CN218618674U

CN218618674U - Automatic material distributing machine

Info

Publication number: CN218618674U
Application number: CN202223196683.1U
Authority: CN
Inventors: 李玉霞; 张田龙; 雷志伟; 郭朝; 宫哲; 孙瑞轩; 郝兵强; 吉严侃; 陈忱; 肖磊; 冯明明; 王凡
Original assignee: Xingtai Hexun Seal Co ltd; Hebei Automation Research Institute Co ltd
Current assignee: Xingtai Hexun Seal Co ltd; Hebei Automation Research Institute Co ltd
Priority date: 2022-11-29
Filing date: 2022-11-29
Publication date: 2023-03-14
Anticipated expiration: 2032-11-29

Abstract

The utility model relates to an automatic material distributor, which comprises a base and a vibrating disk; still include the material conveyor components who communicates with the export of vibration dish, and accept the material that material conveyor components carried in proper order, in order to carry out the cloth subassembly of cloth to the material, cloth subassembly perpendicular to material conveyor components sets up, the cloth subassembly includes the fixed plate that supports on the base via support piece, and the shift plate of locating the fixed plate top is close to in the fixed plate, still including locating the sharp module on the base, the shift plate is connected with sharp module and is driven the aversion, a plurality of distributing troughs have been seted up adjacent to material conveyor components one side interval in the shift plate, the cloth subassembly still includes adjacent to the distributing trough and installs the baffle on the fixed plate, the length of baffle is less than the length of shift plate. The utility model discloses can carry out the cloth to the material automatically, the cloth precision is high and work efficiency is high, and has better result of use.

Description

Automatic material distributing machine

Technical Field

The utility model relates to a distributing device technical field especially relates to an automatic distributing machine.

Background

The effect of skeleton oil blanket is generally to keep apart the part that needs lubrication among the drive disk assembly with external environment, and avoids the lubricating oil seepage, and the skeleton just like the reinforcing bar inside the concrete member, plays the effect of strengthening to make the oil blanket can keep shape and tension, at present, before the vulcanization of skeleton oil blanket, all need earlier carry out the cloth to each component part of skeleton oil blanket like becket and rubber block, but among the prior art, adopt the manual work to carry out the cloth more, and lead to work efficiency low, intensity of labour is big.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an automatic material distributing machine can carry out the cloth to the material automatically, and the cloth precision is high and work efficiency is high, and has better result of use.

The utility model adopts the technical proposal that: an automatic material distributor comprises a base and a vibrating disk; still include with the material conveying component of the export intercommunication of vibration dish, and accept the material that material conveying component carried in proper order, in order right the material carries out the cloth subassembly of cloth, cloth subassembly perpendicular to material conveying component sets up, the cloth subassembly include support in via support piece on the base fixed plate, and be close to in the fixed plate and locate the shift board of fixed plate top still including locating sharp module on the base, shift board with sharp module is connected and is driven the aversion, in shift board be adjacent to a plurality of distributing troughs have been seted up at material conveying component one side interval, the cloth subassembly still include adjacent to distributing trough and install in baffle on the fixed plate, the length of baffle is less than shift board's length.

As a further limitation to the above technical solution, the material conveying assembly includes a conveying belt communicated to an outlet of the vibration plate, and two barrier strips arranged above the conveying belt at intervals to limit the material being conveyed, and each distribution chute is movably located above a tail end of the conveying belt.

As a further limitation to the above technical solution, distance adjusting components are respectively disposed on each barrier strip to adjust a distance between two barrier strips.

As a further limitation to the above technical solution, each of the distance adjusting assemblies includes a first adjusting member mounted on one side of the conveying belt at a corresponding position, and a second adjusting member mounted on the barrier strip, and a long slot is formed in the second adjusting member; the sliding column is arranged on the first adjusting piece and slides in the long slotted hole to enable the two blocking strips to be close to or far away from the sliding column for distance adjustment.

As a further limitation to the above technical solution, a distance measuring sensor is installed at the end of the conveyor belt.

As a further limitation to the above technical solution, through holes are symmetrically formed on the two barrier strips, and corresponding positions on the conveyor belt to the through holes are respectively provided with a correlation sensor.

As a further limitation to the above technical solution, a through groove is provided on one barrier strip, and a removing air pipe is installed on the other barrier strip corresponding to the position.

