CN113803608B

CN113803608B - Electromechanical device supporting seat

Info

Publication number: CN113803608B
Application number: CN202111156787.7A
Authority: CN
Inventors: 林悦鑫
Original assignee: China Construction Industrial and Energy Engineering Group Co Ltd
Current assignee: China Construction Industrial and Energy Engineering Group Co Ltd
Priority date: 2021-09-30
Filing date: 2021-09-30
Publication date: 2023-06-09
Anticipated expiration: 2041-09-30
Also published as: CN113803608A

Abstract

The invention is applicable to the field of electromechanical equipment, and provides an electromechanical equipment supporting seat, which comprises a fixed seat and further comprises: the damping mechanism is connected with the fixed seat and is used for counteracting the vibration force received by the fixed seat; the supporting mechanism comprises a mechanism box which is fixedly connected with the damping mechanism, and a telescopic mechanism capable of performing telescopic propulsion and a fixing mechanism capable of adjusting the self height so as to contact and support the inclined ground are arranged in the mechanism box; the fixing mechanism is rotationally connected with the telescopic mechanism; the electromechanical equipment supporting seat drives the fixing mechanism to stretch and push through the telescopic mechanism, so that the fixing mechanism adjusts the height of the electromechanical equipment supporting seat to be in contact with the inclined ground for supporting, and the electromechanical equipment is stably placed on the inclined ground; meanwhile, the vibration force borne by the fixing seat is reduced through the damping mechanism, so that the electromechanical equipment is kept stable.

Description

Electromechanical device supporting seat

Technical Field

The invention belongs to the field of electromechanical equipment, and particularly relates to an electromechanical equipment supporting seat.

Background

Electromechanical devices generally refer to mechanical, electrical and electrical automation devices, and in construction, are commonly referred to as mechanical and plumbing devices other than geotechnical, woodworking, rebar, and mud. The multi-finger type electronic device is different from hardware, and can realize a finished product with certain functions. With the continuous improvement of the living standard of people, the demands of people for electromechanical equipment in daily life are increasing. The advanced electromechanical equipment not only can greatly improve labor productivity, lighten labor intensity, improve production environment and finish work which cannot be finished by manpower, but also is used as one of national industrial foundations, and has direct and important influence on the development of national economy and the improvement of science, technology and national defense strength.

In order to avoid the technical problems, it is necessary to provide an electromechanical device supporting seat capable of enabling the electromechanical device to be stably placed so as to overcome the defects in the prior art.

Disclosure of Invention

The invention aims to provide an electromechanical device supporting seat, which aims to solve the problem that the electromechanical device cannot be stably placed due to uneven ground when the existing electromechanical device is placed.

The invention is realized in such a way that the electromechanical equipment supporting seat comprises a fixed seat and further comprises:

the damping mechanism is connected with the fixed seat and is used for resolving the vibration force received by the fixed seat;

the supporting mechanism comprises a mechanism box, the mechanism box is fixedly connected with the damping mechanism, and a telescopic mechanism capable of performing telescopic propulsion and a fixing mechanism capable of adjusting the height of the supporting mechanism so as to contact and support the inclined ground are arranged in the mechanism box;

the fixing mechanism is rotationally connected with the telescopic mechanism.

According to a further technical scheme, the telescopic mechanism comprises push rod assemblies capable of moving relative to the mechanism box and driving assemblies for driving all the push rod assemblies to move synchronously, and the push rod assemblies are used for pushing the fixing mechanism connected with the push rod assemblies in a transmission mode to contact and support the inclined ground.

Further technical scheme, drive assembly is including the driving piece that is used for providing the drive power, all is provided with a transfer line between every two push rod subassemblies, is provided with No. two transfer lines between two adjacent transfer lines, be connected with first transfer line between driving piece and No. two transfer lines, the both ends of a transfer line respectively with the corresponding push rod subassembly between the transmission be connected with the second transfer line, the both ends of No. two transfer lines respectively with one side a transfer line between the transmission be connected with the third transfer line.

Further technical scheme, the push rod subassembly includes the sleeve, the sleeve rotates with the interior terminal surface of mechanism case to be connected, threaded connection has the push rod in the sleeve, second driving medium transmission connection is between sleeve and transmission pole, the one end and the fixed establishment fixed connection of push rod.

Further technical scheme, fixed establishment includes the shell, the shell rotates with the mechanism case to be connected, the one end of push rod rotates and is connected with the gear, the interior terminal surface sliding connection of shell has two rack boards, rack board all with gear engagement transmission, the one end of every rack board all rotates and is connected with the extension board, be connected with spacing subassembly between shell and the mechanism case.

Further technical scheme, spacing subassembly includes the locating lever, the side terminal surface threaded connection of locating lever and base case, the side terminal surface annular of shell is provided with the locating hole, the one end of locating lever is pegged graft in the locating hole.

