CN218408316U - Shock absorption base for placing hydraulic station - Google Patents

Abstract

A damping base for placing a hydraulic station relates to the technical field of hydraulic stations, wherein a groove is formed in a main body plate, buffering mechanisms are respectively installed at four corners of the groove, a buffering plate is installed at a moving end of each buffering mechanism, a power generation mechanism is installed in the groove, a pressing end of the power generation mechanism is connected with the buffering plate, sliding grooves are respectively formed in the four corners of the buffering plate, a clamping mechanism is installed in each sliding groove, and an installation groove is formed in each buffering plate; a hydraulic pressure station place and use vibration damping mount, fix the hydraulic pressure station on the buffer board through clamping mechanism, make things convenient for fork truck to withdraw from through taking out insertion mechanism, cushion rocking that produces the hydraulic pressure station during operation through buffer mechanism, drive power generation mechanism through the buffer board and carry out work, collect the electric energy that power generation mechanism produced through the battery, rock the mechanical energy that is transformed into with the hydraulic pressure station during operation production, form resource recovery.

Description

Shock absorption base for placing hydraulic station

Technical Field

The utility model belongs to the technical field of the hydraulic pressure station technique and specifically relates to a hydraulic pressure station is placed and is used vibration damping mount.

Background

The hydraulic pressure station can take place vibrations at the during operation, however the spare part in the hydraulic pressure station can take place the damage of not equidimension under the environment of long-term vibrations, vibrations can make the pipeline in the hydraulic pressure station take place not hard up, influence the normal use at hydraulic pressure station, reduce the life at hydraulic pressure station simultaneously, hydraulic pressure station transports through fork truck in the open transit process, transport the position back, need the staff to push away the hydraulic pressure station, then fork truck just can withdraw from, this process makes the hydraulic pressure station press staff's foot very easily, there is the potential safety hazard.

SUMMERY OF THE UTILITY MODEL

In order to overcome not enough among the background art, the utility model discloses a hydraulic pressure station is placed and is used vibration damping mount, the utility model discloses a clamping mechanism fixes the hydraulic pressure station on the buffer board, makes things convenient for fork truck to withdraw from through taking out insertion mechanism, cushions rocking that produces the hydraulic pressure station during operation through buffer mechanism, drives power generation mechanism through the buffer board and carries out work, collects the electric energy that power generation mechanism produced through the battery, is changed into mechanical energy with rocking that the hydraulic pressure station during operation produced, forms the resource recovery.

In order to realize the utility model aims at providing a following technical scheme:

the utility model provides a hydraulic pressure station is placed and is used vibration damping mount, includes the main part board, be equipped with the recess on the main part board, buffer gear is installed respectively in the four corners of recess, install the buffer board on buffer gear's the removal end, install power generation mechanism in the recess, power generation mechanism's the end of pressing is connected with the buffer board, the four corners of buffer board is equipped with the sliding tray respectively, install clamping mechanism in the sliding tray, be equipped with the mounting groove on the buffer board, the mounting groove is located one side of sliding tray, install in the mounting groove and take out and insert the mechanism, be equipped with the battery in the recess, the input of battery is connected with power generation mechanism's output electricity, fixedly connected with switch group on the main part board, switch group's input is connected with the output electricity of battery, switch group's output is connected with clamping mechanism's input electricity.

The central axis of the buffer mechanism coincides with the central axis of the main body plate.

Buffer gear includes the locating rack, the locating rack is located recess and fixed connection on the bulk substance board, fixed connection third telescopic link and third spring in the locating rack, the position of third telescopic link is corresponding and cup joint with the position of third spring, the flexible fixedly connected with removal frame of serving of third telescopic link and third spring, the removal frame is located locating rack and sliding connection, the removal frame internal rotation is connected with presses the depression bar, the one end of pressing the depression bar rotates with the mount to be connected, the mount is located on the buffer board and fixed connection.

The clamping mechanism comprises an electric telescopic rod, the electric telescopic rod is located in a sliding groove in the buffer board and is fixedly connected with the sliding groove, a moving block is fixedly connected to the telescopic end of the electric telescopic rod and is located in the sliding groove in the buffer board and is in sliding connection with the sliding groove in the buffer board, a clamping board is fixedly connected to the moving block, and the lower surface of the clamping board is not in contact with the upper surface of the buffer board.

