CN207656473U - Grinding machine based on multilayer shock-damping structure - Google Patents

Abstract

The utility model is related to machinery processing apparatus fields, are characterized in that based on the grinding machine of multilayer shock-damping structure：Including pedestal, console and workbench, console is set on pedestal, workbench is set on console, processing groove is provided on workbench, the working plate equal with processing groove openings of sizes is placed in processing groove, a part of upper surface that workbench is located in processing groove is provided with supporting block more than two, working plate lower surface is provided with link block more than two, link block is equal with support number of blocks, and link block and supporting block location matches, link block is located above supporting block, and multi-stage shock-absorbing structure is provided between link block and supporting block.Existing grinding machine is solved in processing, machining head processes article on workbench, workpiece can be pressed, one downward active force is applied to workbench, due to not taking shock-damping structure, the problem of workbench easily occurs irreversible mechanical damage, grinding machine whole service life is greatly lowered is used for a long time.

Description

Grinding machine based on multilayer shock-damping structure

Technical field

The utility model is related to machinery processing apparatus fields, and in particular to be the grinding machine based on multilayer shock-damping structure.

Background technology

Grinding machine is the lathe for carrying out grinding to workpiece surface using grinding tool.Most of grinding machine is to use high speed rotation Grinding wheel carry out grinding, a small number of is processed using other grinding tools such as oilstone, abrasive band and free abrasive, such as honing Machine, superfinisher, abrasive belt grinding machine, grinder and polishing machine etc..

For grinding machine in processing, machining head processes article on workbench, can press workpiece and apply one to workbench A downward active force is used for a long time workbench and irreversible mechanical damage easily occurs, significantly due to not taking shock-damping structure Reduce grinding machine whole service life.

Therefore it needs one kind simple in structure, it is straight to workbench vertical direction that machining head can be reduced by shock-damping structure Active force is connect, to reduce the grinding machine based on multilayer shock-damping structure of workbench mechanical damage.

Utility model content

For the utility model for existing grinding machine in processing, machining head processes article on workbench, can press and add Workpiece applies a downward active force to workbench, and due to not taking shock-damping structure, workbench is used for a long time, and easily generation can not Inverse mechanical damage, provides the grinding machine based on multilayer shock-damping structure at the problem of grinding machine whole service life is greatly lowered.

The utility model solves above-mentioned technical problem, the technical solution adopted is that, the grinding machine packet based on multilayer shock-damping structure Pedestal, console and workbench are included, console is set on pedestal, and workbench is set on console, and processing is provided on workbench Slot is placed with the working plate equal with processing groove openings of sizes in processing groove, and workbench is located at a part of upper table in processing groove Face is provided with supporting block more than two, and working plate lower surface is provided with link block more than two, link block and support number of blocks phase Deng, and link block and supporting block location matches, link block are located above supporting block, and multistage is provided between link block and supporting block Shock-damping structure.

The purpose designed in this way is, by the way that supporting block is arranged on the table, and link block is arranged on working plate, even It is equal with support number of blocks to connect block, and location matches, between be provided with multi-stage shock-absorbing structure, machining head can be reduced and added Active force is carried out multi-level decomposition by working hour to the direct active force of workbench by multiple matched supporting blocks and link block, The stability for greatly improving workbench and working plate solves due to not taking shock-damping structure, workbench is used for a long time and easily occurs Irreversible mechanical damage, the problem of grinding machine whole service life is greatly lowered.

Further, multi-stage shock-absorbing structure includes fixing axle and the coaxially connected elastic axis of fixing axle, one end and fixing axle The snubber block of elastomer block, one end and link block the contact other end and damping axis connection that the connection other end is connect with supporting block, Gu The center line of dead axle, elastic axis, elastomer block and snubber block in the vertical direction overlaps.

The purpose designed in this way is that in use, machining head carries out machining, production to the part of working plate Raw downward and slanting active force is transferred to elastic axis, and a part of active force is carried out damping remaining active force transmission by elastic axis Damping is carried out to elastic axis and elastomer block, negative function power is achieved the effect that by Multistage damping.

Optionally, link block is arc structure, and snubber block is equipped with arc-shaped spring steel plate, and spring steel plate connects with link block It touches.

