CN214001735U - Transfer trolley capable of lifting based on gravity - Google Patents

Transfer trolley capable of lifting based on gravity Download PDF

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Publication number
CN214001735U
CN214001735U CN202023232433.XU CN202023232433U CN214001735U CN 214001735 U CN214001735 U CN 214001735U CN 202023232433 U CN202023232433 U CN 202023232433U CN 214001735 U CN214001735 U CN 214001735U
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China
Prior art keywords
chassis
gravity
lifting
arm
hinged
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CN202023232433.XU
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Chinese (zh)
Inventor
郭晓方
胡家泉
贾玉龙
刘爽
王向红
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Gree Electric Appliances Inc of Zhuhai
Gree Wuhan Electric Appliances Co Ltd
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Gree Electric Appliances Inc of Zhuhai
Gree Wuhan Electric Appliances Co Ltd
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Priority to CN202023232433.XU priority Critical patent/CN214001735U/en
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Abstract

The utility model provides a transport dolly that goes up and down based on gravity, include: a chassis; the lifting assembly comprises a commodity shelf and two scissor mechanisms for lifting the commodity shelf, the two scissor mechanisms are arranged on the chassis in parallel and support two sides of the commodity shelf, and a connecting rod is connected between the two scissor mechanisms; the rebound assembly is arranged between the two scissor mechanisms and comprises a fixing part and a telescopic part, the fixing part is hinged on the chassis, and the telescopic part is hinged with the connecting rod; when the commodity shelf is pressed to descend, the scissors mechanism acts and compresses the rebound assembly through the connecting rod. Based on the technical scheme of the utility model to the gravity of goods has removed the high intensity labor of artifical transport from as the power that goes up and down, and work efficiency is high, does not have range of motion's restriction simultaneously, adapts to various operational environment and has reduced manufacturing, use cost.

Description

Transfer trolley capable of lifting based on gravity
Technical Field
The utility model relates to a commodity circulation transfer apparatus technical field relates to a transport dolly that goes up and down based on gravity very much.
Background
With the development of low-cost automation technology, the labor intensity of personnel can be greatly reduced by simply utilizing the low-cost automation tooling, and the production efficiency is improved. In the field of warehouse logistics, handling of piles of materials is often involved; in the process of carrying, if materials have a certain stacking height, the materials can be stooped at a low position and padded at a high position during manual carrying, and the manual labor intensity is high; in the manual carrying process, a large number of actions which are ineffective for carrying can be carried out by personnel, so that the physical strength of the personnel is wasted.
At present, the transfer trolley capable of automatically lifting and transferring also exists in the prior art, and the lifting function of the transfer trolley is basically realized by adopting an air cylinder or a motor. The air cylinder or the motor needs to be ventilated or electrified, and further, a plurality of pipelines or cables need to be connected, and the pipelines or cables can form obstacles in the running process of the trolley, so that the moving range of the trolley is limited.
Therefore, a new transportation trolley for lifting by adopting a new means needs to be designed, and the automatic lifting of the materials is realized, and the limitation of a pipeline or a cable on the movement range is avoided.
SUMMERY OF THE UTILITY MODEL
To the problem among the above-mentioned prior art, this application has provided a transport dolly that goes up and down based on gravity to the gravity of goods is as the power that goes up and down, has removed the high intensity of labour of artifical transport from, and work efficiency is high, does not have the restriction of motion range simultaneously, adapts to various operational environment and has reduced manufacturing, use cost.
The utility model discloses a transport dolly that goes up and down based on gravity, include:
a chassis;
the lifting assembly comprises a commodity shelf and two scissor mechanisms for lifting the commodity shelf, the two scissor mechanisms are arranged on the chassis in parallel and support two sides of the commodity shelf, and a connecting rod is connected between the two scissor mechanisms to realize synchronous action;
the rebound assembly is arranged between the two scissor mechanisms and comprises a fixing part and a telescopic part, the fixing part is hinged on the chassis, and the telescopic part is hinged with the connecting rod;
when the commodity shelf is pressed to descend, the scissors mechanism acts and compresses the rebound assembly through the connecting rod.
