CN219751312U - New forms of energy fills electric pile and makes with transporting frame - Google Patents

Abstract

The utility model discloses a transfer frame for manufacturing a new energy charging pile, which relates to the technical field of manufacturing of charging piles and comprises an equipment platform, a conveying unit, a speed reducing unit, a lifting unit, an entrance door unit and an exit door unit; the equipment platform is a rectangular flat plate; the middle part and the right part of the upper surface of the equipment platform are respectively and fixedly connected with the bottoms of the two pairs of support arms; the conveying unit comprises a conveying wheel, a conveying belt, a conveying shaft, a connecting arm, a conveying motor and a conveying motor fixing table, wherein the right sides of the tops of the supporting arms are fixedly connected with the right sides of the connecting arm respectively, the right sides of the connecting arm are fixedly connected with the tops of the supporting arms, the two connecting arms are respectively and equidistantly rotatably provided with the conveying shaft to convey the charging pile by adopting belt transmission, and continuous transportation and efficient transportation are realized; belt transportation mainly adopts damped deceleration idler wheels to enable the charging pile to stop safely and rapidly, and a lifting device is designed to lift the charging pile to the corresponding loading height.

Description

New forms of energy fills electric pile and makes with transporting frame

Technical Field

The utility model relates to the technical field of manufacturing of charging piles, in particular to a transfer frame for manufacturing new energy charging piles.

Background

In recent years, with the great consumption of energy sources and the increasing severity of environmental pollution, electric vehicles replace fuel oil by electric power, so that the crisis of energy sources and the environmental pollution are solved, and the electric vehicles have the advantages of energy conservation, environmental protection, low noise, low emission and the like and are favored by people. As electric vehicles become popular, the charging problem of electric vehicles is increasingly prominent. The requirement of the charging pile as a hardware supporting facility of the electric vehicle is also increasing, and the development of the electric vehicle is not separated from the construction and development of the charging pile which is convenient and rapid.

The prior art provides a transfer frame for a charging pile, which comprises a bottom plate, a baffle, a handle, a fixed plate, a push plate and a charging pile body, wherein one end of the upper end face of the bottom plate is fixedly connected with the baffle, the upper end face of the bottom plate is also fixedly connected with a box body, a taking groove is formed in the upper end face of the bottom plate, the lower end face of the bottom plate is fixedly connected with a universal wheel, and the top end of the baffle is fixedly connected with the handle; one side fixedly connected with baffle, fixed plate that the baffle is close to the box body, the fixed plate is relatively parallel to be equipped with two, the baffle is located two between the fixed plate, be equipped with the push pedal between baffle and the fixed plate, the push pedal is relatively parallel to be equipped with two, be equipped with between push pedal and the baffle and fill electric pile body, threaded connection has the lead screw on the fixed plate, lead screw one end passes the fixed plate and rotates with the push pedal to be connected, be equipped with the limiting plate between box body and the baffle. This fill electric pile with transporting frame, reasonable in design, easy operation has the advantage that stability is good.

However, in the prior art, one device can only carry two charging piles, can not meet the continuous transferring requirement in the production process of the charging piles, can not meet the requirement of batch industrial production, has no lifting function, and can not meet the requirement that the charging piles can not be loaded at different heights during loading, so that the novel energy charging pile manufacturing transferring frame is provided.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides a transfer frame for manufacturing a new energy charging pile, which adopts belt transmission to convey the charging pile, thereby realizing continuous transportation and efficient transportation; belt transportation mainly adopts damped deceleration idler wheels to enable the charging pile to stop safely, and a lifting device is designed to lift the charging pile to a corresponding loading height, so that the problem in the background technology can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a new energy charging pile manufacturing transfer frame comprises an equipment platform, a conveying unit, a speed reducing unit, a lifting unit, an entrance door unit and an exit door unit;

and (3) an equipment platform: is a rectangular flat plate; the middle part and the right part of the upper surface of the equipment platform are respectively and fixedly connected with the bottoms of the two pairs of support arms;

