CN218433370U - Height and length linkage adjusting labor-saving transfer device - Google Patents

Abstract

A labor-saving transfer device for linkage adjustment of height and length comprises telescopic fork rod assemblies arranged on the left and right, wherein carrier rollers are arranged between the two telescopic fork rod assemblies at a hinge point at the upper end of each telescopic fork rod assembly, and a plurality of groups of idler wheels are arranged on each group of carrier rollers; a telescopic adjusting mechanism is arranged on the outer side of the telescopic fork rod assembly and used for adjusting the telescopic fork rod assembly to be unfolded or folded; the telescopic adjusting mechanism comprises a plurality of groups of V-shaped assemblies, two positions of the upper end of each group of V-shaped assemblies are hinged with the upper end of the corresponding X rod, moving parts are installed at the hinged points of the lower ends of the V-shaped assemblies, and the moving parts move back and forth along the telescopic sliding rails; the two ends of the telescopic sliding rail are hinged with lifting blocks, the lifting blocks are in threaded connection with a screw rod, and the screw rod is rotatably installed on the supporting leg and is driven to rotate through a bevel gear transmission mechanism. The utility model provides a pair of laborsaving formula transfer device that height, length linkage were adjusted can reduce intensity of labour, raises the efficiency.

Description

Height and length linkage adjusting labor-saving transfer device

Technical Field

The utility model relates to a transfer device, especially a laborsaving formula transfer device that height, length linkage were adjusted.

Background

The automobile sleeves produced by the company need to be subjected to boxing and box sealing operations in the final packaging stage. The packaging part and the packaging part are distributed in the two workshops and enter and exit through a channel. Because the automobile sleeve is customized according to the order quantity, under the little condition of order quantity, current operation mode generally adopts artifical transport, because sleeve itself adopts the stainless steel preparation, and weight is great. However, if the belt conveying mechanism is used, the belt conveying mechanism arranged at the passage opening occupies a large amount of space.

Disclosure of Invention

The utility model aims to solve the technical problem that a laborsaving formula transfer device that height, length linkage were adjusted is provided, can save physical power, and the later stage can draw in simultaneously, reduces occupation of land.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

a labor-saving transfer device for linkage adjustment of height and length comprises telescopic fork rod assemblies arranged on the left and right, wherein carrier rollers are arranged between the two telescopic fork rod assemblies at a hinge point at the upper end of each telescopic fork rod assembly, and a plurality of groups of rollers are arranged on each group of carrier rollers; the telescopic adjusting mechanism is arranged on the outer side of the telescopic fork rod assembly and used for adjusting the telescopic fork rod assembly to be unfolded or folded;

the telescopic fork rod assembly comprises a first connecting rod and a second connecting rod, the middle parts of the first connecting rod and the second connecting rod are hinged into X rods, and the X rods are sequentially hinged end to end;

the telescopic adjusting mechanism comprises a plurality of groups of V-shaped assemblies, two positions of the upper end of each group of V-shaped assemblies are hinged with the upper end of the corresponding X rod, moving parts are installed at the crossed hinged points of the lower ends of the V-shaped assemblies, and the moving parts move back and forth along the telescopic sliding rails; the telescopic sliding rail is characterized in that lifting blocks are hinged to two ends of the telescopic sliding rail and are in threaded connection with screw rods, and the screw rods are rotatably mounted on the supporting legs and are driven to rotate through bevel gear transmission mechanisms.

The telescopic slide rail comprises a first telescopic chute, a guide groove is formed in the outer side wall of the first telescopic chute, a second telescopic chute is in sliding fit with the first telescopic chute, a limiting rod is arranged on one side of the second telescopic chute, and the limiting rod extends out of the guide groove.

The utility model relates to a laborsaving formula transfer device that height, length linkage were adjusted has following technological effect:

1) The support rollers with the rollers are mounted on the telescopic fork rod assembly, so that a container can be directly placed on the rollers and pushed forwards, and the telescopic fork rod assembly is simple and convenient.

