CN113085673A

CN113085673A - Rotary type sitting basin framework mechanism

Info

Publication number: CN113085673A
Application number: CN202110242942.0A
Authority: CN
Inventors: 马增辉; 毕思刚; 王迦
Original assignee: FAW Bestune Car Co Ltd
Current assignee: FAW Bestune Car Co Ltd
Priority date: 2021-03-05
Filing date: 2021-03-05
Publication date: 2021-07-09

Abstract

The invention relates to a rotary type bidet framework mechanism, which comprises a bidet welding assembly, a left rear support, a right rear support, a transverse support, a motor and a motor support, wherein the left rear support, the right rear support and the transverse support are connected with the bidet welding assembly and fixed on a sliding rail; the basin welding assembly is used as a rotating mechanism, a slide way is arranged on the basin welding assembly and the transverse support, and the basin welding assembly rotates relative to the slide way through the movement of the slide block and the cushion block on the slide way. The device adopts the motor for adjustment, one end of the motor is hinged on the fixed support, the other end of the motor is hinged on the rotating structure of the bidet framework, the motor drives the lead screw to reciprocate, and the metal plate structure welded on the rotating structure of the bidet is driven to move, so that the rotation at a certain angle is realized, the device has a simple structure, the operation is convenient and fast, and the weight is light.

Description

Rotary type sitting basin framework mechanism

Technical Field

The invention belongs to the technical field of passenger vehicles, particularly relates to a seat rotating mechanism, and particularly relates to a pelvis sitting framework mechanism with a rotating function.

Background

Modern passenger vehicles have become more than just vehicles in the traditional sense, and have become an organic combination of "people, automobiles, and environment", which is one of the environmental scenarios for consumers to drive, entertain, and work for a long time. With the development of society, users have more and more functional requirements on automobile seats. Among them, in a large-sized passenger car or a special car, a seat rotation function is one of main appeal of users. The rotary seat can greatly facilitate interaction among passengers in the vehicle, so that the passengers in the vehicle can communicate face to face, and the interaction is more convenient, rapid and comfortable. Meanwhile, the passengers with inconvenient actions can get on or off the bus conveniently through the rotating function of the seat.

At present, the seat rotating mechanism is mostly a rotating mechanism of a rotating disc type, the rotating disc is driven to rotate through gear transmission, the structure is complex, and the weight is heavy.

The prior art discloses a seat electric rotating mechanism, includes: the device comprises a rotary support, a rotary disc, a fixed disc, a pressure disc, an upper ball assembly and a lower ball assembly; it still includes: the driving motor assembly is arranged on the fixed disc and comprises a driving gear; the center of the semicircular rack is superposed with the rotation center of the rotating bracket, and the semicircular rack is meshed with the driving gear; and a driving gear in the driving motor assembly drives the rotating bracket to rotate back and forth between 0 and 180 degrees through a semicircular rack. The seat electric rotating mechanism can realize the reciprocating rotation of the seat between 0 and 180 degrees and avoid the twisting off of the seat wire harness due to unlimited rotation.

The prior art also discloses a car seat rotary mechanism, including relative top spin carousel and lower chassis that sets up from top to bottom, the upper surface on lower chassis is equipped with the fixed disk, the lower surface of top spin carousel is equipped with and holds the dish tightly, hold and be equipped with accommodation space on the dish tightly, the lower part card of fixed disk is established in accommodation space, its upper portion stretches out accommodation space, the top spin carousel is located on the upper portion of fixed disk, be equipped with annular ring gear on the fixed disk, be equipped with the gear on the top spin carousel, gear and ring gear meshing, gear connection has drive arrangement, between the rotating part on car seat rotary mechanism upper portion and the fixed part of lower part, adopt the structure form of nested holding tightly, the top spin carousel is rotatory together of driving holding the dish when rotatory, hold the dish owing to receive the injecing of fixed disk, lateral deviation can not take.

The invention discloses a rotary driving mechanism capable of locking, an electric rotary seat and an automobile, wherein the rotary driving mechanism comprises a fixed support, a rotary bearing disc which is fixedly connected with the fixed support and is provided with an inner ring, and a locking disc which is fixedly connected with the inner ring and is provided with a plurality of convex blocks, a wedge-shaped space which is formed by enclosing the locking disc and the fixed support together is formed between the adjacent convex blocks, and a rigid gap sealing body and an elastic resetting piece are arranged in the wedge-shaped space; and the rotary driving mechanism also comprises a rotary driving module fixedly connected with the fixed support and a shifting fork connected and arranged on the power output end of the rotary driving module. The rotary driving mechanism has a locking function, can provide larger locking torque, and can overcome the defect of insufficient locking torque in the prior art.