a transmission unit: the automatic transmission device comprises transmission wheels, a transmission belt, transmission shafts, a connecting arm, a transmission motor and a transmission motor fixing table, wherein the left sides of the tops of the support arms are respectively and fixedly connected with the right sides of the connecting arms, the tops of the right sides of the connecting arms are fixedly connected with the tops of the support arms, the two connecting arms are respectively and equidistantly rotated to install the transmission shafts, the transmission wheels are fixedly connected between each pair of transmission shafts, the transmission belt is connected to the outer sides of the transmission wheels in a transmission manner, the upper parts of the support arms on the left sides are fixedly connected with the transmission motor fixing table, the upper surfaces of the transmission motor fixing tables are fixedly connected with the transmission motor, the output shafts of the transmission motor are fixedly connected with the transmission shafts on the rightmost sides, and the input ends of the transmission motor are electrically connected with an external power supply through an external switch group;

a deceleration unit: is arranged at the rear side of the conveying unit;

lifting unit: is arranged at the upper part of the speed reducing unit;

an entrance door unit; is arranged at the front side of the lifting unit;

outlet door unit: mounted at the rear side of the lifting unit.

Through the rotation of the fixed conveying motor on the conveying motor fixed table, drive the conveying wheel on the rightmost side and rotate, drive conveyer belt and other conveying wheels through the rotation of the conveying wheel on the rightmost side, the conveying axle plays the effect of connecting arm and conveying wheel, and the connecting arm links a plurality of conveying wheels together and has constituted the conveying unit jointly. Further, the deceleration unit includes: f type support arm, spring fixed station, reducing gear, speed reducing shaft and reducing gear, F type support arm is equipped with two, the lower limit and the equipment platform fixed connection of every F type support arm, the front end and the support arm bottom fixed connection at middle part of F type support arm, two pairs of speed reducing shafts of two top rotations connection of every F type support arm, fixed connection reducing gear between every two pairs of speed reducing shafts, the left end fixed connection reducing gear of the left rear side reducing shaft, reducing gear left surface fixed connection spring fixed station, the top of spring fixed station lower surface fixed connection spring, the bottom fixed connection equipment platform of spring.

The F-shaped support arm is used for fixing the speed reducing shaft and the speed reducing wheel, the speed reducing disc is used for fixing the spring fixing table, the spring fixing table is used for connecting the spring, when the charging pile enters the speed reducing unit, the speed reducing wheel rotates and the speed reducing disc rotates, the spring fixing table starts to rotate along with the rotation, at the moment, the spring is stretched, and along with the increase of the deformation quantity of the spring, the kinetic energy of the charging pile is converted into spring elastic potential energy.

Further, the lifting unit comprises E-shaped support arms, a lifting motor fixing table, a lifting motor, a threaded rod, sliding wheels, thread sleeves and sliding shafts, wherein two E-shaped support arms are arranged, three lower ends of each E-shaped support arm are respectively connected with the sliding shafts in a rotating mode, the sliding wheels are fixedly connected between each pair of sliding shafts, the thread sleeves are fixedly connected to the lower portions of the middle of the left E-shaped support arms, the lifting motor fixing table is fixedly connected to the lower side rear side of the left F-shaped support arm, the lifting motor is fixedly connected to the upper surface of the lifting motor fixing table, the input end of the lifting motor is electrically connected with an external power supply through an external switch group, the output shaft of the lifting motor is fixedly connected with the bottom end of the threaded rod, and the threaded rod is in threaded connection with the thread sleeves.

E type support arm is used for connecting movable pulley, thread bush and sliding shaft, and movable pulley and sliding shaft are used for providing the roll when charging the pile dress, and laborsaving, and the promotion motor fixed station is used for fixed promotion motor, and the promotion motor provides rotation power, makes the threaded rod rotatory, makes thread bush rise or decline motion through the threaded connection of thread bush.

Further, the lifting unit further comprises a stabilizing sleeve, a stabilizing rod fixing table and a stabilizing rod, the stabilizing rod fixing table is fixedly connected to the rear side of the lower edge of the right F-shaped support arm, the stabilizing rod is fixedly connected to the middle lower portion of the right E-shaped support arm, the stabilizing rod is fixedly connected to the upper surface of the stabilizing rod fixing table, and the stabilizing rod is vertically and slidably connected with the stabilizing sleeve.

