CN212106402U - Improved spring type energy accumulator - Google Patents
Improved spring type energy accumulator Download PDFInfo
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- CN212106402U CN212106402U CN202020328186.4U CN202020328186U CN212106402U CN 212106402 U CN212106402 U CN 212106402U CN 202020328186 U CN202020328186 U CN 202020328186U CN 212106402 U CN212106402 U CN 212106402U
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Abstract
The utility model discloses an improved spring type energy accumulator, which belongs to the technical field of energy accumulators, and comprises an energy accumulator body, wherein two sides of the energy accumulator body are slidably provided with a vertically arranged support column, the bottom of the support column is provided with a pulley, the bottom of the support column is hinged with an arc-shaped rod, the bottom of the arc-shaped rod is hinged with a friction block, a track groove is arranged on the support column, a lifting block is slidably arranged in the track groove, a drive rod is hinged on the lifting block, the drive rod is hinged with the arc-shaped rod, a vertically arranged threaded rod is arranged on the support column in a threaded manner, the bottom of the threaded rod is rotatably connected with the lifting block, and a horizontally arranged positioning plate and a plurality of guide; the utility model discloses the convenience improves service quality to the fixed and removal of energy storage ware, improves the anti-seismic performance of energy storage ware, improves life, convenient operation, easily promotes.
Description
Technical Field
The utility model belongs to the technical field of the energy storage ware, concretely relates to improved generation spring energy storage ware.
Background
An accumulator is an energy storage device in a hydropneumatic system. The energy in the system is converted into compression energy or potential energy to be stored at a proper time, and when the system needs the energy, the compression energy or the potential energy is converted into hydraulic energy or air pressure and the like to be released, and the energy is supplied to the system again. When the system pressure is increased instantaneously, it can absorb the energy of the part to ensure the pressure of the whole system is normal.
The spring type energy accumulator converts the excess pressure energy in the hydraulic system into spring potential energy by means of a compression spring to be stored and released when needed. The structure is simple, and the cost is low. However, the spring has limited expansion and contraction amount, and the expansion and contraction of the spring is not sensitive to pressure change, so the damping device is poor in damping function, and therefore, the damping device is only suitable for a low-capacity and low-pressure system (P is less than or equal to 1.0-1.2 MPa) or is used as a damping device. In the published patent document CN201506351U, the energy accumulator cannot be supported independently, and when the energy accumulator is transported, the shock will affect the energy accumulator, and the shock resistance is poor, so an improved spring type energy accumulator is needed to solve the above problems.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an improved generation spring energy storage ware to solve the problem that proposes among the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: an improved spring type energy accumulator comprises an energy accumulator body, wherein two sides of the energy accumulator body are slidably provided with vertically arranged support columns, pulleys are arranged at the bottoms of the support columns, arc-shaped rods are hinged to the bottoms of the support columns, friction blocks are hinged to the bottoms of the arc-shaped rods, track grooves are formed in the support columns, lifting blocks are slidably arranged in the track grooves, driving rods are hinged to the lifting blocks, the driving rods are hinged to the arc-shaped rods, vertically arranged threaded rods are arranged on the support columns in a threaded mode, the bottoms of the threaded rods are rotatably connected with the lifting blocks, a horizontally arranged positioning plate and a plurality of guide blocks are fixedly arranged on the energy accumulator body, vertically arranged buffer rods are fixedly arranged at the bottoms of the positioning plates, the bottoms of the buffer rods are slidably connected with the guide blocks, horizontally arranged transverse plates are arranged between the positioning plate and the guide blocks, buffer beam and diaphragm sliding connection, the cover is equipped with the spring on the buffer beam, the spring is located between locating plate and the diaphragm.
As a preferred embodiment, grooves are formed in two sides of the energy accumulator body, vertically arranged guide rods are fixedly mounted in the grooves, first movable blocks are slidably sleeved on the guide rods, and the first movable blocks are fixedly connected with the support columns.
