CN213036693U - Shunting moves machine of carrying - Google Patents

Abstract

The utility model belongs to the technical field of conveying systems, in particular to a shunting transfer machine, which comprises a main body of a transplanter, wherein the main body of the transplanter comprises a base for installation; the conveying module is fixedly arranged on the base; the conveying module at least comprises a first guide wheel conveying module and a second guide wheel conveying module; the first guide wheel conveying module and the second guide wheel conveying module respectively comprise a plurality of rows of guide wheel sets, each guide wheel set comprises a plurality of guide wheels, and the guide wheels are used for determining the conveying direction of the articles; the height of the guide wheel in each guide wheel set is the same; and the power assembly is used for driving the guide wheel in the conveying module to rotate. The utility model discloses an all adopt the form of guide pulley to carry out the transmission in the equipment is transplanted in the reposition of redundant personnel, because the guide pulley is less with the product contact surface, it has effectively avoided the too big condition that hinders the product and carry of conveyer belt friction, increases whole reposition of redundant personnel equipment's conveying efficiency.

Description

Shunting moves machine of carrying

Technical Field

The utility model belongs to the technical field of conveying system, refer in particular to a reposition of redundant personnel moves machine of carrying.

Background

At present, domestic transfer equipment has various forms, and mainly has jacking transfer. The jacking transfer machine jacks up the pre-distributed goods by one power, conveys the goods by the other power, and then lowers the jacking power to wait for the next goods. Jacking moves and carries and can realize two-way moving and carrying of goods between two transfer lines, its main shortcoming: the working efficiency is low, the structure is complex, the required installation space is large, the cost is high, and the like.

The Chinese utility model 201920433667.9 discloses a splitter for green brick grouping, which comprises a steering unit, wherein the steering unit is respectively provided with a feeding unit, a first objective table and a second objective table in three directions, and comprises a base, a transverse conveying module and a longitudinal conveying module; the utility model discloses a western model is through setting up direction of rotation mutually perpendicular's conveying roller set and conveyer belt, and the alternate motion of the two can realize the adobe to horizontal or vertical transport, has realized the function of reposition of redundant personnel, transplantation.

But above-mentioned utility model in the in-service use, because it adopts be that conveyer belt and cylinder are direct mutually vertically to be set up, when it rotates the reposition of redundant personnel in the mistake mutually, the conveyer belt easily with treat that the reposition of redundant personnel product takes place the friction to cause the wearing and tearing of conveyer belt, the conveyer belt is great with treating reposition of redundant personnel product contact surface simultaneously, and its whole frictional force of bringing is great, can influence the product and carry the efficiency of reposition of redundant personnel, probably causes the stagnation when serious.

Disclosure of Invention

The utility model aims at providing a need not to go up and down, can not produce the reposition of redundant personnel of wearing and tearing phenomenon and move machine of carrying.

The purpose of the utility model is realized like this:

a shunting and shifting machine, which is characterized in that,

the automatic transfer machine comprises a transfer machine main body, wherein the transfer machine main body comprises a base for installation;

the conveying module is fixedly arranged on the base; the conveying module at least comprises a first guide wheel conveying module and a second guide wheel conveying module;

the first guide wheel conveying module and the second guide wheel conveying module respectively comprise a plurality of rows of guide wheel sets, each guide wheel set comprises a plurality of guide wheels, and the guide wheels are used for determining the conveying direction of the articles; the height of the guide wheel in each guide wheel set is the same;

and the power assembly is used for driving the guide wheel in the conveying module to rotate.

Furthermore, the conveying modules are provided with two groups, including a first guide wheel conveying module with transverse guide wheels and a second guide wheel conveying module with longitudinal guide wheels.

Furthermore, the power assembly is a transmission roller arranged in the conveying lines at the two ends of the base, the transmission roller is connected with the first guide wheel conveying module or the second guide wheel conveying module, and the conveying modules are driven to rotate by the power of the transmission roller.

Furthermore, the first guide wheel conveying module sequentially penetrates through the second guide wheel conveying module.

Furthermore, a plurality of first rotating shafts used for enabling the same row of guide wheels to synchronously rotate are arranged between the same row of guide wheels of the first guide wheel conveying module in a penetrating mode, and a first driving belt used for being connected with the adjacent first rotating shafts is arranged on one side of each first rotating shaft and used for driving the whole first guide wheel conveying module to work through a single power assembly.

