CN216447750U - Efficient damping base for machining - Google Patents

Abstract

The utility model discloses a high-efficiency damping base for machining, which comprises a bottom plate, wherein two sides of the top of the bottom plate are fixedly connected with side plates, the bottom of one side of each side plate opposite to the side plate is fixedly connected with a first shell, the top of the first shell is fixedly connected with a first damper, and the top of the first damper is fixedly connected with a supporting plate. According to the utility model, through the matched use of the bottom plate, the side plate, the first shell, the first damper, the supporting plate, the second shell, the second damper, the first spring, the movable block, the pillar, the roller, the second spring, the movable plate, the connecting rod, the sliding sleeve, the guide pillar, the third spring, the elastic plate, the movable column and the inclined block, the problems that the traditional damping base structure for machining is poor in damping effect, and in the using process, the equipment can generate strong vibration, so that the fixation of the equipment is easy to loosen, the stability of the equipment is reduced, and the production is not facilitated are solved.

Description

Efficient damping base for machining

Technical Field

The utility model relates to the technical field of machining, in particular to a high-efficiency damping base for machining.

Background

Machining refers to the process that changes the overall dimension or the performance of work piece through a mechanical equipment, the mechanical manufacturing process generally refers to the machining process of part and the assembly process sum of machine, a process comprises a plurality of step, in the machining process, the processing equipment all needs fixed mounting on the base, traditional shock attenuation base structure for machining, the shock attenuation effect is than poor, in the use, because equipment can produce strong vibrations, lead to the fixed emergence of equipment to become flexible easily, thereby the stability of equipment has been reduced, be unfavorable for production.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an efficient damping base for machining, which has the advantage of good damping effect, and solves the problems that the traditional damping base structure for machining is poor in damping effect, and the equipment is easy to be fixed and loosened due to strong vibration generated by the equipment in the using process, so that the stability of the equipment is reduced, and the production is not facilitated.

In order to achieve the purpose, the utility model provides the following technical scheme: a high-efficiency damping base for machining comprises a bottom plate, wherein side plates are fixedly connected to two sides of the top of the bottom plate, a first shell is fixedly connected to the bottom of one side, opposite to the side plates, of the bottom, a first damper is fixedly connected to the top of the first shell, a supporting plate is fixedly connected to the top of the first damper, a second shell is fixedly connected to the bottom of the supporting plate, a second damper is fixedly connected to two sides of the bottom of the second shell, the bottom of the second damper is fixedly connected to the top of the bottom plate, a first spring is fixedly connected to the top of an inner cavity of the second shell, a movable block is fixedly connected to the bottom of the first spring, a support column is fixedly connected to the bottom of the movable block, one end, away from the movable block, of the support column penetrates through the bottom of the second shell and is fixedly connected to the top of the bottom plate, and idler wheels are movably connected to two sides of the second shell, the inner wall fixedly connected with second spring of first casing, the equal fixedly connected with fly leaf of the relative one end of second spring, the equal swing joint in top and the bottom that second spring one side was kept away from to the fly leaf has the connecting rod, the one end swing joint that the fly leaf was kept away from to the connecting rod has the sliding sleeve, the inner chamber sliding connection of sliding sleeve has the guide pillar, the surface of guide pillar and the outside cover that is located the sliding sleeve are equipped with the third spring, one side swing joint that the connecting rod was kept away from to the sliding sleeve has the elastic plate, one side fixedly connected with movable plate that the sliding sleeve was kept away from to the elastic plate, one side fixedly connected with activity post that the elastic plate was kept away from to the movable plate, one side that the movable plate was kept away from to the activity post runs through to the outside and the fixedly connected with sloping block of first casing.

Preferably, the equal fixedly connected with riser in both sides at backup pad top, the opposite one side of riser all runs through and is provided with the screw rod, the equal swing joint of one end that the screw rod is relative has the stripper plate.

Preferably, the bottom of the inclined block is movably connected with the top of the bottom plate, and one side, opposite to the inclined block, of the inclined block is in contact with the roller.

Preferably, the top and the bottom of the guide post are both fixedly connected with the inner wall of the first housing, and the top and the bottom of the movable plate are both in contact with the inner wall of the first housing.

Preferably, both sides of the supporting plate are in contact with the side plates, and the top and the bottom of the moving plate are in contact with the inner wall of the first shell.

Preferably, both sides of the movable block are in contact with the inner wall of the second shell, a first opening is formed in one side, opposite to the first shell, of the first shell, and a second opening is formed in the bottom of the second shell.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, through the matched use of the bottom plate, the side plate, the first shell, the first damper, the supporting plate, the second shell, the second damper, the first spring, the movable block, the pillar, the roller, the second spring, the movable plate, the connecting rod, the sliding sleeve, the guide pillar, the third spring, the elastic plate, the movable column and the inclined block, the problems that the traditional damping base structure for machining is poor in damping effect, and in the using process, the equipment can generate strong vibration, so that the fixation of the equipment is easy to loosen, the stability of the equipment is reduced, and the production is not facilitated are solved.