As a preferred embodiment, a threaded hole is formed in the top of the supporting column, the threaded rod is in threaded connection with the inner wall of the threaded hole, a bearing is fixedly mounted on the top of the lifting block, and the bottom of the threaded rod is fixedly connected with an inner ring of the bearing.
As a preferred embodiment, a vertically arranged slide rod is installed in the track groove, and the lifting block is slidably sleeved on the slide rod.
As a preferred embodiment, seted up the cavity on the guide block, slidable mounting has the second movable block in the cavity, the bottom of buffer lever extend to in the cavity and with second movable block fixed connection, install the montant of vertical setting in the cavity, the second movable block sliding sleeve is located on the montant.
As a preferred embodiment, a plurality of vertically arranged sliding holes are formed in the transverse plate, the bottom of the buffer rod penetrates through the sliding holes, and the buffer rod is connected with the inner wall of the sliding holes in a sliding manner.
Compared with the prior art, the beneficial effects of the utility model are that:
through energy storage ware body and support column sliding connection, the pulley sets up on the support column, make things convenient for the removal of whole energy storage ware, the energy storage ware can independently support, it carries out elevating movement to drive the elevator through manual rotation threaded rod, elevator elevating movement drives the actuating lever motion and makes the inclination of actuating lever change the angle modulation that drives the arc pole, make the clutch blocks and ground contact produce the friction, the random removal of whole energy storage ware of restriction, fix the energy storage ware, thereby the convenience is fixed and the removal to the energy storage ware, and the use quality is improved.
The transverse plate is fixed through the supporting columns, the transverse plate supports the spring, the spring provides elastic support for the positioning plate, the energy accumulator generates vibration in the moving process, the elastic support slows down the vibration of the energy accumulator, the vibration is buffered, the anti-vibration performance of the energy accumulator is improved, and the service life is prolonged.
The utility model discloses the convenience improves service quality to the fixed and removal of energy storage ware, improves the anti-seismic performance of energy storage ware, improves life, convenient operation, easily promotes.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic sectional view of the structure of the support pillar of the present invention;
fig. 3 is a schematic view of the sectional structure of the guide block of the present invention.
In the figure: 1. an accumulator body; 2. a support pillar; 3. a pulley; 4. an arcuate bar; 5. a friction block; 6. a drive rod; 7. a track groove; 8. a lifting block; 9. a threaded rod; 10. a slide bar; 11. A groove; 12. a guide bar; 13. a first movable block; 14. positioning a plate; 15. a transverse plate; 16. a buffer rod; 17. a guide block; 18. a spring; 19. a cavity; 20. a vertical rod; 21. and a second movable block.
Detailed Description
The present invention will be further described with reference to the following examples.
The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention. The condition in the embodiment can be further adjusted according to concrete condition the utility model discloses a it is right under the design prerequisite the utility model discloses a simple improvement of method all belongs to the utility model discloses the scope of claiming.
Referring to fig. 1-3, the utility model provides an improved spring type energy accumulator, including energy accumulator body 1, support column 2 of vertical setting is installed to the both sides slidable of energy accumulator body 1, pulley 3 is installed to the bottom of support column 2, the bottom of support column 2 articulates there is arc pole 4, the bottom of arc pole 4 articulates there is clutch blocks 5, track groove 7 has been seted up on support column 2, sliding fit has elevator 8 in track groove 7, elevator 8 articulates there is the actuating lever 6, actuating lever 6 articulates with arc pole 4, threaded rod 9 of vertical setting is installed to the screw thread on support column 2, the bottom of threaded rod 9 is connected with elevator 8 rotation (see fig. 1 and fig. 2); through energy storage ware body 1 and 2 sliding connection of support column, pulley 3 sets up on support column 2, make things convenient for the removal of whole energy storage ware, the energy storage ware can independently support, it carries out elevating movement to drive elevator 8 through manual rotation threaded rod 9, elevator 8 elevating movement drives the angle modulation that the inclination change of actuating lever 6 made actuating lever 6 drives arc pole 4, make rubbing block 5 and ground contact produce the friction, restrict the random removal of whole energy storage ware, fix the energy storage ware, thereby convenient fixed and removal to the energy storage ware, and the use quality is improved.