In one embodiment, the scissors mechanism comprises a first arm rod and a second arm rod which are equal in length and cross with each other, and the length midpoints of the first arm rod and the second arm rod are hinged with each other;
the first arm lever is hinged to the chassis at one end of the bottom, one end of the top of the first arm lever is in sliding contact with the lower surface of the storage rack, and the second arm lever is hinged to the storage rack at one end of the bottom of the second arm lever is in sliding contact with the upper surface of the chassis at one end of the top of the second arm lever.
In one embodiment, first armed lever top one end with second armed lever bottom one end is connected with first pivot and second pivot respectively perpendicularly, first pivot with overlap respectively in the second pivot and be equipped with first rolling member and second rolling member, first rolling member the second rolling member respectively with the lower surface of supporter the upper surface rolling contact on chassis. Through this embodiment, the cooperation of first pivot and first rolling member, the cooperation of second pivot and second rolling member turn into rolling contact with the sliding contact of the top one end of first armed lever and supporter, the sliding contact on the bottom one end of second armed lever and chassis respectively, have reduced the frictional force of contact surface, guarantee that the relative motion on the contact surface goes on smoothly.
In one embodiment, the lower surface of the article holder and the upper surface of the chassis are respectively provided with a first sliding chute and a second sliding chute, the notches of the first sliding chute and the second sliding chute respectively face the end portions of the first rotating shaft and the second rotating shaft, and the first rolling member and the second rolling member are respectively accommodated in the first sliding chute and the second sliding chute. Through this embodiment, first rolling member and second rolling member hold respectively in first spout and second spout, and first rolling member all receives spacingly with the second rolling member in vertical direction this moment, has guaranteed the stability of cooperation structure between the lifting unit of structure and the chassis.
In one embodiment, the axes of the two second rotating shafts in the two scissors mechanisms are located on the same straight line, and the ends of the two close to each other extend towards each other and are connected into a whole.
In one embodiment, the rebound assembly comprises:
a sleeve as the fixing portion;
a spring provided in the sleeve, the spring being capable of expanding and contracting in an axial direction of the sleeve;
the telescopic rod is used as the telescopic part, one end of the telescopic rod extends into the sleeve and can compress the spring, and the other end of the telescopic rod is hinged to the middle point of the length of the connecting rod.
In one embodiment, the scissors device further comprises a support component, wherein the support component is arranged between the shelf and the chassis and between the two scissors mechanisms, and comprises a support rod and a third rolling part, one end of the support rod is hinged with the shelf, the other end of the support rod is connected with the third rolling part, and the third rolling part is in rolling contact with the upper surface of the chassis;
wherein, supporting component's length equals the supporter with the biggest vertical distance between the chassis when the supporter goes up and down, the third rolling member can roll on the chassis.
Through this embodiment, the supporter can not make the supporter descend immediately after the goods is put into the supporter. Its aim at makes the operation personnel of transporting place the supporter after on at the goods, can be according to actual conditions time of independently controlling the goods and descending.
In one embodiment, the upper surface of the chassis is provided with a third runner cooperating with the third rolling member. Through this embodiment, the third spout is used for leading to the slip of third rolling member, prevents that the third rolling member from taking place the skew of roll direction under the action of cargo gravity, has guaranteed the stability of supporting component structure.
In one embodiment, a frame is provided at one side edge of the chassis, the frame being perpendicular to the chassis. Through this embodiment, the removal of transporting the dolly needs operating personnel's promotion, and the setting of frame is the promotion of conveniently transporting operating personnel to the dolly promptly. Simultaneously, the frame also plays the limiting displacement of one side to the goods of putting into on the supporter, prevents that the dolly from removing the in-process goods accident and dropping.
In one embodiment, the shelf is provided with cam followers on both sides thereof, respectively, which can roll along the surface of the frame in the vertical direction. Through this embodiment, the ascending and decline in-process of lifting unit, two cam follower can follow vertical direction and slide on the side lever of frame, carry out ascending spacing of left and right sides to lifting unit, avoid lifting unit to control and rock, guaranteed elevating movement's stationarity.
