CN112283294B

CN112283294B - Spring vibration damping seat for traditional Chinese medicine equipment

Info

Publication number: CN112283294B
Application number: CN202011138389.8A
Authority: CN
Inventors: 蔡永潮
Original assignee: Zhejiang Houdar Intelligent Technology Co Ltd
Current assignee: Zhejiang Houdar Intelligent Technology Co Ltd
Priority date: 2019-08-21
Filing date: 2019-08-21
Publication date: 2022-03-08
Anticipated expiration: 2039-08-21
Also published as: CN112283294A; CN110439965B; CN110439965A

Abstract

The invention relates to a spring vibration-damping seat block of traditional Chinese medicine equipment with adjustable vibration-damping effect, wherein a pressure spring which can stretch along the vertical direction is arranged in the spring vibration-damping seat block. The invention aims to provide a spring vibration-damping seat of traditional Chinese medicine equipment with good vibration-proof effect, and solves the problem of poor vibration-proof effect of a supporting seat of the traditional Chinese medicine production equipment.

Description

Spring vibration damping seat for traditional Chinese medicine equipment

The scheme is a divisional application with the name of a spring damping seat of traditional Chinese medicine equipment on application number 2019107716689, application date 2019, 08 and 21.

Technical Field

The invention relates to traditional Chinese medicine production equipment, in particular to a spring damping seat of traditional Chinese medicine equipment.

Background

In the automatic production process of traditional Chinese medicines, the equipment is installed through a supporting seat. The existing supporting seat is a rigid supporting seat, a bolt hole is formed in the lower end of the existing supporting seat, and the supporting seat is fixed on the end face through an expansion bolt matched with the bolt hole to fix equipment. The existing supporting seat has the defect of poor anti-vibration effect.

Disclosure of Invention

The invention aims to provide a spring vibration-damping seat of traditional Chinese medicine equipment with good vibration-proof effect, and solves the problem of poor vibration-proof effect of a supporting seat of the traditional Chinese medicine production equipment.

The second purpose of the invention is to further provide a spring vibration damping seat of traditional Chinese medicine equipment with adjustable vibration damping effect, so as to realize the adjustable vibration damping effect of the vibration damping seat.

The technical problem is solved by the following technical scheme: the spring vibration damping seat for the traditional Chinese medicine equipment is characterized by comprising a metal base and a rubber supporting block fixed on the metal base, wherein a connecting piece is arranged at the upper end of the rubber supporting block, and a pressure spring stretching in the vertical direction is arranged in the rubber supporting block. When the device is used, the traditional Chinese medicine equipment is connected to the connecting piece, and then the equipment is installed in a mode that the metal base is supported on the ground and the like. When the equipment vibrates or receives vibration, vibration reduction is realized through the expansion of the pressure spring and the elastic deformation of the rubber supporting block.

Preferably, a pit is arranged on the lower end face of the rubber support block, the open end of the pit is sealed by a rubber bowl which is arched upwards to form a lower liquid storage space, an upper liquid storage space is arranged in the rubber support block, the upper liquid storage space and the lower liquid storage space are communicated through a plurality of damping channel rows, a plurality of slide holes which are located beside the damping channel rows in a one-to-one correspondence mode are arranged on the rubber support block, a drive rod penetrates through the slide holes, and a plurality of extrusion protrusions which are used for extruding the damping channels in the same damping channel row in a one-to-one correspondence mode to enable the aperture of the damping channels to be reduced are arranged on the drive rod. When the equipment generates a vibrating downward stroke, the volume of the upper liquid storage space is also contracted and reduced, so that damping liquid in the upper liquid storage space flows to the lower liquid storage space through the damping channel to enable the rubber bowl to deform downward; the damping liquid flow in the upper liquid storage space is in the liquid storage space downwards when the equipment vibrates and presses downwards, when the equipment vibrates and is converted into the upper pressure lifting stroke by the pressing stroke, the rubber bowl resets to enable the damping liquid in the lower liquid storage space to flow to the upper liquid storage space through the damping channel, and the damping liquid can flow in the damping channel to drive the effects of vibration absorption and energy dissipation. Through removing the actuating lever, and through the extrusion degree of extrusion arch to the damping passageway in order to change the aperture of damping passageway, start the effect that changes the damped effect to make the rigidity proportion of this supporting seat variable, realize the adjustment of damping effect. The second object of the invention is achieved.

Preferably, the pressing projection is tapered. The gradual adjustment and reduction of the damping channel can be realized.

Preferably, a plurality of accommodating pits are arranged in the sliding hole and used for accommodating the extrusion bulges in a one-to-one correspondence mode. The driving rod can be more labor-saving when sliding.

Preferably, the connecting piece is a threaded head vulcanized on the rubber supporting block. The connection is convenient.

Preferably, all the rubber supporting blocks are internally provided with metal blocks, and all the connecting pieces are connected with the metal blocks. The connection reliability between the connecting piece and the rubber supporting block can be improved.

