CN211894783U - Board conveying equipment with height-variable inlet - Google Patents

Abstract

The utility model discloses a highly changeable panel conveying equipment of entry, link up transfer chain and translation transfer chain including lift platform, platform transfer chain, swing, the platform transfer chain sets up in lift platform's top, the swing link up the transfer chain set up in the platform transfer chain with between the translation transfer chain, the platform transfer chain with the equal level of translation transfer chain sets up, the one end that the swing links up the transfer chain equals with the height of platform transfer chain, and the other end equals with the height of translation transfer chain, the platform transfer chain the swing links up the transfer chain the translation transfer chain adopts same power unit drive. The utility model discloses link together panel transfer chain on the jacking equipment and rear transfer chain, panel need not wait for and carry again after the lift platform height-adjusting, has overcome panel and has carried the problem that is not continuous between jacking equipment and rear conveying equipment, has directly improved the transport efficiency of production line.

Description

Board conveying equipment with height-variable inlet

Technical Field

The utility model belongs to the technical field of wood working machinery, concretely relates to highly changeable panel conveying equipment of entry.

Background

In the woodworking industry and the panel furniture manufacturing industry, after a panel enters a production line, the panel undergoes a plurality of processes or working procedures, each process or working procedure is composed of one or more devices, and different devices are connected by a conveying line, so that a production flow which runs through all the time is formed.

In the plate production process, or in order to improve the production efficiency, or in order to reduce the production cost, a certain height difference generally exists between different devices, and in order to enable the plates to flexibly flow between different devices, the most common form is to configure a height-variable transmission device between the devices, and ensure that the height of the plates corresponds to the process outlet end or the process inlet end of the device through the lifting function of the transmission device.

In practical application, the height-variable transmission equipment and the subsequent transmission equipment are independent and discontinuous in transmission function, namely, when the plate flows out from the process end outlet of the equipment, the plate firstly flows into the conveying line on the lifting equipment, then the lifting equipment adjusts the height, and when the height is consistent with the height of the conveying line behind the lifting equipment, the plate flows into the conveying line behind the lifting equipment. This inconsistent delivery can result in a loss of production efficiency in the production line.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model provides a highly changeable panel conveying equipment of entry, the utility model discloses can link up the transfer chain on the jacking equipment as an organic whole with the transfer chain of rear end equipment, panel need not to wait for and carries again after the lift platform adjustment height, has overcome panel and has carried the problem that is not continuous at jacking equipment and rear end equipment, has directly improved the conveying efficiency of production line.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a highly changeable panel conveying equipment of entry, link up transfer chain and translation transfer chain including lift platform, platform transfer chain, swing, the platform transfer chain sets up in lift platform's top, the swing link up the transfer chain set up in the platform transfer chain with between the translation transfer chain, the platform transfer chain with the equal level of translation transfer chain sets up, the one end that the swing links up the transfer chain equals with the height of platform transfer chain, and the other end equals with the height of translation transfer chain, the platform transfer chain the swing links up the transfer chain the translation transfer chain adopts same power unit drive.

As a preferred technical scheme, the lifting platform comprises a lower platform frame, an upper platform frame, a scissor-type cross arm and a driving system, wherein the upper end and the lower end of one side of the scissor-type cross arm are respectively hinged with the upper platform frame and the lower platform frame, the upper end and the lower end of the other side of the scissor-type cross arm are respectively connected with the upper platform frame and the lower platform frame in a sliding manner through rollers, the driving system is installed on the lower platform frame, and the power end of the driving system is connected with one end of the scissor-type cross arm, which is provided with the rollers.

According to a preferable technical scheme, the driving system comprises a servo motor, a speed reducer and a lead screw, the servo motor is connected with the speed reducer, one end of the lead screw is connected with the speed reducer, and the other end of the lead screw is connected with the scissor-type cross arm.