Further technical scheme, damper includes the base case, base case and mechanism case fixed connection, fixing base sliding connection is in the base case, be connected with a plurality of elasticity telescopic links between fixing base and base case, the side end face of fixing base is connected with the slant supporting component.

Further technical scheme, the diagonal bracing subassembly includes the movable rod, the one end and the side terminal surface swing joint of fixing base of movable rod, the other end swing joint of movable rod has the slider, slider sliding connection is in the spout of base incasement terminal surface, be connected with the elastic component between the inner terminal surface of slider and spout.

Compared with the prior art, the invention has the following beneficial effects:

according to the electromechanical equipment supporting seat provided by the invention, the telescopic mechanism drives the fixing mechanism to carry out telescopic propulsion, so that the fixing mechanism adjusts the self height to be in contact with and support with the inclined ground, and the electromechanical equipment is stably placed on the inclined ground; meanwhile, the vibration force borne by the fixing seat is reduced through the damping mechanism, so that the electromechanical equipment is kept stable.

Drawings

FIG. 1 is a schematic view of a support base for an electromechanical device according to the present invention;

FIG. 2 is an enlarged schematic view of the area A in FIG. 1;

FIG. 3 is a cross-sectional view taken along the direction B-B in FIG. 1;

FIG. 4 is a schematic illustration of the connection of rack plate to support plate in accordance with the present invention;

fig. 5 is a three-dimensional schematic of the housing of the present invention.

In the accompanying drawings: the device comprises a fixed seat 1, a mechanism box 2, a first transmission rod 3, a second transmission rod 4, a sleeve 5, a push rod 6, a shell 7, a gear 8, a rack plate 9, a support plate 10, a positioning hole 11, a positioning rod 12, a base box 13, an elastic telescopic rod 14, a movable rod 15, a sliding piece 16, an alternating current motor 17, a first bevel gear transmission pair 18, a second bevel gear transmission pair 19 and a third bevel gear transmission pair 20.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The following describes the specific implementation of the present invention in detail with reference to specific embodiments (in the specification, the first transmission member, the second transmission member, and the third transmission member may be bevel gear pairs or bevel gear pairs, and as a preferred embodiment of the present invention, the first transmission member, the second transmission member, and the third transmission member are a first bevel gear pair 18, a second bevel gear pair 19, and a third bevel gear pair 20, respectively).

As shown in fig. 1, the support seat for an electromechanical device provided by the invention comprises a fixing seat 1, and further comprises:

the damping mechanism is connected with the fixed seat 1 and is used for counteracting the vibration force received by the fixed seat 1;

the supporting mechanism comprises a mechanism box 2, the mechanism box 2 is fixedly connected with the damping mechanism, and a telescopic mechanism capable of performing telescopic propulsion and a fixing mechanism capable of adjusting the height of the supporting mechanism so as to contact and support the inclined ground are arranged in the mechanism box 2;

the fixing mechanism is rotationally connected with the telescopic mechanism;

the electromechanical equipment supporting seat drives the fixing mechanism to stretch and push through the telescopic mechanism, so that the fixing mechanism adjusts the height of the electromechanical equipment to be in contact with and supported by the inclined ground, and the supporting position of the fixing mechanism can be adjusted by rotating the fixing mechanism according to the inclined position of the road surface, so that the electromechanical equipment is stably placed on the inclined ground; meanwhile, the vibration force borne by the fixing seat 1 is reduced through the damping mechanism, so that the electromechanical equipment is kept stable.

In the embodiment of the present invention, as shown in fig. 1, as a preferred embodiment of the present invention, the telescopic mechanism includes a push rod assembly capable of moving relatively to the mechanism box 2 and a driving assembly for driving all push rod assemblies to move synchronously, and the push rod assembly is used for pushing the fixing mechanism connected with the push rod assembly in a transmission manner to contact and support with the inclined ground; all push rod assemblies are driven to synchronously move through the driving assembly, and meanwhile, the push rod assemblies push the fixing mechanism in transmission connection with the push rod assemblies to contact and support the inclined ground.

