CN217457484U - Sidesway equipment and stack pallet - Google Patents

Abstract

The utility model relates to a side equipment of moving and stack pallet belongs to the conveying machinery equipment field. Specifically, the lateral moving equipment comprises two rollers, a conveying belt connected with the two rollers and a tensioning mechanism, wherein the tensioning mechanism pulls the conveying belt to tension the conveying belt; the device also comprises a shell, a tension mechanism and a driving mechanism, wherein the shell surrounds the outer part of the partial conveying belt and at least one part of the tension mechanism; the two groups of end brackets are respectively arranged at the two ends of the shell and are used for supporting the two corresponding rollers, and each group of end brackets consists of at least two side supporting plates which are arranged in pairs; a roller is rotatably arranged between each pair of side supporting plates; the supporting seat is positioned below the shell and used for supporting the shell; and the driving wheel is driven by the driving machine and is wrapped on one side by the conveying belt in a matching way so as to drive the conveying belt by the driving wheel. The utility model discloses to carry the function of battery to come out from RGV and unblock platform separation, the automobile body is transported in independent setting, has simplified the equipment complexity that trades the electric section.

Description

Sidesway equipment and stack pallet

Technical Field

The utility model relates to a conveying machinery equipment field, specifically speaking relates to a side equipment of moving and stack pallet.

Background

The vehicle-mounted battery is transferred by the equipment in the automobile battery changing station, so that the battery to be charged which is transferred to the charging chamber, and the battery to be loaded with abundant electric quantity is transferred to the automobile battery changing position. The technical scheme adopted in the prior art is as follows: an unlocking platform is installed on the RGV, the RGV performs reciprocating rotation between the charging bin and the middle transition platform, so that a battery to be charged is transferred to the transition platform, and the battery on the transition platform is transferred to a charging frame by using another grabbing device for charging; meanwhile, the grabbing equipment transfers the battery with abundant power on the charging frame to the transition platform, the RGV equipment transferring the disassembled battery transfers the battery to be loaded to the automobile battery changing position in a return stroke, and the unlocking platform is used for installing the battery on the automobile. In the process, the transition platform is a fixed platform, the grabbing device and the RGV with the unlocking platform are mobile devices, the complexity of the device in the battery replacement section is improved in the mode, and the running stability and the control precision of the device are difficult to guarantee.

SUMMERY OF THE UTILITY MODEL

1. Problems to be solved

To trade among the prior art problem that electric section equipment integrated level is high, the operation precision is difficult to control, the utility model provides a side equipment and stack pallet move, with the battery at the storehouse that charges with trade the transport function separation between the position, simplify the equipment complexity of the section of changing electricity, this technical scheme can realize the lateral shifting battery steadily, high accuracy, realize with battery unblock platform, snatch equipment and cooperate respectively.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

A lateral moving device comprises two rollers, a conveying belt and a tensioning mechanism, wherein the conveying belt is connected with the two rollers, and the tensioning mechanism pulls the conveying belt to tension the conveying belt; also comprises

A housing surrounding an exterior of a portion of the conveyor belt and surrounding at least a portion of the tensioning mechanism;

two groups of end brackets are respectively arranged at two ends of the shell and used for supporting two corresponding rollers, and each group of end brackets consists of at least two side supporting plates arranged in pairs; a roller is rotatably arranged between each pair of side supporting plates;

the supporting seat is positioned below the shell and used for supporting the shell;

and the driving wheel is driven by the driving machine and is wrapped on one side by the conveying belt in a matching way so as to drive the conveying belt by the driving wheel.

As a preferable scheme, the tensioning mechanism comprises a fixed base block, and the fixed base block is fixedly connected with the shell to stably support the tensioning wheel; the tensioning wheel is wrapped in the conveying belt and movably mounted by a fork frame; the tension wheel is movably fixed between the two opposite clamping plates of the fork frame, and a wheel shaft sequentially penetrates through the clamping plate at one side, the tension wheel and the clamping plate at the other side; the distance between the fork frame and the fixed base block is adjustable.