The utility model discloses an automatic material distributing machine, through base, vibration dish, with the material conveying assembly of the export intercommunication of vibration dish to and the setting of the material distribution subassembly of accepting the material that material conveying assembly carried in proper order, in order to carry out the cloth to the material, can form the automatic cloth to the material, especially be applicable to the cloth before the subassembly vulcanization of skeleton seal, and make work efficiency high; simultaneously, the cloth subassembly sets up to include the fixed plate, be close to in the fixed plate and locate the shifting plate of fixed plate top, the straight line module, and the shifting plate is connected with the straight line module and driven the aversion, a plurality of distributing troughs have been seted up adjacent to material conveying subassembly one side interval in the shifting plate, shift through the straight line module drive shifting plate aversion, and make the distributing trough aim at material conveying subassembly in proper order, and make the material go out through the orderly range of vibration dish, and carry to the distributing trough formation cloth via material conveying subassembly, the cloth precision is high, and adjacent to the distributing trough and install the setting of baffle on the fixed plate, can form the fender to the material in the displacement process.

Drawings

Fig. 1 is a schematic view of an assembly structure of an automatic material distributing machine of the present invention;

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

fig. 3 is a partially enlarged view of fig. 1 at B.

In the figure:

1-base, 2-vibration disk, 21-outlet of vibration disk, 3-material conveying component, 31-conveying belt, 311-distance measuring sensor, 312-correlation sensor, 32-barrier strip, 321-through hole, 322-through groove, 323-removing air pipe, 33-distance adjusting component, 331-first adjusting component, 3311-sliding column, 332-second adjusting component, 3321-long slotted hole, 4-distributing component, 41-supporting component, 42-fixing plate, 43-shifting plate, 431-distributing groove, 44-linear module, 45-baffle, 5-rubber block and 6-metal ring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Examples

The utility model provides an automatic material distributor, by showing in figure 1, it includes base 1, and vibration dish 2, still include, the material conveying component 3 of export 21 intercommunication of vibration dish, and accept the material that material conveying component 3 carried in proper order, in order to carry out the cloth subassembly 4 of cloth to the material, through base 1, vibration dish 2, the material conveying component 3 of export 21 intercommunication with the vibration dish, and accept the material that material conveying component 3 carried in proper order, in order to carry out the setting of cloth subassembly 4 of cloth to the material, can form the automatic cloth to the material, be particularly useful for the cloth before the subassembly of skeleton seal vulcanizes, and make work efficiency high, of course, except the cloth of skeleton seal assembly, the automatic material distributor in this embodiment still is applicable to the cloth of other materials.

Specifically, as shown in fig. 1 and fig. 2, the material conveying assembly 3 includes a conveying belt 31 connected to the outlet 21 of the vibration plate, and two barrier strips 32 arranged above the conveying belt 31 at intervals to limit the material during conveying, the material is placed on the vibration plate 2 and is discharged through the ordered arrangement of the vibration plate 2, the material discharged through the arrangement of the outlet 21 of the vibration plate flows into the conveying belt 31 and is conveyed through the conveying belt 31, and during the conveying process, the two barrier strips 32 limit the material, specifically, the material may be a metal ring 6 with a sealed framework, or a rubber block 5.

In order to be suitable for the transportation limit of materials with different sizes, each barrier strip 32 is provided with a distance adjusting component 33 respectively to adjust the distance between two barrier strips 32, specifically, as shown in fig. 2, each distance adjusting component 33 comprises a first adjusting part 331 installed at one side of the conveyer belt 31 at a corresponding position, and a second adjusting part 332 installed on the barrier strips 32, the second adjusting part 332 is provided with a long slot hole 3321, and the distance adjusting device further comprises a sliding column 3311 installed on the first adjusting part 331 and sliding in the long slot hole 3321 to enable two barrier strips 32 to approach or leave the distance adjusting. Specifically, the first adjustment member 331 is mounted on the mounting frame of the conveyor belt 31.

As shown in fig. 3, a distance measuring sensor 311 is installed at the end of the conveying belt 31, and the distance measuring sensor 311 detects the distance to determine whether the material distribution in the material distribution groove 431 is completed, as shown in fig. 2, through holes 321 are symmetrically formed on the two barrier strips 32, and opposite sensors 312 are installed on the conveying belt 31 at positions corresponding to the through holes 321, respectively, and are used for sensing the material on the conveying belt 31 to cooperate with the vibration plate 2 to provide an action signal to ensure the material conveying amount on the conveying belt 31. The through groove 322 is formed in one barrier strip 32, the rejection air pipe 323 is installed on the other barrier strip 32 in the corresponding position, so that when the correlation sensor 312 detects that materials are connected in a specified signal on the conveying belt 31, the materials which are close to each other are rejected, the rejection air pipe is particularly suitable for the rubber block 5, the phenomenon that the materials are overlapped close to the rubber block 5 when the distribution groove 431 is fed is avoided, and certainly, the rejection air pipe 323 is connected with an air source. Specifically, the distance measuring sensor 311 and the correlation sensor 312 are respectively connected to a PLC controller, which is not described herein again, and the rejection air pipe 323 is disposed adjacent to the correlation sensor 312.