The stabilizer bar fixed station is used for fixed stabilizer bar, and the vertical sliding connection of stabilizer bar and steady cover is used for the spacing effect of hoisting unit promotion process.

Further, the entrance door unit comprises a sliding sleeve, door legs, clamping tables and an entrance door, the sliding sleeve is fixedly connected in the middle of the front sides of the two E-shaped supporting arms, the two door legs are vertically and slidably connected with the sliding sleeve respectively, the top of each door leg is fixedly connected with the entrance door, and the clamping tables of the entrance door are fixedly connected to the outer sides of the middle upper parts of the two door legs respectively.

The sliding sleeve is used for fixing the door leg, the door leg is used for connecting the entrance door to when the lifting unit is in the lowest position, the door leg is under the action of gravity, the bottom is propped against the equipment platform, the entrance door is lifted, the entrance door unit is in a door opening state, when the lifting unit starts to lift, the sliding sleeve also follows the lifting, the sliding sleeve props against the clamping table to drive the door leg to ascend, and the entrance door is automatically closed.

Further, the exit door unit comprises an exit door, handrails, a door hook, a door shaft sleeve and a clamping device, wherein the door shaft is fixedly connected in the middle of the rear side of the left E-shaped support arm, the door shaft is connected with the door shaft sleeve in a hole drilling mode, the top of the door shaft sleeve is fixedly connected with the exit door, the door hook is fixedly connected in the middle of the rear side of the right E-shaped support arm, the right of the exit door is clamped with the door hook, and the upper portion of the rear side of the left E-shaped support arm is fixedly connected with the clamping device.

The door spindle is used for rotating the outlet door, the door spindle sleeve is used for connecting the door spindle and the outlet door, the outlet door is fixed when the door hook is used for closing the door, the outlet door is fixed when the retainer is used for opening the door, the door is opened and closed in the hand-held place when the handrail is used, the outlet door is in a hollow design, and the position of the charging pile can be observed when unloading.

Compared with the prior art, the utility model has the beneficial effects that: this new forms of energy fills electric pile and makes with transporting frame has following benefit:

1. the belt transmission device is designed, so that the transmission becomes continuous, the transmission efficiency is higher, and the requirements of industrialization, automation and large-scale production can be met.

2. The device for decelerating the roller through the stretching of the spring is designed, so that the charging pile is rapidly decelerated on the decelerating wheel and then is prepared for lifting.

3. The rotary motion is changed into the vertical up-and-down motion through the design of the threaded rod and the threaded sleeve, so that the charging pile can be lifted, and meanwhile, the inlet door of the automatic switch and the outlet door of the manual switch are designed, so that the lifting process is safer.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A according to the present utility model;

fig. 3 is a schematic rear view of the present utility model.

In the figure: 1 equipment platform, 2 support arms, 3 conveying units, 31 conveying wheels, 32 conveying belts, 33 conveying shafts, 34 connecting arms, 35 conveying motors, 36 conveying motor fixing tables, 4 decelerating units, 41F support arms, 42 springs, 43 spring fixing tables, 44 decelerating discs, 45 decelerating shafts, 46 decelerating wheels, 5 lifting units, 51E support arms, 52 lifting motor fixing tables, 53 lifting motors, 54 threaded rods, 55 sliding wheels, 56 threaded sleeves, 57 sliding shafts, 58 stable sleeves, 59 stable rod fixing tables, 510 stable rods, 6 entrance door units, 61 sliding sleeves, 62 door legs, 63 clamping tables, 64 entrance doors, 7 exit door units, 71 exit doors, 72 armrests, 73 door hooks, 74 door shafts, 75 door shaft sleeves and 76 clamping devices.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present embodiment provides a technical solution: the utility model provides a new forms of energy fills transportation frame for electric pile manufacture, includes equipment platform 1, conveying unit 3, speed reduction unit 4, lifting unit 5, entry door unit 6 and exit door unit 7;

