CN112224847A - Placing structure for hoister - Google Patents

Abstract

The invention discloses a placing structure for a lifting machine, which comprises a material receiving and discharging device and a swing arm device, wherein the swing arm device comprises a swing arm rotating mechanism and a front-and-back moving mechanism, the front-and-back moving mechanism is arranged on a swing arm member of the swing arm rotating mechanism and rotates along with the swing arm member, the material receiving and discharging device is arranged on the front-and-back moving mechanism, and the front-and-back moving mechanism drives the material receiving and discharging device to move back and forth. Connect discharge apparatus to connect through the setting and put the material, swing arm device transports the material, and hoisting device connects and puts the material, can be nimble placing predetermined position to the material, and then reduced workman's work load, improved the transportation efficiency of transporting the material.

Description

Placing structure for hoister

Technical Field

The invention belongs to the technical field of material lifting equipment, and particularly relates to a placing structure for a lifter.

Background

The fire extinguisher is after putting out of production, need carry out the production place to storing the place, because the particularity of fire extinguisher, can not acutely shake or rock, when the transport, needs the manual work to carry out handheld transport repeatedly, and the consuming time and the wasting of power of manual handling, workman need relapse bow, stand up, increased staff's the amount of labour, and then the workman need pay attention to safety more, and it is long when also having increased the transport of fire extinguisher.

Disclosure of Invention

The invention aims to solve the technical problem of inconvenience in transferring after fire extinguisher production is completed, and therefore a placing structure for a lifter is provided.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

a placing structure for a lifting machine comprises a material receiving and discharging device and a swing arm device, wherein the swing arm device comprises a swing arm rotating mechanism and a front-and-back moving mechanism, the front-and-back moving mechanism is installed on a swing arm component of the swing arm rotating mechanism and rotates along with the swing arm component, the material receiving and discharging device is installed on the front-and-back moving mechanism, and the front-and-back moving mechanism drives the material receiving and discharging device to move back and forth. The material receiving and discharging device is used for receiving and discharging materials, after the material receiving and discharging device receives the materials, the materials are conveyed to a preset position through the swing arm device, and then the material receiving and discharging device discharges the materials.

The material receiving and discharging device comprises a support and a material shoveling mechanism, the material shoveling mechanism is installed on the lower portion of the support and comprises a material shoveling power component and a material shoveling component, a material shoveling power portion of the material shoveling power component is connected with the material shoveling component and drives the material shoveling component to move, and the material shoveling component shovels materials and puts down the materials through back and forth movement.

The material shoveling power component comprises a material shoveling power part, a connecting piece I, a sliding rail and a sliding block, the sliding rail is installed on the lower portion of the support, the sliding block is arranged on the sliding rail in a sliding mode, and the connecting piece I is connected with the material shoveling component and the material shoveling power part respectively. The material shoveling mechanism comprises a material shoveling power part, a connecting piece I, a material shoveling component and sliding blocks, wherein the sliding rails and the sliding blocks are arranged on two sides of the material shoveling power part respectively; the material shoveling component comprises two shovel rods, the shovel rods are connected with the connecting piece I, and the shovel rods move forwards to shovel materials; the head of the shovel rod can be flat, so that the shovel rod can shovel materials more conveniently; the sliding rail is arranged, so that the linear motion of the shoveling component can be ensured; the material shoveling power part is an air cylinder I, a sliding block I of the air cylinder I is connected with a connecting piece I, the sliding block I of the air cylinder I is connected with the connecting piece I, and the connecting piece I is respectively connected with a sliding block positioned on the sliding rail and a shoveling rod; the cylinder I can be a rodless cylinder, the installation space of the rodless cylinder is small, the installation space of the rodless cylinder is longer than that of a standard cylinder, the transmission efficiency is higher, and the output force is large.

