CN110768451A - Engineering motor installation base structure - Google Patents

Abstract

The invention discloses an engineering motor mounting base structure, which comprises a positioning base (1) and a mounting base (2) for butt joint with a motor; the positioning base (1) is integrally of a hollow box-shaped structure, two ends of the upper top surface of the positioning base (1) respectively extend upwards and vertically to form a first positioning boss (3) communicated with the inside of the positioning base, the end part of the upper top surface of the first positioning boss (3) extends upwards and vertically to form a second positioning boss (4) communicated with the inside of the positioning base, and the end part of the upper top surface of the second positioning boss (4) extends inwards and horizontally to form a third positioning boss (5). The long screw rod tension device is simple in installation structure, especially the internal spring can always keep an axial tension on the long screw rod, and the phenomenon that the long screw rod slides down is effectively avoided.

Description

Engineering motor installation base structure

Technical Field

The invention relates to the technical field related to engineering machinery, in particular to an engineering motor mounting base structure.

Background

At present, motors are mostly directly and fixedly installed on a specific motor installation seat, the peripheral working characteristic of the motor is known to be high-frequency vibration, bolts between the fixed motor and the motor seat are loosened and even fall off due to long-term high-frequency vibration, and a layer of spring gasket is added between nuts and nuts according to a common method aiming at the phenomenon.

Disclosure of Invention

The invention aims to provide an engineering motor mounting base structure which can effectively solve the problems in the background technology.

In order to solve the problems existing in the background technology, the device comprises a positioning base 1 and a mounting base 2 for butting with a motor;

the positioning base 1 is integrally of a hollow box-shaped structure, two ends of the upper top surface of the positioning base 1 respectively extend upwards and vertically to form a first positioning boss 3 communicated with the inside of the positioning base, the end part of the upper top surface of the first positioning boss 3 extends upwards and vertically to form a second positioning boss 4 communicated with the inside of the positioning base, the end part of the upper top surface of the second positioning boss 4 extends inwards and horizontally to form a third positioning boss 5, the end surface of the third positioning boss 5 is flush with the end surface of the first positioning boss 3, two sides of the base 1 are respectively welded and fixed with a side plate 6, and the upper top edge of the side plate 6 is flush with the upper top edge of the second positioning boss 4;

the mounting base 2 is integrally of a hollow box-shaped structure, the end faces of the two ends of the mounting base 2 can penetrate through the space between the two third positioning bosses 5 and the space between the two first positioning bosses 3 in a clearance mode, two sockets 7 which are symmetrical to each other are arranged inside the mounting base 2, one end, in mutual contact, of the two sockets 7 is provided with a positioning plate 8 which can be attached to the inner wall of the mounting base 2 in a clearance sliding fit mode, the end part of the positioning plate 8 extends outwards and vertically to form a positioning seat 9, the bottom surface of the positioning seat 9 is of an inclined plane type structure, an inclined plane between the two mutually attached positioning seats 9 forms an inverted V-shaped structure, the two ends of the mounting base 2 are provided with a notch through which the socket 7 can pass in a clearance mode, the bottom of the mounting base 2 is provided with a slot 10 corresponding to the driving device through, the two sides of each socket 7 are respectively provided with a first spring 11, and the, the end part of one end of the socket 7 opposite to the positioning plate 8 can be inserted between the lower bottom surface of the third positioning boss 5 and the upper top surface of the first positioning boss 3 with a gap;

the driving device comprises a driving plate 12 which can be attached to the end face of the first positioning boss 3 and can slide up and down, two ends of the bottom of the driving plate 12 respectively extend outwards horizontally to form a guide slide rail 13, a first guide slide groove 14 in clearance sliding fit with the guide slide rail 13 is formed in the end face of the first positioning boss 3, a positioning sleeve 15 is fixedly mounted at the end part of the guide slide rail 13, a second spring 16 is fixedly mounted at two ends of the lower bottom face of the driving plate 12 respectively, the end part of the second spring 16 penetrates through and extends into the positioning base 1, a driving seat 17 is fixedly mounted in the positioning base 1, a second guide slide groove 18 for allowing the driving seat 17 to pass through in a clearance is formed in the middle of the driving plate 12, and the top of the driving seat 17 is of an isosceles triangle structure corresponding to the inclined plane of the positioning seat 9.