In one embodiment, the two sides of the frame are respectively provided with an oil buffer which can contact the upper surface of the commodity shelf when the commodity shelf ascends to be close to the highest point. With this embodiment, the hydraulic shock absorber plays a role of buffering when the lifting unit rises to the highest point, and counteracts the impact caused by the inertia of the lifting unit.
In one embodiment, a plurality of supporting columns for supporting the commodity shelf when the commodity shelf descends to the lowest point are arranged on the base plate, and a part of the supporting columns are provided with nitrogen springs. Through this embodiment, when the lift subassembly descends to the minimum, its supporter is stably supported by the support column on the chassis, and nitrogen gas spring plays the cushioning effect when the lift subassembly descends to the minimum, offsets the impact that lift subassembly decline motion inertia brought.
In one embodiment, the upper surface of the shelf is covered with a cover plate. Through this embodiment, the stress point of the setting correspondence goods bottom of apron, the stable placing of goods of being convenient for.
In one embodiment, a tension spring is further arranged in the scissors mechanism, one end of the tension spring is connected with one end of the bottom of the second arm lever, and the other end of the tension spring is connected with a tension spring rod fixed on the chassis. Through this embodiment, the extension spring is when being stretched the back and resume deformation, can pull first second armed lever bottom one end to first armed lever bottom one end, and the fork structure reverse action is cut in supplementary resilience subassembly drive makes the supporter rise.
The above-mentioned technical characteristics can be combined in various suitable ways or replaced by equivalent technical characteristics as long as the purpose of the invention can be achieved.
The utility model provides a pair of transport dolly that goes up and down based on gravity compares with prior art, possesses following beneficial effect at least:
the utility model discloses a transport dolly that goes up and down based on gravity goes up and down based on the gravity of goods, has replaced the manual work to carry the goods to low from the eminence, has removed the high intensity labor that personnel low stooped, eminence pad foot from, and the goods is transported efficiently. And the trolley completely uses the gravity of the goods as the lifting power, no additional power source is needed, the limitation of the motion range is avoided, the trolley is suitable for various working environments, and the manufacturing and using cost is reduced.
Drawings
The present invention will be described in more detail hereinafter based on embodiments and with reference to the accompanying drawings. Wherein:
fig. 1 shows a schematic view of the overall structure of the transfer trolley according to the invention in one orientation;
fig. 2 shows a schematic view of the overall structure of the transfer trolley according to the invention in another orientation;
FIG. 3 is a schematic view of the structure of FIG. 1 after a part of the cover plate is hidden;
FIG. 4 shows a front elevational view of the structure of FIG. 1;
FIG. 5 shows a schematic structural view of the chassis and frame part of the transfer cart of the present invention;
fig. 6 shows a schematic structural view of the lifting assembly of the transfer trolley of the present invention;
fig. 7 shows the overall structure diagram of the springback component of the transfer trolley of the invention;
fig. 8 shows a schematic view of the internal structure of the rebound assembly of the transfer trolley according to the present invention;
fig. 9 shows a schematic structural view of the supporting component of the transfer cart of the present invention.
In the drawings, like parts are provided with like reference numerals. The drawings are not to scale.
Reference numerals:
10-chassis, 11-second chute, 12-third chute, 13-support column, 131-nitrogen spring, 20-lifting component, 21-shelf, 211-first chute, 212-cover plate, 213-cam follower, 22-scissor mechanism, 221-first arm rod, 222-second arm rod, 23-connecting rod, 30-rebound component, 31-sleeve, 32-telescopic rod, 33-spring, 40-first rotating shaft, 41-first rolling piece, 50-second rotating shaft, 51-second rolling piece, 60-support component, 61-support rod, 62-third rolling piece, 70-frame, 71-oil pressure buffer, 80-tension spring and 81-tension spring rod.
