CN211282792U - Part shunting and conveying device - Google Patents

Abstract

A parts split stream transfer device comprising: the cleaning chamber is symmetrically provided with a transmission inlet and a transmission outlet on the left side wall and the right side wall, and the front side wall and the rear side wall are symmetrically provided with high-pressure spray heads; the drying box is symmetrically provided with a transmission inlet and a transmission outlet on the left side wall and the right side wall, and baffles are vertically and slidably arranged at the transmission inlet and the transmission outlet; the conveying table sequentially penetrates through the cleaning chamber and the drying box, a plurality of jacking holes are formed in the table top of the conveying table, jacking plates are mounted in the jacking holes and vertically connected with piston rods of jacking oil cylinders, a plurality of pushing ports are formed in side rails of the conveying table, pushing plates are mounted at the pushing ports and transversely connected with the piston rods of pushing air cylinders; and the plurality of flow distribution tables are vertically communicated with the transmission table and are collinear with the jacking holes and the pushing ports. The utility model discloses can distribute part automatic distribution to each equipment station, improve assembly efficiency, practice thrift equipment cost.

Description

Part shunting and conveying device

Technical Field

The utility model relates to a transmission equipment technical field, concretely relates to reposition of redundant personnel transmission device.

Background

In the process of assembling the numerical control machine tool, parts need to be transmitted and distributed to each assembling table; meanwhile, parts need to be cleaned before assembly, and the influence on the operation of a machine tool caused by residual impurities in gaps after assembly is avoided. The traditional transmission device can only transmit by single line, one transmission line only supplies parts to one assembly station, and each assembly station is provided with the transmission device, so that the equipment cost is high. Therefore, there is a need for a distributable conveyor, in which the parts are transported in bulk by a main conveyor track, and distributed when arriving at an assembly station, so as to arrive at each assembly station for the delivery of the components to the assembly personnel. And a transmission platform is not needed to be configured at each assembling station, so that the equipment cost and the occupied space can be saved, and the working efficiency is improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a part reposition of redundant personnel transmission device can distribute part automatic distribution to each equipment station, improves assembly efficiency, practices thrift equipment cost.

In order to solve the technical problem, the utility model discloses a following scheme:

a parts split stream transfer device comprising: the cleaning chamber is symmetrically provided with a transmission inlet and a transmission outlet on the left side wall and the right side wall, and the front side wall and the rear side wall are symmetrically provided with high-pressure spray heads; the drying box is symmetrically provided with a transmission inlet and a transmission outlet on the left side wall and the right side wall, and baffles are vertically and slidably arranged at the transmission inlet and the transmission outlet; the conveying table sequentially penetrates through the cleaning chamber and the drying box, a plurality of jacking holes are formed in the table top of the conveying table, jacking plates are installed in the jacking holes and vertically connected with piston rods of jacking oil cylinders, a plurality of pushing ports are formed in side rails of the conveying table, pushing plates are installed at the pushing ports, and the pushing plates are transversely connected with the piston rods of pushing air cylinders; and the plurality of shunting tables are vertically communicated with the transmission table, and the shunting tables are collinear with the jacking holes and the pushing ports.

Furthermore, a conical liquid accumulation tank is arranged at the bottom of the cleaning chamber, a pair of liquid conveying pipes communicated to the high-pressure spray head are mounted in the liquid accumulation tank, and a high-pressure pump is mounted on each liquid conveying pipe; the filter basket is detachably mounted in the liquid accumulation tank and is positioned above the infusion tube.

Further, an exhaust pipe is installed at the top of the drying box and communicated to the liquid accumulating tank.

Further, the part of the transmission table, which is positioned in the cleaning chamber, is provided with transmission rollers, and the transmission rollers are rotatably arranged on the front side wall and the rear side wall of the cleaning chamber.

Further, a cleaning brush is installed in the cleaning chamber.

Furthermore, a lifting plate is connected between the two baffles, the lifting plate is vertically connected with a piston rod of a transmission cylinder, and the transmission cylinder is vertically arranged on the top surface of the drying box.

For current transmission device, the utility model discloses following beneficial effect has:

arranging a jacking plate and a pushing plate at each shunting table, pushing the parts into the shunting tables, shunting the parts to corresponding assembly stations, and realizing automatic distribution of the parts; meanwhile, parts are cleaned and dried in a unified mode in the propelling process and then are transmitted in a shunting mode, and the working procedure integration is beneficial to improving the working efficiency. The parts are uniformly placed on the transmission platform and are respectively transmitted when being transmitted to each distribution platform, the transmission platform is not required to be configured at each station, the equipment cost is saved, the feeding is uniformly controlled at the transmission starting point, only one circuit needs to be monitored, and the working efficiency is improved.