2) The utility model discloses a telescopic fork rod assembly, including the landing leg, the landing leg is fixed with the telescopic fork rod assembly, through set up flexible adjustment mechanism in telescopic fork rod assembly both sides, when adjusting device's length, can adopt the mode of artifical outside pulling, also can adopt the mode of direct rotation handle, drive flexible slide rail oscilaltion through awl tooth transport mechanism, make V type subassembly drive X pole open or close together then, universal wheel on the landing leg is not dead and when direction of motion and flexible slide rail length direction are unanimous, the landing leg also can be inside and outside removal thereupon, thereby realize the adjustment of device length. Is flexible and convenient, and can be matched with the inlet and outlet positions of actual equipment. When the device is not used in off seasons, the length of the device can be shortened, and the device can be removed through universal wheels at the bottoms of the supporting legs.

3) The universal wheel when four landing legs is locked and the direction of motion is perpendicular with flexible slide rail length direction, four landing legs can't remove, flexible fork arm subassembly length does not change, the X pole of flexible fork arm subassembly does not open and does not contract promptly, V type subassembly does not open or contract, like this when driving flexible slide rail oscilaltion through awl tooth transport mechanism, the flexible fork arm subassembly that receives flexible slide rail to support, whole can the lift along with it such as V type subassembly, and then the adjustment bearing roller, the height of gyro wheel, make the height of device and the altitude mixture control of baling line to the matched state.

Drawings

The invention will be further described with reference to the following drawings and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the middle telescopic fork rod assembly of the present invention.

Fig. 3 is a schematic structural view of the X-bar of the present invention.

Fig. 4 is a schematic structural view of the middle telescopic adjusting mechanism of the present invention.

Fig. 5 is a schematic structural diagram of the middle support leg of the present invention.

Fig. 6 is a schematic structural diagram of the V-shaped component of the present invention.

Fig. 7 is a schematic structural view of the middle retractable slide rail of the present invention.

Fig. 8 is a schematic view of a partial structure of the middle retractable slide rail of the present invention.

Fig. 9 is a schematic view of a partial structure (right side) of the present invention.

Fig. 10 is a partial schematic structural view (left side) of the present invention.

Fig. 11 is a schematic view of the connection between the middle telescopic fork rod assembly and the bevel gear transmission mechanism of the present invention.

Fig. 12 is a front view of fig. 11.

In the figure: the telescopic fork rod assembly comprises a telescopic fork rod assembly 1, a carrier roller 2, a roller 3, a telescopic adjusting mechanism 4, a first connecting rod 1.1, a second connecting rod 1.2, an X rod 1.3, a V-shaped assembly 4.1, a moving member 4.2, a telescopic sliding rail 4.3, a lifting block 4.4, a screw rod 4.5, a supporting leg 4.6, a bevel gear conveying mechanism 4.7, a first telescopic sliding groove 4.3.1, a guide groove 4.3.2, a second telescopic sliding groove 4.3.3 and a limiting rod 4.3.4.

Detailed Description

As shown in figure 1, the labor-saving transfer device with the height and the length adjusted in a linkage mode comprises a telescopic fork rod assembly 1 arranged on the left and right sides, wherein the telescopic fork rod assembly 1 can be stretched, so that the length can be adjusted according to actual conditions, and the manual packing position is in transition connection with an inlet of a mechanical packing device. Be located upper end pin joint department between two flexible fork arm subassemblies 1 and install bearing roller 2 (polymer polyethylene), install multiunit gyro wheel 3 (polymer polyethylene) on every group bearing roller 2, on the gyro wheel can be arranged in to the packing box of adorning the goods, the people forward the propelling movement can, can save the labour greatly like this. The outer side of the telescopic fork rod assembly 1 is provided with a telescopic adjusting mechanism 4, and the telescopic adjusting mechanism 4 can support and properly adjust the telescopic fork rod assembly 1 and the carrier roller 2.