2. The movable support column can conveniently drive the inclined block to move by arranging the idler wheel, can conveniently fix equipment by arranging the vertical plate, the screw rod and the extrusion plate to be matched, avoids the equipment from sliding in the use process, can conveniently move the movable column by arranging the first opening, and can conveniently use the support column by arranging the second opening.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic front view of the structure of the present invention;

FIG. 3 is an enlarged view of A of FIG. 1 according to the present invention.

In the figure: 1. a base plate; 2. a side plate; 3. a first housing; 4. a first damper; 5. a support plate; 6. a second housing; 7. a second damper; 8. a first spring; 9. a movable block; 10. a pillar; 11. a roller; 12. a second spring; 13. a movable plate; 14. a connecting rod; 15. a sliding sleeve; 16. a guide post; 17. a third spring; 18. an elastic plate; 19. moving the plate; 20. a movable post; 21. a sloping block; 22. a vertical plate; 23. a screw; 24. and (5) pressing the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, a high-efficiency vibration damping mount for machining comprises a base plate 1, side plates 2 are fixedly connected to both sides of the top of the base plate 1, a first housing 3 is fixedly connected to the bottom of the side opposite to the side plates 2, a first damper 4 is fixedly connected to the top of the first housing 3, a supporting plate 5 is fixedly connected to the top of the first damper 4, a second housing 6 is fixedly connected to the bottom of the supporting plate 5, a second damper 7 is fixedly connected to both sides of the bottom of the second housing 6, the bottom of the second damper 7 is fixedly connected to the top of the base plate 1, a first spring 8 is fixedly connected to the top of the inner cavity of the second housing 6, a movable block 9 is fixedly connected to the bottom of the first spring 8, a support column 10 is fixedly connected to the bottom of the movable block 9, one end of the support column 10 away from the movable block 9 penetrates to the bottom of the second housing 6 and is fixedly connected to the top of the base plate 1, the two sides of the second housing 6 are movably connected with rollers 11, the inner wall of the first housing 3 is fixedly connected with a second spring 12, one end of the second spring 12 opposite to the first spring is fixedly connected with a movable plate 13, the top and the bottom of the movable plate 13 far away from the second spring 12 are movably connected with a connecting rod 14, one end of the connecting rod 14 far away from the movable plate 13 is movably connected with a sliding sleeve 15, the inner cavity of the sliding sleeve 15 is slidably connected with a guide pillar 16, the surface of the guide pillar 16 and the outer side of the sliding sleeve 15 are sleeved with a third spring 17, one side of the sliding sleeve 15 far away from the connecting rod 14 is movably connected with an elastic plate 18, one side of the elastic plate 18 far away from the sliding sleeve 15 is fixedly connected with a movable column 20, one side of the movable column 20 far away from the movable plate 19 penetrates to the outer part of the first housing 3 and is fixedly connected with an inclined block 21, two sides of the top of the support plate 5 are fixedly connected with vertical plates 22, the opposite sides of the vertical plate 22 are respectively provided with a screw 23 in a penetrating way, the opposite ends of the screw 23 are respectively and movably connected with an extrusion plate 24, the bottom of the inclined block 21 is movably connected with the top of the bottom plate 1, the opposite sides of the inclined block 21 are respectively contacted with the roller 11, the top and the bottom of the guide post 16 are respectively and fixedly connected with the inner wall of the first shell 3, the top and the bottom of the movable plate 13 are respectively contacted with the inner wall of the first shell 3, the two sides of the support plate 5 are respectively contacted with the side plate 2, the top and the bottom of the movable plate 19 are respectively contacted with the inner wall of the first shell 3, the two sides of the movable block 9 are respectively contacted with the inner wall of the second shell 6, the opposite sides of the first shell 3 are respectively provided with a first opening, the bottom of the second shell 6 is provided with a second opening, by arranging the roller 11, the inclined block 21 can be conveniently driven to move, by arranging the vertical plate 22, the screw 23 is matched with the extrusion plate 24, and can be convenient for fixing the equipment, avoid equipment to take place to slide in the in-process that uses, through setting up first opening, the removal of the movable column 20 of can being convenient for, through setting up the second opening, the use of pillar 10 of can being convenient for, through bottom plate 1, curb plate 2, first casing 3, first attenuator 4, backup pad 5, second casing 6, second attenuator 7, first spring 8, movable block 9, pillar 10, gyro wheel 11, second spring 12, fly leaf 13, connecting rod 14, sliding sleeve 15, guide pillar 16, third spring 17, elastic plate 18, movable plate 19, the cooperation of movable column 20 and sloping block 21 is used, traditional shock attenuation base structure for machining has been solved, the shock attenuation effect is than poor, in the use, because equipment can produce strong vibrations, lead to easily to taking place not hard up to the fixed of equipment, thereby the stability of equipment has been reduced, the problem that production is unfavorable.