Preferably, the fork frame is a U-shaped frame, and a screw rod is fixedly connected to one end, far away from the opening of the U-shaped frame, of the fork frame.

As a preferable scheme, the fork is a vertically-through rectangular frame, the tension wheel is installed in the rectangular frame, and one end of the fork, which is far away from the fixed base block, is narrowed to form a narrow end so as to avoid the conveying belt from entering and exiting the fork;

and one end of the fork frame opposite to the narrow end is fixedly connected with a screw.

As a preferable scheme, the screw rod is matched and penetrates through the fixed base block, and the relative position of the screw rod and the fixed base block is controlled by the screw cap;

the supporting seat comprises two longitudinal beams perpendicular to the length direction of the shell; two ends of the shell are respectively supported by the two longitudinal beams;

the conveyer belt is a chain.

As a preferable scheme, a supporting plate is erected between the two groups of end brackets; the bearing plate is transverse to the lower part of the conveying belt and provides support for the conveying belt to lift materials.

Preferably, the support plate is a top plate of the housing.

Preferably, the support plate is an independent plate structure mounted on the upper part of the top plate of the housing.

The utility model also provides a stack pallet, it adopts foretell side to move equipment. And the wheel shaft of the driving wheel in the feeding car is connected with and drives other side-shifting equipment on the feeding car, so that the linkage work of the multi-side-shifting equipment is realized, and the battery carried by the multi-side-shifting equipment is driven to move together.

3. Advantageous effects

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

the utility model discloses to carry the function of battery and come out from RGV and unblock platform separation, independently set up the transportation automobile body, the dolly is sent promptly, has simplified the equipment complexity of section of changing electricity. In order to realize snatching equipment with the battery in the storehouse that charges, and with the high accuracy butt joint of unblock platform, the utility model discloses install a pair of side and move equipment on the pay-off dolly, should support the both ends of battery respectively to the side moves equipment to carry out stable support and steady side direction to the battery jointly and transfer, dock other batteries and accept equipment, including but not limited to the battery of the storehouse that charges snatchs equipment and trades electric section unblock platform.

In order to improve the operation precision of moving equipment, the utility model discloses a better chain drive of effect in right time to straining device with stable tensioning effect keeps the rate of tension of chain, and utilizes the constant head tank to the chain spacing, highly keeps the orbit unity and the operation stationarity of chain, improves the battery and moves the security to one side, and the butt joint accuracy nature has effectively supported step motor or servo motor's the reliable execution of high accuracy control.

Drawings

FIG. 1 is a perspective view of the feeding cart of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

fig. 3 is an enlarged view of a portion B in fig. 1.

In the figure:

1. a conveyor belt;

2. a roller;

3. a drive wheel;

4. a tensioning mechanism; 4a, a tension wheel; 4b, fixing the base block; 4c, a fork; 4d, a screw rod; 4e, double nuts; 4f, a wheel axle; 4g, clamping plates; 4h, blocking sheets; 4i, positioning holes;

5. a housing;

6. an end bracket; 6a, side branch plates; 6b, a middle plate;

7. a drive shaft;

8. a vehicle body;

9. a longitudinal beam;

10. a support plate; 10a and a positioning groove.

Detailed Description

In order to make the utility model realize that the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to be understood, the utility model is further explained by combining the embodiment.

Example 1

As shown in fig. 1 to 3, a side shift apparatus includes a closed conveyor belt 1 made of a chain, both ends of the conveyor belt 1 being supported by rollers 2, respectively. A driving wheel 3 and a tension wheel 4a are respectively arranged between the two rollers 2, and the driving wheel 3 and the tension wheel 4a are chain wheels. The conveyor belt 1 is wrapped around the driving wheel 3 and the tension wheel 4a in turn, so that the driving wheel 3 can have enough friction surface to drive the conveyor belt 1 to rotate and the tension wheel 4a can tension the conveyor belt 1.

Specifically, the housing 5 is an elongated rectangular frame covering the outer side of the return portion of the conveyor belt 1, and the feeding portion of the conveyor belt 1 is located above the upper end surface of the housing 5 and supported by the upper end surface of the housing 5, so as to effectively support the material on the conveyor belt 1.