As a preferred technical scheme, the platform conveying line comprises a platform supporting and guiding mechanism, a platform conveying belt and a platform supporting plate, wherein two ends of the platform supporting plate are fixedly connected with the platform supporting and guiding mechanism, the platform conveying belt is arranged around the platform supporting plate and the platform supporting and guiding mechanism, and the platform conveying belt is in transmission connection with the platform supporting and guiding mechanism; the translation conveying line comprises a translation supporting and guiding mechanism, a translation conveying belt and a translation supporting plate, two ends of the translation supporting plate are fixedly connected with the platform supporting and guiding mechanism, the translation conveying belt surrounds the translation supporting plate and is arranged with the translation supporting and guiding mechanism, and the translation conveying belt is in transmission connection with the translation supporting and guiding mechanism; the swing linking conveying line comprises a linking support guide mechanism, a linking conveying belt and a linking support plate, wherein two ends of the linking support plate are fixedly connected with the linking support guide mechanism, the linking conveying belt is arranged around the linking support plate and the linking support guide mechanism, and the linking conveying belt is in transmission connection with the linking support guide mechanism; the platform support guide mechanism at one end of the platform conveying line is connected with the connection support guide mechanism at one end of the swing connection conveying line through a first transmission shaft, the translation support guide mechanism at one end of the translation conveying line is connected with the connection support guide mechanism at the other end of the swing connection conveying line through a second transmission shaft, a first chain wheel is arranged on the first transmission shaft, a second chain wheel is arranged on the second transmission shaft, the first chain wheel and the second chain wheel are connected through an annular chain, the chain is driven by an output shaft of a power mechanism, and the power mechanism is installed on the connection support plate.

As an optimized technical scheme, the platform supporting and guiding mechanism, the linking supporting and guiding mechanism and the translation supporting and guiding mechanism have the same structure and comprise bearing seats, bearings, hexagonal shaft sleeves and belt pulleys, wherein the number of the bearing seats is 2, through holes are formed in the bearing seats, the bearings are installed in the bearing seats, one ends of the hexagonal shaft sleeves are fixedly connected with one ends of the belt pulleys through countersunk bolts, and the other ends of the hexagonal shaft sleeves and the belt pulleys are respectively installed in the bearings on two sides.

As a preferred technical scheme, a chain tensioning mechanism is installed on the connecting supporting plate and connected with the chain.

As the preferred technical scheme, the platform conveying line, the connection conveying line and the translation conveying line are all set to be 4.

As the preferred technical scheme, the below level of platform transfer chain is provided with the platform mounting panel, the platform backup pad with the platform mounting panel is perpendicular just through L type connecting piece fixed connection.

As an optimal technical scheme, a translation mounting plate is horizontally arranged below the translation conveying line, a translation supporting plate is perpendicular to the translation mounting plate and is fixedly connected with the translation mounting plate through an L-shaped connecting piece, two ends of the translation supporting plate are fixedly connected with limiting plates, horizontal limiting wheels and vertical limiting wheels are mounted on the limiting plates, and the horizontal limiting wheels and the vertical limiting wheels are mounted on the supporting frame in a rolling manner.

The lifting platform has the function of providing upward or downward power for the platform conveying line, so that the platform conveying line can ascend or descend, the height of a process outlet end of front-end equipment or a process inlet end of rear-end equipment on the upper surface of the platform conveying line is guaranteed, and plates can smoothly reach the conveying line from the equipment end.

The function of the swing linking conveying line is to connect the platform conveying line and the translation conveying line together when the lifting platform changes the operation height, and to manufacture a certain inclination angle, so that the plate can be sent out by the platform conveying line and directly transferred to the translation conveying line through the swing linking conveying line, and the problem that the plate is not transferred between the lifting equipment and the rear conveying equipment is solved.

The function of platform transfer chain is for panel provides carries power to as the bearing structure of swing linking transfer chain, the cooperation swing links up the transfer chain and carries out work at different inclinations.

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

the utility model discloses link together panel transfer chain on the jacking equipment and rear transfer chain, panel need not wait for and carry again after the lift platform height-adjusting, has overcome panel and has carried the problem that is not continuous between jacking equipment and rear conveying equipment, has directly improved the transport efficiency of production line.

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 these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the plate conveying equipment of the present invention.

Fig. 2 is the structure schematic diagram of the lifting platform in the plate conveying equipment of the present invention.

Fig. 3 is the utility model discloses the structure schematic diagram of platform transfer chain among the panel conveying equipment.

Fig. 4 is the utility model discloses swing link up the structure schematic diagram of transfer chain among the panel conveying equipment.

Fig. 5 is the structure diagram of the translational conveying line in the plate conveying equipment of the present invention.

Fig. 6 is the structure schematic diagram of the platform support guide mechanism (linking support guide mechanism, translation support guide mechanism) in the plate conveying equipment of the present invention.

Fig. 7 is a schematic structural diagram of the supporting frame in the plate conveying apparatus of the present invention.

Fig. 8 is the mounting structure diagram of the translational conveying line and the supporting frame in the plate conveying equipment of the present invention.

