CN216735865U - Unpowered transport goods shelves - Google Patents

Abstract

The utility model belongs to the technical field of goods shelves, and particularly relates to an unpowered transfer goods shelf, which comprises a frame body, a lifting frame body, a bearing mechanism, a hovering mechanism, a counterweight mechanism, a manual unlocking mechanism and a top guide piece, wherein the lifting frame body is arranged at the inner side of the frame body in a sliding way along the height direction, the bearing mechanism is rotatably arranged at the top of the lifting frame body, the hovering mechanism is rotatably arranged on the frame body and can be abutted against the bottom of the lifting frame body, the counterweight mechanism is slidably arranged on the frame body and is connected with the lifting frame body through a traction piece, the manual unlocking mechanism is arranged on the frame body and is connected with one side of the hovering mechanism through the traction piece, the top guide piece is arranged on the frame body and is positioned on the descending path of the bearing mechanism, the hovering mechanism is used for facilitating hovering of the lifting frame body, when goods need to be transferred, the manual unlocking mechanism is manually pressed down, so as to drive the hovering mechanism to rotate and relieve the abutting of the lifting frame body, and under the condition that the self gravity of the goods on the bearing mechanism is larger than that the counterweight mechanism, the lifting frame body moves downwards and reaches a preset conveying position; meanwhile, the lifting frame body descends to the process.

Description

Unpowered transport goods shelves

Technical Field

The utility model belongs to the technical field of goods shelves, and particularly relates to an unpowered transfer goods shelf.

Background

The shelf is an important tool for improving the efficiency of a modern warehouse, and in warehouse equipment, the shelf refers to storage equipment specially used for storing finished goods. The goods shelves occupy very important positions in logistics and warehouses, along with the rapid development of modern industry, the flow of goods is greatly increased, and in order to realize the modern management of the warehouses and improve the functions of the warehouses, the goods shelves are required to be large in number, multifunctional and capable of realizing the requirements of mechanization and automation.

Chinese patent discloses a conveying device, including: the lifting device and the horizontal moving device; the lifting device comprises: the lifting device further comprises a lifting platform, the shearing fork device is connected with the lifting platform, the lifting device further comprises a belt conveyor, the belt conveyor is installed on the lifting platform, the belt conveyor comprises a belt and a roller, and the shearing fork device provides power for the electric cylinder instead of a hydraulic device; be provided with the extension spring between fork device and the frame, promote when fork device opens at electronic jar, played the effect that increases thrust, but this transportation goods shelves need install power equipment additional when using, just can accomplish the transportation work of goods, and the cost of goods shelves is higher when extravagant the energy, is unfavorable for in-service use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an unpowered transfer goods shelf, and aims to solve the problems that the existing transfer goods shelf needs to be additionally provided with power equipment when in use to finish the transfer work of goods, wastes energy, and is not beneficial to practical use due to higher manufacturing cost of the goods shelf.

The utility model discloses an unpowered transfer goods shelf, which comprises a frame body, a lifting frame body, a bearing mechanism, a hovering mechanism, a counterweight mechanism, a manual unlocking mechanism and a top guide piece, wherein the lifting frame body is arranged on the inner side of the frame body in a sliding mode along the height direction, the bearing mechanism is rotatably arranged at the top of the lifting frame body, the hovering mechanism is rotatably arranged on the frame body and can be abutted to the bottom of the lifting frame body, the counterweight mechanism is slidably arranged on the frame body and is connected with the lifting frame body through a traction piece, the manual unlocking mechanism is arranged on the frame body and is connected with one side of the hovering mechanism through the traction piece, the top guide piece is arranged on the frame body and is positioned on the descending path of the bearing mechanism, and the manual unlocking mechanism can drive the hovering mechanism to rotate through the traction piece and is separated from the bottom of the lifting frame body so as to relieve the abutment on the lifting frame body.

In practical application, the suspension mechanism is used for suspending the lifting frame body conveniently, when goods need to be transported, the manual unlocking mechanism is pressed down manually, so that the suspension mechanism is driven to rotate and the supporting of the lifting frame body is removed, and the lifting frame body moves downwards and reaches a preset conveying position when the gravity of the goods on the supporting mechanism is larger than that of the counterweight mechanism; meanwhile, the crane body descends to the in-process, thereby the top guide piece offsets with the bearing mechanism and drives the bearing mechanism and rotate, and then with the goods on the bearing mechanism transfer to other mechanisms that carry, when the goods shifted out the bearing mechanism, the counter weight mechanism moved down and driven the lift support body and reset under the effect of gravity to need not install power equipment additional, can accomplish the transportation work of goods, also reduced the cost of goods shelves when the energy can be saved, use convenient and reliable more.