To sum up, current seat rotation function is mostly disc structure, and on lower disc fixed automobile body floor or the slide rail, go up the disc and be revolution mechanic, go up the disc and sit the basin and be connected. The motor is fixed on lower disc, and driven gear is fixed on last disc, and it is rotatory to drive gear through the motor, and the gear drives the revolution mechanic of disc rotatory, and then realizes that the seat rotates. A retainer structure with a rolling bearing, a locking structure and the like are arranged between the upper disc and the lower disc. The existing seat rotating mechanism has the disadvantages of complex structure, complex operation and heavy weight. Therefore, it is necessary to find out a new type of movement of the seat rotating mechanism, which is separated from the disc structure, and the seat rotating mechanism has wide application value.

Disclosure of Invention

The invention aims to provide a rotary type bidet framework mechanism to solve the problems that the existing seat rotating mechanism cannot be separated from a disc structure, the structure is complex, the operation is complex, and the weight is heavy. The invention does not use a disc structure, and drives the screw rod to reciprocate through the motor to drive the sheet metal structure welded on the rotating structure of the bidet to move, thereby realizing the rotation of a certain angle.

The purpose of the invention is realized by the following technical scheme:

a rotary sitting basin framework mechanism mainly comprises a sitting basin welding assembly 1, a left rear bracket 9, a slide rail 10, a motor 11, a motor bracket 12, a right rear bracket 13 and a transverse bracket 15;

the sitting basin welding assembly 1 is respectively connected with the transverse support 15, the left rear support 9 and the right rear support 13; the transverse bracket 15, the left rear bracket 9 and the right rear bracket 13 are fixed on the slide rail 10; the motor bracket 12 is fixed with the transverse bracket 15, and the motor 11 is hinged with the motor bracket 12 and can rotate around a hinge shaft 16;

the motor 11 drives the screw rod to move linearly, a threaded cylindrical sliding block and a sheet metal part are arranged on the screw rod, the cylindrical sliding block can reciprocate along the screw rod, one end of the sheet metal part is welded on the cylindrical sliding block, the other end of the sheet metal part is hinged with the bidet welding assembly 1, and the bidet welding assembly 1 can rotate by taking a pin shaft 9.1 on the left rear support 9 as an original point; the upper surface of the transverse support 15 is provided with a slideway 19, and the slideway 19 is in sliding fit with a sliding block 4 and a left front cushion block 8 which are arranged between the bidet welding assembly 1 and the transverse support 15, so that the bidet welding assembly 1 rotates relative to the pin shaft 9.1.

Furthermore, basin welding assembly 1 is formed by crossbeam pipe I1.4, crossbeam pipe II 1.6, half basin 1.1, left side sideboard 1.2, right side sideboard 1.5 and 2 support 1.3 welding.

Furthermore, left side sideboard 1.2 and right side sideboard 1.5 are fixed in half basin 1.1's the left and right sides respectively, the both ends of crossbeam pipe I1.4, crossbeam pipe II 1.6 are fixed with left side sideboard 1.2 and right side sideboard 1.5 respectively, and 2 individual support 1.3's upper end all is fixed with half basin 1.1, and the lower extreme is fixed with left side sideboard 1.2, right side sideboard 1.5 respectively, and the sheet metal component is articulated with crossbeam pipe I1.4's linking bridge.

Furthermore, the two ends of the beam tube I1.4 are respectively fixed at the front end round holes of the left side edge plate 1.2 and the right side edge plate 1.5, the two ends of the beam tube II 1.6 are respectively fixed in the middle grooves of the left side edge plate 1.2 and the right side edge plate 1.5, the beam tube II 1.6 and the beam tube I1.4 are arranged in parallel, and the vertical height of the beam tube II is higher than that of the beam tube I1.4.

Further, the seat basin welding assembly 1 is connected to the transverse support 15, the left rear support 9 and the right rear support 13 through 2 sliding shaft pins 14, the left front cushion block 8, the right front cushion block 17, the left rear cushion block 6, the right rear cushion block 18, the sliding

block

4, 2

front retaining rings

2 and 2 rear retaining rings 3.

