CN112065713B

CN112065713B - Quick mosaic structure of motor element

Info

Publication number: CN112065713B
Application number: CN202010969271.3A
Authority: CN
Inventors: 高海
Original assignee: Changzhou Dehuichang Precision Machinery Co ltd
Current assignee: Changzhou Dehuichang Precision Machinery Co ltd
Priority date: 2020-09-15
Filing date: 2020-09-15
Publication date: 2022-06-24
Anticipated expiration: 2040-09-15
Also published as: CN112065713A

Abstract

The invention discloses a quick splicing structure of a motor assembly, which comprises a water pump motor main body, a fan cover assembly, an annular connecting member, a sleeve ring and a connecting and locking mechanism, wherein the water pump motor main body is connected with the fan cover assembly through the annular connecting member; the end part of the connecting end of the water pump motor main body is symmetrically provided with the first connecting blocks in an integrated forming mode, the water pump motor is assembled and connected with the fan cover assembly in the working process, the motor main body and the fan cover assembly can be quickly assembled through the arranged middle connecting member, namely the annular connecting member, so that the assembling work of the water pump motor is improved, the quick disassembling work can be quickly carried out, the operation is simple and convenient, the convenience is brought to the later-stage disassembling detection, maintenance and other work of the motor and the fan cover assembly, the later-stage detection and maintenance are ensured, the normal work of the motor cannot be influenced, and the economic benefit of the work of the motor is ensured.

Description

Quick mosaic structure of motor element

Technical Field

The invention relates to the technical field of motor equipment, in particular to a quick splicing structure of a motor assembly.

Background

The water pump motor can be widely applied to different fields, and can be applied to matching equipment such as machine tools, pumps, blowers, compressors and the like besides occasions with inflammable, explosive or corrosive gases, such as transportation, mixing, printing, agricultural machinery and video processors; the water pump is divided into a horizontal motor and a vertical motor according to structural classification, and the water pump is characterized by relatively small starting torque, relatively small starting frequency, relatively long continuous operation time and the like, so that most of the water pump motors are asynchronous motors or synchronous motors of squirrel cage rotors; selecting a water pump motor according to shaft power; the motor power is one grade higher than the shaft power; such as: the shaft power is 15KW, and the selected motor is as follows: 18.5KW is required to be applied to a multi-pole motor according to the actual working condition; the 2-pole motor is generally used under the conditions of a slightly high lift and a small flow (the calculation is complex); 4-pole motors can be selected on occasions with large flow and small lift; the super-high flow, 4 or 6 pole motors are selected at a lower lift, and when a six pole motor is selected, the power can be reduced by one grade according to the shaft power.

In the prior art, a fan cover is frequently required to be detached for detection and maintenance when a water pump motor works, and is required to be cleaned so as to ensure the normal work of the water pump motor, but the connection between a water pump motor main body and a fan cover assembly is generally integrated or fixedly connected through bolts, and a connecting mechanism capable of being assembled and disassembled quickly is not arranged between the water pump motor main body and the fan cover assembly, so that the disassembly and assembly work is troublesome, the detection and maintenance work of the motor is influenced, and the normal work of the motor is influenced.

Disclosure of Invention

The invention aims to provide a quick splicing structure of a motor assembly, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a quick splicing structure of a motor component comprises a water pump motor main body, a fan cover component, an annular connecting component, a lantern ring and a connecting and locking mechanism;

the end part of the connecting end of the water pump motor main body is integrally formed and symmetrically provided with first connecting blocks, and the end part of the connecting end of the fan cover component is integrally formed and symmetrically provided with second connecting blocks;

the first connecting block is internally provided with a first square clamping groove and a connecting groove, the second connecting block is internally provided with a second square clamping groove, the side position of the second square clamping groove is movably provided with a movable reinforcing block, one end of the movable reinforcing block is connected with a first extrusion spring, and the other end of the movable reinforcing block is provided with a slope;

the annular connecting component is symmetrically provided with square through grooves in a penetrating manner, first movable inserting blocks are symmetrically and movably arranged in the annular connecting component, one end of each first movable inserting block is provided with a second movable inserting block, the same end of each second movable inserting block as the first movable inserting block is provided with a first return spring in a connecting manner, the other end of each first return spring is arranged in the annular connecting component in a connecting manner, and the annular connecting component is sleeved with a lantern ring;

first arc-shaped extrusion grooves are formed in the lantern ring at equal intervals, and rotating lugs are integrally formed on the outer side wall of the lantern ring at equal intervals;

the connecting and locking mechanism is arranged on the water pump motor main body.