equipment platform 1: is a rectangular flat plate; the middle part and the right part of the upper surface of the equipment platform 1 are respectively and fixedly connected with the bottoms of the two pairs of support arms 2;

the transfer unit 3: the automatic transmission device comprises transmission wheels 31, a transmission belt 32, transmission shafts 33, connecting arms 34, a transmission motor 35 and a transmission motor fixing table 36, wherein the left sides of the tops of the support arms 2 are respectively fixedly connected with the right sides of the connecting arms 34, the right sides of the connecting arms 34 are fixedly connected with the tops of the support arms 2, the two connecting arms 34 are respectively and equidistantly rotatably provided with the transmission shafts 33, the transmission wheels 31 are fixedly connected between each pair of transmission shafts 33, the transmission belt 32 is in transmission connection with the outer sides of the transmission wheels 31, the upper parts of the left support arms 2 are fixedly connected with the transmission motor fixing table 36, the upper surfaces of the transmission motor fixing tables 36 are fixedly connected with the transmission motor 35, the output shafts of the transmission motor 35 are fixedly connected with the transmission shafts 33 on the rightmost side, and the input ends of the transmission motor 35 are electrically connected with an external power supply through an external switch group;

deceleration unit 4: is installed at the rear side of the transfer unit 3;

the speed reducing unit 4 comprises two F-shaped support arms 41, springs 42, a spring fixing table 43, speed reducing discs 44, speed reducing shafts 45 and speed reducing wheels 46, wherein the F-shaped support arms 41 are fixedly connected with the equipment platform 1, the front end of each F-shaped support arm 41 is fixedly connected with the bottom end of the support arm 2 in the middle, two pairs of speed reducing shafts 45 are rotatably connected to the two top ends of each F-shaped support arm 41, the speed reducing wheels 46 are fixedly connected between every two pairs of speed reducing shafts 45, the left ends of the speed reducing shafts 45 on the left rear side are fixedly connected with the speed reducing discs 44, the left side faces of the speed reducing discs 44 are fixedly connected with the spring fixing table 43, the lower surfaces of the spring fixing tables 43 are fixedly connected with the tops of the springs 42, and the bottoms of the springs 42 are fixedly connected with the equipment platform 1.

The F-shaped support arm 41 is used for fixing a speed reducing shaft 45 and a speed reducing wheel 46, the speed reducing disc 44 is used for fixing a spring fixing table 43, the spring fixing table 43 is used for connecting a spring 42, when a charging pile enters the speed reducing unit 4, the speed reducing wheel 46 rotates and the speed reducing disc 44 rotates, the spring fixing table 43 starts to rotate along with the rotation, at the moment, the spring 42 is stretched, and as the deformation amount of the spring 42 increases, the kinetic energy of the charging pile is converted into elastic potential energy of the spring 42.

Lifting unit 5: is installed at the upper part of the speed reducing unit 4;

the lifting unit 5 comprises two E-shaped support arms 51, a lifting motor fixing table 52, lifting motors 53, threaded rods 54, sliding wheels 55, thread sleeves 56 and sliding shafts 57, wherein the three lower ends of each E-shaped support arm 51 are respectively connected with the sliding shafts 57 in a rotating mode, the sliding wheels 55 are fixedly connected between each pair of sliding shafts 57, the thread sleeves 56 are fixedly connected to the lower portion of the middle of each left E-shaped support arm 51, the lifting motor fixing table 52 is fixedly connected to the rear side of the lower side of each left F-shaped support arm 41, the lifting motors 53 are fixedly connected to the upper surface of each lifting motor fixing table 52, the input ends of the lifting motors 53 are electrically connected with an external power supply through an external switch group, the bottom ends of the threaded rods 54 are fixedly connected to the output shafts 54 of the lifting motors 53, and the threaded rods 54 are in threaded connection with the thread sleeves 56.

E-shaped support arm 51 is used for connecting movable pulley 55, thread bush 56 and sliding shaft 57, and movable pulley 55 and sliding shaft 57 are used for providing the roll when charging the pile dress, and laborsaving, and lifting motor fixed station 52 is used for fixed lifting motor 53, and lifting motor 53 provides rotary power, makes threaded rod 54 rotate, makes thread bush 56 rise or descend the motion through the threaded connection of thread bush 56.