As shown in fig. 2-3, the telescopic fork rod assembly 1 includes a first connecting rod 1.1 and a second connecting rod 1.2, the middle of the first connecting rod 1.1 and the middle of the second connecting rod 1.2 are hinged to form an X-shaped rod 1.3 through a pin, through holes are drilled on the connecting rods at two ends of the X-shaped rod 1.3, and the adjacent X-shaped rods 1.3 are hinged end to end through pins.

Stainless steel connecting rods 1.4 are arranged at the lower end of the telescopic fork rod assembly 1, and the connecting rods 1.4 are arranged at intervals or are consistent with the carrier rollers 2 in number.

When the telescopic fork rod assembly 1 is pulled to the outer sides of the two ends, the X rod 1.3 is gradually opened, and the whole telescopic fork rod assembly 1 becomes long; when the telescopic fork rod assembly 1 is pushed towards the inner sides of the two ends, the X rod 1.3 is gradually gathered, and the whole telescopic fork rod assembly 1 is shortened.

As shown in fig. 3-6, the telescopic adjusting mechanism 4 comprises a plurality of groups of V-shaped assemblies 4.1, the V-shaped assemblies 4.1 are composed of two support rods, the lower ends of the two support rods are hinged through a pin shaft, the pin shaft extends out of the two support rods and is coaxially provided with moving members 4.2, the moving members 4.2 can be rollers, and the rollers 2 move back and forth along telescopic sliding rails 4.3 (here, the middle V-shaped assemblies 4.1 are all arranged in the telescopic sliding rails 4.3 through the rollers 2, and the pin shafts on the V-shaped assemblies 4.1 at the two ends of the device are fixed on the support legs 4.6). Two positions of the upper ends of the two support rods of each V-shaped component 4.1 are respectively hinged with the upper ends of the corresponding X rods 1.3. The two ends of the telescopic sliding rail 4.3 are hinged with lifting blocks 4.4, the lifting blocks 4.4 are in threaded connection with a screw rod 4.5, and the screw rod 4.5 is rotatably installed on the supporting legs 4.6 and is driven to rotate through a bevel gear transmission mechanism 4.7. The bevel gear transmission mechanism 4.7 comprises a first bevel gear which is coaxially and fixedly connected with the screw rod 4.5, the first bevel gear is meshed with a second bevel gear, the second bevel gear is rotatably arranged above the supporting leg 4.6 through a central shaft, and one side of the central shaft extends out of the mounting plate. The handle on the rotating central shaft can drive the bevel gear transmission mechanism 4.7 to transmit, the bevel gear transmission mechanism 4.7 then drives the screw rod 4.5 to rotate, and the screw rod 4.5 can drive the lifting block 4.4 to lift up and down when rotating. This causes the telescopic slide 4.3 to rise and fall.

Preferably, the bottom end of the supporting leg 4.6 is provided with a universal wheel with a brake, so that the supporting leg can be conveniently moved and stopped.

When the supporting legs 4.6 at the two ends are directly pulled outwards, the height of the telescopic sliding rail 4.3 is kept unchanged, the length is lengthened, all the X rods 1.3 are gradually opened, the angle of each V-shaped component 4.1 is also enlarged, and the whole transfer device is lengthened; and conversely, the length is shortened.

When the handles on the outer sides of the bevel gear transmission mechanisms 4.7 above the four supporting legs 4.6 are rotated, the bevel gear transmission mechanisms 4.7 drive the screw rods 4.5 to rotate. If the lead screw 4.5 drives the lifting block 4.4 to move upwards, can drive flexible slide rail 4.3 to move upwards like this, when flexible slide rail 4.3 moves upwards, can drive all V type subassembly 4.1 lower extreme pin joints and move upwards, two pin joints of V type subassembly 4.1 upper end are outwards opened, then drive all X poles 1.3 and open gradually, in the process that X pole 1.3 is outwards opened, landing leg 4.6 (the universal wheel is not locked and the direction of rolling is unanimous with the extension direction) is pushed and is outwards removed gradually, whole transfer device slowly lengthens, also can reach the purpose of extension equally, otherwise shorten.