Furthermore, a plurality of second transmission belts used for synchronous rotation are arranged between the same row of guide wheels in the second guide wheel conveying module, a second rotating shaft connected with one guide wheel in each row of guide wheels is arranged, and the second rotating shaft is driven by a single power assembly to drive the whole second guide wheel conveying module to work.

Furthermore, the transmission roller is connected with the first rotating shaft or the second rotating shaft through the first transmission belt or the second transmission belt to drive the conveying module to rotate.

Further, the first transmission belt or the second transmission belt is a transmission belt or a transmission circular belt.

Furthermore, at least one side surface of the guide wheel in the guide wheel set is provided with a connecting plate for fixing, and the guide wheel is fixed in the base through the connecting plate.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

1. the utility model discloses an all adopt the form of guide pulley to carry out the transmission in the equipment is transplanted in the reposition of redundant personnel, because the guide pulley is less with the product contact surface, it has effectively avoided the too big condition that hinders the product and carry of conveyer belt friction, increases whole reposition of redundant personnel equipment's conveying efficiency.

2. The utility model has the advantages that the guide wheel is installed and fixed through the installation plate, and the installation mode is simple and convenient; through the form of array, effectual each guide pulley staggers, and mutual influence collision causes the damage when preventing the pivoted.

3. The utility model discloses a combination of pivot and hold-in range for just can drive the conveying mechanism of whole syntropy through single power component and rotate, reduced motor quantity, reduce the cost.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of the position A of the present invention;

fig. 3 is an enlarged view of the position B of the present invention.

The reference numerals in the figures denote the meanings:

1. a transfer machine main body; 2. a base; 3. a guide wheel; 4. a connecting plate; 5. a first rotating shaft; 6. a first transmission belt; 7. a second transmission belt; 8. a second rotating shaft; 9. and (3) driving the roller.

Detailed Description

The invention will be further described with reference to specific embodiments below:

a shunting and shifting machine, which is characterized in that,

a transfer machine main body 1, the transfer machine main body 1 including a base 2 for mounting;

the conveying module is fixedly arranged on the base 2; the conveying module at least comprises a first guide wheel conveying module and a second guide wheel conveying module;

the first guide wheel conveying module and the second guide wheel conveying module respectively comprise a plurality of rows of guide wheel sets, each guide wheel set comprises a plurality of guide wheels 3, and the guide wheels 3 face to determine the conveying direction of the articles; the height of the guide wheel 3 in each guide wheel set is the same;

and the power assembly is used for driving the guide wheel 3 in the conveying module to rotate.

The shunting transfer machine in the utility model is used for shunting and steering the products in the conveying line; as shown in fig. 1, the diversion transfer machine is arranged at a corner of a conveying line, most of the existing logistics conveying lines adopt a roller conveying line, a turning part in the roller conveying line is generally conveyed by adopting a fan-shaped roller, and the whole volume of the structure for conveying the fan-shaped roller is large and difficult to install in some small places; the utility model discloses a change the structure and significantly reduced and change the volume that turns to the structure, the product gets into through the transport module that first group orientation is the same and changes the reposition of redundant personnel and move the machine of carrying after, and a set of transport module action is seen off the reposition of redundant personnel with the product in addition and is moved the machine of carrying, realizes the product reposition of redundant personnel or turns to.

The utility model discloses also can use in the transfer chain, be about to this structure setting in two crisscross transfer chains for this structure has three faces at least to carry the product through the positive and negative commentaries on classics that control guide pulley 3 carried the module.

Furthermore, at least one side surface of the guide wheel 3 in the guide wheel set is provided with a connecting plate 4 for fixing, and the guide wheel 3 is fixed in the base 2 through the connecting plate 4.

As shown in fig. 1, the connecting plates 4 may be fixed in the base 2 by welding or integrally formed, as long as they are stably arranged in the base 2, and the heights of the connecting plates 4 are the same, so as to ensure that the heights of the guide wheels 3 are the same; the connecting plate 4 in this example is provided with two pieces which are respectively arranged on two side surfaces of the guide wheel 3 and are provided with connecting holes for the guide wheel 3 to rotate; the form that two connecting plates 4 are fixed has the advantage of connecting stably to this structure will guide pulley 3 arranges into the form of array, is convenient for install earlier stage and the maintenance in later stage and overhauls, avoids each guide pulley 3 collision to cause the damage simultaneously.

