the motor 51 drives the first gear 521 to rotate, the second gear 522 rotates along with the rotation of the first gear 521, so as to drive the turbine speed reducer 523 to rotate, and further drive the cam 53 to rotate.

Further, the clamping mechanism 14 includes a sliding block 141 matched with the electric slide rail 13, an electric telescopic supporting rod 142 connected to the sliding block 141, and an electric clamping jaw 143 connected to the electric telescopic supporting rod 142; the two electric clamping jaws 143 are oppositely arranged to clamp the fire fighting equipment, and the electric clamping jaws 143 are provided with rollers 144 for abutting against the surface of the fire fighting equipment. In the vibration process, the fire fighting equipment is always abutted to the roller, but the roller does not influence the vertical vibration of the fire fighting equipment, and the roller only limits the horizontal displacement of the fire fighting equipment.

Further, the electric slide rail 13 further includes two limit blocks 131 disposed at two ends of the electric slide rail 13 and two electric telescopic blocks 132 disposed on the electric slide rail 13, and the two electric telescopic blocks 132 are disposed at two ends of the position where the sliding block 141 is located when the clamping mechanism 14 places the fire fighting equipment at the middle position of the testing platform 4; when the electric telescopic block 132 is extended, the sliding of the slider 141 is restricted.

Further, the support frame 11 comprises at least 4 support vertical rods 111 and cross rods 112 connecting the support vertical rods 111 into a whole; the supporting vertical rod 111 is an electric hydraulic telescopic rod, and when the supporting vertical rod 111 extends upwards, the height of the electric slide rail 13 is adjusted upwards; when the supporting vertical rod 111 is shortened downwards, the height of the electric slide rail 13 is adjusted downwards.

Further, the rack 1, the output frame 2 and the conveying frame 3 are connected through a connecting plate 8, and the height of the connecting plate 8 is consistent with the height of a test platform of the vibration mechanism.

According to the scheme of the embodiment, on the basis of embodiment 1, the clamping mechanism 14 is connected to the electric slide rail 13 through the slide block 141 in a matching manner, and the slide block 141 is driven to move on the electric slide rail 13 so as to drive the clamping device 14 to clamp and convey the fire fighting equipment on the conveying frame 3, the vibrating mechanism 12 and the output frame 2, so that labor force is saved, and working efficiency is improved.

The electric clamping jaw 143 is connected to the sliding block 141 through the electric telescopic supporting rod 142 so as to clamp and loosen the fire fighting equipment by adjusting the electric telescopic supporting rod 142; meanwhile, the extension length of the electric clamping jaw can be adjusted conveniently according to different specifications of the fire fighting equipment, so that the fire fighting equipment can be clamped.

When the clamping mechanism 14 clamps the fire fighting equipment to the position right in the middle of the test platform of the vibration mechanism 12 for vibration test, the electric telescopic block 132 is extended to limit the position of the sliding block, so that the situation that the position deviation of the fire fighting equipment is large due to the fact that the clamping mechanism slides under the vibration influence of the test platform in the vibration detection process is avoided.

The height of the electric sliding rail 13 can be adjusted through the electric hydraulic telescopic rod 111, so that the clamping position height can be adjusted conveniently according to different specifications of fire fighting equipment, and the fire fighting equipment with different specifications can be clamped better.

While embodiments of the utility model have been disclosed above, it is not intended to be limited to the uses set forth in the specification and examples. It can be applied to all kinds of fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. Therefore, the utility model is not to be limited to the specific details and illustrations shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (7)

1. A vibration detection device of a fire fighting apparatus, comprising: the conveying device comprises a rack, and an output frame and a conveying frame which are respectively arranged at the front end and the rear end of the rack;

the fire fighting equipment vibration testing device comprises a rack, a vibration mechanism, an electric slide rail and a clamping mechanism, wherein the vibration mechanism is arranged at the bottom of the rack;

the conveying frame and the output frame are both in height consistency with the testing platform of the vibration mechanism, and the fire fighting equipment is conveyed from the conveying frame to the vibration mechanism in a placement state when being detected on the vibration mechanism; when the clamping mechanism slides to the rearmost end, the clamping mechanism is located above the conveying frame so as to clamp the fire fighting equipment located above the conveying frame; when the clamping mechanism slides to the foremost end, the clamping mechanism is located above the output frame so as to clamp the fire fighting equipment.

2. The vibration detecting apparatus for fire fighting equipment according to claim 1, wherein the vibration mechanism includes a test platform and a lifting mechanism connected below the test platform to drive the test platform to vibrate up and down;

the lifting mechanism comprises a motor, a transmission mechanism connected with an output shaft of the motor, a cam connected with the transmission mechanism and a mandril connected above the cam and matched with the cam; the test platform is connected to the upper end of the ejector rod and vibrates along with the vibration of the ejector rod when the cam rotates to drive the ejector rod to vibrate up and down.

3. The vibration detecting apparatus for fire fighting equipment according to claim 2, wherein the transmission mechanism includes a first gear, a second gear that meshes with the first gear, and a turbine reducer;

the first gear is connected with an output shaft of the motor; the second gear is connected with an input shaft of the turbine speed reducer; the cam is connected to an output shaft of the turbine speed reducer, and when the motor drives the first gear to rotate, the second gear rotates along with the rotation of the first gear, so that the turbine speed reducer is driven to rotate, and the cam is driven to rotate.

4. The vibration detecting apparatus for fire fighting equipment according to claim 1, wherein the gripping mechanism includes a slider engaged with the electric slide rail, an electric telescopic support rod connected to the slider, and an electric jaw connected to the electric telescopic support rod; wherein, two electronic clamping jaws set up in opposite directions and press from both sides the fire-fighting equipment tightly, just be equipped with on the electronic clamping jaw and be used for with fire-fighting equipment surface looks butt's gyro wheel.

5. The vibration detection device of the fire fighting equipment according to claim 1, wherein the electric slide rail further comprises limit blocks disposed at both ends of the electric slide rail and electric telescopic blocks disposed on the electric slide rail, and the electric telescopic blocks are disposed at both ends of a position where the slide block is located when the clamping mechanism places the fire fighting equipment at the middle position of the test platform; when the electric telescopic block extends, the sliding block is limited to slide back and forth.

6. The vibration detecting apparatus of fire fighting equipment as set forth in claim 1, wherein said support frame includes at least 4 vertical support posts and a cross bar integrally connecting said vertical support posts;

the supporting vertical rod is an electric hydraulic telescopic rod, and when the supporting vertical rod extends upwards, the height of the electric slide rail is adjusted upwards; when the supporting vertical rod is shortened downwards, the height of the electric sliding rail is adjusted downwards.

7. The apparatus of claim 1, wherein the frame, the output frame and the transportation frame are connected by a connection plate, and the height of the connection plate is consistent with the height of the test platform of the vibration mechanism.

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