Preferably, the lifting frame body comprises two vertical frames which are slidably mounted on the inner side of the frame body and transverse rods which are vertically mounted between the two vertical frames, and the transverse rods are distributed at intervals and are a plurality of in number.

Preferably, the hovering mechanism comprises a rotating part rotatably mounted on the frame body, a hovering part vertically and fixedly arranged at the top of the rotating part, a sliding part arranged and fixedly arranged at the top of the hovering part and interfering with a descending track of the cross bar, and a counterweight fixedly arranged on one side of the bottom of the rotating part and used for driving the rotating part to deflect, so that the sliding part abuts against the cross bar.

Preferably, manual release mechanism including set firmly in the supporting seat of framework, slidable mounting in the supporting seat and through the unlocking piece that tractive spare and counterweight link to each other and set firmly in the supporting seat side and with the subassembly of replying that unlocking piece links to each other, the tractive spare meets in order to drive rotation piece rotation through leading wheel and counterweight one side.

Preferably, the restoring assembly includes an installation block fixedly disposed at one side of the supporting seat, a moving block disposed at one side of the unlocking member, and an elastic member having two ends respectively connected to the installation block and the moving block.

Preferably, the counterweight mechanism comprises a counterweight frame slidably mounted on a side surface of the frame body and a counterweight block fixedly mounted on the counterweight frame, and a plurality of guide wheels slidably mounted on the frame body and a single bearing wheel connected with the mullion through a traction piece are fixed on a side surface of the counterweight frame.

Preferably, the bearing mechanism including rotate install in the bearing frame at horizontal pole top and install in the direction subassembly at bearing frame top, bearing frame one end surpasss the outside horizontal pole of lifting frame body and sets firmly the locating part that can offset with the framework, direction subassembly interval is laid and quantity is a plurality ofly.

Preferably, the guide assembly comprises a guide frame fixedly arranged at the top of the bearing frame and a plurality of guide wheels rotatably arranged in the guide frame, and the peripheral surface of each guide wheel exceeds the top surface of the guide frame.

Preferably, the top guide includes a mounting portion fixedly mounted on the frame and a stopping portion connected to the mounting portion and located on a descending path of the supporting frame.

Preferably, a plurality of traction wheels are fixedly arranged on the frame body, and the movement track of each traction piece and each traction piece is controlled by the traction wheel.

Compared with the prior art, the utility model has the beneficial effects that:

1. the lifting frame body is convenient to slide in the frame body so as to drive the goods to move up and down, and the hovering mechanism is convenient to hover the lifting frame body; when the goods need to be transported, the manual unlocking mechanism is manually pressed down, so that the hovering mechanism is driven to rotate and the support of the lifting frame body is released, and the lifting frame body moves downwards and reaches a preset conveying position under the condition that the self gravity of the goods on the supporting mechanism is greater than that of the counterweight mechanism; meanwhile, the crane body descends to the in-process, thereby the top guide piece offsets with the bearing mechanism and drives the bearing mechanism and rotate, and then with the goods on the bearing mechanism transfer to other mechanisms that carry, when the goods shifted out the bearing mechanism, the counter weight mechanism moved down and driven the lift support body and reset under the effect of gravity to need not install power equipment additional, can accomplish the transportation work of goods, also reduced the cost of goods shelves when the energy can be saved.

2. Be convenient for when elevating system reachs suitable position through setting up bearing mechanism, can rotate the goods, thereby transport other mechanisms with the goods on, be convenient for lead to the goods on the bearing frame through setting up the direction subassembly, thereby drive the goods and remove along predetermined direction, utilize the locating part to be convenient for when the bearing frame replies suitable height, the locating part offsets with the framework, the bearing frame can offset with the horizontal pole of lifting frame body this moment, thereby hover bearing mechanism and lifting frame body.

Drawings

FIG. 1 is a perspective view of a non-powered transportation shelf according to the present invention;

FIG. 2 is a partial structural view of an elevator body of the unpowered transport goods shelf provided by the utility model;

FIG. 3 is a structural view of a hovering mechanism of a non-powered transfer rack provided by the present invention;

FIG. 4 is an enlarged view of a portion A of FIG. 2;

FIG. 5 is a structural view of a counterweight mechanism of a non-powered transfer goods shelf provided by the utility model;

fig. 6 is a schematic structural diagram of a guide assembly of the unpowered transport pallet provided by the utility model.