Detailed Description
The present invention will be further explained with reference to the accompanying drawings.
The utility model provides a transport dolly that goes up and down based on gravity, include:
a chassis 10;
the lifting assembly 20 comprises a shelf 21 and two scissor mechanisms 22 for lifting the shelf 21, the two scissor mechanisms 22 are arranged on the chassis 10 in parallel and support two sides of the shelf 21, and a connecting rod 23 is connected between the two scissor mechanisms 22 to realize synchronous action;
the rebound assembly 30 is arranged between the two scissor mechanisms 22 and comprises a fixing part and an expansion part, the fixing part is hinged on the chassis 10, and the expansion part is hinged with the connecting rod 23;
when the shelf 21 is pressed down, the scissors mechanism 22 acts and compresses the rebound component 30 through the connecting rod 23.
Specifically, as shown in the drawings, in the transfer cart of the present invention, two scissors mechanisms 22 are disposed on the chassis 10 and located on two sides of the chassis 10, the shelf 21 is integrally disposed on two scissors mechanisms 22 and supported by two scissors mechanisms 22, and the bottom of the chassis 10 is provided with the rollers.
The utility model discloses a transfer dolly is when carrying out the goods and transport, and the goods is placed on lifting unit 20's supporter 21, and lifting unit 20 receives the action of gravity of goods. Under the gravity action of the goods, the shelf 21 is pressed to descend; at this time, the scissors mechanism 22 is also under the action of the gravity of the goods, and then the scissors mechanism acts and the crossing angle changes, so as to drive the shelf 21 to descend. When the commodity shelf 21 descends, the height of the connecting rod 23 between the two scissors mechanisms 22 descends along with the change of the intersection angle of the scissors mechanisms 22, and the connecting rod 23 compresses the telescopic part of the rebound component 30 to the fixed part while descending, so that the rebound component 30 is compressed; rebound assembly 30 compresses and simultaneously cushions the lowering of article carrier 21, causing it to slowly lower. When the commodity shelf 21 descends to the lowest point, the goods on the commodity shelf 21 are transferred. After the goods on supporter 21 shifts away, lifting unit 20 loses the oppression of goods gravity, and the flexible end of resilience subassembly 30 receives the pressure that brings by goods gravity simultaneously and disappears, and then the flexible end of resilience subassembly 30 stretches out under its resilience effect, and resilience force is used in on connecting rod 23, makes connecting rod 23's high rising. Thus, under the action of the resilience force of the resilience group, the scissors mechanism 22 moves in the opposite direction and raises the height of the rack 21 to the initial highest point. The above steps can then be repeated for the next transfer of cargo.
It should be noted that, the height of the initial highest point and the height of the lowest point after descending of the object rack 21 in the lifting assembly 20 can be set according to different actual requirements, and the length of the arm lever in the scissors mechanism 22 can be controlled. The angle of intersection of the first arm 221 and the second arm 222.
Through the steps, when the goods are loaded into the transfer trolley, the lifting component 20 can slowly descend under the action of the gravity of the goods, the resilience component 30 is compressed to accumulate power for later ascending, and the goods are transferred after descending to the lowest point of the lifting component 20; after the transfer of the load, the lifting group will be able to rise and return under the action of the rebound assembly 30, in order to transfer the next load.
The utility model discloses a transfer dolly goes up and down based on the gravity of goods, has replaced the manual work to carry the goods to low from the eminence, has removed the high intensity labor that personnel low stood down, eminence pad foot from, and the goods is transported efficiently. And the trolley completely takes the gravity of the goods as the lifting power, no additional power source is needed, the limitation of the motion range is avoided, and the trolley is suitable for various working environments.
Preferably, a frame 70 is disposed at one side edge of the chassis 10, and the frame 70 is perpendicular to the chassis 10.
Particularly, the movement of the transfer trolley needs to be pushed by an operator, and the arrangement of the frame is convenient for the transfer operator to push the trolley. Simultaneously, the frame also plays the limiting displacement of one side to the goods of putting into on the supporter, prevents that the dolly from removing the in-process goods accident and dropping.