The lifting unit 5 further comprises a stabilizing sleeve 58, a stabilizing rod fixing table 59 and a stabilizing rod 510, wherein the stabilizing rod fixing table 59 is fixedly connected to the rear side of the lower edge of the right F-shaped support arm 41, the stabilizing sleeve 58 is fixedly connected to the middle lower portion of the right E-shaped support arm 51, the stabilizing rod 510 is fixedly connected to the upper surface of the stabilizing rod fixing table 59, and the stabilizing rod 510 is vertically and slidably connected with the stabilizing sleeve 58.

The stabilizer bar fixing table 59 is used for fixing the stabilizer bar 510, and the vertical sliding connection between the stabilizer bar 510 and the stabilizer sleeve 58 is used for limiting the lifting process of the lifting unit 5.

An entrance door unit 6; mounted on the front side of the lifting unit 5;

the entrance door unit 6 comprises a sliding sleeve 61, door legs 62, a clamping table 63 and an entrance door 64, wherein the sliding sleeve 61 is fixedly connected in the middle of the front sides of the two E-shaped supporting arms 51 respectively, the two door legs 62 are vertically and slidingly connected with the sliding sleeve 61 respectively, the top of each door leg 62 is fixedly connected with the entrance door 64, and the clamping table 63 of the entrance door 64 is fixedly connected to the outer sides of the middle upper parts of the two door legs 62 respectively.

The sliding sleeve 61 is used for fixing the door leg 62, the door leg 62 is used for connecting the entrance door 64, and when the lifting unit 5 is at the lowest position, the door leg 62 is under the action of gravity, the bottom of the door leg 62 props against the equipment platform 1, the entrance door 64 is lifted, the entrance door unit 6 is in a door opening state, when the lifting unit 5 starts lifting, the sliding sleeve 61 is also lifted, the sliding sleeve 61 props against the clamping table 63 to drive the door leg 62 to lift, and the entrance door 64 is automatically closed.

Outlet door unit 7: mounted on the rear side of the lifting unit 5.

The outlet door unit 7 comprises an outlet door 71, a handrail 72, a door hook 73, a door shaft 74, a door shaft sleeve 75 and a retainer 76, wherein the door shaft 74 is fixedly connected to the middle of the rear side of the left E-shaped support arm 51, the door shaft 74 is connected with the door shaft sleeve 75 in a hole-drilling mode, the top of the door shaft sleeve 75 is fixedly connected with the outlet door 71, the door hook 73 is fixedly connected to the middle of the rear side of the right E-shaped support arm 51, the right of the outlet door 71 is in clamping connection with the door hook 73, and the retainer 76 is fixedly connected to the upper portion of the rear side of the left E-shaped support arm 51.

The door shaft 74 is used for rotating the outlet door 71, the door shaft sleeve 75 is used for connecting the door shaft 74 and the outlet door 71, the door hook 73 is used for fixing the outlet door 71 when closing the door, the retainer 76 is used for fixing the outlet door 71 when opening the door, the handrail 72 is used for opening and closing the place where the door is held, the outlet door 71 adopts a hollowed-out design, and the position of the charging pile can be observed when unloading.

The transfer wheel 31 on the rightmost side is driven to rotate by the rotation of the transfer motor 35 fixed on the transfer motor fixing table 36, the transfer belt 32 and other transfer wheels 31 are driven by the rotation of the transfer wheel 31 on the rightmost side, the transfer shaft 33 plays a role of connecting the connecting arm 34 and the transfer wheels 31, and the connecting arm 34 connects the plurality of transfer wheels 31 together to form a transfer unit.

The utility model provides a new energy charging pile manufacturing transport frame, which has the following working principle:

the transfer wheel 31 on the rightmost side is driven to rotate by the rotation of the transfer motor 35 fixed on the transfer motor fixing table 36, the transfer belt 32 and other transfer wheels 31 are driven by the rotation of the transfer wheel 31 on the rightmost side, the transfer shaft 33 plays a role of connecting the connecting arm 34 and the transfer wheels 31, and the connecting arm 34 connects the plurality of transfer wheels 31 together to form a transfer unit.

