CN219419680U - Energy docking device with floating function - Google Patents

Abstract

The utility model relates to the technical field of energy butt joint devices, in particular to an energy butt joint device with a floating function, which comprises an upper energy butt joint module and a lower energy butt joint module which are respectively fixed on an upper connecting plate and a lower connecting plate and are connected in an inserting way.

Description

Energy docking device with floating function

Technical Field

The utility model relates to the technical field of energy docking devices, in particular to an energy docking device with a floating function.

Background

In the process of testing and overhauling the power supply system, the driving system, the auxiliary system and other energy systems, overhauling equipment and the energy system are usually needed to realize the butt joint, but the butt joint of the overhauling equipment and the energy system in the prior art is inconvenient, dislocation easily occurs during the butt joint, and the damage of the energy butt joint device is easily caused during the dislocation butt joint, so that a device for solving the problems is needed.

Disclosure of Invention

The utility model provides an energy docking device with a floating function, which aims to solve the problems that overhaul equipment and an energy docking device in an automobile are inconvenient to dock and easy to misplace during docking in the prior art, and the energy docking device is easy to damage during misplacement docking.

The technical scheme of the utility model is that the device comprises an upper energy butt joint module and a lower energy butt joint module which are respectively fixed on an upper connecting plate and a lower connecting plate and are connected in an inserting way, wherein a positioning plug is fixed on the upper connecting plate, through positioning holes are formed in the positioning plug and the upper connecting plate, a positioning pin shaft is fixed on the lower connecting plate, the positioning pin shaft is inserted in the positioning holes, a detection hole is formed in the upper connecting plate, a sensor is fixed on the lower connecting plate, the sensor is inserted in the detection hole to form a structure for detecting the distance between the upper connecting plate and the lower connecting plate through the sensor, a fixing hole is formed in the lower connecting plate, a shoulder bolt is arranged in the fixing hole, a floating mechanism is sleeved outside a part of the shoulder bolt in the fixing hole to form a structure capable of realizing floating in a horizontal plane relative to the lower connecting plate through the floating mechanism, and a reset spring is sleeved outside the fixing hole.

Preferably, a detection point extends from one end of the sensor far away from the lower connecting plate, the diameter of the detection point is smaller than that of the sensor, and the detection point is inserted into the detection hole.

Preferably, the vertical section of the fixing hole is T-shaped, and the floating mechanism is arranged in one end of the fixing hole with larger diameter.

Preferably, the floating mechanism comprises a floating block and a floating carrier, the floating block and the floating carrier are sleeved outside the shaft shoulder bolt, the floating block is in a round table shape, an arc-shaped floating groove is formed in the end face, close to the floating block, of the floating carrier, and the floating block is arranged in the floating groove.

Preferably, a spring sleeve is sleeved outside the shaft shoulder bolt, a limiting groove is formed in the spring sleeve, and one end of the reset spring is fixedly inserted into the limiting groove in a plugging mode.

Preferably, the number of the positioning plugs and the positioning pins is multiple.

The following beneficial effects can be achieved by adopting the technical scheme of the utility model: (1) The positioning plug, the positioning hole and the positioning pin shaft are convenient for quick and accurate positioning when the upper energy docking module and the lower energy docking module are docked; (2) The upper energy docking module and the lower energy docking module are conveniently docked in place or not through the detection holes and the sensors; (3) Through the floating mechanism, when the upper energy butt joint module and the lower energy butt joint module which are connected with the equipment end and the workpiece end are symmetrically connected, floating deflection can be carried out, safe butt joint in the aspects of electricity, liquid, gas and the like is ensured, and meanwhile, after the butt joint is completed, the floating mechanism is restored to the original position by utilizing spherical surface cooperation between the floating blocks and the floating carriers; (4) The reset spring and the spring sleeve are convenient for providing floating along the length direction of the shaft shoulder bolt when the upper energy docking module and the lower energy docking module are connected in a butt-inserting way; the technical scheme of the utility model has wide application prospect in the technical field of energy docking devices.

Drawings

Fig. 1 is a cross-sectional view of an energy docking apparatus with a floating function according to the present utility model.

Fig. 2 is an enlarged view of area a in fig. 1.

Fig. 3 is a perspective view of the energy docking device with floating function of the present utility model.