In one embodiment, the scissors mechanism 22 comprises a first arm 221 and a second arm 222 which are equal in length and cross each other, and the length midpoints of the first arm 221 and the second arm 222 are hinged with each other;
wherein, first arm lever 221 bottom one end articulates on chassis 10, top one end and the lower surface sliding contact of supporter 21, and second arm lever 222 bottom one end and the upper surface sliding contact of chassis 10, top one end articulate on putting thing 21 frame.
Specifically, as shown in fig. 1 and fig. 6 of the drawings, the two scissors mechanisms 22 have the same structure and arrangement orientation, the first arm 221 and the second arm 222 in the scissors mechanisms 22 are intersected with each other to form an X shape, the first arm 221 and the second arm 222 have the same length, and the length midpoints of the first arm 221 and the second arm 222 are hinged to each other. Wherein, one end of the bottom of the first arm 221 and one end of the top of the second arm 222 are located on the same side and are respectively hinged to the chassis 10 and the rack 21, and the ends can only rotate a certain angle around the hinge center; one end of the top of the first arm 221 and one end of the bottom of the second arm 222 are located on the same side and slidably contact with the chassis 10 and the rack 21, respectively, and can slide on the surface of the corresponding component when the rack 21 is lifted.
In one embodiment, the first rotating shaft 40 and the second rotating shaft 50 are respectively vertically connected to one end of the top of the first arm 221 and one end of the bottom of the second arm 222, the first rolling element 41 and the second rolling element 51 are respectively sleeved on the first rotating shaft 40 and the second rotating shaft 50, and the first rolling element 41 and the second rolling element 51 are respectively in rolling contact with the lower surface of the rack 21 and the upper surface of the chassis 10.
Specifically, as shown in fig. 2 and fig. 6 of the drawings, the cooperation between the first rotating shaft 40 and the first rolling element 41, and the cooperation between the second rotating shaft 50 and the second rolling element 51 respectively convert the sliding contact between the top end of the first arm 221 and the rack 21, and the sliding contact between the bottom end of the second arm 222 and the chassis 10 into rolling contact, so as to reduce the friction force of the contact surface and ensure the smooth relative movement on the contact surface.
Preferably, the axes of the two second shafts 50 of the two scissors mechanisms 22 are located on the same straight line, and the ends of the two shafts close to each other extend toward each other and are connected into a whole.
Specifically, the two second rotating shafts 50 of the two scissors mechanisms 22 are connected into a whole to form a main shaft, and the two second rolling members 51 of the two scissors mechanisms 22 are respectively located at two ends of the main shaft.
Further, in order to increase the stability of the fit between the first arm and the rack, preferably, the first rolling members are disposed at both ends of the first rotating shaft.
In one embodiment, the lower surface of the rack 21 and the upper surface of the chassis 10 are respectively provided with a first sliding slot 211 and a second sliding slot 11, the notches of the first sliding slot 211 and the second sliding slot 11 respectively face the ends of the first rotating shaft 40 and the second rotating shaft 50, and the first sliding slot 211 and the second sliding slot 11 respectively accommodate the first rolling element 41 and the second rolling element 51.
Specifically, as shown in fig. 1 to fig. 3 of the drawings, the end of the first rotating shaft 40 extends into the first sliding groove 211 from the notch of the first sliding groove 211, the end of the second rotating shaft 50 extends into the second sliding groove 11 from the notch of the second sliding groove 11, and then the first rolling element 41 and the second rolling element 51 are respectively accommodated in the first sliding groove 211 and the second sliding groove 11, and at this time, the first rolling element 41 and the second rolling element 51 are both limited in the vertical direction, so that the stability of the matching structure between the lifting assembly 20 and the chassis 10 is ensured.
In one embodiment, rebound assembly 30 comprises:
a sleeve 31, the sleeve 31 being a fixed portion;
a spring 33 provided in the sleeve 31, the spring 33 being capable of expanding and contracting in an axial direction of the sleeve 31;
the telescopic rod 32, the telescopic rod 32 is used as a telescopic part, one end of which extends into the sleeve 31 and can compress the spring 33, and the other end of which is hinged at the middle point of the length of the connecting rod 23.