In the drawings: the device comprises a frame body 1, a lifting frame body 2, a vertical frame 21, a cross bar 22, a hovering mechanism 3, a rotating member 31, a hovering member 32, a sliding member 33, a counterweight member 34, a counterweight mechanism 4, a counterweight frame 41, a counterweight block 42, a guide wheel 43, a single bearing wheel 44, a manual unlocking mechanism 5, a support seat 51, an unlocking member 52, a return component 53, an installation block 531, a moving block 532, an elastic member 533, a bearing mechanism 6, a bearing frame 61, a guide component 62, a guide frame 621, a guide wheel 622, a limiting member 63, a top guide member 7, an installation part 71, a abutting part 72, a traction member 8, a traction member 9 and a traction wheel 10.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Example 1

As shown in fig. 1-5, the structure of the unpowered goods shelf provided by the present invention includes a frame 1, a lifting frame body 2 slidably mounted inside the frame 1 along a height direction, a supporting mechanism 6 rotatably mounted on a top of the lifting frame body 2, a hovering mechanism 3 rotatably mounted on the frame 1 and capable of abutting against a bottom of the lifting frame body 2, a counterweight mechanism 4 slidably mounted on the frame 1 and connected to the lifting frame body 2 through a traction member 8, a manual unlocking mechanism 5 mounted on the frame 1 and connected to one side of the hovering mechanism 3 through a traction member 9, and a top guide 7 disposed on the frame 1 and located on a descending path of the supporting mechanism 6, wherein the manual unlocking mechanism 5 can drive the hovering mechanism 3 to rotate through the traction member 9 and disengage from the bottom of the lifting frame body 2 to release the abutting against the lifting frame body 2.

In practical application, the lifting frame body 2 is arranged to slide on the frame body 1 conveniently so as to drive goods to move up and down, and the hovering mechanism 3 is used for hovering the lifting frame body 2 conveniently; when the goods need to be transported, the manual unlocking mechanism 5 is manually pressed down, so that the hovering mechanism 3 is driven to rotate and the support of the lifting frame body 2 is released, and the lifting frame body 2 moves downwards and reaches a preset conveying position under the condition that the self gravity of the goods on the supporting mechanism 6 is greater than that of the counterweight mechanism 4; meanwhile, descend the in-process at the lifting frame body 2, thereby the top guide 7 offsets with bearing mechanism 6 and drives bearing mechanism 6 and rotate, and then transfer the goods on the bearing mechanism 6 to other mechanisms that take the carrier, when the goods shifts out bearing mechanism 6, counter weight mechanism 4 moves down and drives lifting frame body 2 and resets under the effect of gravity, thereby need not install power equipment additional, can accomplish the transportation work of goods, also reduced the cost of goods shelves in the energy can be saved, it is convenient and reliable more to use.

Specifically speaking, the lifting frame body 2 includes that slidable mounting is in two mullions 21 of framework 1 inboard and installs the horizontal pole 22 between two mullions 21 perpendicularly, horizontal pole 22 interval is laid and quantity is a plurality of, is convenient for drive the goods on the bearing mechanism 6 through setting up mullion 21 and horizontal pole 22 and carries out the removal of vertical direction, utilizes a plurality of horizontal poles 22 that the interval was laid to predetermine the space that supplies top guide 7 to get into in lifting frame body 2 inside, thereby when lifting frame body 2 descends to suitable position, top guide 7 can offset and drive its slope with bearing mechanism 6, thereby transport other mechanisms with the goods on.

In one aspect of this embodiment, the hovering mechanism 3 includes a rotating member 31 rotatably installed on the frame 1, a hovering member 32 vertically fixed to the top of the rotating member 31, a sliding member 33 fixedly installed on the top of the hovering member 32 and interfering with the descending track of the cross bar 22, and a counterweight 34 fixedly installed on one side of the bottom of the rotating member 31 and used for driving the rotating member 31 to deflect, so that the sliding member 33 abuts against the cross bar 22, when the cargo needs to be transported, the manual unlocking mechanism 5 moves and drives the rotating member 31 to rotate, so as to drive the sliding member 33 at the top of the hovering member 32 to move, and further separate the sliding member 33 from the cross bar 22, and when the gravity of the cargo is greater than that of the counterweight mechanism 4, the lifting frame body 2 moves down to transport the cargo.