Preferably, the connecting and locking mechanism comprises a fixed body, a movable block, an extrusion chute, a movable clamping column, a circular positioning groove, a movable clamping block, a first movable extrusion block, a second arc extrusion groove, a rotary circular block and a knob, the fixed body is integrally formed on the water pump motor main body, the movable block is movably arranged in the fixed body, one end of the movable block is connected with a second reset spring, the extrusion chute is arranged in the movable block, the movable clamping column is movably arranged in the fixed body, one end of the movable clamping column is movably arranged in the extrusion chute, the two sides of the movable clamping column are integrally formed and symmetrically provided with limiting pieces, the limiting pieces are integrally formed and provided with a third reset spring, the circular positioning groove is arranged on one side of the lantern ring, the movable clamping block is movably arranged in the movable block, one end of the movable clamping block is connected with the second extrusion spring, the fixed body is provided with first slot, the one end of first slot in one side of movable block is provided with the second slot to it is provided with first activity extrusion piece, the second slot to peg graft in the first slot and is provided with second activity extrusion piece, second activity extrusion piece is being connected with the same end of first activity extrusion piece and is provided with fourth reset spring to the activity of second activity extrusion piece other end sets up in second arc extrusion groove, second arc extrusion groove sets up on rotating the disk, it sets up in the fixed body to rotate the disk activity, and rotates the disk setting in the one end of inserting the axle, and the other end welding of inserting the axle is provided with the knob.

Preferably, the first movable insertion block, the second square clamping groove and the first square clamping groove are arranged at corresponding positions and have the same number, and the cross section of the end part of the first movable insertion block is the same as the cross section of the notch of the second square clamping groove and the cross section of the notch of the first square clamping groove, namely the cross sections of the first movable insertion block, the second square clamping groove and the first square clamping groove are equal in length and width.

Preferably, the first movable extrusion block and the movable fixture block are arranged at corresponding positions and in the same number, and the cross-sectional shape of the end of the first movable extrusion block is the same as that of the end of the movable fixture block, that is, the cross-sectional shapes of the first movable extrusion block and the end of the movable fixture block are equal in length and width.

Preferably, the circular positioning groove and the movable clamping column are arranged at corresponding positions and have the same number, and the diameters of the circular positioning groove and the movable clamping column are equal.

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

in the process of assembling and connecting the motor main body and the fan cover component 2 of the water pump motor, the annular connecting component 3 can enable the motor main body and the fan cover component 2 to be quickly assembled through the arranged intermediate connecting component, so that the assembling work of the water pump motor is improved, and the quick disassembling work can be carried out.

Drawings

FIG. 1 is a left side schematic view of a connection structure according to the present invention;

FIG. 2 is a right side schematic view of a connection structure according to the present invention;

FIG. 3 is a left side view, partially in section, of the internal connection of the annular connecting member to the collar of the present invention;

FIG. 4 is an enlarged view of the internal connection structure of the first connection block shown in FIG. 3 according to the present invention;

FIG. 5 is an enlarged view of a portion of the internal structure of the annular connecting member and the collar of FIG. 3 according to the present invention;

FIG. 6 is a right side elevational view, partially in section, of the annular connecting member and collar inner connecting structure of the present invention;

fig. 7 is a schematic view of the internal connection structure of the connecting and locking mechanism of the present invention.

