CN211680309U - Rope saw cutting device takes precautions against earthquakes for experiments - Google Patents

Abstract

The invention discloses an experimental shockproof rope saw cutting device which comprises a rope saw cutting mechanism, wherein the rope saw cutting mechanism comprises a base, and a cutting assembly and a propelling power mechanism for driving the cutting assembly to move along the base are arranged on the base; the cutting assembly comprises a supporting plate arranged on the base, a rope saw cutting wheel set is arranged on the supporting plate, and a damping mechanism is arranged on the rope saw cutting wheel set; one side of the wire saw cutting mechanism is provided with a test block mechanism used for placing the test block to be cut by the wire saw cutting wheel set and a positioning mechanism used for positioning the position of the wire saw cutting wheel set. In the experimentation, place the test block in test block mechanism, make rope saw cutting wheelset be located the cutting position through positioner and adjusting device according to the cutting position of experiment actual need, restart propulsion power unit pushes rope saw cutting wheelset to the test block and cuts, and the damper on the rope saw cutting wheelset is favorable to reducing the vibrations range of rope saw cutting in the cutting process, improves the accuracy of cutting, reduces the error of experiment.

Description

Rope saw cutting device takes precautions against earthquakes for experiments

[ technical field ] A method for producing a semiconductor device

The application relates to an experimental device, especially relates to a rope saw cutting device takes precautions against earthquakes for experiments.

[ background of the invention ]

The diamond wire saw is an advanced cutting technology and is widely applied to various fields, such as stone finishing, steel sawing, building dismantling and the like. The existing wire saw cutting device mainly comprises a wire saw power system and a diamond string bead wire saw wheel group, wherein a diamond string bead wire rotates on a cut body under the driving of the wire saw power, and the cut body is cut by means of the cutting force of the diamond string bead. During the cutting operation of the wire saw, the vibration is inevitably generated under the influence of the discontinuous structure of the beaded wire and the flexible cutting characteristics of the wire saw. Utilize current rope saw cutting device to cut the experiment, because the vibration that produces among the string of beads rope cutting operation process will be unfavorable for acquireing accurate experimental data, increase the error of experiment.

[ Utility model ] content

The utility model discloses the problem that vibrations appear in the rope saw cutting process that exists to above-mentioned prior art and influence cutting experimental data makes the improvement, the to-be-solved technical problem of the utility model is to provide an experiment is with rope saw cutting device that takes precautions against earthquakes.

In order to solve the technical problem, the utility model discloses a shockproof rope saw cutting device for experiments, which comprises a rope saw cutting mechanism, wherein the rope saw cutting mechanism comprises a base, and a cutting assembly and a propulsion power mechanism for driving the cutting assembly to move along the base are arranged on the base; the cutting assembly comprises a supporting plate arranged on the base, a rope saw cutting wheel set is arranged on the supporting plate, and a damping mechanism is arranged on the rope saw cutting wheel set; one side of the wire saw cutting mechanism is provided with a test block mechanism used for placing the test block cut by the wire saw cutting wheel set and a positioning mechanism used for positioning the position of the wire saw cutting wheel set.

As an improvement of the shockproof rope saw cutting device for the experiment, the rope saw cutting wheel set comprises a driving wheel and a plurality of sawing wheels which are arranged on a supporting plate, diamond bead string ropes are tensioned on the driving wheel and the sawing wheels, the diamond bead string ropes tensioned between the sawing wheels are used for cutting, a cutting power mechanism for driving the driving wheel and the sawing wheels to rotate in the diamond bead string ropes is arranged on the driving wheel, and a damping mechanism is arranged between the sawing wheels and the supporting plate.

As an improvement of the above-mentioned experimental rope saw cutting device that takes precautions against earthquakes, rope saw cutting wheelset is including setting up in diamond string bead rope outside is to the take-up pulley of diamond string bead rope inboard roof pressure, the department of the junction of take-up pulley and backup pad is equipped with damper.