The drawing and inserting mechanism comprises a first telescopic rod and a first spring, the number of the first telescopic rod and the number of the first spring are four, the four first telescopic rods and the first spring are respectively located on four corners of the mounting groove on the buffer board and fixedly connected, the position of the first telescopic rod corresponds to the position of the first spring and is sleeved with the first spring, and the telescopic ends of the first telescopic rod and the first spring are fixedly connected with contact plates.

The power generation mechanism comprises two second telescopic rods, two second springs and a permanent magnet generator, the two second telescopic rods and the two second springs are both positioned in the groove on the main body plate and are fixedly connected, the positions of the second telescopic rods correspond to the positions of the second springs and are sleeved, the telescopic ends of the second telescopic rods and the second springs are connected with the buffer plate, the permanent magnet generator is positioned in the groove on the main body plate and is fixedly connected, the permanent magnet generator is positioned in the groove on the main body plate and is fixedly connected, the output end of the permanent magnet generator is electrically connected with the input end of the storage battery, the permanent magnet generator is connected with the rotating plate through a motor shaft, the rotating plate is fixedly connected with a connecting rod, the central axis of connecting rod and the central axis of rotor plate do not coincide, it is connected with the transfer line to rotate on the connecting rod, the one end of transfer line is rotated and is connected with U type frame, U type frame is located the buffer board and fixed connection.

Since the technical scheme is used, the utility model discloses following beneficial effect has:

a hydraulic pressure station place and use vibration damping mount, fix the hydraulic pressure station on the buffer board through clamping mechanism, make things convenient for fork truck to withdraw from through taking out insertion mechanism, cushion rocking that produces the hydraulic pressure station during operation through buffer mechanism, drive power generation mechanism through the buffer board and carry out work, collect the electric energy that power generation mechanism produced through the battery, rock the mechanical energy that is transformed into with the hydraulic pressure station during operation production, form resource recovery.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

1. a main body plate; 2. a drawing and inserting mechanism; 201. a first telescopic rod; 202. a first spring; 203. a contact plate; 3. a power switch group; 4. a power generation mechanism; 401. a second telescopic rod; 402. a second spring; 403. a permanent magnet generator; 404. a rotating plate; 405. a transmission rod; 406. a connecting rod; 5. a storage battery; 6. a buffer plate; 7. a buffer mechanism; 701. a positioning frame; 702. a third telescopic rod; 703. a movable frame; 704. a pressing lever; 705. a fixed mount; 706. a third spring; 8. a clamping mechanism; 801. an electric telescopic rod; 802. a moving block; 803. and (5) clamping the plate.

Detailed Description

The invention will be explained in more detail by the following examples, which disclose the invention and are intended to protect all technical improvements within the scope of the invention.

Combine attached 1~2 a hydraulic pressure station place and use vibration damping mount, including main part board 1, be equipped with the recess on main part board 1, buffer gear 7 is installed respectively in the four corners of recess, rocks through buffer gear 7 to hydraulic pressure station during operation production and cushions, install buffer plate 6 on buffer gear 7's the removal end, install power generation mechanism 4 in the recess, power generation mechanism 4's the end of pressing is connected with buffer plate 6, drives power generation mechanism 4 through buffer plate 6 and carries out work, buffer plate 6's four corners is equipped with the sliding tray respectively, install clamping mechanism 8 in the sliding tray, be equipped with the mounting groove on buffer plate 6, the mounting groove is located one side of sliding tray, install in the mounting groove and take out and insert mechanism 2, be equipped with battery 5 in the recess, battery 5's input is connected with power generation mechanism 4's output electricity, collects the electric energy that power generation mechanism 4 produced through battery 5, fixedly connected with switch group 3 on main part board 1, switch group 3's input is connected with battery 5's output electricity, switch group's 3 output is connected with clamping mechanism 8 input electricity.

The position of the central axis of the buffer mechanism 7 coincides with the position of the central axis of the main body plate 1.