The whole locating sleeve 15 is of a hollow circular tubular structure, a locating column 151 radially extends inwards from the inner wall of the locating sleeve, locating shaft rods 19 which are rotatably connected and matched with the inside of the locating base 1 are respectively installed at two ends of the inside of the locating base 1, the upper ends of the locating shaft rods 19 sequentially penetrate through the first locating bosses 3 and the second locating bosses 4 to be fixedly connected with the upper fixing plate 20 into a whole, the locating shaft rods 19 are in clearance sliding fit with the locating sleeve 15, a third guide sliding groove 21 which is spirally arranged is formed in the outer circular surface of the middle of the locating shaft rods 19, and the third guide sliding groove 21 is in clearance sliding fit with the locating column 151.

Two ends of the upper top surface of the mounting base 2 respectively extend outwards horizontally to form a mounting plate 22 which can be inserted between the lower bottom surface of the upper fixing plate 20 and the upper top surface of the third positioning boss 5 with a gap.

Connect soon through two long screw rods 23 between positioning base 1 and the installation base 2 and fix an organic whole, two long screw rods 23 set up respectively at positioning base 1 and installation base 2's both ends, and the tip of every long screw rod 23 passes upper fixed plate 20, mounting panel 22, third location boss 5, socket 7, and first location boss 3 connects soon with direction slide rail 13 and fixes an organic whole.

Due to the adoption of the technical scheme, the invention has the following beneficial effects: the installation structure is simple, especially, the inner spring can always keep an axial tension force on the long screw rod, and the phenomenon that the long screw rod slides down is effectively avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

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

fig. 3 is a perspective view of a positioning sleeve of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the technical scheme in the embodiment of the invention will be clearly and completely described below with reference to the attached drawings in the embodiment of the invention.

Referring to fig. 1-3, the present embodiment is realized by the following technical solution, which includes a positioning base 1 and a mounting base 2 for butt joint with a motor;

the positioning base 1 is integrally of a hollow box-shaped structure, two ends of the upper top surface of the positioning base 1 respectively extend upwards and vertically to form a first positioning boss 3 communicated with the inside of the positioning base, the end part of the upper top surface of the first positioning boss 3 extends upwards and vertically to form a second positioning boss 4 communicated with the inside of the positioning base, the end part of the upper top surface of the second positioning boss 4 extends inwards and horizontally to form a third positioning boss 5, the end surface of the third positioning boss 5 is flush with the end surface of the first positioning boss 3, two sides of the base 1 are respectively welded and fixed with a side plate 6, and the upper top edge of the side plate 6 is flush with the upper top edge of the second positioning boss 4;

the mounting base 2 is integrally of a hollow box-shaped structure, the end faces of the two ends of the mounting base 2 can penetrate through the space between the two third positioning bosses 5 and the space between the two first positioning bosses 3 in a clearance mode, two sockets 7 which are symmetrical to each other are arranged inside the mounting base 2, one end, in mutual contact, of the two sockets 7 is provided with a positioning plate 8 which can be attached to the inner wall of the mounting base 2 in a clearance sliding fit mode, the end part of the positioning plate 8 extends outwards and vertically to form a positioning seat 9, the bottom surface of the positioning seat 9 is of an inclined plane type structure, an inclined plane between the two mutually attached positioning seats 9 forms an inverted V-shaped structure, the two ends of the mounting base 2 are provided with a notch through which the socket 7 can pass in a clearance mode, the bottom of the mounting base 2 is provided with a slot 10 corresponding to the driving device through, the two sides of each socket 7 are respectively provided with a first spring 11, and the, the end part of one end of the socket 7 opposite to the positioning plate 8 can be inserted between the lower bottom surface of the third positioning boss 5 and the upper top surface of the first positioning boss 3 with a gap;