Specifically, as shown in fig. 7 and 8, the sleeve 31 serves as a fixing portion, one end of the sleeve is hinged to the chassis 10, the end surface of the other end of the sleeve is inserted by the telescopic rod 32, the end surface of the telescopic rod 32 located inside the sleeve 31 contacts the spring 33, and the telescopic rod 32 moves to compress the spring 33 when being pressed. The telescopic rod 32 is hinged at the middle point of the length of the connecting rod 23, so as to ensure the uniformity of the force applied to the two scissors mechanisms 22 through the connecting rod 23.
It should be noted that, in the process that the telescopic rod 32 extends and retracts along with the lifting of the article carrier 21, the resilient member 30 rotates around the hinge point between the sleeve 31 and the chassis 10 by a certain angle, and the included angle between the resilient member and the horizontal plane changes. Specifically, when the storage rack 21 is lifted, the included angle between the rebounding assembly 30 and the horizontal plane is increased; the shelf 21 is lowered and the angle between the resilient member 30 and the horizontal is reduced. Therefore, it is necessary to avoid the dead point of the rebound assembly 30, that is, when the rack 21 is lowered to the lowest point, it is necessary to control the minimum included angle between the rebound assembly 30 and the horizontal plane to be greater than 0 °, and the larger the minimum included angle is, the better the installation angle between the rebound assembly 30 and the chassis 10 and the lifting assembly 20 is.
In one embodiment, the scissors device further comprises a support assembly 60, the support assembly 60 is disposed between the rack 21 and the chassis 10 and between the two scissors mechanisms 22, and includes a support rod 61 and a third rolling element 62, one end of the support rod 61 is hinged to the rack 21, the other end of the support rod 61 is connected to the third rolling element 62, and the third rolling element 62 is in rolling contact with the upper surface of the chassis 10;
wherein, the length of the supporting component 60 is equal to the maximum vertical distance between the article placing shelf 21 and the chassis 10, and when the article placing shelf 21 is lifted, the third rolling member 62 can roll on the chassis 10.
Specifically, as shown in fig. 1, 4 and 9 of the drawings, the supporting component 60 is disposed between the shelf 21 and the chassis 10, and the length thereof is equal to the maximum vertical distance between the shelf 21 and the chassis 10, so that when the shelf 21 rises to the highest point, the supporting rod 61 of the supporting component 60 is in a vertical state, and is respectively perpendicular to the shelf 21 and the chassis 10. At this time, the goods are placed on the shelf 21, and since the gravity of the goods and the supporting force of the supporting member 60 are located on the same line, the stress is balanced, and the shelf 21 is stably supported by the supporting member 60 and does not fall. When the goods need to be controlled to descend, an operator slightly applies a force in the horizontal direction to the supporting rod 61 along the rolling direction of the third rolling piece 62, the force in the horizontal direction breaks the stress balance state between the goods and the supporting component 60, then the third rolling piece 62 rolls, the supporting rod 61 is gradually laid down under the action of the gravity of the goods, and the goods shelf 21 descend smoothly.
The supporting component 60 is arranged to prevent the goods from falling down immediately after the goods are put into the goods shelf 21. Its aim at makes the operation personnel of transporting place the goods after on the supporter 21, can be according to actual conditions time of independently controlling the goods and descending. To facilitate operator manipulation of support assembly 60, support assembly 60 is preferably positioned adjacent an edge of chassis 10, preferably adjacent a side edge of frame 70.
Preferably, the upper surface of the chassis 10 is provided with a third runner 12 engaged with the third rolling members 62.
Specifically, the third sliding chute 12 is used for guiding the sliding of the third rolling member 62, preventing the third rolling member 62 from shifting in the rolling direction under the action of the gravity of the cargo, and ensuring the structural stability of the supporting assembly 60.