As an improvement of the above shockproof rope saw cutting device for experiments, the damping mechanism includes a damping bottom plate, an elastic member is disposed on the damping bottom plate, a damping top plate is disposed at an end of the elastic member away from the damping bottom plate, an end of the damping bottom plate away from the elastic member is connected to the supporting plate, and an end of the damping top plate away from the elastic member is connected to the sawing wheel or the tensioning wheel.

As an improvement of the above-mentioned experimental shockproof rope saw cutting device, the adjusting mechanism for moving the saw cutting wheel and the tension wheel on a vertical plane is arranged between the damping mechanism and the supporting plate.

As an improvement of the experimental shockproof rope saw cutting device, the adjusting mechanism comprises a screw rod arranged on the supporting plate and a sliding seat arranged on the damping mechanism and in threaded fit with the screw rod.

As an improvement of the experimental shockproof rope saw cutting device, the number of the positioning mechanisms is multiple, each positioning mechanism comprises a positioning support rod, a level meter which is located on the same horizontal plane with the driving wheel is arranged on each positioning support rod, and horizontal laser emitted by the level meters is perpendicular to each other.

As an improvement of the shockproof rope saw cutting device for the experiment, the test block mechanism comprises a test block base used for placing the diamond bead string rope which is tensioned between the saw cutting wheels for cutting.

As an improvement of the experimental shockproof rope saw cutting device, a sliding mechanism is arranged at the joint of the base and the supporting plate, and comprises a sliding rail arranged on the base and a sliding block arranged on the supporting plate and sliding along the sliding rail.

Compared with the prior art, the invention has the following advantages:

the invention provides an improvement of an experimental shockproof rope saw cutting device, which comprises a rope saw cutting mechanism, a propulsion power mechanism, a test block mechanism and a positioning mechanism, wherein the rope saw cutting mechanism comprises a rope saw cutting wheel set, a damping mechanism and an adjusting mechanism. In the experimentation, place the test block in test block mechanism, make rope saw cutting wheelset be located the cutting position through positioner and adjusting device according to the cutting position of experiment actual need, restart propulsion power unit pushes rope saw cutting wheelset to the test block and cuts, and the damper on the rope saw cutting wheelset is favorable to reducing the vibrations range of rope saw cutting in the cutting process, improves the accuracy of cutting, reduces the error of experiment.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below.

FIG. 1 is a top view of an experimental anti-vibration wire saw cutting apparatus;

FIG. 2 is a front view of an experimental anti-vibration wire saw cutting apparatus;

FIG. 3 is an enlarged view taken at A in FIG. 2;

fig. 4 is an enlarged view at B in fig. 2.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present application more clear and obvious, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As known from the experimental shockproof rope saw cutting device shown in fig. 1, the shockproof rope saw cutting device comprises a rope saw cutting mechanism 2, wherein the rope saw cutting mechanism 2 comprises a base 21, and a cutting assembly 22 and a propulsion power mechanism 23 for driving the cutting assembly 22 to move along the base 21 are arranged on the base 21; the cutting assembly 22 comprises a supporting plate 221 arranged on the base 21, a rope saw cutting wheel set 222 is arranged on the supporting plate 221, and a damping mechanism 223 is arranged on the rope saw cutting wheel set 222; one side of the wire saw cutting mechanism 2 is provided with a test block mechanism 1 for placing the test block cut by the wire saw cutting wheel set 222 and a positioning mechanism 3 for positioning the wire saw cutting wheel set 222. As can be seen from the figure, the embodiment of the experimental shockproof rope saw cutting device is shown, and the shockproof rope saw cutting device comprises a rope saw cutting mechanism 2, a propulsion power mechanism 23, a test block mechanism 1 and a positioning mechanism 3, wherein the rope saw cutting mechanism 2 comprises a base 21 and a rope saw cutting wheel set 222 which is pushed by the propulsion power mechanism 23 to move towards the test block mechanism 1 and cut an experimental test block placed on the rope saw cutting wheel set, a damping mechanism 223 for reducing vibration amplitude generated in a cutting process is arranged on the rope saw cutting wheel set 222, and meanwhile, the embodiment of the figure also discloses the positioning device 3 for positioning the cutting position of the rope saw cutting wheel set 222. By adopting the structure, the structure is simple, and simultaneously, the rope saw cutting wheel set 222 is adjusted to be a cutting position by the positioning device 3 before cutting, and the vibration amplitude generated in the cutting process is reduced by the damping mechanism 223, so that the accuracy of a cutting experiment is improved, and the error is reduced.