The material receiving and discharging device further comprises a rotating mechanism, the rotating mechanism comprises a rotating power member and a transmission member, and the transmission member is mounted on the support and is in transmission connection with the rotating power member. The rotating power component comprises a motor I and a driving gear I, and the driving component comprises a transmission gear I, a connecting shaft I and a connecting piece III; the motor I is arranged on the connecting piece III, the driving gear I is in transmission connection with the transmission gear I, the transmission gear I is arranged on the bracket, the transmission gear I can be sleeved on the connecting shaft I or not, one end of the connecting shaft I is connected with the connecting piece III, the other end of the connecting shaft I and the bracket connecting bracket rotate around the connecting shaft I, the connecting shaft I can be connected with the bracket through a bearing, and the bracket can rotate relative to the connecting shaft I in other modes; a driving shaft of the motor I drives the driving gear I to rotate, the driving gear I drives the transmission gear I to rotate, and the transmission gear I drives the support to rotate; through setting up slewing mechanism, the hoisting device of the subsequent handling of being convenient for receives the material on the shovel pole.

The material receiving and discharging device further comprises a material pressing mechanism, the material pressing mechanism is installed on the side portion of the support and comprises a material pressing power component and a material pressing component, and a material pressing power portion of the material pressing power component is connected with the material pressing component and drives the material pressing component to move. After the material shoveling mechanism shovels the material, the material pressing mechanism presses the material downwards, and the material can be prevented from falling down by the material pressing mechanism; the material pressing component comprises a material pressing rod I, a material pressing rod II and a material pressing plate, the material pressing plate is arranged at the lower parts of the material pressing rod I and the material pressing rod II, and materials can be pressed better by the material pressing plate; the pressing power component comprises an air cylinder II, a sliding rail III, a sliding rail IV and a connecting piece II, the connecting piece II is connected with a sliding block II of the air cylinder II and is connected with a pressing rod I and a pressing rod II, the sliding block II of the air cylinder II moves up and down to drive the connecting piece II to move, and the connecting piece II drives the pressing rod I and the pressing rod II and drives the pressing plate to move up and down; the connecting piece II is also connected with a sliding block positioned on the sliding rail III and the sliding rail IV, and the material pressing rod I and the material pressing rod II can be ensured to move up and down on the same straight line through the arrangement of the sliding rail III and the sliding rail IV.

The swing arm rotating mechanism comprises a swing arm rotating power component and a swing arm component, and the swing arm rotating power component is connected with the swing arm component and drives the swing arm component to rotate. The swing arm component is a swing arm, and the swing arm power component comprises a motor II, a driving gear II, a transmission gear II, a connecting shaft II and a connecting piece IV; the motor II is arranged on the connecting piece IV, the transmission gear II is arranged on the swinging arm, the transmission gear II can be sleeved on the connecting shaft II or not, one end of the connecting shaft II is connected with the connecting piece IV, the other end of the connecting shaft II is connected with the swinging arm, the swinging arm rotates around the connecting shaft II, the connecting shaft II can be connected with the swinging arm through a bearing, and the swinging arm can rotate relative to the connecting shaft II in other modes; and a driving shaft of the motor II drives the driving gear II to rotate, the driving gear II drives the transmission gear II to rotate, and the transmission gear II drives the swing arm to rotate.

The front-back moving mechanism comprises a front-back moving power member and a conveying member, the front-back moving power member is connected with the conveying member, and the front-back moving power member drives the conveying member to move front and back.

The material receiving and discharging device is arranged on the conveying member and moves back and forth along with the conveying member, and the conveying member is connected with the material receiving and discharging device and drives the material receiving and discharging device to move back and forth.