In one embodiment, the rack 21 is provided with cam followers 213 at both sides thereof, and the cam followers 213 can roll along the surface of the frame 70 in the vertical direction.
Specifically, in the ascending and descending processes of the lifting assembly 20, the two cam followers 213 can slide on the side rods of the frame 70 along the vertical direction to limit the lifting assembly 20 in the left-right direction, so that the lifting assembly 20 is prevented from shaking left and right, and the stability of the lifting motion is ensured.
In one embodiment, oil buffers 71 are respectively disposed on both sides of the frame 70, and the oil buffers 71 can contact the upper surface of the rack 21 when the rack 21 is lifted to be close to the highest point.
Specifically, the hydraulic shock absorber 71 plays a role of absorbing shock when the lifting unit 20 is lifted to the highest point, and counteracts shock caused by inertia of the lifting movement of the lifting unit 20.
In one embodiment, a plurality of support columns 13 for supporting the article carrier 21 when the article carrier 21 is lowered to the lowest point are provided on the base plate 10, and a part of the support columns 13 are provided with nitrogen springs 131.
Specifically, when the lifting assembly 20 descends to the lowest point, the rack 21 is stably supported by the supporting column 13 on the chassis 10, and the nitrogen spring 131 plays a role of buffering when the lifting assembly 20 descends to the lowest point, so as to counteract the impact caused by the inertia of the descending movement of the lifting assembly 20.
In one embodiment, the upper surface of the shelf 21 is covered with a cover plate 212.
Specifically, the provision of the cover plate 212 facilitates stable placement of goods. According to practical situations, the cover plate 212 can be designed as a split type as shown in fig. 1, the cover plate 212 includes two or more plate bodies corresponding to the stress points at the bottom of the goods, so that the volume and the weight of the cover plate 212 can be reduced, and the self weight of the lifting assembly 20 can be further reduced; the cover plate 212 can also be arranged as a whole plate body, so that the stability of placing the goods is further improved, and the cover plate is suitable for various goods with different stress points at the bottom.
In one embodiment, a tension spring 80 is further disposed in the scissors mechanism 22, and one end of the tension spring 80 is connected to one end of the bottom of the second arm bar 222, and the other end is connected to a tension spring rod 81 fixed on the chassis 10.
Specifically, as shown in fig. 3, when the commodity shelf 21 is lowered while loading the commodity, the tension spring 80 is stretched and has tension force during the lowering of the commodity shelf 21 and the downward movement of the scissors mechanism 22. After the goods are transferred out of the shelf 21, the tension spring 80 is deformed under the action of the tension thereof, so that one end of the bottom of the first arm rod 222 is pulled to one end of the bottom of the first arm rod 221, and the auxiliary resilient component 30 drives the scissors structure to move reversely to lift the shelf 21.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "bottom", "top", "front", "rear", "inner", "outer", "left", "right", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.
Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims. It should be understood that features described in different dependent claims and herein may be combined in ways different from those described in the original claims. It is also to be understood that features described in connection with individual embodiments may be used in other described embodiments.

Claims (14)

1. The utility model provides a transport dolly that goes up and down based on gravity which characterized in that includes:
a chassis;
the lifting assembly comprises a commodity shelf and two scissor mechanisms for lifting the commodity shelf, the two scissor mechanisms are arranged on the chassis in parallel and support two sides of the commodity shelf, and a connecting rod is connected between the two scissor mechanisms to realize synchronous action;
the rebound assembly is arranged between the two scissor mechanisms and comprises a fixing part and a telescopic part, the fixing part is hinged on the chassis, and the telescopic part is hinged with the connecting rod;
when the commodity shelf is pressed to descend, the scissors mechanism acts and compresses the rebound assembly through the connecting rod.
2. The gravity-based lifting transfer trolley according to claim 1, wherein the scissor mechanism comprises a first arm and a second arm which are equal in length and cross each other, and the length midpoints of the first arm and the second arm are hinged to each other;
the first arm lever is hinged to the chassis at one end of the bottom, one end of the top of the first arm lever is in sliding contact with the lower surface of the storage rack, and the second arm lever is hinged to the storage rack at one end of the bottom of the second arm lever is in sliding contact with the upper surface of the chassis at one end of the top of the second arm lever.
