CN206313215U - The special electrical connection device of moving member - Google Patents

Abstract

The utility model discloses a kind of special electrical connection device of moving member, comprising：The fixing bracket body of the first parts is fixedly arranged on, it has the vertical frame plate for separating parallel upper positioning substrate, lower positioning substrate and upright extension up and down；One swims support body, between being set up in the opposite side of upper and lower positioning substrate with predetermined suspended pattern；One first electrical base body, the electrical connection female seat of the support body that swims, its end face center and the connection of fixed power supply source line is set up in predetermined elastic force buffering method, is convexly equipped with around it and in a symmetrical multiple guiding blocks；One second electrical base body, is fixedly arranged on one second parts, and its veutro around the grafting frame of projection one, grafting inframe side and sets an electrical connection male seat with respect to guiding block inner side and closing；One auxiliary positioning component, is fixedly arranged on the upper positioning substrate of fixing bracket body with wheel base adjustment mode, front and with one group of strength iron-absorbing base, there is provided electrical connection male seat links the second parts positioning of strength magnetic closing simultaneously with electrical connection female seat.

Description

Special electric connection device for moving part

Technical Field

The present invention relates to an electrical connection device, and more particularly, to an electrical connection device dedicated for a moving member.

Background

Accordingly, as for the electrical connection device, a power plug and a power socket are commonly known in life, and the plug and the socket are plugged with each other to electrically combine two separated parts originally to provide power; however, the plug and the socket which are not simple but can be applied to the power connection of mechanical equipment, especially the moving parts which are often moved, such as the car carrying board of the special parking lot for the electric car, are not easy to switch on the power supply of the charging socket provided on the moving car carrying board; the problem lies in that mutual electrical connection ends of two moving machine parts are not easy to align originally, and when any moving machine part moves, larger kinetic energy exists originally, so that when an electrical connection device arranged on a moving part such as a vehicle carrying plate moves to be close to an electrical connection device on another machine part, the mutual impact force when the two machine parts are abutted against each other probably destroys the electrical connection device arranged in the machine part, or the electrical connection devices are abutted against each other to be connected, so that the bad contact condition occurs.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model discloses main objective provides a special electric connection device of moving member.

The utility model provides a pair of special electric connection device of moving member contains:

a fixed frame body fixedly arranged on a first machine element and provided with an upper positioning base plate, a lower positioning base plate and a vertical frame plate which are vertically separated and parallel;

a floating frame body which is arranged between the opposite sides of the upper and lower positioning base plates in a preset suspension way, the end surface of the floating frame body is at least convexly provided with two fixed shaft seats, and the center of each fixed shaft seat axially penetrates through a concave central shaft hole;

a first electric base body, which is arranged on the two fixed shaft seats of the floating frame body in a preset elastic buffering mode, the center of the end surface of the first electric base body is fixedly provided with an electric connection female seat for power line connection, the periphery of the electric connection female seat is convexly provided with a plurality of guide blocks in a symmetrical mode, and the opposite inner sides of the guide blocks are respectively and correspondingly provided with a guide inclined part;

the second electrical base body is fixedly arranged on a movable second machine part, the ventral side of the second machine part is opposite to the inner side of the guide block of the first electrical base body and is provided with a plug-in frame in a sealing and surrounding mode, the center of the end face of the inner side of the plug-in frame is fixedly provided with an electrical connection male seat, and the electrical connection female seat is guided and positively driven by the guide inclined part on the inner side of the guide block to bear the power supply of the second machine part along with the relative leaning close of the second machine part and the first machine part;

an auxiliary positioning assembly fixed on the upper positioning base plate of the fixed frame body in a front-rear axle distance adjusting mode, wherein the front end side of the auxiliary positioning assembly is provided with a group of strong magnet holders so as to provide positioning for the second machine member that the electric connection male seat and the electric connection female seat are connected and the strong magnet is attracted and closed;

therefore, the electric connection device of the moving part can effectively reduce the closing impact force of the machine parts and automatically guide the two square machine parts to be electrically connected with the male and female seats for reliable connection, positioning and power supply.