It should be noted that the lifting frame body 2 can be suspended by the suspension mechanism 3, and after goods are loaded on the goods shelf, the lifting frame body 2 can still be kept at a preset height, and the suspension of the lifting frame body 2 is released under the action of the manual unlocking mechanism 5, so that the goods can be transported by utilizing the self-gravity of the goods; in addition, the counterweight 34 fixedly arranged on one side of the bottom of the rotating part 31 is convenient for rotating under the action of the counterweight 34 after the cargo is transported, so that the sliding part 33 is abutted to the lifting frame body 2, the lifting frame body 2 moves upwards under the action of the counterweight mechanism 4 and is reset, and the next cargo bearing and transportation work are conveniently carried out.

Further, manual release mechanism 5 is including setting firmly in supporting seat 51, the sliding mounting of framework 1 and through the unlocking piece 52 that tractive spare 9 and counterweight 34 link to each other and set firmly in supporting seat 51 side and the subassembly 53 that replies that unlocking piece 52 links to each other, tractive spare 9 meets in order to drive rotation piece 31 through leading wheel and counterweight 34 one side and rotates, is convenient for under artificial effect through setting up manual release mechanism 5, drives unlocking piece 52 and removes along supporting seat 51 to drive tractive spare 9 and remove, and drive counterweight 34 and remove, and then drive rotation piece 31 and rotate, be convenient for carry out elevating system's unblock and the transportation of goods.

Furthermore, the restoring assembly 53 includes an installation block 531 fixedly disposed on one side of the supporting seat 51, a moving block 532 disposed on one side of the unlocking member 52, and an elastic member 533 having two ends respectively connected to the installation block 531 and the moving block 532, and after the unlocking operation is completed, the restoring assembly 53 is utilized to conveniently drive the unlocking member 52 to slide along the supporting seat 51, so that the unlocking member 52 is restored to the initial position, and the next unlocking operation is facilitated.

In one aspect of this embodiment, the counterweight mechanism 4 includes a counterweight frame 41 slidably mounted on a side surface of the frame body 1 and a counterweight 42 fixedly mounted on the counterweight frame 41, and a plurality of guide wheels 43 slidably mounted on the frame body 1 and a single bearing wheel 44 connected to the mullion 21 through the traction member 8 are fixed on a side surface of the counterweight frame 41.

It can be known, be convenient for accomplish the transportation back of goods at lifting frame body 2 through setting up counter weight mechanism 4, thereby drive lifting frame body 2 and rise and reset it, utilize slidable mounting to be convenient for predetermine an initial restoring force in the counter weight frame 41 and the balancing weight 42 of framework 1, after transporting the goods and accomplishing, under the effect of balancing weight 42 self gravity, drive mullion 21 through traction element 8 and single bearing wheel 44 and shift up along framework 1, accomplish the action that resets.

For example, the frame body 1 may be a rectangular frame, and openings are formed around the frame body, so that the goods can be conveniently transported, and of course, the frame body may have other shapes and be selected according to production needs; the rotating member 31 may be a rotating shaft or a rotating rod, the hovering member 32 may be a top rod or a top plate, and the sliding member 33 may be a pulley or a bearing wheel as long as it can slide and abut on the bottom of the cross bar 22; the weight member 34 may be a cylindrical block, which is sequentially provided with a plurality of pieces, and the material and weight thereof may be selected according to the requirement; the pulling element 9 can be a pulling rope or an iron wire as long as the rotating element 31 can be driven to rotate; the elastic member 533 may be a spring, or a compression spring, as long as it can drive the unlocking member 52 to return, and this embodiment is not limited in this respect.

Example 2

As shown in fig. 2 and 6, in embodiment 1, the supporting mechanism 6 includes a supporting frame 61 rotatably mounted on the top of the cross bar 22 and a guiding component 62 mounted on the top of the supporting frame 61, one end of the supporting frame 61 exceeds the outermost cross bar 22 of the elevator frame body 2 and is fixedly provided with a limiting component 63 capable of abutting against the frame body 1, and the guiding components 62 are arranged at intervals and are plural in number.