Wherein, 1, an upper connecting plate, 2, a lower connecting plate, 3, a positioning plug, 4, a positioning hole, 5, a positioning pin shaft, 6, a shaft shoulder bolt, 7 and a floating block, 8, floating carrier, 9, spring sleeve, 10, reset spring, 11, spacing groove, 12, sensor, 13, check point, 14, detection hole.

Detailed Description

The following description of the embodiments of the present utility model will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which may be made by those skilled in the art without the inventive faculty, are intended to be within the scope of the present utility model, and in the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are directions or positional relationships based on the drawings, which are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "first," "second," "third," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying any particular importance in the description of the present utility model, but rather as being construed broadly as the terms "mounted," "connected," "coupled," or "connected" unless expressly specified or limited otherwise, e.g., as either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The energy docking device with the floating function shown in fig. 1-3 comprises an upper energy docking module and a lower energy docking module which are respectively detachably fixed on an upper connecting plate 1 and a lower connecting plate 2 through bolts and are in plug-in connection, so that the energy docking of a device end and a workpiece end is realized through the plug-in of the upper energy docking module and the lower energy docking module, and the detection of automobile equipment is facilitated. The positioning plug 3 is detachably fixed on the upper connecting plate 1 through threads, so that the positioning plug 3 is connected with the upper connecting plate 1. The positioning plug 3 and the upper connecting plate 1 are provided with a through positioning hole 4, the lower connecting plate 2 is additionally detachably fixed with a positioning pin 5, the positioning pin 5 is inserted into the positioning hole 4, the accurate butt joint of the upper energy butt joint module and the lower energy butt joint module is conveniently realized through the positioning pin 5 and the positioning hole 4, the butt joint connection efficiency of the upper energy butt joint module and the lower energy butt joint module is improved, and the upper energy butt joint module and the lower energy butt joint module are prevented from being damaged by serious dislocation caused by butt joint of the upper energy butt joint module and the lower energy butt joint module, so that the energy butt joint effect is influenced. The number of the positioning plugs 3 and the positioning pins 5 is multiple, namely, the number of the positioning plugs 3 and the positioning pins 5 is at least two, so that more accurate opposite connection of the upper energy butt joint module and the lower energy butt joint module is realized through the multiple groups of the positioning plugs 3 and the positioning pins 5.

The energy docking device with floating function as shown in fig. 1-3 is provided with a detection hole 14 on the upper connecting plate 1, a sensor 12 is detachably fixed on the lower connecting plate 2 through threads, the sensor 12 is inserted into the detection hole 14, detection is conveniently carried out when the upper energy docking module and the lower energy docking module are inserted and connected through the sensor 12, and distance between the upper energy docking module and the lower energy docking module is monitored and whether the upper energy docking module and the lower energy docking module are connected in place or not is detected. The sensor 12 is far away from the one end extension of lower connecting plate 2 and has check point 13, and the diameter of check point 13 is less than the diameter of sensor 12, and check point 13 grafting is in detection hole 14 for peg graft in detection hole 14 through the less check point 13 of diameter, avoid going up energy butt joint module and lower energy butt joint module and cause the damage to the check point when docking.

The energy docking device with floating function as shown in fig. 1-3 is characterized in that a fixing hole is formed in the lower connecting plate 2, a shoulder bolt 6 is arranged in the fixing hole, so that the lower connecting plate 2 and the workpiece end are conveniently connected together by penetrating the shoulder bolt 6 through the fixing hole, and further the lower energy docking module and the workpiece end are connected together; and similarly, the upper connecting plate 1 is provided with a connecting hole, and the connecting bolt penetrates through the connecting hole to connect the upper connecting plate 1 with the equipment end, so that the upper energy docking module is connected with the equipment end. The vertical section of the fixing hole is T-shaped, so that the head of the shoulder bolt 6 is conveniently limited in the fixing hole. The minimum diameter of the fixing hole is larger than the diameter of the threaded rod of the shaft shoulder bolt 6, so that the shaft shoulder bolt 6 can deflect in the fixing hole, further floating deflection can be generated when the upper energy butt joint module and the lower energy butt joint module are connected in a butt joint mode, the rigidity force suffered by the shaft shoulder bolt 6 is reduced, damage to the shaft shoulder bolt 6 is avoided, and the connection of the lower connecting plate 2 and the equipment end of the shaft shoulder bolt 6 is influenced. The shoulder bolt 6 is provided with a floating mechanism in a part of the outer part of the fixing hole in a sleeved mode, and a structure capable of realizing deflection and inclination of the shoulder bolt 6 relative to the lower connecting plate 2 through the floating mechanism is formed, so that deflection of the shoulder bolt 6 in the fixing hole is realized through the floating mechanism, and the upper energy docking module and the lower energy docking module can be restored to the original position after the upper energy docking module and the lower energy docking module are inserted through the floating mechanism. The floating mechanism comprises a floating block 7 and a floating carrier 8, wherein the floating block 7 and the floating carrier 8 are sleeved outside the shaft shoulder bolt 6, so that the shaft shoulder bolt 6 is guided through the floating block 7 and the floating carrier 8, and the shaft shoulder bolt 6 is deflected and reset in a fixing hole. The slider 7 is round platform shape, and the less one end of slider 7 diameter is close to the floating carrier 8, and the terminal surface that the floating carrier 8 is close to slider 7 has seted up curved floating recess, and slider 7 sets up in the floating recess for utilize the slider 7 setting of convex surface to realize the skew of slider 7 relative floating carrier 8 in the curved floating recess of seting up on floating carrier 8, and then realize slider 7 drive shoulder bolt 6 in the fixed orifices the skew, realize the floating butt joint of last energy butt joint module and lower energy butt joint module when inserting.