Fig. 9 is a schematic structural diagram of the plate conveying apparatus of the present invention in the first working state.

Fig. 10 is a schematic structural diagram of the plate conveying apparatus in the second working state according to the present invention.

Fig. 11 is a schematic structural diagram of the plate conveying apparatus in the third working state.

Wherein the reference numerals are specified as follows: lifting platform 1, platform conveying line 2, swing joint conveying line 3, translation conveying line 4, servo motor 5, speed reducer 6, lead screw 7, lower platform frame 8, upper platform frame 9, scissor-type cross arm 10, platform support guide mechanism 11, platform conveying belt 12, platform support plate 13, platform mounting plate 14, joint support guide mechanism 15, joint conveying belt 16, joint support plate 17, first transmission shaft 18, first chain wheel 19, second transmission shaft 20, second chain wheel 21, chain 22, chain tensioning mechanism 23, power mechanism 24, L-shaped connecting piece 25, translation support guide mechanism 26, translation conveying belt 27, translation support plate 28, translation mounting plate 29, limiting plate 30, horizontal limiting wheel 31, vertical limiting wheel 32, bearing seat 33, bearing 34, hexagonal shaft sleeve 35, belt pulley 36, countersunk head bolt 37, support frame 38, hexagonal shaft sleeve 35, hexagonal shaft sleeve 36, hexagonal head bolt 37, and hexagonal head, A wheel groove 39.

Detailed Description

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience of description and for simplicity of description, and 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 present invention.

As shown in fig. 1, this embodiment provides a panel conveying equipment with a variable inlet height, and includes a lifting platform 1, a platform conveying line 2, a swing linking conveying line 3 and a translation conveying line 4, wherein the platform conveying line 2 is installed above the lifting platform 1, and the swing linking conveying line 3 is used for connecting the platform conveying line 2 and the translation conveying line 4, and can be horizontally arranged and also have a certain inclination angle. Platform transfer chain 2 is the level setting with translation transfer chain 4, and the one end that the swing links up transfer chain 3 equals with platform transfer chain 2's height, and the other end equals with translation transfer chain 4's height, and platform transfer chain 2, the swing links up transfer chain 3, translation transfer chain 4 adopt same power unit 24 to drive. In this embodiment, the equal interval of platform transfer chain 2, swing link up transfer chain 3 and translation transfer chain 4 sets up to 4.

As shown in fig. 2, the lifting platform 1 includes a lower platform frame 8, an upper platform frame 9, a scissors-type cross arm 10 and a driving system, wherein the upper and lower ends of one side of the scissors-type cross arm 10 are respectively hinged to the upper platform frame 9 and the lower platform frame 8, and the upper and lower ends of the other side are respectively connected with the upper platform frame 9 and the lower platform frame 8 in a sliding manner through rollers. The driving system comprises a servo motor 5, a speed reducer 6 and a lead screw 7, the fixed end of the servo motor 5 is installed on the lower platform frame 8, the output end of the servo motor 5 is connected with the speed reducer 6, one end of the lead screw 7 is connected with the speed reducer 6, and the other end of the lead screw is connected with one end of the shear type cross arm 10, which is provided with a roller. The servo motor 5 transmits power to a lead screw 7 through a speed reducer 6, and the lead screw 7 drives an upper platform frame 9 of the lifting platform 1 to horizontally move up and down through pushing or pulling back a shear type cross arm 10, so that the platform conveying line 2 is driven to move up and down.

As shown in fig. 3, the platform conveying line 2 includes a platform supporting and guiding mechanism 11, a platform conveying belt 12 and a platform supporting plate 13, the two ends of the platform supporting plate 13 are fixedly connected with the platform supporting and guiding mechanism 11, the platform conveying belt 12 surrounds the platform supporting plate 13 and is arranged with the platform supporting and guiding mechanism 11, and the platform conveying belt 12 is in transmission connection with the platform supporting and guiding mechanism 11. The platform support plate 13 is perpendicular to the platform mounting plate 14 and is fixedly connected with the platform mounting plate 14 through an L-shaped connecting piece 25, and the platform mounting plate 14 is fixedly mounted on the upper platform frame 9.

As shown in fig. 4, the swing linking conveyor line 3 includes a linking support guide mechanism 15, a linking conveyor belt 16 and a linking support plate 17, both ends of the linking support plate 17 are fixedly connected with the linking support guide mechanism 15, the linking conveyor belt 16 is arranged around the linking support plate 17 and the linking support guide mechanism 15, and the linking conveyor belt 16 is in transmission connection with the linking support guide mechanism 15.