The front-back moving power component comprises a power part and a transmission part, the power part is in transmission connection with the transmission part, and the conveying component is mounted on the transmission part and moves back and forth along with the transmission part. The power part comprises a motor III and a synchronous belt wheel, a driving shaft of the motor III is connected with the synchronous belt wheel, the transmission part is a synchronous belt, and the conveying component is a conveying block; the synchronous belt wheel is in transmission connection with the synchronous belt, and the conveying block is arranged on the synchronous belt and drives the conveying block to move; the motor III drives the synchronous belt pulley to rotate, the synchronous belt pulley drives the synchronous belt to move, the synchronous belt drives the conveying block to move, and the conveying block drives the material receiving and discharging device to move back and forth; through setting up to synchronous belt drive, have advantages such as transmission accuracy, transmission are steady, transmission efficiency height.

The lifting device comprises a lifting power member and a receiving part, wherein the lifting power member is connected with the receiving part and drives the receiving part to move up and down. Lifting the power component to drive the material receiving part to move up and down to receive and discharge materials; the lifting power component comprises a chain III and an oil cylinder, a chain wheel can be arranged on the upper portion of a piston rod of the oil cylinder, the chain III bypasses the chain wheel, two ends of the chain III are respectively connected with the fixed rod and the material receiving part, the chain III is meshed with the chain wheel, and the piston rod of the oil cylinder moves up and down to drive the chain III to move, so that the material receiving part is driven to move up and down; the material receiving part is a fork, and the chain III drives the fork to move up and down to receive and place materials.

Has the advantages that: connect discharge apparatus to receive the material through the setting, the material is transported to the swing arm device, and hoisting device connects and puts the material, can be nimble the appointed position of placing of material, and then reduced workman's work load, improved the transportation efficiency of transporting the material.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of example 2;

FIG. 2 is a schematic structural view of example 1;

FIG. 3 is a schematic structural view of a shoveling mechanism;

FIG. 4 is a schematic structural view of a swaging mechanism;

FIG. 5 is a schematic structural view of a rotating mechanism;

fig. 6 is a schematic structural view of a swing arm device.

Reference numerals: 1, a cylinder I; 2-1, a shovel rod I; 2-2, a shovel rod II; 3, a sliding block I; 4-1, a slide rail I; 4-2, sliding rail II; 5, a connecting piece I; 6-1, pressing a material rod I; 6-2, pressing a material rod II; 7, a cylinder II; 8, a sliding block II; 9-1, a slide rail III; 9-2, a slide rail IV; 10, a connecting piece II; 11, a bracket; 12, pressing a material plate; 13, driving a gear I; 14, a transmission gear I; 15, a motor I; 16, connecting piece III; 17, a connecting piece IV; 18, fixing the rod; 19, a swing arm; 20, a support rod; 21, a motor II; 22, driving gear II; 23, a transmission gear II; 24, motor III; 25, a pallet fork; 26, an oil cylinder; 27, chain III; 28, a support frame I.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

Example 1:

as shown in fig. 2, a placing structure for a lifter comprises a material receiving and discharging device and a swing arm device, wherein the swing arm device comprises a swing arm rotating mechanism and a front-back moving mechanism, the front-back moving mechanism is mounted on a swing arm member of the swing arm rotating mechanism and rotates along with the swing arm member, the material receiving and discharging device is mounted on the front-back moving mechanism, and the front-back moving mechanism drives the material receiving and discharging device to move back and forth.

The material receiving and discharging device comprises a support 11, a material shoveling mechanism and a rotating mechanism, the material shoveling mechanism is installed on the lower portion of the support 11, the rotating mechanism is installed on the upper portion of the support 11, the material shoveling mechanism comprises a material shoveling power component and a material shoveling component, and a material shoveling power portion of the material shoveling power component is connected with the material shoveling component and pushes the material shoveling component to move; the rotating mechanism comprises a rotating power component and a transmission component, and the rotating power component is connected with the transmission component; the material shoveling component shovels the material by moving back and forth, and the transmission component drives the bracket 11 to rotate.

As shown in fig. 2 and 3, the material shoveling component is a shoveling rod, and includes a shoveling rod i 2-1 and a shoveling rod ii 2-2, and the head of the shoveling rod can be flat, so that the material can be shoveled more conveniently.