Two ends of the shell 5 are respectively provided with a group of end brackets 6. The end bracket 6 comprises two side support plates 6a arranged in parallel and a middle plate 6b located between the side support plates 6 a. The side stay 6a is fixedly mounted on the side wall of the housing 5 by bolts. Also located intermediate the two side plates 6a are the rollers 2 which support the ends of the belt 1. The intermediate plate 6b serves both to connect the two side support plates 6a and also to provide protection for the roller 2.

The tension pulley 4a is installed inside the housing 5 to improve the compactness of the equipment arrangement, avoid more moving mechanism parts from being exposed and improve the operation safety. Specifically, a fixed base block 4b is stably mounted on the inner wall of the housing 5, and the fixed base block 4b may be mounted on the housing 5 by welding or the like, or may be inserted into the fixed base block 4b from the outer wall of the housing 5 by bolts or the like, so as to keep the position of the fixed base block 4b stable. The tensioning mechanism 4 further comprises a fork 4c for rotatably mounting the tensioning wheel 4a, and the fork 4c is connected with the fixed base 4b by a screw 4 d. One end of the screw rod 4d is fixedly connected or axially and rotatably connected to the fork frame 4c, and the other end penetrates through the fixed base block 4b in a thread matching mode. The distance of the fork 4c relative to the fixed base 4b, i.e. the tension of the tension wheel 4a on the conveyor belt 1, is adjusted by turning the screw 4 d. After the adjustment is finished, the screw rod 4d is locked by adopting a double-nut 4e structure.

In this embodiment, the yoke 4c has a rectangular frame structure and is vertically through. The wheel shaft 4f of the tensioner 4a is horizontally installed in the yoke 4c and is rotatably supported by both side walls of the yoke 4 c. The yoke 4c is located at an end remote from the fixed base 4b, and has a vertical dimension gradually narrowed in a direction away from the fixed base 4b so that the conveyor belt 1 passes around the tension pulley 4a from the side without interfering with the yoke 4 c. An axle 4f sequentially passes through a clamping plate 4g at one side, a tensioning wheel 4a and a clamping plate 4g at the other side, the tensioning wheel 4a is movably fixed between the two clamping plates 4g, at least one end of the axle 4f is provided with a baffle 4h, the diameter of the baffle 4h is larger than that of a through hole of the axle 4f, the diameter of the baffle 4h is larger than that of the through hole of the side clamping plate 4g, and a positioning hole 4i is formed in the overlapped part of the baffle 4h and the clamping plate 4g, so that a bolt or a screw can pass through the positioning hole 4i to fix the axle 4f on the clamping plate 4g, the phenomenon that the baffle 4h rotates relative to the clamping plate 4g to cause mutual abrasion and damage of the axle 4f and the clamping plate 4g is avoided, and the stable and independent rotation of the tensioning wheel 4a is ensured.

In this embodiment, the driving wheel 3 is driven by a motor. The motor drives a driving shaft 7 to rotate through a transmission chain, one end of the driving shaft 7 is connected with the driving wheel 3 to drive the side shifting equipment, the other end of the driving shaft 7 is connected with other groups of side shifting equipment, so that multiple groups of side shifting equipment move synchronously, and large-size materials such as vehicle-mounted batteries are transferred.

In order to install the multiple sets of side shifting devices, the embodiment provides a vehicle body 8, the vehicle body 8 is of a rectangular frame structure, wheels are arranged at the bottom of the vehicle body 8, and a motor for driving the wheels to rotate is installed in the vehicle body 8. Two longitudinal beams 9 which are arranged at two sides of the vehicle body 8 are fixedly arranged on the vehicle body as supporting seats, and the upper parts of the longitudinal beams 9 are respectively fixed at two ends of the transverse shell 5 through connecting cushion blocks. In order to support both sides of the vehicle-mounted battery in a balanced manner, in the embodiment, the side shifting devices have two groups, and are respectively supported by the two end portions of the two longitudinal beams 9 in a corresponding and matching manner.