A positioning plate 14 and a plurality of guide blocks 17 which are horizontally arranged are fixedly installed on the energy accumulator body 1, a vertically arranged buffer rod 16 is fixedly installed at the bottom of the positioning plate 14, the bottom of the buffer rod 16 is slidably connected with the guide blocks 17, a horizontal plate 15 which is horizontally arranged is arranged between the positioning plate 14 and the guide blocks 17, the horizontal plate 15 is fixedly connected with the support column 2, the buffer rod 16 is slidably connected with the horizontal plate 15, a spring 18 is sleeved on the buffer rod 16, and the spring 18 is positioned between the positioning plate 14 and the horizontal plate 15 (see fig. 1 and 2); the transverse plate 15 is fixed through the supporting column 2, the transverse plate 15 supports the spring 18, the spring 18 provides elastic support for the positioning plate 14, so that when the energy accumulator vibrates in the moving process, the elastic support slows down the vibration of the energy accumulator, the vibration is buffered, the anti-vibration performance of the energy accumulator is improved, and the service life is prolonged.
The top of the supporting column 2 is provided with a threaded hole, a threaded rod 9 is in threaded connection with the inner wall of the threaded hole, the top of the lifting block 8 is fixedly provided with a bearing, and the bottom of the threaded rod 9 is fixedly connected with the inner ring of the bearing (see fig. 1 and 2); a vertically arranged slide bar 10 is arranged in the track groove 7, and the lifting block 8 is slidably sleeved on the slide bar 10. The lifting block 8 is driven to carry out lifting movement by manually rotating the threaded rod 9.
A cavity 19 is formed in the guide block 17, a second movable block 21 is slidably mounted in the cavity 19, the bottom of the buffer rod 16 extends into the cavity 19 and is fixedly connected with the second movable block 21, a vertical rod 20 which is vertically arranged is mounted in the cavity 19, and the second movable block 21 is slidably sleeved on the vertical rod 20 (see fig. 1 and 3); through buffer beam 16 and guide block 17 sliding connection for buffer beam 16 can move about in vertical direction, and guide block 17 provides the guide effect for buffer beam 16, and second movable block 21 and buffer beam 16 fixed connection, second movable block 21 slip cover are established on montant 20, realize buffer beam 16 and guide block 17's sliding connection, and stable in structure is firm.
A plurality of vertically arranged sliding holes are formed in the transverse plate 15, the bottom of the buffer rod 16 penetrates through the sliding holes, and the buffer rod 16 is connected with the inner walls of the sliding holes in a sliding mode (see fig. 1); the transverse plate 15 supports the spring 18, and the spring 18 provides elastic support for the positioning plate 14, so that when the energy accumulator generates vibration during moving, the elastic support can slow down the vibration of the energy accumulator and buffer the vibration.
When using, through energy storage ware body 1 and 2 sliding connection of support column, pulley 3 sets up on support column 2, make things convenient for the removal of whole energy storage ware, the energy storage ware can independently support, it carries out elevating movement to drive elevator 8 through manual rotation threaded rod 9, elevator 8 elevating movement drives actuating lever 6 motion and makes the inclination change of actuating lever 6 drive the angle modulation of arc pole 4, make friction block 5 and ground contact produce the friction, restrict the random movement of whole energy storage ware, fix the energy storage ware, thereby the convenience is fixed and is removed the energy storage ware, and the use quality is improved. The transverse plate 15 is fixed through the supporting column 2, the transverse plate 15 supports the spring 18, the spring 18 provides elastic support for the positioning plate 14, when the energy accumulator generates vibration in the moving process, the elastic support slows down the vibration of the energy accumulator, the vibration is buffered, the vibration resistance of the energy accumulator is improved, the service life is prolonged, the first movable block 13 is slidably sleeved on the groove 11, the sliding connection between the supporting column 2 and the energy accumulator body 1 is realized, the buffer rod 16 is slidably connected with the guide block 17, the buffer rod 16 can move in the vertical direction, the guide block 17 provides a guide effect for the buffer rod 16, the second movable block 21 is fixedly connected with the buffer rod 16, the second movable block 21 is slidably sleeved on the vertical rod 20, the sliding connection between the buffer rod 16 and the guide block 17 is realized, and the structure is stable and firm.