In the figure: the water pump motor comprises a water pump motor body 1, a fan cover component 2, an annular connecting component 3, a first connecting block 4, a first square clamping groove 5, a connecting groove 6, a second connecting block 7, a second square clamping groove 8, a movable reinforcing block 9, a square through groove 10, a first movable inserting block 11, a second movable inserting block 12, a lantern ring 13, a first arc-shaped extrusion groove 14, a rotating lug 15, a connecting locking mechanism 16, a fixed body 1601, a movable block 1602, an extrusion chute 1603, a movable clamping column 1604, a circular positioning groove 1605, a movable clamping block 1606, a first movable extrusion block 1607, a second movable extrusion block 1608, a second arc-shaped extrusion groove 1609, a rotating round block 1610 and a knob 1611.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: the invention relates to a quick splicing structure of a motor component, which comprises a water pump motor main body 1, a fan cover component 2, an annular connecting member 3, a lantern ring 13 and a connecting and locking mechanism 16;

the end part of the connecting end of the water pump motor main body 1 is integrally formed and symmetrically provided with first connecting blocks 4, and the end part of the connecting end of the fan cover component 2 is integrally formed and symmetrically provided with second connecting blocks 7;

a first square clamping groove 5 and a connecting groove 6 are arranged in the first connecting block 4, a second square clamping groove 8 is arranged in the second connecting block 7, a movable reinforcing block 9 is movably arranged at the side position of the second square clamping groove 8, one end of the movable reinforcing block 9 is connected with a first extrusion spring, and the other end of the movable reinforcing block is provided with a slope;

a square through groove 10 is symmetrically arranged in the annular connecting member 3 in a penetrating manner, a first movable inserting block 11 is symmetrically and movably arranged in the annular connecting member 3, a second movable inserting block 12 is arranged at one end of the first movable inserting block 11, a first return spring is arranged at the same end of the second movable inserting block 12 as the first movable inserting block 11 in a connecting manner, the other end of the first return spring is arranged in the annular connecting member 3 in a connecting manner, and a lantern ring 13 is sleeved on the annular connecting member 3;

first arc-shaped extrusion grooves 14 are formed in the lantern ring 13 at equal intervals, and rotating lugs 15 are formed on the outer side wall of the lantern ring 13 in an integrated forming mode at equal intervals;

the connection locking mechanism 16 is arranged on the water pump motor main body 1.

Furthermore, the first movable insert 11, the second square slot 8 and the first square slot 5 are arranged at corresponding positions and have the same number, and the cross-sectional shape of the end of the first movable insert 11 is the same as the cross-sectional shape of the notch of the second square slot 8 and the cross-sectional shape of the notch of the first square slot 5, that is, the cross-sectional shapes of the first movable insert, the second square slot and the first square slot are equal in length and width.

Further, the first movable extrusion block 1607 and the movable fixture block 1606 are provided at the same number of sets corresponding to the positions of the two movable extrusion blocks, and the cross-sectional shape of the end portion of the first movable extrusion block 1607 is the same as the cross-sectional shape of the end portion of the movable fixture block 1606, i.e. the cross-sectional shapes are equal in length and equal in width.

Further, the connecting and locking mechanism 16 includes a fixed body 1601, a movable block 1602, an extrusion chute 1603, a movable clamp column 1604, a circular positioning slot 1605, a movable block 1606, a first movable extrusion block 1607, a second movable extrusion block 1608, a second arc extrusion slot 1609, a rotary circular block 1610, a knob 1611, the fixed body 1601 is integrally formed on the water pump motor body 1, the movable block 1602 is movably disposed in the fixed body 1601, one end of the movable block 1602 is connected with a second return spring, the movable block 1602 is provided with the extrusion chute 1603, the movable clamp column 1604 is movably disposed in the fixed body 1601, one end of the movable clamp column 1604 is movably disposed in the extrusion chute 1603, two sides of the movable clamp column 1604 are integrally formed and symmetrically provided with a limiting piece, the limiting piece is integrally formed and connected with a third return spring, the circular positioning slot 1605 is disposed on one side of the lantern ring 13, the movable block 1606 is movably disposed in the movable block 1602, and the one end of activity fixture block 1606 is connected and is provided with the second extrusion spring, fixed body 1601 is provided with the first slot in one side of movable block 1602, the one end of first slot is provided with the second slot, and the grafting is provided with first activity extrusion piece 1607 in the first slot, the grafting is provided with second activity extrusion piece 1608 in the second slot, second activity extrusion piece 1608 is connected with the same end of first activity extrusion piece 1607 and is provided with the fourth reset spring, and the activity of the other end of second activity extrusion piece 1608 sets up in second arc extrusion groove 1609, second arc extrusion groove 1609 sets up on rotating round piece 1610, it sets up in fixed body 1601 to rotate round piece 1610 activity, and rotate round piece 1610 and set up in the one end of inserting the axle, the other end welding of inserting the axle is provided with knob 1611.