Specifically speaking, be convenient for when elevating system reachs suitable position through setting up bearing mechanism 6, can rotate the goods, thereby transport other mechanisms with the goods on, be convenient for lead to the goods on bearing frame 61 through setting up direction subassembly 62, thereby drive the goods and remove along predetermined direction, utilize locating part 63 to be convenient for when bearing frame 61 replies suitable height, locating part 63 offsets with framework 1, bearing frame 61 can offset with the horizontal pole 22 of lifting frame body 2 this moment, thereby hover bearing mechanism 6 and lifting frame body 2.

Further, the guide assembly 62 includes a guide frame 621 fixedly disposed on the top of the support frame 61 and a plurality of guide wheels 622 rotatably disposed inside the guide frame 621, the guide wheels 622 are disposed at intervals, and an outer circumferential surface of each guide wheel 622 exceeds a top surface of the guide frame 621.

It should be noted that the supporting frame 61 can be rotatably mounted on the cross bar 22 arranged in an offset manner, so that under the action of the top guide 7, the supporting frame 61 is driven to rotate, the goods are rotated to reach a proper angle, and then the goods are slid onto other mechanisms under the action of a plurality of guide wheels 622 arranged at intervals; the peripheral face through setting up leading wheel 622 surpasss the top surface of guide frame 621 and is convenient for slide the drive goods, has reduced the frictional force that the goods removed.

For example, the supporting frame 61 may be a rectangular frame, and the middle portion of the supporting frame may be rotatably mounted on the cross bar 22 by using a rotating base as required, and the limiting member 63 may be a limiting rod fixedly mounted on the top of the supporting frame 61, or may be a limiting block, as long as the lifting frame body 2 and the supporting frame 61 can be suspended when they are moved to appropriate positions; the guide frame 621 may be vertically disposed on the supporting frame 61, and may also form a certain offset angle with the supporting frame 61, and is selected according to actual transportation needs, and this embodiment is not specifically limited herein.

Example 3

As shown in fig. 1 to 3, in addition to embodiments 1 and 2, the header 7 includes an installation portion 71 fixedly installed on the frame 1 and a stopper portion 72 connected to the installation portion 71 and located on a descending path of the support frame 61.

In practical application, the top guide 7 is arranged, so that the supporting mechanism 6 can be conveniently moved to a proper position and then the top guide 7 is used for driving the supporting frame 61 to rotate, so that cargoes can be moved to other mechanisms along a preset track of the guide assembly 62, and automatic transfer work can be completed.

Furthermore, a plurality of traction wheels 10 are fixedly arranged on the frame body 1, and the movement track of each of the traction members 8 and the traction members 9 is controlled by the traction wheels 10.

It should be noted that the tracks of the traction member 9 and the traction member 8 can be limited by the traction wheel 10, so that the traction operation in different directions can be met, and different traction effects can be achieved.

Exemplarily, installation department 71 can be first connecting rod, and the portion 72 that prevents can be the second connecting rod, and the butt head is installed at the top to support the knot to bearing frame 61, and then drive the goods and rotate, when in actual application, the moving mechanism can be installed additional to the bottom of framework 1, thereby acts as the transportation dolly, in order to satisfy different goods transmission demands.

The embodiment of the utility model provides an unpowered transfer goods shelf, which is characterized in that a lifting frame body 2 is arranged to slide on a frame body 1 conveniently so as to drive goods to move up and down, and a hovering mechanism 3 is used for hovering the lifting frame body 2 conveniently; when the goods need to be transported, the manual unlocking mechanism 5 is manually pressed down, so that the hovering mechanism 3 is driven to rotate and the support of the lifting frame body 2 is released, and the lifting frame body 2 moves downwards and reaches a preset conveying position under the condition that the self gravity of the goods on the supporting mechanism 6 is greater than that of the counterweight mechanism 4; meanwhile, descend the in-process at the lifting frame body 2, thereby top guide 7 and bearing mechanism 6 counterbalance drive bearing mechanism 6 and rotate, and then transfer the goods on the bearing mechanism 6 to other mechanisms that take the carrier, when the goods shifts out bearing mechanism 6, counter weight mechanism 4 moves down and drives lifting frame body 2 and resets under the effect of gravity, thereby need not install power equipment additional, can accomplish the transportation work of goods, the cost of goods shelves has also been reduced in the energy can be saved, it is convenient for when suitable position is arrived at elevating system to set up bearing mechanism 6, transport the goods to other mechanisms on, utilize locating part 63 to be convenient for when suitable height is replied at bearing frame 61, locating part 63 offsets with framework 1, bearing frame 61 can offset with lifting frame body 2's horizontal pole 22 this moment, thereby hover bearing mechanism 6 and lifting frame body 2.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An unpowered transfer goods shelf is characterized by comprising a frame body (1), a lifting frame body (2) which is arranged inside the frame body (1) in a sliding manner along the height direction, a bearing mechanism (6) which is arranged at the top of the lifting frame body (2) in a rotating manner, a hovering mechanism (3) which is arranged in the frame body (1) in a rotating manner and can be abutted against the bottom of the lifting frame body (2), a counterweight mechanism (4) which is arranged in the frame body (1) in a sliding manner and is connected with the lifting frame body (2) through a traction piece (8), a manual unlocking mechanism (5) which is arranged in the frame body (1) and is connected with one side of the hovering mechanism (3) through a traction piece (9), and a top guide piece (7) which is arranged on the frame body (1) and is positioned on the descending path of the bearing mechanism (6), the manual unlocking mechanism (5) can drive the hovering mechanism (3) to rotate through the traction piece (9) and is separated from the bottom of the lifting frame body (2) so as to release the abutting of the lifting frame body (2).