Buffer gear 7 includes locating rack 701, locating rack 701 is located recess on main body board 1 and fixed connection, fixed connection third telescopic link 702 and third spring 706 in the locating rack 701, the position of third telescopic link 702 corresponds and cup joints with the position of third spring 706, fixedly connected with removes frame 703 on the flexible end of third telescopic link 702 and third spring 706, remove frame 703 is located locating rack 701 and sliding connection, remove frame 703 internal rotation and be connected with and press the depression bar 704, the one end and the mount 705 rotation of pressing the depression bar 704 are connected, mount 705 is located buffer board 6 and fixed connection.

The clamping mechanism 8 comprises an electric telescopic rod 801, the electric telescopic rod 801 is located in a sliding groove in the buffer board 6 and fixedly connected with the sliding groove, a moving block 802 is fixedly connected to the telescopic end of the electric telescopic rod 801, the moving block 802 is located in the sliding groove in the buffer board 6 and slidably connected with the sliding groove, a clamping board 803 is fixedly connected to the moving block 802, and the lower surface of the clamping board 803 is not in contact with the upper surface of the buffer board 6.

The drawing and inserting mechanism 2 comprises a first telescopic rod 201 and a first spring 202, the number of the first telescopic rod 201 and the number of the first spring 202 are four, the four first telescopic rods 201 and the four first springs 202 are respectively located on four corners of the mounting groove on the buffer board 6 and fixedly connected, the position of the first telescopic rod 201 corresponds to the position of the first spring 202 and is sleeved with the first spring 202, and the telescopic ends of the first telescopic rods 201 and the first spring 202 are fixedly connected with contact plates 203.

The power generation mechanism 4 comprises two second telescopic rods 401, two second springs 402 and two permanent magnet generators 403, the number of the second telescopic rods 401 and the number of the second springs 402 are two, the two second telescopic rods 401 and the two second springs 402 are both located in grooves on the main body plate 1 and fixedly connected, the positions of the second telescopic rods 401 correspond to the positions of the second springs 402 and are sleeved, the telescopic ends of the second telescopic rods 401 and the second springs 402 are connected with the buffer plate 6, the permanent magnet generators 403 are located in the grooves on the main body plate 1 and fixedly connected, the output ends of the permanent magnet generators 403 are electrically connected with the input end of the storage battery 5, bridge rectifiers are arranged on the permanent magnet generators 403 to convert induced currents generated by the permanent magnet generators 403 into direct currents, the storage battery 5 is convenient to store, the permanent magnet generators 403 are connected with the rotating plate 404 through the rotating plate 404, the rotating plate 404 is fixedly connected with a connecting rod 406, the central axis of the connecting rod 406 is coincident with the central axis of the rotating plate 404, a transmission rod 405 is rotatably connected with one end of the U-shaped frame, and the U-shaped frame 6 is located on the motor shaft and is connected with the buffer plate 6.

A vibration damping mount for placing hydraulic station, when in use, carry the hydraulic station to buffer board 6 through fork truck, fork shovel of fork truck is located contact plate 203, and press contact plate 203, make fork shovel of fork truck be located the mounting groove on buffer board 6, make things convenient for fork truck to withdraw from, start electric telescopic handle 801 through switch group 3, electric telescopic handle 801 drives clamping plate 803 through movable block 802 and removes, make clamping plate 803 block on the edges and corners of four sides of hydraulic station, fix the hydraulic station on buffer board 6 through clamping plate 803, hydraulic station can drive buffer board 6 and cushion together at the during operation, buffer board 6 transmits the power of rocking to pressing down the pole 704 and removes, cushion the power of pressing down the pole 704 transmission through third telescopic link 702 and third spring 706, cushion the power that receives in the middle of buffer board 6 through second telescopic link 401 and second spring 402, buffer board 6 drives transfer rod 405 through U type frame and moves down while rocking, transfer rod 405 drives rotating plate 404 through the connecting rod 404 and rotates, permanent magnet generator 403 drives permanent magnet generator 403 and produces the electricity and carries storage battery 5.