Preferably, the metal base is provided with a first driving rod fixing seat and a second driving rod fixing seat which are distributed on two sides of the rubber supporting block, a first sliding cavity is arranged in the first driving rod fixing seat, a first driving strip is arranged in the first sliding cavity, the first driving rod fixing seat is in threaded connection with an adjusting bolt abutted against one side of the first driving strip, one end of each driving rod penetrates through the first sliding cavity and abuts against the other side of the first driving strip, the driving mechanism is characterized in that a second sliding cavity is formed in the second driving rod fixing seat, a second driving strip and a driving spring which is connected to one side of the second driving strip and moves towards the direction of the first driving strip in order to drive the second driving strip are arranged in the second sliding cavity, and the other end of the driving rod penetrates through the second sliding cavity and abuts against the other side of the second driving strip. Can carry out the synchronization adjustment to all actuating levers, convenience during the adjustment is good. After the driving rod is adjusted in place, the driving rod can be reliably maintained at the original position.

Preferably, the wall of the second sliding cavity is provided with a plurality of guide holes, and the driving rods penetrate through the guide holes in a one-to-one correspondence manner. The reliability of the driving rod during adjustment can be prevented from being influenced by the fact that the driving rod penetrates through unexpected axis movement when the driving rod is driven.

Preferably, one side of the first sliding cavity facing the rubber supporting block is of an open structure.

Preferably, an air cavity is defined between the rubber bowl and the metal base, and is provided with an air inlet and outlet channel positioned in the metal base. When carrying out the plane through metal base and supporting, can not produce the phenomenon that leads to the rubber bowl can not the operation and produce.

The invention has the following advantages: the vibration reduction effect is good and adjustable.

Drawings

Fig. 1 is a schematic diagram of a first embodiment of the invention.

Fig. 2 is a schematic diagram of a second embodiment of the present invention.

Fig. 3 is a schematic sectional view a-a of fig. 2.

In the figure: metal base 1, rubber support block 2, connecting piece 3, metal block 4, go up stock solution space 5, pit 6, rubber bowl 7, stock solution space 8 down, damping passageway row 9, slide opening 10, actuating lever 11, air cavity 12, business turn over air duct 13, the port 14 that air cavity one end was kept away from to business turn over air duct, damping channel 15, extrusion arch 16, hold hole 17, first actuating lever fixing base 18, second actuating lever fixing base 19, first sliding cavity 20, adjusting bolt 21, second sliding cavity 22, second actuating bar 23, drive spring 24, guiding hole 25, first actuating bar 26, bolt hole 27, pressure spring 28.

Detailed Description

The invention is further described with reference to the following figures and examples.

In the first embodiment, referring to fig. 1, a spring damping seat for traditional Chinese medicine equipment comprises a metal base 1 and a rubber supporting block 2 fixed on the metal base. The upper end of the rubber supporting block is provided with a connecting piece 3. The connecting piece is a thread head vulcanized on the rubber supporting block. A metal block 4 is arranged in the rubber supporting block. All the connecting pieces are connected with the metal block. The metal base is provided with bolt holes 27. A compression spring 28 which extends and retracts along the vertical direction is arranged in the rubber supporting block.

When in use, the traditional Chinese medicine production equipment is placed on the rubber supporting block, and the connecting piece passes through the connecting hole on the equipment and then is matched with the nut to fix the invention on the supporting leg of the equipment. The metal base is supported on the ground, and the metal base penetrates through the bolt hole through the foundation bolt and then is fixed, so that the equipment is supported.

The second embodiment is different from the first embodiment in that:

referring to fig. 2, an upper liquid storage space 5 is arranged in the rubber supporting block. The lower end face of the rubber supporting block is provided with a pit 6. The open end of the pit is sealed by an upwardly arched rubber bowl 7 to form a lower liquid storage space 8. The upper and lower reservoirs are connected by a plurality of rows of damping channels 9. The rubber supporting block is provided with a plurality of slide holes 10 which are correspondingly positioned beside the damping channel row. The driving rod 11 is arranged in the sliding hole in a penetrating way. An air cavity 12 is enclosed between the rubber bowl and the metal base. The air chamber is provided with an air inlet and outlet channel 13 in the metal base. A port 14 at the end of the air access duct remote from the air cavity is located on the upper surface of the metal base.