Further, spring steel plate from bottom to up include the first spring steel plate, the second spring steel plate and third spring steel plate, First spring steel plate, the second spring steel plate and third spring steel plate arc length successively increase, the first spring steel plate, the second Elastic Steel The center line of plate, third spring steel plate and link block in the vertical direction overlaps.

The purpose designed in this way is, the active force of transmission is carried out multi-level decomposition by multigroup spring steel plate of setting, And the size of spring steel plate successively increases, damping effect increases substantially, while spring steel plate is overlapped with the center line of link block, It prevents that link block offset occurs when damping.

Optionally, link block is equipped with arc fixing groove, and arc fixing groove is located on arc surface.

The purpose designed in this way is that spring steel plate is when carrying out Multistage damping, close to the spring steel plate of link block cambered surface Arc fixing groove can be entered, the stress generated when processing is subjected to multi-level decomposition by the way that elastic deformation occurs.

Optionally, damping spring is provided on snubber block, damping spring one end is connect with link block.

The beneficial effects of the utility model include at least following one；

1, by the way that supporting block is arranged on the table, and link block is set on working plate, link block and support number of blocks It is equal, and location matches, between be provided with multi-stage shock-absorbing structure, machining head can be reduced in processing to the straight of workbench Connect active force, and active force be subjected to multi-level decomposition by multiple matched supporting blocks and link block, greatly improve workbench and The stability of working plate is solved due to not taking shock-damping structure, long-time service workbench that irreversible mechanical damage easily occurs, The problem of grinding machine whole service life is greatly lowered.

2, machining head carries out machining to the part of working plate, and the downward and slanting active force generated transmits To elastic axis, by the progress damping of a part of active force, remaining active force is transferred to elastic axis and elastomer block progress damping to elastic axis, Achieve the effect that negative function power by Multistage damping.

3, the active force of transmission is carried out by multi-level decomposition by multigroup spring steel plate of setting, and the size of spring steel plate according to Secondary increase, damping effect increase substantially, while spring steel plate is overlapped with the center line of link block, prevent from connecting when damping Block deviates.

4, for spring steel plate when carrying out Multistage damping, the spring steel plate close to link block cambered surface can enter arc fixing groove, The stress generated when processing is subjected to multi-level decomposition by the way that elastic deformation occurs.

Description of the drawings

Fig. 1 is the grinder structure schematic diagram based on multilayer shock-damping structure；

Fig. 2 is workbench and work plate structure schematic diagram；

Fig. 3 is multi-stage shock-absorbing structure schematic diagram；

In figure label for：1 be pedestal, 2 in order to control platform, 3 be workbench, 4 be working plate, 501 be fixing axle, 502 to subtract Shake axis, 503 be elastomer block, 504 be snubber block, 505 be damping spring, 506 be third spring steel plate, 507 be the second Elastic Steel Plate, 508 be the first spring steel plate, 6 be link block, 7 be supporting block, 8 be processing groove.

Specific implementation mode

It is clear in order to enable the purpose of this utility model, technical solution and advantage to be more clear, below in conjunction with attached drawing and The present invention will be further described in detail for embodiment.It should be appreciated that specific embodiment described herein is only used to It explains the utility model, is not used to limit the utility model protection content.

Embodiment 1

As shown in Figure 1 to Figure 2, the grinding machine based on multilayer shock-damping structure includes pedestal 1, console 2 and workbench 3, control Platform 2 be set to pedestal 1 on, workbench 3 be set to console 2 on, processing groove 8 is provided on workbench 3, be placed in processing groove 8 with The equal working plate 4 of 8 openings of sizes of processing groove, workbench 3 be located at a part of upper surface in processing groove be provided with it is more than two Supporting block 7,4 lower surface of working plate are provided with link block 6 more than two, and link block 6 is equal with 7 quantity of supporting block, and link block 6 With 7 location matches of supporting block, link block 6 is located at 7 top of supporting block, Multistage damping knot is provided between link block 6 and supporting block 7 Structure.