The special electric connecting device for the moving piece is characterized in that two fixing screw holes and fixing bolts are concavely arranged in a grid of an upper positioning substrate of the fixing frame body; the auxiliary positioning assembly comprises a horizontal positioning plate and an upright buffer plate, the positioning plate corresponds to the positions of the two fixing screw holes of the upper positioning base plate and is concavely provided with two adjusting grooves penetrating by a preset length in parallel at intervals, and the two adjusting grooves are matched with the fixing screw holes of the fixing frame body by screwing two fixing bolts so as to perform translational adjustment and positioning according to the front-rear axial distance of the upper positioning base plate; the two sides of the end face of the buffer plate are respectively provided with a through pivot hole in a concave mode, a rod shaft and a buffer spring are respectively arranged in the pivot holes in a sliding mode, the tail ends of the two rod shafts are jointly connected with a frame plate fixedly arranged on the strong magnet holder in a bearing mode, and the two rod shafts and the buffer springs are used for guiding and buffering the residual impact force after the second machine part moves and leans against the frame plate and positioning the frame plate in a magnetic absorption mode.

The special electric connection device for the moving part is characterized in that the end surface of the floating frame body is provided with four separated corner positions which are respectively provided with a concave fixing hole, the fixing holes are respectively fixedly connected with a connecting rod ball joint in a screw connection mode, the other end of the connecting rod ball joint is fixedly connected with a guide rod in an axial direction, and the tail end of the guide rod is radially provided with a spherical bearing in an upheaval mode to be matched with a bearing seat to be accommodated and locked at the four corner positions of the vertical frame plate of the fixed frame body, so that the multi-directional suspension erection of the floating frame body.

The special electric connection device for the moving part is characterized in that two groups of ball sliding seats are vertically and fixedly arranged at the linear positions of the lower positioning base plate of the fixed frame body relative to the bottom side of the floating frame body respectively, a compression spring is axially arranged at a central shaft hole in each ball sliding seat, and a universal ball body is fixedly arranged on the top of each compression spring so as to upwards support the bottom of the floating frame body.

The first machine part is a charging station position of an electric vehicle parking lot, and the second machine part is a vehicle carrying plate for carrying a vehicle to be charged.

The two sides of the end face of the first electrical base body are opposite to the central shaft hole of the fixed shaft seat of the floating frame body and are respectively and fixedly provided with a slide bar, the slide bars are arranged in the central shaft hole in opposite shafts for sliding axial movement operation, and the outer diameters of the slide bars and the outer diameter of the end face of the floating frame body between the slide bars and the end face side of the floating frame body are respectively sleeved with a compression spring so as to provide stress guide and buffering for the end face shaft side of the first electrical base body.

The utility model provides a special electric connection device of moving member can effectively alleviate the impulsive force that the removal parts leaned on to close to the exact connection location and the power supply of the electric connection device that automatic guide both sides parts were established.

Drawings

FIG. 1 is a perspective view of a preferred embodiment of the present invention;

FIG. 2 is a perspective view of a preferred embodiment of the present invention, in a largely exploded view;

FIG. 3 is a front view of the invention shown in partial assembly in FIG. 1;

FIG. 4 is a top view of the assembly of FIG. 1 showing the present invention;

FIG. 5 is a schematic view showing the local action of the floating frame of the present invention;

figure 6 is a side view of the invention shown partially assembled in figure 1;

FIG. 7 is a schematic view showing the operation of the electrical connection applied to the moving member of the present invention;

[ notation ] to show

10 fixing the frame body;

11 positioning a substrate;

12 lower positioning base plate;

13 vertical frame plates;

111 fixing screw holes;

14 a ball slide;

141 a central shaft hole;

142 compression spring;

143 universal ball bodies;

20 floating frame bodies;

21 fixing the shaft seat;

211 a central shaft hole;

22 a fixing hole;

221 a fixing nut;

23 connecting rod ball joints;

24 guide rods;

25 spherical bearings;

26, a bearing seat;

30 a first electrical base body;

31 electrically connected to the female socket;

32 a guide block;