Example 2

Referring to fig. 3, on the basis that other technical solutions of embodiment 1 are basically unchanged, in this embodiment, the fork 4c is a U-shaped frame structure, and one end of the fork 4c away from the opening of the U-shaped frame is fixedly connected with a screw rod 4d in threaded fit with the fixed base block 4 b. The U-shaped frame is used for clamping two clamping plates 4g of the tension wheel 4a vertically, and the tension wheel 4a is located between the two clamping plates 4 g.

In order to avoid the metal chain from sliding on the top plate of the housing to cause abrasion to the top plate of the housing and reduce the friction force of the chain transmission, the supporting plate 10 made of hard plastic is erected between the end brackets at the two ends of the housing. The upper portion of the support plate 10 is provided with a positioning groove 10a along the length direction, so that the positioning groove 10a can fix the sliding position of the chain on the support plate 10. The support plate 10 is fixed on the top plate of the shell through a countersunk head bolt, and provides support for the chain to lift materials.

In the description of this patent, it is to be understood that the terms "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "front", "back", and the like, are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used for convenience in describing the invention and simplifying the 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 patent.

In this patent, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Claims (10)

1. A lateral moving device comprises two rollers, a conveying belt and a tensioning mechanism, wherein the conveying belt is connected with the two rollers, and the tensioning mechanism pulls the conveying belt to tension the conveying belt; the method is characterized in that: and also comprises

A housing surrounding a portion of the conveyor belt and surrounding at least a portion of the tensioning mechanism;

two groups of end brackets which are respectively arranged at two ends of the shell and are used for supporting two corresponding rollers, and each group of end brackets is at least composed of two side supporting plates which are arranged in pairs; a roller is rotatably arranged between each pair of side supporting plates;

the supporting seat is positioned below the shell and used for supporting the shell;

and the driving wheel is driven by the driving machine and is wrapped on one side by the conveying belt in a matching way so as to drive the conveying belt by the driving wheel.

2. A side-shifting apparatus according to claim 1, wherein:

the tensioning mechanism comprises a fixed base block, and the fixed base block is fixedly connected with the shell to stably support the tensioning wheel; the tensioning wheel is wrapped in the conveying belt and movably mounted by a fork frame; the tension wheel is movably fixed between the two opposite clamping plates of the fork frame, and a wheel shaft sequentially penetrates through the clamping plate at one side, the tension wheel and the clamping plate at the other side;

the distance between the fork frame and the fixed base block is adjustable.

3. A side-shifting apparatus according to claim 2, wherein:

the fork frame is a U-shaped frame, and one end of the fork frame, which is far away from the opening of the U-shaped frame, is fixedly connected with a screw rod.

4. A side-shifting apparatus according to claim 2, wherein:

the fork frame is a vertically-through rectangular frame, the tension wheel is installed in the rectangular frame, and one end of the fork frame, which is far away from the fixed base block, is narrowed to form a narrow end so as to avoid the conveying belt from entering and exiting the fork frame;

and one end of the fork frame opposite to the narrow end is fixedly connected with a screw.

5. A side-shifting apparatus according to claim 3 or 4, characterized in that:

the screw rod is matched with and penetrates through the fixed base block, and is locked by the nut;

the supporting seat comprises two longitudinal beams perpendicular to the length direction of the shell; two ends of the shell are respectively supported by the two longitudinal beams;

the conveyer belt is a chain.

6. A side-shifting apparatus according to claim 1, wherein:

a supporting plate is erected between the two groups of end brackets; the bearing plate is transverse to the lower part of the conveying belt and provides support for the conveying belt to lift materials.

7. A side-shifting apparatus according to claim 6, wherein:

the bearing plate is a top plate of the shell.

8. A side-shifting apparatus according to claim 6, wherein:

the bearing plate is an independent plate structure arranged on the upper part of the top plate of the shell.

9. A feeding cart is characterized in that:

use of a side-shifting apparatus according to any of claims 1 to 8.

10. The feed carriage of claim 9, wherein:

and the wheel shaft of the driving wheel is connected with and drives the rest side shifting equipment on the feeding car.

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