As shown in fig. 5, the translation conveyor line 4 includes a translation support guide mechanism 26, a translation conveyor belt 27 and a translation support plate 28, two ends of the translation support plate 28 are fixedly connected to the platform support guide mechanism 11, the translation conveyor belt 27 is disposed around the translation support plate 28 and the translation support guide mechanism 26, and the translation conveyor belt 27 is in transmission connection with the translation support guide mechanism 26. As shown in fig. 7 and 8, a translation mounting plate 29 is horizontally arranged below the translation conveying line 4, a translation supporting plate 28 is perpendicular to the translation mounting plate 29 and is fixedly connected with the translation supporting plate 29 through an L-shaped connecting piece 25, two ends of the translation supporting plate 28 are fixedly connected with limiting plates 30, a horizontal limiting wheel 31 and a vertical limiting wheel 32 are mounted on the limiting plates 30, and the horizontal limiting wheel 31 and the vertical limiting wheel 32 are mounted in a wheel groove 39 on the upper surface of a supporting frame 38 in a rolling manner.

Referring to fig. 1, the platform support guide 11 at one end of the platform conveyor line 2 is connected to the linking support guide 15 at one end of the swing linking conveyor line 3 through a first transmission shaft 18. The translation supporting guide mechanism 26 at one end of the translation conveying line 4 is connected with the connecting supporting guide mechanism 15 at the other end of the swinging connecting conveying line 3 through a second transmission shaft 20. The first transmission shaft 18 is provided with a first chain wheel 19, the second transmission shaft 20 is provided with a second chain wheel 21, the first chain wheel 19 and the second chain wheel 21 are connected through an annular chain 22, the chain 22 is driven by an output shaft of a power mechanism 24, the power mechanism 24 is installed on a connecting support plate 17, a chain tensioning mechanism 23 is installed on the connecting support plate 17, and the chain tensioning mechanism 23 is connected with the chain 22.

As shown in fig. 6, the platform support guide mechanism 11, the engagement support guide mechanism 15, and the translation support guide mechanism 26 have the same structure, and include a bearing seat 33, a bearing 34, a hexagonal bushing 35, and a belt pulley 36, where the number of the bearing seats 33 is symmetrically set to 2, and the bearing seats are respectively installed on the translation support plate 28, the engagement support plate 17, and the platform support plate 13. The bearing block 33 is provided with a through hole, the bearing 34 is installed in the bearing block 33, one end of the hexagonal shaft sleeve 35 is fixedly connected with one end of the belt pulley 36 through a countersunk head bolt 37, the other end of the hexagonal shaft sleeve 35 and the other end of the belt pulley 36 are respectively installed in the bearings 34 on two sides, and the first transmission shaft 18 and the second transmission shaft 20 are respectively connected with the hexagonal shaft sleeve 35 in a matched manner. The platform conveying belt 12, the engaging conveying belt 16 and the translation conveying belt 27 are respectively arranged around the outer part of the corresponding belt pulley 36.

As shown in fig. 9 to 11, the working process of this embodiment is as follows: according to the relative height adjustment of platform transfer chain 2 and translation transfer chain 4 link up the inclination of swing transfer chain 3, power unit 24 drive links up conveyor belt 16 and rotates to drive first transmission shaft 18, second transmission shaft 20 and rotate, further drive platform conveyor belt 12, translation conveyor belt 27 and rotate, realize the transmission of panel between lift platform 1 and rear conveying equipment.

Although the present invention has been described in detail with reference to the above embodiments, it should be understood by those skilled in the art that modifications or improvements based on the disclosure of the present invention can be made without departing from the spirit and scope of the present invention, and these modifications and improvements are within the spirit and scope of the present invention.

Claims (9)

1. The plate conveying equipment with the height-variable inlet is characterized by comprising a lifting platform, a platform conveying line, a swinging connection conveying line and a translation conveying line, wherein the platform conveying line is arranged above the lifting platform, the swinging connection conveying line is arranged between the platform conveying line and the translation conveying line, the platform conveying line and the translation conveying line are horizontally arranged, one end of the swinging connection conveying line is equal to the height of the platform conveying line, the other end of the swinging connection conveying line is equal to the height of the translation conveying line, and the platform conveying line, the swinging connection conveying line and the translation conveying line are driven by the same power mechanism.