321 a guide slope;

33 a slide bar;

34 a compression spring;

40 a second electrical base body;

41 a plug-in frame;

42 electrically connected to the male base;

50 an auxiliary positioning component;

51 strong magnet seat;

52, positioning a plate;

521 adjusting groove;

522 fixing the bolt;

53 a buffer plate;

531 an axial hole;

a 532 shaft;

533 a buffer spring;

a a first machine member;

b a second machine member;

and C, a power line.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

First, please refer to fig. 1 to 7, the present invention provides an electrical connection device for a moving member, comprising: a fixed frame 10 fixed to a first machine a (in this embodiment, the charging station position of the electric car parking lot is taken as an example), a floating frame 20, a first electrical base 30, a second electrical base 40 fixed to a second machine B (in this embodiment, the car carrying board for carrying the vehicle to be charged is taken as an example), and an auxiliary positioning assembly 50; wherein,

as shown in fig. 1 and 2, the fixing frame 10 has an upper positioning substrate 11 and a lower positioning substrate 12 separated and parallel from each other, the upper positioning substrate 11 and the lower positioning substrate 12 are opposite to each other and vertically extend to form a vertical frame plate 13; two fixing screw holes 111 are concavely arranged in the upper positioning substrate 11; the lower positioning substrate 12 is vertically fixed with two sets of ball slides 14, as shown in fig. 3, 4 and 6, a compression spring 142 is axially disposed in a central shaft hole 141 inside the ball slide 14, and a universal ball 143 is fixed on the top of the compression spring 142 to prop up the bottom of the floating frame 20;

as shown in fig. 2 and 3, the floating frame body 20 is erected between opposite sides of the upper positioning base plate 11 and the lower positioning base plate 12 in a predetermined suspension manner, and at least two fixed shaft seats 21 are convexly arranged on a front end face thereof, and a central shaft hole 211 is concavely arranged in a central axial direction of each fixed shaft seat 21; the end surfaces of the frame body are separated from four corner positions and are respectively provided with a concave fixing hole 22, the fixing hole 22 is matched with a fixing nut 221 to be respectively fixedly connected with a connecting rod ball joint 23 in a threaded manner, as shown in fig. 5 and 7, the other end of the connecting rod ball joint 23 is axially fixedly connected with a guide rod 24, the tail end of the guide rod 24 is radially provided with a spherical bearing 25 in an upheaval manner and is matched with a bearing seat 26 to be accommodated, locked and positioned at the four corner positions of the fixed frame body 10 vertical to the frame plate 13, so that the multi-directional suspension erection of the floating frame body 20 is provided;

as shown in fig. 2, 3 and 6, the first electrical base 30 is mounted on two fixed shaft seats 21 of the floating frame 20 in a predetermined elastic buffering manner, and an electrical connection female seat 31 for connecting a power line C is fixedly disposed at the center of an end surface thereof, a plurality of guiding blocks 32 are symmetrically and convexly disposed around the electrical connection female seat 31, and a guiding inclined portion 321 is correspondingly disposed on each of the opposite inner sides of the guiding blocks 32; as shown in fig. 4, two sides of the end surface of the floating frame body 20 are opposite to the central shaft hole 211 of the fixed shaft seat 21 of the floating frame body 20 and are respectively and fixedly provided with a sliding rod 33, so as to perform sliding axial movement operation relative to the central shaft hole 211, and the outer diameters of the sliding rods 33 between the first electrical base body 30 and the end surface side of the floating frame body 20 are respectively sleeved with a compression spring 34, thereby providing stress guiding and buffering for the end surface shaft side of the first electrical base body 30;

the second electrical base 40 is fixedly arranged on a second machine member B for carrying a trailer board of a vehicle to be charged, as shown in fig. 1 and 7, wherein the second machine member B and the first machine member a are mutually operated in a manner of abutting and separating movement control, a plug-in frame 41 is arranged on the ventral side of the second machine member B, opposite to the inner side of the guide block 32 of the first electrical base 30, in a closed and surrounding manner, and an electrical connection male seat 42 is fixedly arranged at the center of the end face of the inner side of the plug-in frame 41, and the electrical connection female seat 31 is relatively centered and positively guided by a guide inclined part 321 on the inner side of the guide block 32 along with the relative abutting of the second machine member B and the first machine member a so as to receive the power supply thereof;