In the embodiment of the invention, the driving piece can be a rack plate, the side end surface of the mechanism box 2 is rotationally connected with a gear transmission pair, two sides of the gear transmission pair are respectively and slidably connected with a rack plate, the gear transmission pair is respectively meshed with the rack plates at two sides for transmission, each rack plate is in transmission connection with a push rod component at one side of the rack plate, the gear transmission pair is in transmission connection with a driving motor, the gear transmission pair is driven by the driving motor to rotate, and the gear transmission pair drives the rack plates at two sides of the gear transmission pair to synchronously slide at the side end surface of the mechanism box 2, so that the two rack plates synchronously drive the push rod component; as shown in fig. 1-2, as a preferred embodiment of the present invention, the driving assembly includes a driving member for providing a driving force, where the driving member may be a dc motor or an ac motor, as a preferred embodiment of the present invention, the driving member is an ac motor 17, a first transmission rod 3 is disposed between every two push rod assemblies, a second transmission rod 4 is disposed between two adjacent first transmission rods 3, a first bevel gear transmission pair 18 is connected between the ac motor 17 and the second transmission rod 4, a second bevel gear transmission pair 19 is connected between two ends of the first transmission rod 3 and corresponding push rod assemblies, and a third bevel gear transmission pair 20 is connected between two ends of the second transmission rod 4 and one first transmission rod 3; the alternating current motor 17 drives the second transmission rod 4 to rotate through the first bevel gear transmission pair 18, the second transmission rod 4 drives the first transmission rods 3 on two sides of the second transmission rod to synchronously rotate through the third bevel gear transmission pair 20, and the first transmission rods 3 drive push rod assemblies on two ends of the first transmission rod to synchronously move through the second bevel gear transmission pair 19.

In the embodiment of the invention, the push rod assembly comprises a sleeve rotationally connected with the inner end surface of the mechanism box 2, a spiral groove is formed in the inner side of the sleeve, a slide rod is connected in the sleeve in a sliding manner, an inserted rod is fixedly connected to the side end of the slide rod, the inserted rod is inserted into the spiral groove, and the inserted rod is driven to slide along the spiral groove through the rotation of the sleeve, so that the inserted rod is pushed to vertically move; as shown in fig. 1, as a preferred embodiment of the present invention, the push rod assembly comprises a sleeve 5, the sleeve 5 is rotatably connected with the inner end surface of the mechanism box 2, a push rod 6 is screwed in the sleeve 5, the second transmission member is in transmission connection between the sleeve 5 and the first transmission rod 3, and one end of the push rod 6 is fixedly connected with the fixing mechanism; the sleeve 5 rotates under the transmission action of the second bevel gear transmission pair 19, and the sleeve 5 drives the push rod 6 in threaded connection to vertically lift.

In the embodiment of the invention, the fixing mechanism can be elastic telescopic rods connected to the side end surfaces of the mechanism box 2, one end of each elastic telescopic rod is fixedly connected with a support, and all the supports can be driven to contact and support with the ground through the elastic telescopic rods; as shown in fig. 1 and fig. 3 to 5, as a preferred embodiment of the present invention, the fixing mechanism includes a housing 7, the housing 7 is rotatably connected with the mechanism box 2, one end of the push rod 6 is rotatably connected with a gear 8, an inner end surface of the housing 7 is slidably connected with two rack plates 9, the rack plates 9 are engaged with the gear 8 for transmission, one end of each rack plate 9 is rotatably connected with a support plate 10, and a limiting component is connected between the housing 7 and the mechanism box 2; the push rod 6 drives the gear 8 fixedly connected with the push rod to vertically move, the gear 8 drives the two rack plates 9 which are in meshed transmission to vertically move, when the support plate 10 connected with one rack plate 9 is in contact with the ground for supporting, the support plate 10 is subjected to reverse thrust to drive the gear 8 to rotate, so that the gear 8 drives the other rack plate 9 to vertically move, and the other rack plate 9 drives the support plate 10 to be in contact with the ground for supporting.

In the embodiment of the invention, the limiting component may be an elastic telescopic rod fixedly connected with the base box 2, one end of the elastic telescopic rod is fixedly connected with a pressing block, the pressing block is in sliding connection with the side end face of the shell, the pressing block extrudes and fixes the shell under the driving of the elastic telescopic rod, as shown in fig. 1, 3 and 5, as a preferred embodiment of the invention, the limiting component comprises a positioning rod 12, the positioning rod 12 is in threaded connection with the side end face of the mechanism box 2, the side end face of the shell 7 is annularly provided with a positioning hole 11, and one end of the positioning rod 12 is inserted into the positioning hole 11; the positioning rod 12 is rotated, the positioning rod 12 vertically moves through the screw transmission with the mechanism box 2, and the positioning rod 12 is fixed with the positioning hole 11 through the insertion and the fixation to fix the shell 7.

In this embodiment of the present invention, the damping mechanism may be a spring connected between the base box 13 and the fixed base 1, as shown in fig. 1, as a preferred embodiment of the present invention, the damping mechanism includes a base box 13, the base box 13 is fixedly connected with the mechanism box 2, the fixed base 1 is slidably connected in the base box 13, a plurality of elastic telescopic rods 14 are connected between the fixed base 1 and the base box 13, a side end surface of the fixed base 1 is connected with an oblique support component, and when the electromechanical device receives a vibration force, the fixed base 1 slides in the base box 13, and the elastic telescopic rods 14 receive the vibration force to compress, so as to absorb the vibration force.