Furthermore, the conveying modules are provided with two groups, each group comprises a first guide wheel conveying module with a transverse guide wheel 3 and a second guide wheel conveying module with a longitudinal guide wheel 3, and the first guide wheel conveying modules sequentially penetrate through the second guide wheel conveying modules.

As shown in fig. 1 and 2, the guide wheels 3 are respectively oriented to the conveying lines on two sides of the diversion transfer machine, which are right at two vertical sides of the diversion transfer machine main body 1, and are used for effectively conveying the products in the conveying lines to the diversion transfer machine main body 1 for diversion; in some embodiments, the first guide wheel conveying module and the second guide wheel conveying module may not be arranged vertically, and the first guide wheel conveying module and the second guide wheel conveying module are determined according to the direction of the conveying line, so that the guide wheel 3 between the first guide wheel conveying module and the second guide wheel conveying module is at a certain angle as long as the angle of normal operation of the first guide wheel conveying module and the second guide wheel conveying module is not affected.

In order to prevent the conveying modules from interfering with each other, in this embodiment, each row of guide wheel sets in the first guide wheel conveying module is disposed between two rows of guide wheel sets in the second guide wheel conveying module, and a certain interval is provided to prevent the shunting transfer machine from being out of service due to collision.

The first guide wheel conveying module is characterized in that a plurality of first rotating shafts 5 used for enabling the same row of guide wheels 3 to synchronously rotate are arranged between the same row of guide wheels 3 in a penetrating mode, and one side of each first rotating shaft 5 is provided with a first driving belt 6 used for being connected with the adjacent first rotating shafts 5 and used for driving the whole first guide wheel conveying module to work through a single power assembly.

As shown in fig. 1 and 2, the first guide wheel conveying module comprises a plurality of guide wheels 3 arranged side by side, and the first rotating shaft 5 penetrates through the mounting plate and the guide wheels 3 and is connected with the transfer machine main body 1 on one side; a belt wheel is arranged on one side of the rotating shaft I5 connected with the transfer machine main body 1, two belt grooves are formed in the belt wheel and used for installing the transmission belt I6, namely two ends of the transmission belt I6 are arranged on the belt wheel of the adjacent rotating shaft I5, and the belt wheel is provided with the belt grooves, so that the belt wheel can accommodate at most two transmission belts I6; wherein the rotating shaft I5 positioned on one side of the conveying module is responsible for connecting the power assembly, the power assembly drives the power assembly to rotate, and the whole first guide wheel conveying module is sequentially driven to rotate through the plurality of driving belts I6.

And a plurality of second transmission belts 7 used for synchronously rotating are arranged between the same row of guide wheels 3 in the second guide wheel conveying module, a second rotating shaft 8 connected with one guide wheel 3 in each row of guide wheels 3 is arranged, and the second rotating shaft 8 is driven by a single power assembly to drive the whole second guide wheel conveying module to work.

As shown in fig. 1 and 2, in order to avoid the first guide wheel conveying module, each row of guide wheels 3 in the second guide wheel conveying module sequentially penetrates between each row of guide wheels 3 of the first guide wheel conveying module, so that the rows of guide wheels are staggered, and a second transmission belt 7 is arranged between the guide wheels 3 in the same row; specifically, belt wheels which rotate synchronously with the guide wheel are arranged on two sides of the guide wheel 3, and a second transmission belt 7 is arranged on two sides of the guide wheel 3 through the belt wheels; as shown in figures 1 and 2, a second transmission belt 7 for connection is arranged between every two adjacent guide wheels 3, in order to prevent the accumulation caused by the connection of the second transmission belts 7 at the same side of the guide wheels, the second transmission belts 7 are arranged on the left side and the right side of the flow guide 3 in a staggered mode, the volume is reduced under the same transmission effect of activity, and the probability of collision with other conveying modules is correspondingly reduced.

In this example, in order to avoid the collision between the second rotating shaft 8 and the element in the first guide wheel conveying module, the first guide wheel 3 in each row of guide wheels 3 is arranged on one side outside the first guide wheel conveying module, at this time, the second rotating shaft 8 and the first rotating shaft 5 are arranged in the guide wheels 3 in the same way, and are connected with the one-side transfer machine main body 1, and at this time, a second driving belt 7 is arranged between the power assembly and the second rotating shaft 8 for connection, so that the whole second guide wheel conveying module is sequentially driven to rotate through the rotation of the second rotating shaft 8.