the driving device comprises a driving plate 12 which can be attached to the end face of the first positioning boss 3 and can slide up and down, two ends of the bottom of the driving plate 12 respectively extend outwards horizontally to form a guide slide rail 13, a first guide slide groove 14 in clearance sliding fit with the guide slide rail 13 is formed in the end face of the first positioning boss 3, a positioning sleeve 15 is fixedly mounted at the end part of the guide slide rail 13, a second spring 16 is fixedly mounted at two ends of the lower bottom face of the driving plate 12 respectively, the end part of the second spring 16 penetrates through and extends into the positioning base 1, a driving seat 17 is fixedly mounted in the positioning base 1, a second guide slide groove 18 for allowing the driving seat 17 to pass through in a clearance is formed in the middle of the driving plate 12, and the top of the driving seat 17 is of an isosceles triangle structure corresponding to the inclined plane of the positioning seat 9.

The whole locating sleeve 15 is of a hollow circular tubular structure, a locating column 151 radially extends inwards from the inner wall of the locating sleeve, locating shaft rods 19 which are rotatably connected and matched with the inside of the locating base 1 are respectively installed at two ends of the inside of the locating base 1, the upper ends of the locating shaft rods 19 sequentially penetrate through the first locating bosses 3 and the second locating bosses 4 to be fixedly connected with the upper fixing plate 20 into a whole, the locating shaft rods 19 are in clearance sliding fit with the locating sleeve 15, a third guide sliding groove 21 which is spirally arranged is formed in the outer circular surface of the middle of the locating shaft rods 19, and the third guide sliding groove 21 is in clearance sliding fit with the locating column 151.

Two ends of the upper top surface of the mounting base 2 respectively extend outwards horizontally to form a mounting plate 22 which can be inserted between the lower bottom surface of the upper fixing plate 20 and the upper top surface of the third positioning boss 5 with a gap.

Connect soon through two long screw rods 23 between positioning base 1 and the installation base 2 and fix an organic whole, two long screw rods 23 set up respectively at positioning base 1 and installation base 2's both ends, and the tip of every long screw rod 23 passes upper fixed plate 20, mounting panel 22, third location boss 5, socket 7, and first location boss 3 connects soon with direction slide rail 13 and fixes an organic whole.

The following will further explain the application method and the principle of the technical solution part in this embodiment with reference to the accompanying drawings:

firstly, a motor is installed on an installation base 2, then the motor and the installation base 2 are hoisted to the upper side of a positioning base 1 together, then a bottom gap of the installation base 2 is inserted between two third positioning bosses 5, a lower bottom surface of the installation base 2 is contacted with an upper top surface of a driving plate 12 in the descending process of the installation base 2 to drive the driving plate 12 to compress a second spring 16 to descend together, in the process, a driving seat 17 starts to be inserted between two positioning seats 9 through a slot 10, and a positioning plate 8 starts to compress the first spring 11 under the driving action of the driving seat 17 and drives a socket 7 to extend between the lower bottom surface of the third positioning boss 5 and the upper top surface of the first positioning boss 3 gradually;

in the process that the driving plate 12 compresses the second spring 16 to move downwards, the positioning shaft rod 19 is driven to rotate by the positioning sleeve 15 and the positioning column 151, the fixing plate 20 gradually rotates to the position right above the mounting plate 22 in the rotating process of the positioning shaft rod 19, and finally the end part of the long screw 23 sequentially penetrates through the upper fixing plate 20, the mounting plate 22, the third positioning boss 5, the socket 7, the first positioning boss 3 and the guide slide rail 13 from top to bottom to be connected and fixed into a whole, so that the purpose of quick disassembly while fixed mounting is achieved; after the installation, keep an axial tensile force to long screw 23 all the time under the effect of second spring 16, keep a radial tensile force to long screw 23 all the time under the effect of first spring 11, great improvement the some stable effect of installation.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will 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; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (4)

1. An engineering motor mounting base structure comprises a positioning base (1) and a mounting base (2) for butt joint with a motor; it is characterized in that