The F-shaped support arm 41 is used for fixing a speed reducing shaft 45 and a speed reducing wheel 46, the speed reducing disc 44 is used for fixing a spring fixing table 43, the spring fixing table 43 is used for connecting a spring 42, when a charging pile enters the speed reducing unit 4, the speed reducing wheel 46 rotates and the speed reducing disc 44 rotates, the spring fixing table 43 starts to rotate along with the rotation, at the moment, the spring 42 is stretched, and as the deformation amount of the spring 42 increases, the kinetic energy of the charging pile is converted into elastic potential energy of the spring 42.

E-shaped support arm 51 is used for connecting movable pulley 55, thread bush 56 and sliding shaft 57, and movable pulley 55 and sliding shaft 57 are used for providing the roll when charging the pile dress, and laborsaving, and lifting motor fixed station 52 is used for fixed lifting motor 53, and lifting motor 53 provides rotary power, makes threaded rod 54 rotate, makes thread bush 56 rise or descend the motion through the threaded connection of thread bush 56. The stabilizer bar fixing table 59 is used for fixing the stabilizer bar 510, and the vertical sliding connection between the stabilizer bar 510 and the stabilizer sleeve 58 is used for limiting the lifting process of the lifting unit 5.

The sliding sleeve 61 is used for fixing the door leg 62, the door leg 62 is used for connecting the entrance door 64, and when the lifting unit 5 is at the lowest position, the door leg 62 is under the action of gravity, the bottom of the door leg 62 props against the equipment platform 1, the entrance door 64 is lifted, the entrance door unit 6 is in a door opening state, when the lifting unit 5 starts lifting, the sliding sleeve 61 is also lifted, the sliding sleeve 61 props against the clamping table 63 to drive the door leg 62 to lift, and the entrance door 64 is automatically closed.

The door shaft 74 is used for rotating the outlet door 71, the door shaft sleeve 75 is used for connecting the door shaft 74 and the outlet door 71, the door hook 73 is used for fixing the outlet door 71 when closing the door, the retainer 76 is used for fixing the outlet door 71 when opening the door, the handrail 72 is used for opening and closing the place where the door is held, the outlet door 71 adopts a hollowed-out design, and the position of the charging pile can be observed when unloading.

It should be noted that the lifting motor 53 disclosed in the above embodiment adopts a servo motor, and the external control switch group controls the working lifting motor 53 by a method commonly used in the prior art.

The foregoing is only illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, and all equivalent structures or equivalent flow modifications which may be made by the teachings of the present utility model and the accompanying drawings or which may be directly or indirectly employed in other related art are within the scope of the utility model.

Claims (6)

1. New forms of energy fills electric pile and makes with transporting frame, its characterized in that: comprises an equipment platform (1), a conveying unit (3), a speed reducing unit (4), a lifting unit (5), an entrance door unit (6) and an exit door unit (7);

equipment platform (1): is a rectangular flat plate; the middle part and the right part of the upper surface of the equipment platform (1) are respectively and fixedly connected with the bottoms of the two pairs of support arms (2);

a transfer unit (3): the automatic transmission device comprises transmission wheels (31), a transmission belt (32), transmission shafts (33), connecting arms (34), a transmission motor (35) and a transmission motor fixing table (36), wherein the left side of the top of each support arm (2) is fixedly connected with the right side of each connecting arm (34), the right side of each connecting arm (34) is fixedly connected with the top of each support arm (2), the two connecting arms (34) are respectively and equidistantly rotatably provided with the transmission shafts (33), the transmission wheels (31) are fixedly connected between each pair of the transmission shafts (33), the transmission belt (32) is connected in a transmission manner outside the transmission wheels (31), the upper part of each support arm (2) on the left side is fixedly connected with the transmission motor fixing table (36), the upper surface of each transmission motor fixing table (36) is fixedly connected with the transmission motor (35), the output shaft of each transmission motor (35) is fixedly connected with the transmission shaft (33) on the rightmost side, and the input end of each transmission motor (35) is electrically connected with an external power supply through an external switch group;

a speed reduction unit (4): is mounted on the rear side of the transfer unit (3);

lifting unit (5): is arranged at the upper part of the speed reducing unit (4);

an entrance door unit (6); is mounted on the front side of the lifting unit (5);

outlet door unit (7): is mounted on the rear side of the lifting unit (5).