Fig. 1 shows a specific structure of the experimental shockproof wire saw cutting device, further, the wire saw cutting wheel set 222 includes a driving wheel 2223 and a plurality of saw cutting wheels 2221 arranged on the supporting plate 221, the driving wheel 2223 and the saw cutting wheels 2221 are tensioned with diamond beaded ropes 2224, the diamond beaded ropes 2224 tensioned between the saw cutting wheels 2221 are used for cutting, a cutting power mechanism 2222 for driving the driving wheel 2223 and the saw cutting wheels 2221 to rotate in the diamond beaded ropes 2224 is arranged on the driving wheel 2223, and the damping mechanism 223 is arranged between the saw cutting wheels 2221 and the supporting plate 221. The figure shows a specific scheme of the rope saw cutting wheel set 222, the transmission wheel 2223 and the two sawing wheels 2221 are tensioned in the diamond bead string rope 2224 and rotate under the driving of the cutting power mechanism 2222, the damping mechanism 223 is arranged between the sawing wheels 2221 and the supporting plate 221, so that the vibration figure when the diamond bead string rope 2224 between the two sawing wheels 2221 is used as a cutting part to cut a test block on the test block mechanism 1 is reduced, and the cutting precision is improved.

Fig. 2 shows a specific structure of the experimental shockproof wire saw cutting device, further, the wire saw cutting wheel set 222 includes a tension wheel 2225 disposed outside the diamond beaded wire 2224 and pressed against the inside of the diamond beaded wire 2224, and the connection between the tension wheel 2225 and the support plate 221 is provided with the damping mechanism 223. As can be seen from the figure, two tensioning wheels 2225 are provided, and are respectively distributed between the tensioning wheel 2225 and the driving wheel 2223 to press the inner side of the diamond beaded rope 2224 so as to achieve the effect of tensioning the diamond beaded rope 2224. By adopting the improved structure, the problem that when the diamond beaded rope 2224 is too long, the diamond beaded rope 2224 has large displacement offset in the cutting process, so that the cutting accuracy is influenced is solved. And a damping mechanism 223 is additionally arranged between the tension pulley 2225 and the supporting plate 221, so that the vibration amplitude generated in cutting is further reduced, and the accuracy of the experiment is improved.

Fig. 3 shows a specific structure of the experimental shockproof rope saw cutting device, further, the damping mechanism 223 includes a damping bottom plate 2231, an elastic member 2232 is disposed on the damping bottom plate 2231, a damping top plate 2233 is disposed at an end of the elastic member 2232 away from the damping bottom plate 2231, an end of the damping bottom plate 2231 away from the elastic member 2232 is connected to the support plate 221, and an end of the damping top plate 2233 away from the elastic member 2232 is connected to the sawing wheel 2221 or the tensioning wheel 2225. The figure shows a specific embodiment of the damping mechanism 223, which has a simple structure and a good use effect.

Fig. 2 shows a specific configuration of the experimental shockproof wire saw cutting apparatus, and further, the adjustment mechanism 224 for moving the sawing wheel 2221 and the tensioning wheel 2225 on a vertical plane is provided between the damping mechanism 223 and the support plate 221. A specific embodiment of the adjusting mechanism 224 is shown, and the positions of the sawing wheel 2221 and the tensioning wheel 2225 on the vertical plane can be adjusted to be at the cutting position by adjusting the adjusting mechanism 224 when the cutting position is located.