The power assembly is a transmission roller 9 arranged in the conveying lines at the two ends of the base 2, the transmission roller 9 is connected with the first guide wheel conveying module or the second guide wheel conveying module, and the transmission module is driven to rotate by the power of the transmission roller 9.

In this embodiment, the transmission roller 9 is connected to the first rotating shaft 5 or the second rotating shaft 8 through the first transmission belt 6 or the second transmission belt 7, and the transmission roller 9 drives the conveying module to rotate.

In the transfer chain, as shown in fig. 3, transmission roller 9 itself drives through the motor, above-mentioned transmission roller 9's benefit lies in, owing to drive the rotation through transmission roller 9, it drives to need not newly to increase power component in this reposition of redundant personnel moves the carrier, moreover, make transmission roller 9 and the linkage of whole transport module, when transmission roller 9 in the transfer chain rotates promptly, transport module simultaneous working, it is convenient for reposition of redundant personnel moves the steering operation that carries the machine, the condition that has avoided reposition of redundant personnel to move and lead to the rotational efficiency to reduce when moving the machine and start untimely takes place.

A transmission belt or a transmission circular belt is arranged outside the first transmission belt 6 or the second transmission belt 7; the transmission belt or the transmission circular belt is convenient for an installer to install, the overall cost is low, and the transmission ratio is constant.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a reposition of redundant personnel moves machine of carrying which characterized in that: comprises that

A transfer machine body (1), wherein the transfer machine body (1) comprises a base (2) for installation;

the conveying module is fixedly arranged on the base (2); the conveying module at least comprises a first guide wheel conveying module and a second guide wheel conveying module;

the first guide wheel conveying module and the second guide wheel conveying module respectively comprise a plurality of rows of guide wheel sets, each guide wheel set comprises a plurality of guide wheels (3) and is used for determining the conveying direction of the articles through the orientation of the guide wheels (3); the height of the guide wheel (3) in each guide wheel set is the same;

and the power assembly is used for driving the guide wheel (3) in the conveying module to rotate.

2. The split transfer machine according to claim 1, wherein: the conveying modules are provided with two groups, and comprise a first guide wheel conveying module with guide wheels (3) transversely arranged and a second guide wheel conveying module with guide wheels (3) longitudinally arranged.

3. The split transfer machine according to claim 1, wherein: the power assembly is a transmission roller (9) arranged in conveying lines at two ends of the base (2), the transmission roller (9) is connected with the first guide wheel conveying module or the second guide wheel conveying module, and the transmission module is driven to rotate by power of the transmission roller (9).

4. The split transfer machine according to claim 3, wherein: and the first guide wheel conveying module sequentially penetrates through the second guide wheel conveying module.

5. The split transfer machine according to claim 4, wherein: the first guide wheel conveying module is characterized in that a plurality of first rotating shafts (5) which are used for enabling the same row of guide wheels (3) to synchronously rotate are arranged between the same row of guide wheels (3), and one side of each first rotating shaft (5) is provided with a first driving belt (6) which is used for connecting the adjacent first rotating shafts (5) and is used for driving the whole first guide wheel conveying module to work through a single power assembly.

6. The split transfer machine according to claim 5, wherein: and a plurality of second transmission belts (7) used for synchronous rotation are arranged between the same row of guide wheels (3) in the second guide wheel conveying module, a second rotating shaft (8) connected with one guide wheel (3) in each row of guide wheels (3) is arranged, and the second rotating shaft (8) is driven by a single power assembly to drive the whole second guide wheel conveying module to work.

7. The split transfer machine according to claim 6, wherein: the transmission roller (9) is connected with the first rotating shaft (5) or the second rotating shaft (8) through the first transmission belt (6) or the second transmission belt (7) to drive the conveying module to rotate.

8. The split transfer machine according to claim 7, wherein: and a transmission belt or a transmission circular belt is arranged outside the first transmission belt (6) or the second transmission belt (7).

9. The split transfer machine according to claim 1, wherein: at least one side surface of the guide wheel (3) in the guide wheel set is provided with a connecting plate (4) for fixing, and the guide wheel (3) is fixed in the base (2) through the connecting plate (4).

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