When the device is used, the device is placed on the top of the supporting plate 5, then the screw 23 is rotated, the screw 23 drives the extrusion plate 24 to move towards the opposite side, so as to fix the device, the device vibrates during operation to drive the supporting plate 5 to move downwards, the supporting plate 5 drives the second shell 6 to move, and simultaneously drives the first damper 4 to perform cushioning, the second shell 6 drives the first spring 8 to stretch and contract and drives the second damper 7 to perform cushioning, meanwhile, the second shell 6 drives the roller 11 to move, so that the roller 11 extrudes the inclined block 21, the inclined block 21 drives the movable column 20 to move towards the opposite side, the movable column 20 drives the movable plate 19 to move, the movable plate 19 extrudes the elastic plate 18, the elastic plate 18 is extruded to deform and then drives the sliding sleeve 15 to move towards the opposite side, the sliding sleeve 15 drives the third spring 17 to stretch and contract, and simultaneously the sliding sleeve 15 drives the movable plate 13 to move through the connecting rod 14, the movable plate 13 drives the second spring 12 to extend and retract, so that the vibration generated during the operation of the equipment is effectively relieved through the first damper 4, the second damper 7, the first spring 8, the second spring 12 and the third spring 17, and the stability of the equipment is improved.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a machining is with high-efficient vibration damping mount, includes bottom plate (1), its characterized in that: the equal fixedly connected with curb plate (2) in both sides at bottom plate (1) top, the equal fixedly connected with first casing (3) in bottom of curb plate (2) relative one side, the first attenuator (4) of top fixedly connected with of first casing (3), the top fixedly connected with backup pad (5) of first attenuator (4), the bottom fixedly connected with second casing (6) of backup pad (5), the equal fixedly connected with second attenuator (7) in both sides of second casing (6) bottom, the bottom of second attenuator (7) and the top fixed connection of bottom plate (1), the first spring (8) of top fixedly connected with of second casing (6) inner chamber, the bottom fixedly connected with movable block (9) of first spring (8), the bottom fixedly connected with pillar (10) of movable block (9), pillar (10) keep away from the one end of movable block (9) run through to the bottom of second casing (6) and with The top of the bottom plate (1) is fixedly connected, both sides of the second shell (6) are movably connected with rollers (11), the inner wall of the first shell (3) is fixedly connected with a second spring (12), one end of the second spring (12) opposite to the first end is fixedly connected with a movable plate (13), the top and the bottom of one side of the movable plate (13) far away from the second spring (12) are movably connected with connecting rods (14), one end of the connecting rod (14) far away from the movable plate (13) is movably connected with a sliding sleeve (15), an inner cavity of the sliding sleeve (15) is slidably connected with a guide pillar (16), a third spring (17) is sleeved on the surface of the guide pillar (16) and positioned on the outer side of the sliding sleeve (15), one side of the sliding sleeve (15) far away from the connecting rod (14) is movably connected with an elastic plate (18), and one side of the elastic plate (18) far away from the sliding sleeve (15) is fixedly connected with a movable plate (19), one side of the movable plate (19) far away from the elastic plate (18) is fixedly connected with a movable column (20), and one side of the movable column (20) far away from the movable plate (19) penetrates through to the outside of the first shell (3) and is fixedly connected with an inclined block (21).

2. The efficient damping base for machining according to claim 1, wherein: the equal fixedly connected with riser (22) in both sides at backup pad (5) top, the opposite one side of riser (22) all runs through and is provided with screw rod (23), the equal swing joint of one end that screw rod (23) is relative has stripper plate (24).

3. The efficient damping base for machining according to claim 1, wherein: the bottom of the inclined block (21) is movably connected with the top of the bottom plate (1), and one side, opposite to the inclined block (21), of the inclined block is in contact with the roller (11).

4. The efficient damping base for machining according to claim 1, wherein: the top and the bottom of the guide post (16) are fixedly connected with the inner wall of the first shell (3), and the top and the bottom of the movable plate (13) are contacted with the inner wall of the first shell (3).

5. The efficient damping base for machining according to claim 1, wherein: the two sides of the supporting plate (5) are in contact with the side plates (2), and the top and the bottom of the moving plate (19) are in contact with the inner wall of the first shell (3).

6. The efficient damping base for machining according to claim 1, wherein: the both sides of movable block (9) all contact with the inner wall of second casing (6), first opening has all been seted up to one side that first casing (3) is relative, the second opening has been seted up to the bottom of second casing (6).

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