The material shoveling power component comprises a cylinder I1, a slide rail I4-1, a slide rail II 4-2 and a connecting piece I5, wherein the connecting piece I5 is connected with a slide block I3 of the cylinder I1 and is connected with a shoveling rod I2-1 and a shoveling rod II 2-2; a sliding block I3 of the air cylinder I1 moves back and forth to drive a connecting piece I5 to move, and the connecting piece I5 drives a shovel rod I2-1 and a shovel rod II 2-2 to move back and forth; the connecting piece I5 can also be connected with the sliding blocks of the sliding rail I4-1 and the sliding rail II 4-2, and the shovel rod I2-1 and the shovel rod II 2-2 can be ensured to move on the same straight line by arranging the sliding rail I4-1 and the sliding rail II 4-2.

The cylinder I1 can be a rodless cylinder, the installation space of the rodless cylinder is small, the installation space of the rodless cylinder is longer than that of a standard cylinder, the transmission efficiency is higher, and the output force is large.

As shown in fig. 2 and 5, the rotating mechanism includes a rotating power member and a transmission member, and the rotating power member is in transmission connection with the transmission member.

The rotary power component comprises a motor I15 and a driving gear I13, and the driving component comprises a transmission gear I14, a connecting shaft I and a connecting piece III 16; the rotating power part is connected with a driving gear I13, the driving gear I13 is in transmission connection with a transmission gear I14, the transmission gear I14 is installed on a support 11, the transmission gear I14 can be sleeved on a connecting shaft I or not, one end of the connecting shaft I is connected with a connecting piece III 16, the other end of the connecting shaft I is connected with the support 11, the support 11 rotates around the connecting shaft I, the connecting shaft I can be connected with the support 11 through a bearing, and the support 11 can rotate relative to the connecting shaft I in other modes; a driving shaft of the motor I15 drives the driving gear I13 to rotate, the driving gear I13 drives the transmission gear I14 to rotate, and the transmission gear I14 drives the support 11 to rotate; the connecting piece III 16 is also connected with a front-back moving mechanism, and the front-back moving mechanism drives the connecting piece III 16 to move front and back and drives the support 11 to move front and back; through setting up slewing mechanism, the hoisting device of the subsequent handling of being convenient for receives the material on the shovel pole.

As shown in fig. 2 and 4, the material receiving and discharging device further comprises a material pressing mechanism, the material pressing mechanism comprises a material pressing power member and a material pressing member, and the material pressing power member is connected with the material pressing member and drives the material pressing member to move up and down; drop when can prevent the material transportation through setting up swager constructs.

The material pressing component comprises a material pressing rod I6-1, a material pressing rod II 6-2 and a material pressing plate 12, wherein the material pressing plate 12 is located on the lower portions of the material pressing rod I6-1 and the material pressing rod II 6-2 and connected with the material pressing rod I6-1 and the material pressing rod II 6-2.

The pressing power component comprises an air cylinder II 7, a sliding rail III 9-1, a sliding rail IV 9-2 and a connecting piece II 10, wherein the connecting piece II 10 is connected with a sliding block II 8 of the air cylinder II 7 and is connected with a connecting rod I6-1 and a pressing rod II 6-2; a sliding block II 8 of the air cylinder II 7 moves up and down to drive the material pressing rod I6-1 and the material pressing rod II 6-2 to move up and down; the connecting piece II 10 is also connected with sliding blocks positioned on the sliding rail III 9-1 and the sliding rail IV 9-2, and the material pressing rod I6-1 and the material pressing rod II 6-2 can be ensured to move up and down on the same straight line by arranging the sliding rail III 9-1 and the sliding rail IV 9-2.

The cylinder II 7 can be a rodless cylinder, the installation space of the rodless cylinder is small, the stroke is longer than that of a standard cylinder, the transmission efficiency is higher, and the output force is large.