Drawings

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

FIG. 2 is a schematic view showing an internal structure of the cleaning chamber.

Reference numerals: 1-transmission platform, 10-jacking hole, 11-pushing port, 2-cleaning chamber, 20-transmission roller, 21-liquid accumulating tank, 23-exhaust pipe, 24-cleaning brush, 25-high-pressure nozzle, 3-drying box, 30-baffle, 31-lifting plate, 4-pushing plate, 5-lifting plate, 6-flow dividing platform, 7-high-pressure pump, 8-transmission cylinder, 91-jacking cylinder and 92-pushing cylinder.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

Examples

As shown in fig. 1 and fig. 2, the present embodiment provides a part shunting transmission device, including: the left side wall and the right side wall of the cleaning chamber 2 are symmetrically provided with a transmission inlet and a transmission outlet, and the front side wall and the rear side wall are symmetrically provided with high-pressure spray heads 25; a transmission inlet and a transmission outlet are symmetrically formed in the left side wall and the right side wall of the drying box 3, and baffles 30 are vertically and slidably mounted at the transmission inlet and the transmission outlet; the conveying table 1 sequentially penetrates through the cleaning chamber 2 and the drying box 3, a plurality of jacking holes 10 are formed in the table top of the conveying table 1, jacking plates 5 are mounted in the jacking holes 10, the jacking plates 5 are vertically connected with piston rods of jacking oil cylinders 91, a plurality of pushing ports 11 are formed in side rails of the conveying table 1, pushing plates 4 are mounted at the pushing ports 11, and the pushing plates 4 are transversely connected with the piston rods of pushing cylinders 92; and the plurality of flow distribution tables 6 are vertically communicated with the transmission table 1, and the flow distribution tables 6 are collinear with the jacking holes 10 and the pushing ports 11.

The specific implementation process comprises the following steps:

the parts are sequentially placed on the transmission table 1, the parts behind push the parts in front to advance, and after the parts enter the cleaning chamber 2, the feeding is suspended at the transmission starting point; after the parts are cleaned, the parts are continuously fed and pushed to move forwards, the parts are pushed into the drying box 3, feeding is suspended, and the two baffles 30 are closed; after the drying is finished, opening the two baffles 30 and continuing to feed; when the part is pushed to the position of the jacking hole 10, feeding is suspended, the jacking oil cylinder 91 is started to extend the piston rod of the jacking oil cylinder, then the pushing air cylinder 92 is started, the part is pushed into the shunting table 6, the piston rod of the jacking oil cylinder 91 is controlled to be shortened, the pushing plate 4 is reset, and then the jacking plate 5 is reset; thus, one cycle is completed, and the feeding device at the transmission starting point is periodically paused and started.

As shown in fig. 1, each diversion table 6, the jacking hole 10 and the pushing port 11 are located on the same straight line to form a branch perpendicular to the main track, and a gravity sensor can be mounted on the jacking plate 5 to detect whether the part reaches the diversion table 6. The jacking oil cylinder 91 and the pushing air cylinder 92 of each shunting table 6 can be independently controlled, an assembling worker starts according to needs, the jacking oil cylinder 91 and the pushing air cylinder 92 are started in a linkage mode and linked with a switch of the feeding device, when the jacking oil cylinder 91 of any shunting table 6 is started, the feeding device is paused for a period of time, and after the jacking plate 5 is reset, the feeding device is automatically started.

Furthermore, a conical liquid accumulation tank 21 is arranged at the bottom of the cleaning chamber 2, a pair of liquid conveying pipes 22 communicated to a high-pressure spray head 25 are installed on the liquid accumulation tank 21, and a high-pressure pump 7 is installed on the pipeline of each liquid conveying pipe 22; a filter basket is detachably arranged in the liquid accumulation groove 21 and is positioned above the infusion tube 22. The bottom of the cleaning chamber 2 is provided with a liquid accumulation tank 21 for collecting cleaning liquid, and the cleaning liquid is conveyed to a high-pressure spray head 25 at the top through a liquid conveying pipe 22 and a high-pressure pump 7, so that the cleaning liquid is recycled; meanwhile, a filter basket is arranged in the liquid accumulation tank 21 to collect slag chips in the part cleaning process, so that metal slag in the slag chips can be recycled, and the metal slag is treated and then melted in a furnace.