2. The unpowered transferring goods shelf according to claim 1, wherein the lifting frame body (2) comprises two vertical frames (21) slidably mounted inside the frame body (1) and a plurality of cross bars (22) vertically mounted between the two vertical frames (21), and the cross bars (22) are arranged at intervals and are in a plurality.

3. The unpowered transfer rack according to claim 2, wherein the hovering mechanism (3) comprises a rotating member (31) rotatably mounted on the frame (1), a hovering member (32) vertically fixed on the top of the rotating member (31), a sliding member (33) arranged and fixed on the top of the hovering member (32) and interfering with the descending track of the cross bar (22), and a counterweight member (34) fixedly mounted on one side of the bottom of the rotating member (31) and used for driving the rotating member (31) to deflect so as to enable the sliding member (33) to abut against the cross bar (22).

4. The unpowered transport goods shelf of claim 3, wherein the manual unlocking mechanism (5) comprises a support base (51) fixed on the frame body (1), an unlocking piece (52) slidably mounted on the support base (51) and connected with the counterweight (34) through a pulling piece (9), and a restoring component (53) fixed on the side of the support base (51) and connected with the unlocking piece (52), wherein the pulling piece (9) is connected with one side of the counterweight (34) through a guide wheel to drive the rotating piece (31) to rotate.

5. The unpowered transfer rack of claim 4, wherein the return assembly (53) comprises a mounting block (531) fixedly arranged on one side of the support base (51), a moving block (532) arranged on one side of the unlocking member (52), and an elastic member (533) with two ends respectively connected to the mounting block (531) and the moving block (532).

6. The unpowered transport rack of claim 2, wherein the counterweight mechanism (4) comprises a counterweight frame (41) slidably mounted on the side surface of the frame body (1) and a counterweight block (42) fixedly mounted on the counterweight frame (41), and a plurality of guide wheels (43) slidably mounted on the frame body (1) and a single bearing wheel (44) connected with the mullion (21) through a traction member (8) are fixed on the side surface of the counterweight frame (41).

7. The unpowered transferring goods shelf as claimed in claim 2, wherein the supporting mechanism (6) comprises a supporting frame (61) rotatably mounted on the top of the cross rod (22) and a guiding component (62) mounted on the top of the supporting frame (61), one end of the supporting frame (61) exceeds the outermost cross rod (22) of the lifting frame body (2) and is fixedly provided with a limiting component (63) capable of abutting against the frame body (1), and the guiding components (62) are arranged at intervals and are in a plurality.

8. The unpowered transferring goods shelf of claim 7, wherein the guide assembly (62) comprises a guide frame (621) fixedly arranged at the top of the support frame (61) and a plurality of guide wheels (622) rotatably arranged inside the guide frame (621), the guide wheels (622) are arranged at intervals and are in a plurality, and the outer peripheral surface of each guide wheel (622) exceeds the top surface of the guide frame (621).

9. The unpowered transport rack of claim 7, wherein the top guide (7) comprises a mounting portion (71) fixed to the frame (1) and an abutment portion (72) connected to the mounting portion (71) and located on a descending path of the support frame (61).

10. An unpowered transfer rack according to any one of claims 1-9, characterized in that a plurality of traction wheels (10) are fixed on the frame body (1), and each of the traction members (8) and the traction members (9) is controlled by the traction wheel (10) to move.

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