Further, the lateral bracket 15 is connected to the left side plate 1.2 and the right side plate 1.5 through 2 sliding shaft pins 14, and a left front cushion block 8 and a right front cushion block 17 are arranged between the lateral bracket 15 and the left side plate 1.2 and the right side plate 1.5.

Furthermore, the left rear bracket 9 and the right rear bracket 13 are respectively connected with the left side board 1.2 and the right side board 1.5 through a pin shaft 9.1 and a pin shaft 13.1, a left rear cushion block 1.6 is arranged between the left rear bracket 9 and the left side board 1.2, and a right rear cushion block 18 is arranged between the right rear bracket 13 and the right side board 1.5.

Furthermore, the 2 front retaining rings 2 are respectively in threaded connection with the sliding shaft pin 14, the 1 rear retaining ring 3, the sliding block 4, the right rear cushion block 18 and the right rear bracket 13 are fixed through bolts, and the other rear retaining ring 3, the left rear cushion block 6 and the left rear bracket 9 are fixed through bolts.

Further, the left rear bracket 9 and the right rear bracket 13 are respectively screwed with the slide rail 10.

Further, the motor bracket 12 is welded to the cross bracket 15.

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

the rotary bidet framework mechanism is adjusted by a motor, one end of the motor is hinged on a fixed support, the other end of the motor is hinged on a rotating structure of the bidet framework, and the motor drives a lead screw to reciprocate and drives a metal plate structure welded on the rotating structure of the bidet to move, so that the rotation of a certain angle is realized. The rotary type bidet framework mechanism has the advantages of simple structure, convenience in operation and light weight.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is an isometric view of a rotary pelvic frame mechanism of the present invention;

FIG. 2 is an exploded view of the rotary pelvic frame mechanism of the present invention;

fig. 3 is an exploded view of a bowl welding assembly.

In the figure, 1, a basin welding assembly 2, a front retainer 3, a rear retainer 4, a sliding block 5, a nut I6, a left rear cushion block 7, a nut II 8, a left front cushion block 9, a left rear support 10, a sliding rail 11, a motor 12, a motor support 13, a right rear support 14, a sliding pin shaft 15, a transverse support 16, a hinge shaft 17, a right front cushion block 18, a right rear cushion block 19, a slideway 1.1, a half basin 1.2, a left side plate 1.3, a support 1.4, a beam pipe I1.5, a right side plate 1.6, a beam pipe II 9.1 and a pin shaft 13.1 are arranged.

Detailed Description

The invention is further illustrated by the following examples:

the present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Meanwhile, in the description of the present invention, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-3, the rotary type bidet framework mechanism of the present invention is composed of a bidet welding assembly 1, a front retaining ring 2, a rear retaining ring 3, a slider 4, a nut i 5, a left rear cushion block 6, a nut ii 7, a left front cushion block 8, a left rear support 9, a slide rail 10, a motor 11, a motor support 12, a right rear support 13, a slide pin 14, a transverse support 15, a pin 16, a right front cushion block 17, and a right rear cushion block 18.

Wherein, sit basin welding assembly 1 and weld by crossbeam pipe I1.4, crossbeam pipe II 1.6, half basin 1.1, left side sideboard 1.2, right side sideboard 1.5 and support 1.3 and constitute.

The transverse support 15, the left rear support 9 and the right rear support 13 are fixed on the slide rail 10. The motor bracket 12 is welded on the transverse bracket 15, and the motor 11 is arranged on the motor bracket 12. The sitting basin welding assembly 1 is connected to the transverse support 15, the left rear support and the right rear support through a sliding shaft pin 14, a cushion block, a sliding block 4, a retainer ring and the like. The motor 11 drives the screw rod to move linearly, so as to provide rotary drive for the bidet welding assembly 1, and the pin shaft 9.1 on the left rear support 9 is used as an original point to rotate; the basin welding assembly 1 is used as a rotating mechanism, the basin welding assembly 1 and the transverse support 15 are provided with slideways, and the basin welding assembly can rotate relative to the sliding rails through the movement of the sliding blocks 4 and the cushion blocks on the slideways.