In the embodiment of the invention, the inclined support component comprises a guide rod fixedly connected with the fixed seat 1, a sleeve is slidably connected to the outer side of the guide rod, a spring is connected between one end of the sleeve and the side end surface of the fixed seat 1, a connecting rod is movably connected between the sleeve and the base box 13, and the fixed seat 1 is inclined supported by the connecting rod; as shown in fig. 1, as a preferred embodiment of the present invention, the diagonal support assembly includes a movable rod 15, one end of the movable rod 15 is movably connected with a side end surface of the fixed seat 1, the other end of the movable rod 15 is movably connected with a sliding member 16, the sliding member 16 is slidably connected in a chute on an inner end surface of the base box 13, an elastic member, which may be an elastic telescopic rod or a spring, is connected between the sliding member 16 and an inner end surface of the chute, and as a preferred embodiment of the present invention, the elastic member is a spring 21, when the fixed seat 1 receives vibration, the fixed seat 1 is supported diagonally by the movable rod 15, and meanwhile, the movable rod 15 pushes the sliding member 16 to slide along the chute under the action of the vibration force, so that the spring 21 is stressed and compressed to counteract the vibration force.

According to the electromechanical equipment supporting seat, the alternating current motor 17 drives the second transmission rod 4 to rotate through the first bevel gear transmission pair 18, the second transmission rod 4 drives the first transmission rods 3 on two sides of the second transmission rod to synchronously rotate through the third bevel gear transmission pair 20, the first transmission rod 3 drives the sleeves 5 on two ends of the first transmission rod to synchronously move through the second bevel gear transmission pair 19, the sleeves 5 drive the push rods 6 in threaded connection to vertically lift, the push rods 6 drive the gears 8 fixedly connected with the push rods to vertically move, the gears 8 drive the gears 9 in meshed transmission to vertically move, when the support plate 10 connected with one of the rack plates 9 is in contact with the ground, the support plate 10 is driven by reverse thrust to rotate by the gears 8, so that the gears 8 drive the other rack plate 9 to vertically move, the support plate 10 is driven by the other rack plate 9 to be in contact with the ground, the shell 7 is rotated, the rack plates 9 and the gears 8 are driven by the shell 7 to rotate, and the positions of the support plate 10 can be adjusted according to the inclination direction of the bottom surface.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. An electromechanical device supporting seat, includes the fixing base, its characterized in that still includes:

the fixing mechanism is rotationally connected with the telescopic mechanism;

the telescopic mechanism comprises a push rod assembly capable of relatively moving with the mechanism box, and the push rod assembly is used for pushing a fixed mechanism in transmission connection with the push rod assembly to contact and support the inclined ground; and a driving assembly for driving all the push rod assemblies to synchronously move;

the driving assembly comprises driving pieces for providing driving force, a first transmission rod is arranged between every two push rod assemblies, a second transmission rod is arranged between every two adjacent first transmission rods, a first transmission piece is connected between the driving pieces and the second transmission rods, two ends of the first transmission rod are respectively in transmission connection with corresponding push rod assemblies, and two ends of the second transmission rod are respectively in transmission connection with a third transmission piece between one side of the first transmission rod;

the push rod assembly comprises a sleeve, the sleeve is rotationally connected with the inner end surface of the mechanism box, a push rod is connected in the sleeve in a threaded manner, the second transmission piece is in transmission connection between the sleeve and the first transmission rod, and one end of the push rod is fixedly connected with the fixing mechanism;

the fixing mechanism comprises a shell, the shell is rotationally connected with the mechanism box, one end of the push rod is rotationally connected with a gear, the inner end face of the shell is slidably connected with two rack plates, the rack plates are meshed with the gear for transmission, one end of each rack plate is rotationally connected with a support plate, and a limiting assembly is connected between the shell and the mechanism box;

the limiting assembly comprises a positioning rod, the positioning rod is in threaded connection with the side end face of the base box, a positioning hole is formed in the side end face of the shell in an annular mode, and one end of the positioning rod is inserted into the positioning hole.

2. The electromechanical device supporting base of claim 1, wherein the damping mechanism comprises a base box, the base box is fixedly connected with the mechanism box, the fixing base is slidably connected in the base box, a plurality of elastic telescopic rods are connected between the fixing base and the base box, and an inclined supporting component is connected to the side end face of the fixing base.

3. The electromechanical equipment supporting seat according to claim 2, wherein the diagonal supporting member comprises a movable rod, one end of the movable rod is movably connected with the side end face of the fixed seat, the other end of the movable rod is movably connected with a sliding member, the sliding member is slidably connected in a chute on the inner end face of the base box, and an elastic member is connected between the sliding member and the inner end face of the chute.