Fig. 4 shows a specific structure of the experimental shockproof wire saw cutting device, and further, the adjusting mechanism 224 includes a screw rod 2241 disposed on the supporting plate 221 and a slide 2242 disposed on the shock absorbing mechanism 223 and in threaded engagement with the screw rod 2241. The figure shows a specific embodiment of the adjusting mechanism 224, which is composed of the screw rod 2241 and a slide seat 2242 in threaded fit with the screw rod 2241, and the structure is simple, convenient to implement and good in effect.

Fig. 2 shows a specific structure of the experimental shockproof wire saw cutting device, further, a plurality of positioning mechanisms 3 are provided, each positioning mechanism 3 includes a positioning support rod 31, a level 32 which is located on the same horizontal plane as the driving wheel 2223 is provided on the positioning support rod 31, and horizontal lasers emitted by the level 32 are perpendicular to each other. The specific implementation structure of the positioning mechanism 3 is shown in the figure, in the positioning process, the leveling instrument 32 and the driving wheel 2223 are firstly adjusted to be located at the same horizontal plane, and then the adjusting device 224 is adjusted to enable the tensioning wheel 2225 and the sawing wheel 2221 to be located at the intersection point of the mutually perpendicular laser beams emitted by the leveling instrument 32, so that the driving wheel 2223, the sawing wheel 2221 and the tensioning wheel 2225 are finally located at the same horizontal plane.

Fig. 1 shows a specific structure of the experimental shockproof wire saw cutting device, and further, the test block mechanism 1 includes a test block base 11 for placing the test block cut by the diamond beaded wire 2224 tensioned between the sawing wheels 2221. The test block base 11 is provided with a test block clamping mechanism, and the test block clamping mechanism is used for clamping a test block placed on the test block base 11, so that the test block is prevented from moving to cause experimental errors when the rope saw cutting wheel group 222 cuts the test block.

Fig. 1 shows a specific structure of the experimental shockproof wire saw cutting device, further, a sliding mechanism 24 is arranged between the base 21 and the supporting plate 221, and the sliding mechanism 24 includes a sliding rail arranged on the base 21 and a sliding block arranged on the supporting plate 221 and sliding along the sliding rail. As can be seen from the figure, the cutting assembly 22 slides along the base 21 through the sliding mechanism 24, and the sliding mechanism 24 is of a sliding rail and sliding block structure, so that the cutting assembly 22 can move towards the test block to cut smoothly, and the friction and the vibration of all mechanical parts are reduced.

The utility model discloses scheme rope saw cutting device that takes precautions against earthquakes for experiments as follows:

the invention provides an improvement of an experimental shockproof rope saw cutting device, which comprises a rope saw cutting mechanism, wherein the rope saw cutting mechanism comprises a base, and a cutting assembly and a propelling power mechanism for driving the cutting assembly to move along the base are arranged on the base; the cutting assembly comprises a supporting plate arranged on the base, a rope saw cutting wheel set is arranged on the supporting plate, and a damping mechanism is arranged on the rope saw cutting wheel set; one side of the wire saw cutting mechanism is provided with a test block mechanism used for placing the test block cut by the wire saw cutting wheel set and a positioning mechanism used for positioning the position of the wire saw cutting wheel set. In the experimentation, place the test block in test block mechanism, pass through quantity positioner and adjusting device according to the cutting position of experiment actual need and make rope saw cutting wheelset be located the cutting position, restart propulsion power unit pushes rope saw cutting wheelset to the test block and cuts, and the damper on the rope saw cutting wheelset is favorable to reducing the vibrations range of rope saw cutting in the cutting process, improves the accuracy of cutting, reduces the error of experiment.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms disclosed. Similar or identical methods, structures, etc. as used herein, or several technical inferences or substitutions made on the concept of the present application should be considered as the scope of the present application.