The energy butt joint device with floating function as shown in fig. 1-3 is characterized in that the shoulder bolt 6 is sleeved with a reset spring 10 outside the fixing hole, so that the reset spring 10 can provide a floating effect for the shoulder bolt 6 along the length direction of the shoulder bolt. The spring sleeve 9 is sleeved outside the shoulder bolt 6, the limiting groove 11 is formed in the spring sleeve 9, one end of the reset spring 10 is fixedly inserted into the limiting groove 11 in a plugging mode, limiting of the reset spring 10 is facilitated through the limiting block and the limiting groove 11, deflection of the reset spring 10 during extension and retraction is avoided, and the shoulder bolt 6 is scratched.

The device elements in the above embodiments are conventional device elements unless otherwise specified, and the structural arrangement, operation or control modes in the embodiments are conventional arrangement, operation or control modes in the art unless otherwise specified.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (6)

1. The utility model provides an energy interfacing apparatus with floating function, includes upper energy interfacing module and lower energy interfacing module of fixing on upper junction plate (1) and lower junction plate (2) respectively and pegging graft the connection, a serial communication port, be fixed with locating plug (3) on upper junction plate (1), locating hole (4) have been seted up on locating plug (3) and upper junction plate (1), be fixed with locating pin (5) on lower junction plate (2), locating pin (5) peg graft in locating hole (4), set up detection hole (14) on upper junction plate (1), be fixed with sensor (12) on lower junction plate (2), sensor (12) peg graft in detection hole (14) and constitute the structure of distance between upper junction plate (1) and lower junction plate (2) through sensor (12), set up the fixed orifices on lower junction plate (2), be equipped with shoulder bolt (6) in the fixed orifices, shoulder bolt (6) are equipped with the outside cover in the fixed orifices and are equipped with detection hole (14), be equipped with the relative shoulder bolt (6) of floating mechanism in the fixed angle of floating shaft (2) under the realization spring (10).

2. The energy docking device with floating function according to claim 1, characterized in that one end of the sensor (12) far away from the lower connecting plate (2) extends to form a detection point (13), the diameter of the detection point (13) is smaller than that of the sensor (12), and the detection point (13) is inserted into the detection hole (14).

3. The energy docking apparatus with floating function according to claim 1, wherein the vertical section of the fixing hole is T-shaped, and the floating mechanism is provided in an end of the fixing hole having a larger diameter.

4. The energy docking device with the floating function according to claim 1, wherein the floating mechanism comprises a floating block (7) and a floating carrier (8), the floating block (7) and the floating carrier (8) are sleeved outside a shoulder bolt (6), the floating block (7) is in a round table shape, an arc-shaped floating groove is formed in the end face, close to the floating block (7), of the floating carrier (8), and the floating block (7) is arranged in the floating groove.

5. The energy docking device with the floating function according to claim 1, wherein a spring sleeve (9) is sleeved outside the shaft shoulder bolt (6), a limiting groove (11) is formed in the spring sleeve (9), and one end of the return spring (10) is fixedly inserted into the limiting groove (11).

6. The energy docking device with floating function according to claim 1, characterized in that the number of positioning plugs (3) and positioning pins (5) is multiple.