Examples

A rotary sitting basin framework mechanism mainly comprises a sitting basin welding assembly 1, a left rear bracket 9, a slide rail 10, a motor 11, a motor bracket 12, a right rear bracket 13 and a transverse bracket 15; the sitting basin welding assembly 1 is respectively connected with the transverse support 15, the left rear support 9 and the right rear support 13; the left rear support 9 and the right rear support 13 are respectively in threaded connection with the slide rail 10; the motor bracket 12 is welded on the transverse bracket 15; the motor bracket 12 is fixed with the transverse bracket 15, and the motor 11 is hinged with the motor bracket 12 and can rotate around a hinge shaft 16; the motor 11 drives the screw rod to move linearly, a threaded cylindrical sliding block and a sheet metal part are arranged on the screw rod, the cylindrical sliding block can reciprocate along the screw rod, one end of the sheet metal part is welded on the cylindrical sliding block, the other end of the sheet metal part is hinged with the bidet welding assembly 1, and the bidet welding assembly 1 can rotate by taking a pin shaft 9.1 on the left rear support 9 as an original point; the upper surface of the transverse support 15 is provided with a slide way 19 (the upper surface of the transverse support 15 is provided with a raised edge), and the slide way 19 is in sliding fit with a slide block 4 and a left front cushion block 8 which are arranged between the bidet welding assembly 1 and the transverse support 15 (the slide block 4 and the left front cushion block 8 are provided with grooves matched with the slide way), so that the bidet welding assembly 1 rotates relative to 9.1 on the left rear support 9. Sit basin welding assembly 1 and weld by crossbeam pipe I1.4, crossbeam pipe II 1.6, half basin 1.1, left side sideboard 1.2, right side sideboard 1.5 and 2 supports 1.3 and form. Left side sideboard 1.2 and right side sideboard 1.5 are fixed in half basin 1.1's the left and right sides respectively, the both ends of crossbeam pipe I1.4, crossbeam pipe II 1.6 are fixed with left side sideboard 1.2 and right side sideboard 1.5 respectively, and 2 individual support 1.3's upper end all is fixed with half basin 1.1, and the lower extreme is fixed with left side sideboard 1.2, right side sideboard 1.5 respectively, and the sheet metal component is articulated with crossbeam pipe I1.4's linking bridge. The both ends of crossbeam pipe I1.4 are fixed in left side sideboard 1.2 and right side sideboard 1.5's front end round hole department respectively, and in the middle part recess of left side sideboard 1.2 and right side sideboard 1.5 was fixed in respectively at the both ends of crossbeam pipe II 1.6, crossbeam pipe II 1.6 and crossbeam pipe I1.4 parallel arrangement, and its vertical height is higher than crossbeam pipe I1.4.

The seat basin welding assembly 1 is connected to the transverse support 15, the left rear support 9 and the right rear support 13 through 2 sliding shaft pins 14, the left front cushion block 8, the right front cushion block 17, the left rear cushion block 1.6, the right rear cushion block 18, the sliding

block

4, 2

front retainer rings

2 and 2 rear retainer rings 3. The transverse bracket 15 is connected with the left side plate 1.2 and the right side plate 1.5 through 2 sliding shaft pins 14, and a left front cushion block 8 and a right front cushion block 17 are arranged between the transverse bracket 15 and the left side plate 1.2 and the right side plate 1.5. The left rear support 9 and the right rear support 13 are respectively connected with the left side board 1.2 and the right side board 1.5 through a pin shaft 9.1 and a pin shaft 13.1 (not shown in the figure), a left rear cushion block 6 is arranged between the left rear support 9 and the left side board 1.2, and a right rear cushion block 18 is arranged between the right rear support 13 and the right side board 1.5. The 2 front retainer rings 2 are respectively in threaded connection with a sliding shaft pin 14 through nuts, the 1 rear retainer ring 3, the sliding block 4, the right rear cushion block 18 and the right rear support 13 are fixed with the nuts above the rear retainer ring 3 through bolts, and the other rear retainer ring 3, the left rear cushion block 6 and the left rear support 9 are fixed with the nuts above the rear retainer ring 3 through bolts.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