Further, an exhaust pipe 23 is installed on the top of the drying box 3, and the exhaust pipe 23 is communicated to the liquid accumulating tank 21. The blast pipe 23 conducts the waste heat in the drying box 3 to the liquid accumulation groove 21, and can heat the cleaning liquid, so that the cleaning effect is improved.

Further, as shown in fig. 2, a portion of transfer table 1 located inside washing chamber 2 is provided as transfer roller 20, and transfer rollers 20 are rotatably mounted on front and rear side walls of washing chamber 2; the cleaning chamber 2 is provided with a cleaning brush 24, and the cleaning brush 24 is attached to the ceiling portion and has a width corresponding to the width of the cleaning chamber 2. The conveying rollers 20 are arranged at intervals, cleaning liquid leaks into the liquid collecting tank 21 below from the gap, cleaning lint can be wrapped outside the conveying rollers 20, the cleaning liquid is sprayed downwards by the high-pressure spray nozzle 25 in the process that the parts are pushed forwards, and the parts are washed by the cleaning brush 24 and the cleaning lint.

Further, as shown in fig. 2, a manner of automatically controlling the opening and closing of the baffles 30 is provided, a lifting plate 31 is connected between the two baffles 30, the lifting plate 31 is vertically connected with a piston rod of the transmission cylinder 8, and the transmission cylinder 8 is vertically installed on the top surface of the drying box 3. The piston rod of the transmission cylinder 8 is driven to extend, the lifting plate 31 can be lifted upwards, the baffle plates 30 at the transmission inlet and the transmission outlet are driven to be opened upwards at the same time, and the parts in the drying box 3 can be pushed out by pushing forwards; then, the piston rod of the transfer cylinder 8 is shortened, the lift plate 31 is pulled downward, and the two shutters 30 are simultaneously closed downward.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and the technical essence of the present invention is that within the spirit and principle of the present invention, any simple modification, equivalent replacement, and improvement made to the above embodiments are all within the protection scope of the technical solution of the present invention.

Claims (7)

1. A part reposition of redundant personnel transmission device characterized in that includes:

the cleaning chamber (2) is symmetrically provided with a transmission inlet and a transmission outlet on the left side wall and the right side wall, and the front side wall and the rear side wall are symmetrically provided with high-pressure spray heads (25);

the drying box (3) is symmetrically provided with a transmission inlet and a transmission outlet on the left side wall and the right side wall, and baffles (30) are vertically and slidably arranged at the transmission inlet and the transmission outlet;

the conveying table (1) sequentially penetrates through the cleaning chamber (2) and the drying box (3), a plurality of jacking holes (10) are formed in the table top of the conveying table (1), jacking plates (5) are installed in the jacking holes (10), the jacking plates (5) are vertically connected with piston rods of jacking oil cylinders (91), a plurality of pushing openings (11) are formed in side rails of the conveying table (1), pushing plates (4) are installed at the pushing openings (11), and the pushing plates (4) are transversely connected with the piston rods of pushing cylinders (92);

a plurality of reposition of redundant personnel platforms (6), perpendicular intercommunication in transmission platform (1), reposition of redundant personnel platform (6) with jacking hole (10), propelling movement mouth (11) collineation.

2. The part diversion and transmission device according to claim 1, wherein a conical liquid accumulation tank (21) is arranged at the bottom of the cleaning chamber (2), a pair of liquid conveying pipes (22) communicated to the high-pressure spray head (25) are installed in the liquid accumulation tank (21), and a high-pressure pump (7) is installed on the pipeline of each liquid conveying pipe (22).

3. The part diversion transfer device according to claim 2, wherein an exhaust pipe (23) is installed on the top of the drying box (3), and the exhaust pipe (23) is communicated to the liquid accumulation tank (21).

4. The parts split stream transmission device according to claim 2, wherein a filter basket is detachably mounted in the liquid accumulation groove (21), and the filter basket is positioned above the liquid conveying pipe (22).

5. The part split-flow conveying device according to claim 1, wherein the part of the conveying table (1) located in the cleaning chamber (2) is provided as a conveying roller (20), and the conveying roller (20) is rotatably mounted on the front and rear side walls of the cleaning chamber (2).

6. A part shunting and conveying device according to any one of claims 1-5, characterised in that a washing brush (24) is mounted in the washing chamber (2).

7. The part shunting transmission device of claim 1, characterized in that a lifting plate (31) is connected between the two baffles (30), the lifting plate (31) is vertically connected with a piston rod of the transmission cylinder (8), and the transmission cylinder (8) is vertically arranged on the top surface of the drying box (3).

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