As shown in fig. 1 and fig. 3, the distributing assembly 4 is disposed perpendicular to the material conveying assembly 3, the distributing assembly 4 includes a fixing plate 42 supported on the base 1 via a supporting member 41, a shifting plate 43 disposed above the fixing plate 42 and adjacent to the fixing plate 42, and a linear module 44 disposed on the base 1, the shifting plate 43 is connected to the linear module 44 and driven to shift, a plurality of distributing grooves 431 are disposed at intervals on one side of the shifting plate 43 adjacent to the material conveying assembly 3, the distributing assembly 4 further includes a baffle 45 mounted on the fixing plate 42 and adjacent to the distributing grooves 431, the length of the baffle 45 is smaller than that of the shifting plate 43, and each distributing groove 431 is movable above the end of the conveying belt 31.

Specifically, the shifting plate 43 drives the distributing groove 431 to shift to the upper side of the tail end of the conveying belt 31 under the driving of the linear module 44, so as to receive materials conveyed by the conveying belt 31, after the materials are received, the linear module 44 drives the shifting plate 43 to move, and the next distributing groove 431 is aligned to the upper side of the tail end of the conveying belt 31, the baffle 45 is arranged to be capable of blocking the distribution in the distributing groove 431 in the moving process of the shifting plate 43, so that the effect is better, and a groove body is formed in the position, corresponding to the distributing groove 431, of the baffle 45. The length of the baffle 45 is less than that of the shifting plate 43, so that the baffle 45 can be out of the length of one distribution chute 431 to be convenient for receiving materials.

In this embodiment, when the transported material assembly is a frame-sealed assembly, the metal ring 6 and the rubber block 5 are needed to be used simultaneously when vulcanization is involved, so as to be shown in fig. 1, the vibration disc 2, the material transport assembly 3 communicated with the outlet 21 of the vibration disc, and the material distribution assemblies 4 which receive the materials sequentially transported by the material transport assembly 3 and distribute the materials are all arranged in two sets, and for higher efficiency, the material distribution assemblies 4 of each set can be two sets symmetrically arranged relative to the material transport assembly 3.

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 covered by the present invention within the technical scope of the present invention, and the technical solution obtained by replacing or changing the technical idea of the present invention with equivalents.

Claims

1. An automatic material distributor which is characterized in that: comprises a base and a vibrating disk; still include with the material conveying component of the export intercommunication of vibration dish, and accept the material that material conveying component carried in proper order, in order right the material carries out the cloth subassembly of cloth, cloth subassembly perpendicular to material conveying component sets up, the cloth subassembly include support in via support piece on the base fixed plate, and be close to in the fixed plate and locate the shift board of fixed plate top still including locating sharp module on the base, shift board with sharp module is connected and is driven the aversion, in shift board be adjacent to a plurality of distributing troughs have been seted up at material conveying component one side interval, the cloth subassembly still include adjacent to distributing trough and install in baffle on the fixed plate, the length of baffle is less than shift board's length.

2. An automatic material distributor according to claim 1, characterized in that: the material conveying assembly comprises a conveying belt communicated to an outlet of the vibration disc and two blocking strips which are arranged above the conveying belt at intervals to limit conveyed materials, and each distributing groove can be movably located above the tail end of the conveying belt.

3. An automatic material distributor according to claim 2, characterized in that: distance adjusting components are respectively arranged on the barrier strips to adjust the distance between the two barrier strips.

4. An automatic material distributor according to claim 3, characterized in that: each distance adjusting assembly comprises a first adjusting piece and a second adjusting piece, the first adjusting piece is arranged on one side of the corresponding conveying belt, the second adjusting piece is arranged on the barrier strip, and a long slotted hole is formed in the second adjusting piece; the sliding column is arranged on the first adjusting piece and slides in the long slotted hole to enable the two blocking strips to be close to or far away from the sliding column with adjustable distance.

5. An automatic material distributor according to claim 2, characterized in that: and a distance measuring sensor is arranged at the tail end of the conveying belt.

6. An automatic material distributor according to claim 2, characterized in that: through holes are symmetrically formed in the two blocking strips, and corresponding positions of the conveyor belt to the through holes are respectively provided with a correlation sensor.

7. An automatic material distributor according to claim 2, characterized in that: a through groove is arranged on one of the barrier strips, and a rejection air pipe is arranged on the other barrier strip at the corresponding position.