In use, supporting block is arranged on the table, and link block is set on working plate, link block and support number of blocks It is equal, and location matches, between be provided with multi-stage shock-absorbing structure, machining head can be reduced in processing to the straight of workbench Connect active force, and active force be subjected to multi-level decomposition by multiple matched supporting blocks and link block, greatly improve workbench and The stability of working plate is solved due to not taking shock-damping structure, long-time service workbench that irreversible mechanical damage easily occurs, The problem of grinding machine whole service life is greatly lowered.

Embodiment 2

Based on embodiment 1, as shown in figure 3, multi-stage shock-absorbing structure includes that fixing axle 501 and fixing axle 501 are coaxially connected Elastic axis 502, one end and fixing axle 501 connect the elastomer block 503 that the other end connects with supporting block 7, one end is contacted with link block 6 The snubber block 504 that the other end is connect with elastic axis 502, fixing axle 501, elastic axis 502, elastomer block 503 and snubber block 504 are perpendicular The upward center line of histogram overlaps.

Embodiment 3

Based on embodiment 2, link block 6 is arc structure, and snubber block 504 is equipped with arc-shaped spring steel plate, spring steel plate It is contacted with link block 6.

Embodiment 4

Based on embodiment 3, spring steel plate includes the first spring steel plate 508, the second spring steel plate 507 and third from bottom to up Spring steel plate 506, the first spring steel plate 508, the second spring steel plate 507 and 506 arc length of third spring steel plate successively increase, and first The center line of spring steel plate 508, the second spring steel plate 507, third spring steel plate 506 and link block 6 in the vertical direction overlaps.

Embodiment 5

Based on embodiment 4, link block 6 is equipped with arc fixing groove 9, and arc fixing groove 9 is located on arc surface.

Embodiment 6

Based on embodiment 6, damping spring 505 is provided on snubber block 504,505 one end of damping spring connects with link block 6 It connects.

In use, spring steel plate, when carrying out Multistage damping, the spring steel plate close to link block cambered surface can be solid into arc Determine slot, the stress generated when processing is subjected to multi-level decomposition by the way that elastic deformation occurs.

Claims (6)

1. the grinding machine based on multilayer shock-damping structure, it is characterised in that：It is described including pedestal (1), console (2) and workbench (3) Console (2) is set on pedestal (1), and the workbench (3) is set on console (2), and workbench is provided with processing groove on (3) (8), the working plate equal with processing groove (8) openings of sizes (4) is placed in processing groove (8), workbench (3) is located in processing groove A part of upper surface be provided with supporting block more than two (7), working plate (4) lower surface is provided with link block more than two (6), the link block (6) is equal with supporting block (7) quantity, and link block (6) and supporting block (7) location matches, link block (6) Above supporting block (7), multi-stage shock-absorbing structure is provided between link block (6) and supporting block (7).

2. the grinding machine according to claim 1 based on multilayer shock-damping structure, it is characterised in that：The multi-stage shock-absorbing structure packet It includes fixing axle (501), the elastic axis (502) coaxially connected with fixing axle (501), one end and fixing axle (501) and connect the other end The damping that elastomer block (503), one end and link block (6) the contact other end being connect with supporting block (7) are connect with elastic axis (502) Block (504), the fixing axle (501), elastic axis (502), elastomer block (503) and snubber block (504) in the vertical direction in Heart line overlaps.

3. the grinding machine according to claim 2 based on multilayer shock-damping structure, it is characterised in that：The link block (6) is circle Arc structure, the snubber block (504) are equipped with arc-shaped spring steel plate, and the spring steel plate is contacted with link block (6).

4. the grinding machine according to claim 3 based on multilayer shock-damping structure, it is characterised in that：The spring steel plate from down toward Upper includes the first spring steel plate (508), the second spring steel plate (507) and third spring steel plate (506), the first spring steel plate (508), the second spring steel plate (507) and third spring steel plate (506) arc length successively increase, the first spring steel plate (508), second The center line of spring steel plate (507), third spring steel plate (506) and link block (6) in the vertical direction overlaps.

5. the grinding machine according to claim 4 based on multilayer shock-damping structure, it is characterised in that：It is set on the link block (6) There is arc fixing groove (9), and arc fixing groove (9) is located on arc surface.

6. the grinding machine according to claim 2 based on multilayer shock-damping structure, it is characterised in that：On the snubber block (504) It is provided with damping spring (505), described damping spring (505) one end is connect with link block (6).