Referring to fig. 9-10, which show the two legs 4.6 on the same side, in order to ensure that the lifting blocks 4.4 on the screws at the two legs 4.6 on the same side in the device are lifted synchronously, a chain transmission mechanism or a belt transmission mechanism (not shown) can be installed at the upper ends of the two screws on the same side. When one of the screw rods rotates, the other screw rod also synchronously rotates.

As shown in fig. 7-8, the retractable sliding rail 4.3 includes a first retractable sliding groove 4.3.1, a guiding groove 4.3.2 is formed on an outer side wall of the first retractable sliding groove 4.3.1, and the guiding groove 4.3.2 is a waist-shaped groove. The second telescopic chute 4.3.3 is in sliding fit with the first telescopic chute 4.3.1. The first telescopic chute 4.3.1 and the second telescopic chute 4.3.3 are both U-shaped grooves. In order to avoid the separation of the first telescopic chute 4.3.1 and the second telescopic chute 4.3.3, a limiting rod 4.3.4 is arranged outside the second telescopic chute 4.3.3, the limiting rod 4.3.4 is a T-shaped rod, and the limiting rod 4.3.4 extends out of the guide groove 4.3.2 and limits the separation of the second telescopic chute 4.3.3 from the first telescopic chute 4.3.1.

The during operation can directly place the goods case on the device's bearing roller 2, promotes the goods case, because gyro wheel 3 can roll, consequently the goods case can be along with gyro wheel 3's roll and move forward.

Claims (2)

1. The utility model provides a laborsaving formula transfer device that height, length linkage were adjusted which characterized in that: the device comprises telescopic fork rod assemblies (1) which are arranged left and right, wherein a supporting roller (2) is arranged between the two telescopic fork rod assemblies (1) at a hinge point at the upper end of the two telescopic fork rod assemblies, and a plurality of groups of rollers (3) are arranged on each group of supporting rollers (2); a telescopic adjusting mechanism (4) is arranged on the outer side of the telescopic fork rod component (1);

the telescopic fork rod assembly (1) comprises a first connecting rod (1.1) and a second connecting rod (1.2), the middles of the first connecting rod (1.1) and the second connecting rod (1.2) are hinged into X rods (1.3), and the X rods (1.3) are sequentially hinged end to end;

the telescopic adjusting mechanism (4) comprises a plurality of groups of V-shaped assemblies (4.1), two positions of the upper end of each group of V-shaped assemblies (4.1) are hinged with the upper end of the corresponding X rod (1.3), moving members (4.2) are installed at the hinged points of the lower ends of the V-shaped assemblies (4.1) in a crossed mode, and the moving members (4.2) move back and forth along the telescopic sliding rails (4.3); the telescopic sliding rail is characterized in that lifting blocks (4.4) are hinged to two ends of the telescopic sliding rail (4.3), the lifting blocks (4.4) are in threaded connection with the screw rod (4.5), and the screw rod (4.5) is rotatably installed on the supporting legs (4.6) and is driven to rotate through the bevel gear transmission mechanism (4.7).

2. The labor-saving transfer device with the linkage adjustment of the height and the length as claimed in claim 1, which is characterized in that: the telescopic slide rail (4.3) comprises a first telescopic chute (4.3.1), a guide groove (4.3.2) is formed in the outer side wall of the first telescopic chute (4.3.1), a second telescopic chute (4.3.3) is in sliding fit with the first telescopic chute (4.3.1), a limiting rod (4.3.4) is arranged on one side of the second telescopic chute (4.3.3), and the limiting rod (4.3.4) extends out of the guide groove (4.3.2).

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