Claims (9)

1. The shockproof rope saw cutting device for the experiment is characterized by comprising a rope saw cutting mechanism (2), wherein the rope saw cutting mechanism (2) comprises a base (21), a cutting assembly (22) and a propelling power mechanism (23) for driving the cutting assembly (22) to move along the base (21) are arranged on the base (21); the cutting assembly (22) comprises a supporting plate (221) arranged on the base (21), a rope saw cutting wheel set (222) is arranged on the supporting plate (221), and a damping mechanism (223) and an adjusting mechanism (224) are arranged on the rope saw cutting wheel set (222); one side of the wire saw cutting mechanism (2) is provided with a test block mechanism (1) used for placing the test block cut by the wire saw cutting wheel set (222) and a positioning mechanism (3) used for positioning the position of the wire saw cutting wheel set (222).

2. The shockproof rope saw cutting device for experiments as claimed in claim 1, wherein the rope saw cutting wheel set (222) comprises a driving wheel (2223) and a plurality of sawing wheels (2221) which are arranged on the supporting plate (221), diamond beaded rope (2224) is tensioned on the driving wheel (2223) and the sawing wheels (2221), the diamond beaded rope (2224) tensioned between the sawing wheels (2221) is used for cutting, a cutting power mechanism (2222) for driving the driving wheel (2223) and the sawing wheels (2221) to rotate in the diamond beaded rope (2224) is arranged on the driving wheel (2223), and the shock absorption mechanism (223) is arranged between the sawing wheels (2221) and the supporting plate (221).

3. The experimental shockproof rope saw cutting device according to claim 2, wherein the rope saw cutting wheel set (222) comprises a tension wheel (2225) disposed outside the diamond beaded rope (2224) and pressing against the inside of the diamond beaded rope (2224), and the connection between the tension wheel (2225) and the support plate (221) is provided with the damping mechanism (223).

4. The experimental shockproof rope saw cutting device according to claim 3, wherein the shock absorption mechanism (223) comprises a shock absorption bottom plate (2231), an elastic member (2232) is arranged on the shock absorption bottom plate (2231), a shock absorption top plate (2233) is arranged at one end of the elastic member (2232) far away from the shock absorption bottom plate (2231), one end of the shock absorption bottom plate (2231) far away from the elastic member (2232) is connected with the support plate (221), and one end of the shock absorption top plate (2233) far away from the elastic member (2232) is connected with the sawing wheel (2221) or the tensioning wheel (2225).

5. The experimental vibration-proof rope saw cutting device according to claim 3, wherein the adjusting mechanism (224) for moving the sawing wheel (2221) and the tensioning wheel (2225) on a vertical plane is provided between the shock absorbing mechanism (223) and the support plate (221).

6. Shockproof wire saw cutting device for experiments according to claim 5, characterized in that the adjusting mechanism (224) comprises a lead screw (2241) arranged on the support plate (221) and a slide (2242) arranged on the shock absorbing mechanism (223) in threaded engagement with the lead screw (2241).

7. The shockproof rope saw cutting device for experiments as claimed in claim 2, wherein the number of the positioning mechanisms (3) is multiple, the positioning mechanisms (3) comprise positioning support rods (31), level gauges (32) which are positioned on the same horizontal plane with the driving wheels (2223) are arranged on the positioning support rods (31), and horizontal laser beams emitted by the level gauges (32) are perpendicular to each other.

8. The experimental shockproof wire saw cutting device according to claim 2, wherein the test block mechanism (1) comprises a test block base (11) for placing the diamond beaded rope (2224) tensioned between the sawing wheels (2221) for cutting.

9. The experimental shockproof rope saw cutting device according to claim 1, characterized in that a sliding mechanism (24) is provided at the connection of the base (21) and the support plate (221), and the sliding mechanism (24) comprises a sliding rail provided on the base (21) and a sliding block provided on the support plate (221) and sliding along the sliding rail.

Images