2. The apparatus for transporting a plate material with a variable inlet height according to claim 1, wherein the elevating platform comprises a lower platform frame, an upper platform frame, a scissor-type cross arm and a driving system, wherein the upper end and the lower end of one side of the scissor-type cross arm are respectively hinged with the upper platform frame and the lower platform frame, the upper end and the lower end of the other side of the scissor-type cross arm are respectively connected with the upper platform frame and the lower platform frame in a sliding manner through rollers, the driving system is installed on the lower platform frame, and the power end of the driving system is connected with one end of the scissor-type cross arm where the rollers are installed.

3. The apparatus for conveying a plate material with a variable inlet height as claimed in claim 2, wherein the driving system comprises a servo motor, a speed reducer and a lead screw, the servo motor is connected with the speed reducer, one end of the lead screw is connected with the speed reducer, and the other end of the lead screw is connected with the scissor-type cross arm.

4. The board conveying equipment with the variable inlet height as claimed in claim 1, wherein the platform conveying line comprises a platform supporting and guiding mechanism, a platform conveying belt and a platform supporting plate, two ends of the platform supporting plate are fixedly connected with the platform supporting and guiding mechanism, the platform conveying belt is arranged around the platform supporting plate and the platform supporting and guiding mechanism, and the platform conveying belt is in transmission connection with the platform supporting and guiding mechanism; the translation conveying line comprises a translation supporting and guiding mechanism, a translation conveying belt and a translation supporting plate, two ends of the translation supporting plate are fixedly connected with the platform supporting and guiding mechanism, the translation conveying belt surrounds the translation supporting plate and is arranged with the translation supporting and guiding mechanism, and the translation conveying belt is in transmission connection with the translation supporting and guiding mechanism; the swing linking conveying line comprises a linking support guide mechanism, a linking conveying belt and a linking support plate, wherein two ends of the linking support plate are fixedly connected with the linking support guide mechanism, the linking conveying belt is arranged around the linking support plate and the linking support guide mechanism, and the linking conveying belt is in transmission connection with the linking support guide mechanism; the platform support guide mechanism at one end of the platform conveying line is connected with the connection support guide mechanism at one end of the swing connection conveying line through a first transmission shaft, the translation support guide mechanism at one end of the translation conveying line is connected with the connection support guide mechanism at the other end of the swing connection conveying line through a second transmission shaft, a first chain wheel is arranged on the first transmission shaft, a second chain wheel is arranged on the second transmission shaft, the first chain wheel and the second chain wheel are connected through an annular chain, the chain is driven by an output shaft of a power mechanism, and the power mechanism is installed on the connection support plate.

5. The plate conveying equipment with the height-variable inlet as claimed in claim 4, wherein the platform supporting and guiding mechanism, the engagement supporting and guiding mechanism and the translation supporting and guiding mechanism are identical in structure and comprise bearing seats, bearings, hexagonal shaft sleeves and belt pulleys, the number of the bearing seats is 2, through holes are formed in the bearing seats, the bearings are installed in the bearing seats, one end of each hexagonal shaft sleeve is fixedly connected with one end of each belt pulley through a countersunk head bolt, and the other end of each hexagonal shaft sleeve and the other end of each belt pulley are respectively installed in the bearings on two sides.

6. An inlet height variable sheet conveying apparatus as claimed in claim 4 wherein said engagement support plate has a chain tensioning mechanism mounted thereon, said chain tensioning mechanism being connected to said chain.

7. The variable access elevation panel transport apparatus of claim 4 wherein said platform transport line, said engagement transport line, and said translation transport line are provided in 4 strips.

8. The inlet height variable slab conveying apparatus as claimed in claim 7, wherein a platform mounting plate is horizontally disposed below the platform conveying line, and the platform support plate is perpendicular to the platform mounting plate and is fixedly connected thereto by an L-shaped connecting member.

9. The plate conveying equipment with the variable inlet height as claimed in claim 8, wherein a translation mounting plate is horizontally arranged below the translation conveying line, the translation supporting plate is perpendicular to the translation mounting plate and is fixedly connected with the translation mounting plate through an L-shaped connecting piece, two ends of the translation supporting plate are fixedly connected with limiting plates, horizontal limiting wheels and vertical limiting wheels are mounted on the limiting plates, and the horizontal limiting wheels and the vertical limiting wheels are mounted on a supporting frame in a rolling mode.

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