as shown in fig. 1, 2 and 7, the auxiliary positioning assembly 50 is configured to be fixedly disposed on the upper positioning substrate 11 of the fixing frame 10, and has a set of strong magnet seats 51 at a front end thereof to provide a second machine positioning B in which the electrical connection male seat 42 is connected with the electrical connection female seat 31 and the strong magnet is attracted; the positioning plate 52 corresponds to the two fixing screw holes 111 of the upper positioning base plate 11 and is provided with two adjusting slots 521 penetrating by a preset length in a parallel and concave manner at intervals, and two fixing bolts 522 are matched to be axially screwed with the two fixing screw holes 111 of the upper positioning base plate 11, so that the front-rear axial distance positioning adjustment is provided; two sides of the end surface of the buffer plate 53 are respectively provided with a through pivot hole 531 in a concave manner, the pivot holes 531 are respectively provided with a rod shaft 532 and a buffer spring 533 in a sliding manner, the tail ends of the two rod shafts 532 are jointly connected with a frame plate 511 fixedly arranged on the strong magnet holder 51, and the two rod shafts 532 and the buffer spring 533 are used for providing guiding and buffering of residual impact force after the second machine B moves and stops and magnetic attraction positioning;

with the above combination, the special electric connection device for the moving member of the present invention is obtained, as shown in fig. 1 and 7, by integrating the floating frame body 20, the first electric base body 30 and the auxiliary positioning assembly 50 of the present invention into the fixed frame body 10, the first machine member a fixed to the charging station of the electric car parking lot is ready to be installed; secondly, the second electrical base 40 of the present invention is individually assembled and fixed on the second machine member B of the parking lot of the electric vehicle for carrying the loading board of the electric vehicle, and then the second machine member B is relatively moved to lean against the charging station of the first machine member A according to the original parking operation of the parking lot, so that the second electrical base 40 of the present invention moves synchronously with the second machine member B, and the insertion frame 41 closed at the ventral side and protruded around is pushed by the guiding slant 321 inside the guiding block 32 of the first electrical base 30, and is aligned and guided to move toward the axial center, and simultaneously the spherical bearing 25 and the bearing seat 26 radially protruded at the end of the guiding rod 24 of the floating frame 20 are accommodated and positioned at four corner positions of the vertical frame plate 13 of the fixed frame 10, as shown in FIG. 4, FIG. 5 and FIG. 7, so as to provide the free suspension in multiple directions of the floating frame 20 and automatically drag the track to make the first electrical base 30 align and the second electrical base 40 axially, in the relative axial engagement process, the end of the first electrical base 30 pushes the compression spring 34 to obtain the impact reduction, so that the electrical connection male seat 42 and the electrical connection female seat 31 are precisely connected to receive the power.

In addition, as shown in fig. 3 and 4, the middle fixing frame 10 of the present invention includes two groups of ball slides 14 vertically protruding from the lower positioning substrate 12, and the compression spring 142 axially disposed inside the central shaft hole 141 is used to provide the universal ball 143 fixed on the top to prop up the floating frame 20 upwards, so as to greatly share the gravity of the combination of the floating frame 20 and the first electrical base 30, and the first electrical base 30 and the second electrical base 40 can be more lightly engaged; furthermore, the strong magnet seat 51 at the front end of the auxiliary positioning assembly 50 of the present invention not only provides the connection operation between the electrical connection male seat 42 and the electrical connection female seat 31, but also provides the strong magnet to locate the second machine member B, and utilizes the axial displacement compression of the rod shaft 532 and the buffer spring 533 to obtain the guiding relief of the residual impact force after the second machine member B is moved and stopped, so as to greatly improve the stability of the charging connection of the second machine member B relative to the first machine member a; in addition, the positioning plate 52 is designed to have two parallel concave adjusting slots 521 at intervals, which are matched with two fixing bolts 522 to be axially screwed into two fixing screw holes 111 of the upper positioning substrate 11, so that a better application range for positioning and adjusting the front-rear wheelbase can be obtained.