Furthermore, the circular positioning groove 1605 corresponds to the movable clamping column 1604 in both arrangement positions, and the arrangement number is the same, and the arrangement diameters of the two are equal.

The working principle is as follows: when the water pump motor body 1 and the fan cover assembly 2 are spliced, firstly, the annular connecting member 3 is connected with the water pump motor body 1, namely, the square through groove 10 on the annular connecting member 3 is aligned with the first connecting block 4 on the water pump motor body 1, the first connecting block 4 is clamped in the square through groove 10, then the second connecting block 7 on the fan cover assembly 2 is aligned with the square through groove 10 on the annular connecting member 3, the second connecting block 7 is inserted in the connecting groove 6 in the first connecting block 4, then the collar 13 is rotated through the rotating lug 15, the first arc-shaped extrusion groove 14 arranged in the collar 13 extrudes the second movable insert block 12 along with the rotation of the collar 13, so that the second movable insert block 12 pushes the first movable insert block 11 to be inserted in the first square clamping groove 5 and the second square clamping groove 8, and extrudes the movable reinforcing block 9 arranged in the second connecting block 7, the function is to make the connection between the water pump motor body 1 and the fan housing assembly 2 more firm and stable, when the circular positioning groove 1605 arranged on one side of the lantern ring 13 reaches the position of the movable clamp column 1604, the movable block 1602 is pressed, and then the extrusion chute 1603 in the movable block 1602 extrudes the movable clamp column 1604, and then the movable clamp column 1604 is clamped in the movable clamp column 1604, meanwhile, when the movable clamp block 1606 arranged on one side of the movable block 1602 reaches the first slot position, the movable clamp block 1606 is clamped in the first slot under the action of the second extrusion spring, and then the position fixing of the lantern ring 13 is released, the assembly connection work between the water pump motor body 1 and the fan housing assembly 2 can be quickly completed, when the connection is needed to be disassembled, only the knob 1611 needs to be rotated, and then the rotation of the rotation round block 1610 is driven, and the second arc extrusion groove 1609 arranged on the rotation round block extrudes the second movable extrusion block 1608, and then push the first movable extrusion block 1607 to extrude the movable block 1606 from the first slot, at the same time, the movable block 1602 returns to the initial position under the action of the second return spring, i.e. the extrusion to the movable clamp column 1604 is released, the movable clamp column 1604 is separated from the circular positioning slot 1605, and the position fixation to the lantern ring 13 is released, finally the connection fixation between the water pump motor body 1 and the fan housing assembly 2 is released, which is convenient and simple, therefore, in the assembly connection work process of the water pump motor body and the fan housing assembly 2, the present invention can rapidly assemble the motor body and the fan housing assembly 2 mainly through the arranged intermediate connecting member, i.e. the annular connecting member 3, thereby improving the assembly work of the water pump motor, and further performing rapid disassembly work, the operation is simple and convenient, and the later-stage disassembly detection, and the fan housing assembly 2, of the motor and the fan housing assembly 2, The maintenance and other work are convenient, the later detection and maintenance are ensured, the normal work of the motor is not influenced, and the economic benefit of the motor work is ensured.