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 invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides an improved generation spring accumulator, includes energy storage ware body (1), its characterized in that: the energy accumulator is characterized in that two sides of the energy accumulator body (1) are slidably provided with vertically arranged support columns (2), pulleys (3) are installed at the bottoms of the support columns (2), arc-shaped rods (4) are hinged to the bottoms of the support columns (2), friction blocks (5) are hinged to the bottoms of the arc-shaped rods (4), track grooves (7) are formed in the support columns (2), lifting blocks (8) are slidably installed in the track grooves (7), driving rods (6) are hinged to the lifting blocks (8), the driving rods (6) are hinged to the arc-shaped rods (4), vertically arranged threaded rods (9) are installed on the support columns (2) in a threaded mode, the bottoms of the threaded rods (9) are rotatably connected with the lifting blocks (8), horizontally arranged positioning plates (14) and a plurality of guide blocks (17) are fixedly installed on the energy accumulator body (1), and vertically arranged buffer rods (16) are fixedly installed at the bottoms of the, bottom and guide block (17) sliding connection of buffer beam (16), be equipped with diaphragm (15) that the level set up between locating plate (14) and guide block (17), diaphragm (15) and support column (2) fixed connection, buffer beam (16) and diaphragm (15) sliding connection, the cover is equipped with spring (18) on buffer beam (16), spring (18) are located between locating plate (14) and diaphragm (15).
2. An improved spring loaded accumulator as claimed in claim 1, in which: the energy accumulator is characterized in that grooves (11) are formed in two sides of the energy accumulator body (1), guide rods (12) which are vertically arranged are fixedly mounted in the grooves (11), first movable blocks (13) are slidably sleeved on the guide rods (12), and the first movable blocks (13) are fixedly connected with the support columns (2).
3. An improved spring loaded accumulator as claimed in claim 1, in which: the top of support column (2) is seted up threaded hole, threaded rod (9) and the inner wall threaded connection of threaded hole, the top fixed mounting of lift piece (8) has the bearing, the bottom of threaded rod (9) and the inner circle fixed connection of bearing.
4. An improved spring loaded accumulator as claimed in claim 1, in which: a vertically arranged sliding rod (10) is installed in the track groove (7), and the lifting block (8) is slidably sleeved on the sliding rod (10).
5. An improved spring loaded accumulator as claimed in claim 1, in which: seted up cavity (19) on guide block (17), slidable mounting has second movable block (21) in cavity (19), the bottom of buffer beam (16) extend to in cavity (19) and with second movable block (21) fixed connection, install montant (20) of vertical setting in cavity (19), second movable block (21) slip cap is located on montant (20).
6. An improved spring loaded accumulator as claimed in claim 1, in which: the horizontal plate (15) is provided with a plurality of vertically arranged sliding holes, the bottom of the buffer rod (16) penetrates through the sliding holes, and the buffer rod (16) is connected with the inner walls of the sliding holes in a sliding mode.
Priority Applications (1)
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CN202020328186.4U CN212106402U (en) | 2020-03-17 | 2020-03-17 | Improved spring type energy accumulator |
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CN202020328186.4U CN212106402U (en) | 2020-03-17 | 2020-03-17 | Improved spring type energy accumulator |
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CN212106402U true CN212106402U (en) | 2020-12-08 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112727815A (en) * | 2021-01-04 | 2021-04-30 | 宁波市巴克蓄能器技术有限公司 | Novel energy accumulator |
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2020
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112727815A (en) * | 2021-01-04 | 2021-04-30 | 宁波市巴克蓄能器技术有限公司 | Novel energy accumulator |
CN112727815B (en) * | 2021-01-04 | 2023-04-18 | 宁波市巴克蓄能器技术有限公司 | Energy accumulator |
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