2. The transfer rack for manufacturing the new energy charging pile according to claim 1, wherein: the utility model provides a speed reduction unit (4) contains F type support arm (41), spring (42), spring fixed station (43), reducing gear (44), speed reduction axle (45) and reducing gear (46), F type support arm (41) are equipped with two, the lower limit and equipment platform (1) fixed connection of every F type support arm (41), the front end and the support arm (2) bottom fixed connection in middle part of F type support arm (41), two pairs of reducing gear (45) are rotated on two tops of every F type support arm (41), every two pairs of fixed connection reducing gear (46) between reducing gear (45), the left end fixed connection reducing gear (44) of reducing gear (45) of left rear side, spring fixed station (43) are connected to reducing gear (44) left surface fixed connection, the top of spring fixed station (43) lower surface fixed connection spring (42), the bottom fixed connection equipment platform (1) of spring (42).

3. The transfer rack for manufacturing the new energy charging pile according to claim 1, wherein: lifting unit (5) contain E type support arm (51), promote motor fixed station (52), promote motor (53), threaded rod (54), movable pulley (55), thread bush (56) and sliding shaft (57), E type support arm (51) are equipped with two, and three lower extreme of every E type support arm (51) rotates respectively and connects movable pulley (57), fixed connection movable pulley (55) between every pair of sliding shaft (57), lower part fixed connection thread bush (56) in the middle of E type support arm (51) of left side, the lower side rear side fixed connection of F type support arm (41) of left side promotes motor fixed station (52), the upper surface fixed connection that promotes motor fixed station (53), the input of promotion motor (53) is through outside switch group and external power source electricity connection, the bottom of output shaft fixed connection threaded rod (54) of promotion motor (53), threaded rod (54) and thread bush (56) threaded connection.

4. A new energy charging pile manufacturing transfer frame according to claim 3, characterized in that: the lifting unit (5) further comprises a stabilizing sleeve (58), a stabilizing rod fixing table (59) and a stabilizing rod (510), wherein the stabilizing rod fixing table (59) is fixedly connected to the rear side of the lower edge of the right F-shaped support arm (41), the stabilizing rod (58) is fixedly connected to the middle lower portion of the right E-shaped support arm (51), the stabilizing rod (510) is fixedly connected to the upper surface of the stabilizing rod fixing table (59), and the stabilizing rod (510) is vertically and slidably connected with the stabilizing sleeve (58).

5. The transfer rack for manufacturing the new energy charging pile according to claim 1, wherein: the entrance door unit (6) comprises a sliding sleeve (61), door legs (62), clamping tables (63) and an entrance door (64), wherein the sliding sleeve (61) is fixedly connected in the middle of the front sides of the two E-shaped supporting arms (51), the two door legs (62) are respectively and vertically connected with the sliding sleeve (61) in a sliding mode, the top of each door leg (62) is fixedly connected with the entrance door (64), and the clamping tables (63) are respectively and fixedly connected to the outer sides of the middle upper portions of the two door legs (62).

6. A new energy charging pile manufacturing transfer frame according to claim 3, characterized in that: the exit door unit (7) comprises an exit door (71), an armrest (72), a door hook (73), a door shaft (74), a door shaft sleeve (75) and a clamping device (76), wherein the door shaft (74) is fixedly connected in the middle of the rear side of the left E-shaped support arm (51), the door shaft (74) is connected with the door shaft sleeve (75) in a drilling mode, the top of the door shaft sleeve (75) is fixedly connected with the exit door (71), the door hook (73) is fixedly connected in the middle of the rear side of the right E-shaped support arm (51), the right of the exit door (71) is clamped with the door hook (73), and the clamping device (76) is fixedly connected on the upper portion of the rear side of the left E-shaped support arm (51).