As shown in fig. 2 and 6, the swing arm device includes a support rod 20, a swing arm rotating mechanism and a front-back moving mechanism, the swing arm rotating mechanism is installed on the support rod 20, and the front-back moving mechanism is installed on a swing arm member of the swing arm rotating mechanism and rotates along with the swing arm member; the swing arm rotating mechanism drives the swing arm to rotate, the front-back moving mechanism pushes the material to move front and back, and the material can be flexibly placed to different positions by arranging the swing arm rotating mechanism and the front-back moving mechanism.

The swing arm rotating mechanism comprises a swing arm rotating power component and a swing arm component, and a swing arm rotating power part of the swing arm rotating power component is connected with the swing arm component and drives the swing arm component to rotate.

The swing arm rotating power component comprises a swing arm rotating power part, a driving gear II 22, a transmission gear II 23, a connecting shaft II and a connecting piece IV 17, the swing arm rotating power part is a motor II 21, and the swing arm component is a swing arm 19; the motor II 21 is mounted on the connecting piece IV 17, the transmission gear II 23 is mounted on the swing arm 19, the transmission gear II 23 can be sleeved on the connecting shaft II or not, one end of the connecting shaft II is connected with the connecting piece IV 17, the other end of the connecting shaft II is connected with the swing arm 19, the swing arm 19 rotates around the connecting shaft II, the connecting shaft II can be connected with the swing arm 19 through the connecting shaft II, and the swing arm 19 can rotate relative to the connecting shaft II in other modes; the driving shaft of the motor II 21 drives the driving gear II 22 to rotate, the driving gear II 22 drives the transmission gear II 23 to rotate, and the transmission gear II 23 drives the swing arm 19 to rotate.

The front-back moving mechanism comprises a front-back moving power component and a conveying component, and the conveying component is arranged on the front-back moving power component and drives the conveying component to move front and back.

The front-back moving power component comprises a power part and a transmission part, the power part is in transmission connection with the transmission part, the conveying component is arranged on the transmission part and moves back and forth along with the transmission part, the power part drives the transmission part to move, the transmission part drives the conveying component to move, and the material receiving and discharging device is arranged at the lower part of the conveying component and moves back and forth along with the sliding component; the power part comprises a motor III 24 and a synchronous belt wheel, the transmission part is a synchronous belt, and the conveying member is a conveying block; a driving shaft of the motor III 24 is connected with a synchronous belt wheel, the synchronous belt wheel is in transmission connection with a synchronous belt, a conveying block 30 is arranged on the synchronous belt, the conveying block 30 is further connected with a connecting piece III 16, and the connecting piece III 16 moves back and forth along with the synchronous belt; the motor III 24 drives the synchronous belt pulley to rotate, the synchronous belt pulley drives the synchronous belt to move, the conveying block 30 moves back and forth along with the synchronous belt, and the conveying block 30 drives the connecting piece III 16 to move back and forth so as to drive the material receiving and discharging device to move back and forth; through setting up to synchronous belt drive, have advantages such as transmission accuracy, transmission are steady, transmission efficiency height.

Example 2:

a structure for putting a hoist is different from embodiment 1 in that: the lifting device is added, and the subsequent placing of the materials is facilitated by adding the lifting device.

As shown in figure 1, the lifting device is installed on a support frame I28 and comprises a lifting power component and a receiving part, and the lifting power component is connected with the receiving part and drives the receiving part to move up and down.

The lifting power member comprises a chain III 27 and an oil cylinder 26, a chain wheel can be arranged on the upper part of a piston rod of the oil cylinder 26, the chain III 27 bypasses the chain wheel, two ends of the chain III 27 are respectively connected with the fixing rod 18 and the material receiving part, the chain III 27 is meshed with the chain wheel, and the chain III 27 and the chain wheel can also be replaced by a belt and a belt pulley; a piston rod of the oil cylinder 26 moves up and down to drive the chain III 27 to move, so that the receiving part is driven to move up and down; the material receiving part is a fork 25, and a chain III 27 drives the fork 25 to move up and down to receive and place materials.