To sum up, the utility model discloses special electric connection device of moving member, it borrows by fixed support body 10 integration planktonic support body 20, first electrical property base body 30 and innovation space design such as assistance-localization real-time subassembly 50, and it can effectively slow down the impulsive force that moves the parts and lean on to the exact connection location and the power supply of the electric connection device that two sides parts of automated guidance established.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (6)

1. A special electric connection device for moving parts, comprising:

a fixed frame body fixedly arranged on a first machine element and provided with an upper positioning base plate, a lower positioning base plate and a vertical frame plate which are vertically separated and parallel;

the floating frame body is erected between opposite sides of the upper positioning base plate and the lower positioning base plate in a preset suspension mode, the front end face of the floating frame body is convexly provided with at least two fixed shaft seats, and the center of each fixed shaft seat axially penetrates through a concave central shaft hole;

a first electric base body, which is arranged on the two fixed shaft seats of the floating frame body in a preset elastic buffering mode, the center of the end surface of the first electric base body is fixedly provided with an electric connection female seat for power line connection, the periphery of the electric connection female seat is convexly provided with a plurality of guide blocks in a symmetrical mode, and the opposite inner sides of the guide blocks are respectively and correspondingly provided with a guide inclined part;

the ventral side of the second electrical base body is opposite to the inner side of the guide block of the first electrical base body and is provided with an inserting frame in a sealing and surrounding way, and the center of the end surface of the inner side of the inserting frame is fixedly provided with an electrical connection male seat;

an auxiliary positioning assembly fixed on the upper positioning base plate of the fixed frame body in a front-rear axle distance adjusting mode, wherein the front end side of the auxiliary positioning assembly is provided with a group of strong magnet holders so as to provide positioning for the second machine member that the electric connection male holder and the electric connection female holder are connected and the strong magnet is attracted and closed.

2. The electrical connection device dedicated to moving parts as claimed in claim 1, wherein the upper positioning substrate compartment of the fixing frame body is recessed with two fixing screw holes and fixing bolts; the auxiliary positioning assembly comprises a horizontal positioning plate and an upright buffer plate, wherein the positioning plate corresponds to the positions of the two fixing screw holes of the upper positioning base plate and is provided with two adjusting grooves penetrating through the preset length in a parallel and concave mode at intervals so as to be matched with the two fixing bolts to be screwed in the fixing screw holes of the fixing frame body; the two sides of the end face of the buffer plate are respectively provided with a through pivot hole in a concave mode, a rod shaft and a buffer spring are respectively arranged in the pivot holes in a sliding mode, and the tail ends of the two rod shafts are fixedly connected with a frame plate of the strong magnet holder in a bearing mode.

3. The electrical connection device as claimed in claim 1, wherein the floating frame has four separated corners and a fixing hole, the fixing hole is screwed and fixed with a connecting rod ball joint, the other end of the connecting rod ball joint is fixed with a guide rod, the end of the guide rod is radially protruded with a spherical bearing to match a bearing seat to be locked and fixed at the four corners of the vertical frame plate of the fixed frame.

4. The electrical connection device as claimed in claim 1, wherein two sets of ball slides are vertically fixed on the lower positioning base of the fixed frame at a linear position corresponding to the bottom side of the floating frame, a compression spring is axially installed in the central axial hole of the ball slides, and a universal ball is fixed on the top of the compression spring to prop up the bottom of the floating frame.

5. The electrical connection device of claim 1, wherein the first member is a charging station of a parking lot for electric vehicles, and the second member is a carrying board for carrying a vehicle to be charged.

6. The electrical connection device for the moving member as claimed in claim 1, wherein a sliding rod is fixed to each of two sides of the end surface of the first electrical base body corresponding to the central axial hole of the fixed axial seat of the floating frame body, and a compression spring is sleeved to each of the outer diameters of the sliding rods between the two sides of the end surface of the floating frame body.