The invention is not described in detail in the prior art, and although the invention has been specifically shown and described in connection with the preferred embodiments, the method and the way of implementing the technical solution are numerous, and only the preferred embodiments of the invention have been described above, it should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims, which are within the scope of the invention.

Claims (6)

1. The utility model provides a hydraulic pressure station is placed and is used vibration damping mount, includes main part board (1), characterized by: be equipped with the recess on main part board (1), buffer gear (7) are installed respectively in the four corners of recess, install buffer board (6) on the removal end of buffer gear (7), install power generation mechanism (4) in the recess, the end of pressing of power generation mechanism (4) is connected with buffer board (6), the four corners of buffer board (6) is equipped with the sliding tray respectively, clamping mechanism (8) are installed to the sliding tray, be equipped with the mounting groove on buffer board (6), the mounting groove is located one side of sliding tray, install in the mounting groove and take out insertion mechanism (2), be equipped with battery (5) in the recess, the input of battery (5) is connected with the output electricity of power generation mechanism (4), fixedly connected with switch group (3) on main part board (1), the input of switch group (3) is connected with the output electricity of battery (5), the output of switch group (3) is connected with the input electricity of clamping mechanism (8).

2. The hydraulic station placing damper base according to claim 1, wherein: the position of the central axis of the buffer mechanism (7) is coincident with the position of the central axis of the main body plate (1).

3. The hydraulic station placing damper base according to claim 1, wherein: buffer gear (7) include locating rack (701), locating rack (701) are located recess on main part board (1) and fixed connection, fixed connection third telescopic link (702) and third spring (706) in locating rack (701), the position of third telescopic link (702) and the position of third spring (706) are corresponding and cup joint, fixedly connected with removes frame (703) on the flexible end of third telescopic link (702) and third spring (706), remove frame (703) and be located locating rack (701) and sliding connection, removal frame (703) internal rotation is connected with and presses down pressure bar (704), the one end and the mount (705) of pressing down pressure bar (704) rotate to be connected, mount (705) are located buffer board (6) and fixed connection.

4. The hydraulic station placement vibration damping mount according to claim 1, wherein: the clamping mechanism (8) comprises an electric telescopic rod (801), the electric telescopic rod (801) is located in a sliding groove in the buffer board (6) and fixedly connected with the sliding groove, a movable block (802) is fixedly connected to the telescopic end of the electric telescopic rod (801), the movable block (802) is located in the sliding groove in the buffer board (6) and slidably connected with the sliding groove, a clamping board (803) is fixedly connected to the movable block (802), and the lower surface of the clamping board (803) is not in contact with the upper surface of the buffer board (6).

5. The hydraulic station placing damper base according to claim 1, wherein: draw and insert mechanism (2) including first telescopic link (201) and first spring (202), the quantity of first telescopic link (201) and first spring (202) is four, and four first telescopic links (201) and first spring (202) are located the four corners of mounting groove and fixed connection on buffer board (6) respectively, the position of first telescopic link (201) and the position of first spring (202) are corresponding and cup joint, fixedly connected with contact plate (203) are served in the flexible of first telescopic link (201) and first spring (202).

6. The hydraulic station placement vibration damping mount according to claim 1, wherein: the power generation mechanism (4) comprises two second telescopic rods (401), two second springs (402) and a permanent magnet generator (403), the number of the second telescopic rods (401) and the number of the second springs (402) are two, the two second telescopic rods (401) and the two second springs (402) are both located in grooves in the main body plate (1) and fixedly connected, the positions of the second telescopic rods (401) correspond to the positions of the second springs (402) and are sleeved, the telescopic ends of the second telescopic rods (401) and the second springs (402) are connected with the buffer plate (6), the permanent magnet generator (403) is located in the grooves in the main body plate (1) and is fixedly connected, the output end of the permanent magnet generator (403) is electrically connected with the input end of the storage battery (5), the permanent magnet generator (403) is connected with the rotating plate (404) through a motor shaft, the rotating plate (404) is fixedly connected with a connecting rod (406), the central axis of the connecting rod (406) is not coincident with the central axis of the rotating plate (404), one end of the connecting rod (405) is connected with a U-shaped frame (405), and the U-shaped frame (6) is connected with the buffer plate (6).

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