1. The utility model provides a pelvis skeleton mechanism is sat to rotation type which characterized in that: mainly comprises a bidet welding assembly (1), a left rear bracket (9), a slide rail (10), a motor (11), a motor bracket (12), a right rear bracket (13) and a transverse bracket (15);

the bidet welding assembly (1) is respectively connected with the transverse bracket (15), the left rear bracket (9) and the right rear bracket (13); the transverse bracket (15), the left rear bracket (9) and the right rear bracket (13) are fixed on the sliding rail (10), the motor bracket (12) is fixed with the transverse bracket (15), and the motor (11) is hinged with the motor bracket (12) and can rotate around a hinged shaft (16);

the motor (11) drives the screw rod to move linearly, a threaded cylindrical sliding block and a sheet metal part are arranged on the screw rod, the cylindrical sliding block can reciprocate along the screw rod, one end of the sheet metal part is welded on the cylindrical sliding block, the other end of the sheet metal part is hinged with the sitting basin welding assembly (1), and the sitting basin welding assembly (1) can rotate by taking a pin shaft (9.1) on the left rear support (9) as an original point; the upper surface of horizontal support (15) is equipped with slide (19), slide (19) and set up slider (4) and left front cushion (8) sliding fit between sitting basin welding assembly (1) and horizontal support (15), make and sit basin welding assembly (1) and rotate relatively round pin axle (9.1).

2. The rotary pelvic framework mechanism of claim 1, wherein: sit basin welding assembly (1) and weld by crossbeam pipe I (1.4), crossbeam pipe II (1.6), half basin (1.1), left side sideboard (1.2), right side sideboard (1.5) and 2 supports (1.3) and form.

3. A rotary pelvic framework mechanism as claimed in claim 2, wherein: the left and right sides that half basin (1.1) was fixed in respectively in left side sideboard (1.2) and right side sideboard (1.5), the both ends of crossbeam pipe I (1.4), crossbeam pipe II (1.6) are fixed with left side sideboard (1.2) and right side sideboard (1.5) respectively, and the upper end of 2 individual supports (1.3) all is fixed with half basin (1.1), and the lower extreme is fixed with left side sideboard (1.2), right side sideboard (1.5) respectively, and the sheet metal component is articulated with the linking bridge of crossbeam pipe I (1.4).

4. A rotary pelvic framework mechanism as claimed in claim 3, wherein: the both ends of crossbeam pipe I (1.4) are fixed in the front end round hole department of left side sideboard (1.2) and right side sideboard (1.5) respectively, and in the middle part recess of left side sideboard (1.2) and right side sideboard (1.5) was fixed in respectively at the both ends of crossbeam pipe II (1.6), crossbeam pipe II (1.6) and crossbeam pipe I (1.4) parallel arrangement, and its vertical height is higher than crossbeam pipe I (1.4).

5. The rotary pelvic framework mechanism of claim 1, wherein: sit basin welding assembly (1) and connect on horizontal support (15), left back support (9) and right back support (13) through 2 sliding shaft round pin (14), left front cushion (8), right front cushion (17), left back cushion (6), right back cushion (18), slider (4), 2 front retainer ring (2) and 2 back retainer ring (3).

6. The rotary pelvic framework mechanism of claim 5, wherein: the horizontal support (15) is connected with the left side board (1.2) and the right side board (1.5) through 2 sliding shaft pins (14), and a left front cushion block (8) and a right front cushion block (17) are arranged between the horizontal support (15) and the left side board (1.2) and between the horizontal support (15) and the right side board (1.5).

7. The rotary pelvic framework mechanism of claim 5, wherein: the left rear support (9) and the right rear support (13) are connected with the left side board (1.2) and the right side board (1.5) through a pin shaft (9.1) and a pin shaft (13.1), a left rear cushion block (1.6) is arranged between the left rear support (9) and the left side board (1.2), and a right rear cushion block (18) is arranged between the right rear support (13) and the right side board (1.5).

8. The rotary pelvic framework mechanism of claim 5, wherein: the two front check rings (2) are respectively in threaded connection with the sliding shaft pin (14), the 1 rear check ring (3), the sliding block (4), the right rear cushion block (18) and the right rear support (13) are fixed through bolts, and the other rear check ring (3), the left rear cushion block (6) and the left rear support (9) are fixed through bolts.

9. The rotary pelvic framework mechanism of claim 1, wherein: the left rear support (9) and the right rear support (13) are respectively in threaded connection with the sliding rail (10).

10. The rotary pelvic framework mechanism of claim 1, wherein: the motor bracket (12) is welded on the transverse bracket (15).