The positioning base (1) is integrally of a hollow box-shaped structure, two ends of the upper top surface of the positioning base (1) respectively extend upwards to vertically extend out of a first positioning boss (3) communicated with the inside of the positioning base, the end part of the upper top surface of the first positioning boss (3) extends upwards to vertically extend out of a second positioning boss (4) communicated with the inside of the positioning base, the end part of the upper top surface of the second positioning boss (4) extends inwards to horizontally extend out of a third positioning boss (5), the end surface of the third positioning boss (5) is flush with the end surface of the first positioning boss (3), two sides of the base (1) are respectively welded and fixed with a side plate (6), and the upper top edge of the side plate (6) is flush with the upper top edge of the second positioning boss (4);

the mounting base (2) is integrally of a hollow box-shaped structure, the end faces of the two ends of the mounting base (2) can penetrate through a gap between the two third positioning bosses (5) and between the two first positioning bosses (3), two symmetrical sockets (7) are arranged inside the mounting base (2), one end, in mutual contact, of the two sockets (7) is provided with a positioning plate (8) which can be attached to the inner wall of the mounting base (2) in a gap sliding fit mode, the end portion of the positioning plate (8) extends outwards to form a positioning seat (9), the bottom surface of the positioning seat (9) is of an inclined plane type structure, an inclined plane between the two mutually attached positioning seats (9) forms an inverted V-shaped structure, the two ends of the mounting base (2) are provided with slots through which the sockets (7) can pass through the gap, the bottom of the mounting base (2) is provided with slots (10) corresponding to the driving, two sides of each socket (7) are respectively provided with a first spring (11), two ends of each first spring (11) respectively prop against the inner wall of the mounting base (2) and the end surface of the positioning plate (8), and the end part of one end, opposite to the positioning plate (8), of each socket (7) can be inserted between the lower bottom surface of the third positioning boss (5) and the upper top surface of the first positioning boss (3) in a clearance manner;

the driving device comprises a driving plate (12) which can be attached to the end face of a first positioning boss (3) and can slide up and down, two ends of the bottom of the driving plate (12) respectively extend out of a guide sliding rail (13) outwards horizontally, a first guide sliding groove (14) which is in clearance sliding fit with the guide sliding rail (13) is formed in the end face of the first positioning boss (3), a positioning sleeve (15) is fixedly mounted at the end part of the guide sliding rail (13), a second spring (16) is fixedly mounted at two ends of the lower bottom face of the driving plate (12) respectively, the end part of the second spring (16) penetrates through and extends into the positioning base (1), a driving seat (17) is fixedly mounted in the positioning base (1), a second guide sliding groove (18) for the clearance of the driving seat (17) to pass through is formed in the middle part of the driving plate (12), and the top of the driving seat (17) is of an isosceles triangle structure corresponding to the inclined plane of the positioning seat (9.

2. The mounting base structure of the engineering motor according to claim 1, wherein the positioning sleeve (15) is a hollow circular tube-shaped structure, a positioning column (151) radially extends inwards from the inner wall of the positioning sleeve, positioning shaft rods (19) rotatably connected and matched with the inner portion of the positioning base (1) are respectively installed at two ends of the inner portion of the positioning base (1), the upper ends of the positioning shaft rods (19) sequentially penetrate through the first positioning bosses (3) and the second positioning bosses (4) to be fixedly connected with the upper fixing plate (20) into a whole, the positioning shaft rods (19) and the positioning sleeve (15) are in clearance sliding fit, a third guide chute (21) which is spirally arranged is formed in the outer circumferential surface of the middle portion of the positioning shaft rods (19), and the third guide chute (21) and the positioning column (151) are in clearance sliding fit.

3. The mounting base structure of the engineering motor according to claim 1, wherein the two ends of the upper top surface of the mounting base (2) are respectively extended horizontally outwards to form a mounting plate (22) which can be inserted between the lower bottom surface of the upper fixing plate (20) and the upper top surface of the third positioning boss (5) with a gap.

4. The mounting base structure of the engineering motor according to claim 1, wherein the positioning base (1) and the mounting base (2) are connected and fixed into a whole through two long screws (23), the two long screws (23) are respectively arranged at two ends of the positioning base (1) and the mounting base (2), and the end of each long screw (23) sequentially penetrates through the upper fixing plate (20), the mounting plate (22), the third positioning boss (5), the socket (7), the first positioning boss (3) and the guide slide rail (13) from top to bottom.

Images