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

1. The utility model provides a quick mosaic structure of motor element which characterized in that: comprises a water pump motor main body (1), a fan cover component (2), an annular connecting component (3), a lantern ring (13) and a connecting and locking mechanism (16);

the end part of the connecting end of the water pump motor main body (1) is integrally formed and symmetrically provided with first connecting blocks (4), and the end part of the connecting end of the fan cover component (2) is integrally formed and symmetrically provided with second connecting blocks (7);

a first square clamping groove (5) and a connecting groove (6) are formed in the first connecting block (4), a second square clamping groove (8) is formed in the second connecting block (7), a movable reinforcing block (9) is movably arranged at the side position of the second square clamping groove (8), one end of the movable reinforcing block (9) is connected with a first extrusion spring, and the other end of the movable reinforcing block is provided with a slope;

a square through groove (10) is symmetrically arranged in the annular connecting member (3) in a penetrating manner, a first movable inserting block (11) is symmetrically and movably arranged in the annular connecting member (3), a second movable inserting block (12) is arranged at one end of the first movable inserting block (11), a first return spring is arranged at the same end of the second movable inserting block (12) as the first movable inserting block (11) in a connecting manner, the other end of the first return spring is arranged in the annular connecting member (3) in a connecting manner, and a sleeve ring (13) is sleeved on the annular connecting member (3);

first arc-shaped extrusion grooves (14) are formed in the lantern ring (13) at equal intervals, and rotating lugs (15) are formed on the outer side wall of the lantern ring (13) in an integrated forming mode at equal intervals;

the connecting and locking mechanism (16) is arranged on the water pump motor main body (1).

2. The rapid splicing structure of the motor assembly according to claim 1, wherein: the connecting and locking mechanism (16) comprises a fixed body (1601), a movable block (1602), an extrusion chute (1603), a movable clamp column (1604), a circular positioning groove (1605), a movable clamping block (1606), a first movable extrusion block (1607), a second movable extrusion block (1608), a second arc-shaped extrusion groove (1609), a rotary round block (1610) and a rotary knob (1611), wherein the fixed body (1601) is integrally formed on the water pump motor main body (1), the movable block (1602) is movably arranged in the fixed body (1601), one end of the movable block (1602) is connected with a second return spring, the extrusion chute (1603) is arranged in the movable block (1602), the movable clamp column (1604) is movably arranged in the fixed body (1601), one end of the movable clamp column (1604) is movably arranged in the extrusion chute (1603), limiting pieces are symmetrically arranged on two sides of the movable clamp column (1604) in an integrally formed manner, the limiting plate is integrally provided with a third return spring in a connecting way, the circular positioning groove (1605) is arranged on one side of the lantern ring (13), the movable clamping block (1606) is movably arranged in the movable block (1602), one end of the movable clamping block (1606) is provided with a second extrusion spring in a connecting way, the fixed body (1601) is provided with a first slot on one side of the movable block (1602), one end of the first slot is provided with a second slot, the first slot is provided with a first movable extrusion block (1607) in an inserting way, the second slot is provided with a second movable extrusion block (1608) in an inserting way, the second movable extrusion block (1608) is provided with a fourth return spring in a connecting way at the same end as the first movable extrusion block (1607), the other end of the second movable extrusion block (1608) is movably arranged in a second arc extrusion groove (1609), the second arc extrusion groove (1609) is arranged on the rotary round block (1610), the rotating round block (1610) is movably arranged in the fixed body (1601), the rotating round block (1610) is arranged at one end of the inserting shaft, and the other end of the inserting shaft is welded with a knob (1611).

3. The rapid splicing structure of the motor assembly according to claim 1, wherein: the first movable inserting block (11), the second square clamping groove (8) and the first square clamping groove (5) are arranged in corresponding positions and are arranged in the same number, and the section shape of the end part of the first movable inserting block (11) is the same as the section shape of the notch of the second square clamping groove (8) and the section shape of the notch of the first square clamping groove (5), namely the section shapes of the first movable inserting block, the second square clamping groove and the first square clamping groove are equal in length and width.

4. The rapid splicing structure of the motor assembly according to claim 2, wherein: the first movable extrusion block (1607) and the movable clamping block (1606) are arranged at the corresponding positions and in the same number, and the cross section of the end part of the first movable extrusion block (1607) is the same as that of the end part of the movable clamping block (1606), namely the cross sections of the two are equal in length and width.

5. The rapid splicing structure of the motor assembly according to claim 2, wherein: the round positioning groove (1605) and the movable clamping column (1604) are arranged at the corresponding positions and have the same number of groups, and the diameters of the round positioning groove and the movable clamping column are equal.