The use of the invention: when the lifting feeding device conveys materials to a preset height, a sliding block I3 of an air cylinder I1 drives a connecting piece I5 to move, and the connecting piece I5 drives a shovel rod I2-1 and a shovel rod II 2-2 to move forwards and shovel the materials; a sliding block II 8 of the air cylinder II 7 drives a connecting piece II 10 to move, and the connecting piece II 10 drives a material pressing rod I6-1, a material pressing rod II 6-2 and a material pressing plate to move downwards so as to press materials and prevent the materials from falling; after the materials are shoveled, the materials are conveyed to a preset position through the back and forth movement of the conveying block 30 and the rotation of the swing arm 19; after the materials are conveyed to the preset position, the chain III moves to drive the fork 25 to move upwards to receive the materials, and after the materials are received, the chain drives the fork 25 to move downwards to place the lower part for storage.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a structure is put with promoting machine which characterized in that: the automatic material receiving and discharging device comprises a material receiving and discharging device and a swing arm device, wherein the swing arm device comprises a swing arm rotating mechanism and a front-back moving mechanism, the front-back moving mechanism is installed on a swing arm member of the swing arm rotating mechanism and rotates along with the swing arm member, the material receiving and discharging device is installed on the front-back moving mechanism, and the front-back moving mechanism drives the material receiving and discharging device to move back and forth.

2. The holding structure for a hoist according to claim 1, characterized in that: the receiving and discharging device comprises a support (11) and a material shoveling mechanism, the material shoveling mechanism is installed on the lower portion of the support (11), the material shoveling mechanism comprises a material shoveling power component and a material shoveling component, and a material shoveling power portion of the material shoveling power component is connected with the material shoveling component and drives the material shoveling component to move.

3. The holding structure for a hoist according to claim 2, characterized in that: the material shoveling power component comprises a material shoveling power part, a connecting piece I (5), a sliding rail and a sliding block, wherein the sliding rail is installed on the lower part of the support (11), the sliding block is arranged on the sliding rail in a sliding mode, and the connecting piece I (5) is connected with the material shoveling component and the material shoveling power part respectively.

4. The holding structure for a hoist according to claim 2, characterized in that: the material receiving and discharging device further comprises a rotating mechanism, the rotating mechanism comprises a rotating power member and a transmission member, and the transmission member is mounted on the support (11) and is in transmission connection with the rotating power member.

5. The holding structure for a hoist according to claim 2 or 4, characterized in that: the material receiving and discharging device further comprises a material pressing mechanism, the material pressing mechanism is installed on the side portion of the support (11), the material pressing mechanism comprises a material pressing power component and a material pressing component, and the material pressing power portion of the material pressing power component is connected with the material pressing component and drives the material pressing component to move.

6. The holding structure for a hoist according to claim 1, characterized in that: the swing arm rotating mechanism comprises a swing arm rotating power component and a swing arm component, and the swing arm rotating power component is connected with the swing arm component and drives the swing arm component to rotate.

7. The holding structure for a hoist according to claim 1, characterized in that: the front-back moving mechanism comprises a front-back moving power member and a conveying member, the front-back moving power member is connected with the conveying member, and the front-back moving power member drives the conveying member to move front and back.

8. The holding structure for a hoist according to claim 7, characterized in that: the material receiving and discharging device is arranged on the conveying member and moves back and forth along with the conveying member.

9. The holding structure for a hoist according to claim 7, characterized in that: the front-back moving power component comprises a power part and a transmission part, the power part is in transmission connection with the transmission part, and the conveying component is mounted on the transmission part and moves back and forth along with the transmission part.

10. The holding structure for a hoist according to claim 1, characterized in that: still include hoisting device, hoisting device is including promoting power component and connecing the material piece, promote power component and connect the material piece to connect and drive to connect the material piece and reciprocate.

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