3. The transportation trolley capable of ascending and descending based on gravity as claimed in claim 2, wherein one end of the top of the first arm lever and one end of the bottom of the second arm lever are respectively and vertically connected with a first rotating shaft and a second rotating shaft, the first rotating shaft and the second rotating shaft are respectively sleeved with a first rolling element and a second rolling element, and the first rolling element and the second rolling element are respectively in rolling contact with the lower surface of the storage rack and the upper surface of the chassis.
4. The gravity-based lifting transportation trolley according to claim 3, wherein a first sliding groove and a second sliding groove are respectively formed in the lower surface of the storage rack and the upper surface of the chassis, notches of the first sliding groove and the second sliding groove respectively face the ends of the first rotating shaft and the second rotating shaft, and the first rolling member and the second rolling member are respectively accommodated in the notches.
5. The gravity-based transport trolley for lifting and lowering according to claim 3 or 4, wherein the axes of the second rotating shafts in the two scissor mechanisms are located on the same straight line, and the ends of the two scissor mechanisms close to each other extend towards each other and are connected into a whole.
6. The gravity based lift transport cart of claim 1, wherein said rebound assembly comprises:
a sleeve as the fixing portion;
a spring provided in the sleeve, the spring being capable of expanding and contracting in an axial direction of the sleeve;
the telescopic rod is used as the telescopic part, one end of the telescopic rod extends into the sleeve and can compress the spring, and the other end of the telescopic rod is hinged to the middle point of the length of the connecting rod.
7. The transfer trolley capable of ascending and descending based on gravity as claimed in claim 1 or 6, further comprising a support component, wherein the support component is arranged between the rack and the chassis and between the two scissor mechanisms, and comprises a support rod and a third rolling member, one end of the support rod is hinged to the rack, the other end of the support rod is connected with the third rolling member, and the third rolling member is in rolling contact with the upper surface of the chassis;
wherein, supporting component's length equals the supporter with the biggest vertical distance between the chassis when the supporter goes up and down, the third rolling member can roll on the chassis.
8. The gravity based transport trolley for lifting according to claim 7, wherein the upper surface of the chassis is provided with a third sliding groove engaged with the third rolling member.
9. The gravity-based lifting transport trolley according to claim 1, wherein a frame is arranged on one side edge of the chassis, and the frame is perpendicular to the chassis.
10. The gravity-based transport trolley for lifting and lowering according to claim 9, wherein the rack is provided with cam followers at two sides thereof, respectively, and the cam followers can roll along the surface of the frame in a vertical direction.
11. The gravity-based lifting transfer trolley according to claim 9, wherein oil pressure buffers are respectively arranged on two sides of the frame, and the oil pressure buffers can contact the upper surface of the commodity shelf when the commodity shelf is lifted to be close to the highest point.
12. The gravity-based transport trolley for lifting and lowering according to claim 1 or 11, wherein the chassis is provided with a plurality of support columns for supporting the commodity shelf when the commodity shelf is lowered to the lowest point, and a part of the support columns are provided with nitrogen springs.
13. The gravity based transport cart of claim 1, wherein the upper surface of the rack is covered with a cover plate.
14. The transfer trolley capable of ascending and descending based on gravity as claimed in claim 2, wherein a tension spring is further arranged in the scissor mechanism, one end of the tension spring is connected with one end of the bottom of the second arm rod, and the other end of the tension spring is connected with a tension spring rod fixed on the chassis.
CN202023232433.XU 2020-12-28 2020-12-28 Transfer trolley capable of lifting based on gravity Active CN214001735U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112252832A (en) * 2020-11-24 2021-01-22 王后连 Construction protective guard suitable for complicated topography

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112252832A (en) * 2020-11-24 2021-01-22 王后连 Construction protective guard suitable for complicated topography

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