Referring to fig. 3, the driving rod is provided with a plurality of extruding protrusions 16 which correspondingly extrude the damping channels 15 in the same damping channel row one by one so as to reduce the aperture of the damping channels. The figure schematically shows 8 damping channel rows. One damping channel row has 5 damping channels. The extrusion protrusion is conical. The pressing projection and the driving rod are coaxial. The distance between the extrusion bulges is equal to the distance between the damping channels in the same damping channel row, so that all the extrusion bulges on the same driving rod synchronously and correspondingly extrude the damping channels in the same damping channel row one by one. The sliding hole is internally provided with a plurality of accommodating pits 17 for accommodating the extrusion bulges in a one-to-one correspondence manner, so that the extrusion bulges can not be extruded when the damping channel is not extruded. The metal base is provided with a first driving rod fixing seat 18 and a second driving rod fixing seat 19 which are distributed on two sides of the rubber supporting block along the extending direction of the driving rod. A first sliding cavity 20 is arranged in the first driving rod fixing seat. One side of the first sliding cavity facing the rubber supporting block is of an open structure. A first driving strip 26 is arranged in the first sliding cavity. The first driving rod fixing seat is in threaded connection with an adjusting bolt 21 abutted against one side of the first driving strip. One end of each driving rod penetrates through the first sliding cavity and abuts against the other side of the first driving strip. A second sliding cavity 22 is arranged in the second driving rod fixing seat. And a second driving strip 23 and a driving spring 24 connected to one side of the second driving strip to drive the second driving strip to move towards the first driving strip are arranged in the second sliding cavity. The other ends of all the driving rods penetrate through the second sliding cavity and abut against the other side of the second driving strip. The wall of the second sliding chamber is provided with a plurality of guide holes 25. The driving rods penetrate through the guide holes in a one-to-one correspondence mode.

The driving rod is driven to move towards the second driving rod fixing seat by rotating the adjusting bolt, so that the extrusion bulge enlarges the effect of extruding the damping channel, and the damping channel is reduced to improve the damping. When the adjusting bolt moves towards the direction far away from the rubber supporting block, the driving rod moves towards the first driving rod fixing seat under the action of the driving spring, so that the extrusion bulge reduces the action of extruding the damping channel, and the damping channel is elastically reset and increased to reduce the damping. When vibration is generated, the damping fluid moves back and forth in the upper liquid storage space and the lower liquid storage space through the damping channel, so that kinetic energy is converted into heat energy to absorb energy and absorb vibration. When the rubber bowl deforms, air in the air cavity flows in and out of the air channel, and therefore the phenomenon that air pressure in the air cavity interferes with deformation of the rubber bowl is avoided.

Claims

1. A spring vibration-damping seat with adjustable vibration-damping effect for Chinese medicine equipment is characterized by comprising a metal base and a rubber supporting block fixed on the metal base, the upper end of the rubber supporting block is provided with a connecting piece, a pressure spring which extends and retracts along the vertical direction is arranged in the rubber supporting block, a pit is arranged on the lower end face of the rubber supporting block, the opening end of the pit is sealed by an upwardly arched rubber bowl to form a lower liquid storage space, an upper liquid storage space is arranged in the rubber supporting block, the upper liquid storage space and the lower liquid storage space are communicated in a row through a plurality of damping channels, a plurality of slide holes which are positioned beside the damping channel row in one-to-one correspondence are arranged on the rubber supporting block, a driving rod is arranged in each slide hole in a penetrating way, the driving rod is provided with a plurality of extrusion bulges which correspondingly extrude the damping channels in the same damping channel row one by one so as to reduce the aperture of the damping channels; the pressing projection and the driving rod are coaxial.

2. The adjustable anti-vibration traditional Chinese medicine device spring shock-absorbing seat according to claim 1, wherein the extrusion protrusion is tapered.

3. The spring vibration-damping seat for Chinese medicine equipment with adjustable vibration-resisting effect according to claim 1 or 2, wherein a plurality of accommodating pits are provided in the slide hole for accommodating the extruding protrusions in a one-to-one correspondence manner.

4. The adjustable vibration resistant seat according to claim 1 or 2, wherein the connecting member is a threaded head vulcanized on the rubber support block.

5. The adjustable vibration resistant seat according to claim 4, wherein all the rubber support blocks are provided with metal blocks, and all the connecting members are connected to the metal blocks.

6. The spring vibration-damping seat for Chinese medicine equipment with adjustable anti-vibration effect according to claim 1 or 2, wherein the metal base is provided with a first driving rod fixing seat and a second driving rod fixing seat which are distributed at two sides of the rubber supporting block, the first driving rod fixing seat is internally provided with a first sliding cavity, the first sliding cavity is internally provided with a first driving strip, the first driving rod fixing seat is in threaded connection with an adjusting bolt which is abutted against one side of the first driving strip, one end of each driving rod is arranged in the first sliding cavity in a penetrating way and abutted against the other side of the first driving strip, the second driving rod fixing seat is internally provided with a second sliding cavity, the second sliding cavity is internally provided with a second driving strip and a driving spring which is connected to one side of the second driving strip to drive the second driving strip to move towards the direction of the first driving strip, the other ends of all the driving rods penetrate through the second sliding cavity and abut against the other side of the second driving strip.

7. The spring vibration damper for Chinese medicine equipment with adjustable vibration resistance as claimed in claim 6, wherein the wall of the second sliding chamber is provided with a plurality of guide holes, and the driving rods are correspondingly inserted into the guide holes.

8. The spring damping mount for chinese medicine equipment with adjustable anti-vibration effect of claim 6, wherein the side of the first sliding chamber facing the rubber supporting block is an open structure.

9. The spring vibration-damping seat for traditional Chinese medicine equipment with adjustable vibration-proof effect according to claim 1 or 2, wherein an air cavity is enclosed between the rubber bowl and the metal base, and the air cavity is provided with an air inlet and outlet channel positioned in the metal base.