CN211733023U - Ceramic chip arranging mechanism - Google Patents

Abstract

The utility model discloses a arrange potsherd mechanism has: a tooling bottom plate; the charging barrel is arranged on the tool bottom plate and can accommodate the ceramic plate; the charging barrel is provided with a through groove, and the ceramic plates in the charging barrel can be conveyed out through the through groove; the push block cylinder is arranged on the tool bottom plate; the first end of the push block is connected with a piston rod of the push block cylinder; the second end of the push block can extend into the through groove and push the ceramic plate in the charging barrel out; the pushing sliding plate is arranged at the discharging end of the through groove of the charging barrel, and the ceramic plate can be pushed to the pushing sliding plate by the pushing block; the ceramic wafer regulating device comprises a regulating block, a push plate cylinder, a push plate strip and a shifting block cylinder, and can automatically regulate the ceramic wafer, so that the ceramic wafer is regularly and reliably installed.

Description

Ceramic chip arranging mechanism

Technical Field

The utility model belongs to the technical field of car PTC water heater equipment, especially, relate to a row potsherd mechanism.

Background

In realizing the utility model discloses an in-process, utility model human finds that prior art has following problem at least: in the traditional technology, the installation process of the ceramic plate of the automobile PTC water heater is manually completed, the working efficiency is low, and the automation degree is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a row's potsherd mechanism that can carry out automation to the potsherd regular, make the potsherd installation regular reliable is provided.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a ceramic wafer arrangement mechanism comprises:

a tooling bottom plate;

the charging barrel is arranged on the tool bottom plate and can accommodate a ceramic plate; the charging barrel is provided with a through groove, and the ceramic plates in the charging barrel can be conveyed out through the through groove;

the push block cylinder is arranged on the tool bottom plate;

the first end of the push block is connected with a piston rod of the push block cylinder; the second end of the push block can extend into the through groove and push out the ceramic plate in the charging barrel;

the pushing sliding plate is arranged at the discharging end of the through groove of the charging barrel, and the ceramic plate can be pushed onto the pushing sliding plate by the pushing block;

the regulating block is arranged at the second end of the pushing sliding plate;

the push plate cylinder is arranged on the tool bottom plate;

the push plate strip is connected with a piston rod of the push plate cylinder and can push the ceramic plate, which is sent out from the discharge end of the through groove to the push sliding plate, to the regulating block;

the shifting block cylinder is arranged on the tool bottom plate;

the shifting block is connected with a piston rod of the shifting block air cylinder and arranged on the first side of the second end of the pushing sliding plate.

And a positioning plate is arranged on the second side of the second end of the pushing sliding plate.

The bottom of feed cylinder is equipped with four and leads to the groove to be equipped with respectively with four ejector pad that lead to the groove adaptation, the first end of four promotions is passed through the connecting rod and is connected, the connecting rod with the piston rod of ejector pad is connected.

And buffers for blocking the connecting rod are arranged on two sides of the charging barrel.

The connecting block and the push plate strip are guided by guide rails on the tool bottom plate.

The push block is vertical to the pushing sliding plate; the moving direction of the push plate strip is parallel to the push sliding plate; the moving direction of the shifting block is vertical to the pushing sliding plate; the shifting block cylinder and the material barrel are positioned on the first side of the pushing sliding plate.

One of the technical schemes has the following advantages or beneficial effects that the ceramic wafer can be automatically regulated, and the ceramic wafer is regularly and reliably installed.

Drawings

Fig. 1 is a schematic structural view of a ceramic wafer arrangement mechanism provided in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the ceramic wafer arrangement mechanism of FIG. 1;

FIG. 3 is a schematic structural diagram of the ceramic wafer arrangement mechanism of FIG. 1;

the labels in the above figures are: 1. the tool comprises a tool bottom plate, 2, a charging barrel, 201, a through groove, 3, a push block, 301, a push block cylinder, 4, a pushing sliding plate, 5, a push plate strip, 6, a push plate cylinder, 7, a regulating block, 8, a shifting block, 9 and a shifting block cylinder.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 3, a ceramic sheet arranging mechanism includes:

a tooling bottom plate;

the charging barrel is arranged on the tool bottom plate and can accommodate the ceramic plate; the charging barrel is provided with a through groove, and the ceramic plates in the charging barrel can be conveyed out through the through groove;

the push block cylinder is arranged on the tool bottom plate;

the first end of the push block is connected with a piston rod of the push block cylinder; the second end of the push block can extend into the through groove and push the ceramic plate in the charging barrel out;

the pushing sliding plate is arranged at the discharging end of the through groove of the charging barrel, and the ceramic plate can be pushed to the pushing sliding plate by the pushing block;

the regulating block is arranged on the second end of the pushing sliding plate;

the push plate cylinder is arranged on the tool bottom plate;

the push plate strip is connected with a piston rod of the push plate cylinder and can push the ceramic plate, which is sent out from the discharge end of the through groove to the push sliding plate, to the regulating block;

the shifting block cylinder is arranged on the tool bottom plate;

the shifting block is connected with a piston rod of the shifting block cylinder and arranged on the first side of the second end of the pushing sliding plate;

the feeding and the arranging comprise four actions, the pushing block pushes the ceramic plates in the charging barrel to the pushing sliding plate, the pushing plate bar pushes the ceramic plates to slide to the second end of the pushing sliding plate, and the four ceramic plates are attached and transversely positioned; the shifting block pushes the four ceramic plates to be radially positioned, and feeding and arranging actions of the four ceramic plates are completed.

A positioning plate is arranged on the second side of the second end of the pushing sliding plate. The locating plate can limit the radial position of the ceramic plate.

The bottom of feed cylinder is equipped with four and leads to the groove to be equipped with respectively with four ejector pads that lead to the groove adaptation, the first end of four promotions is passed through the connecting rod and is connected, the connecting rod is connected with the piston rod of ejector pad. Four ceramic plates are pushed out and conveyed each time.

The both sides of feed cylinder are equipped with the buffer that blocks the connecting rod. The damper can damp the movement of the connecting rod.

The connecting block and the push plate strip are guided by a guide rail on the tool bottom plate; through setting up the direction, make the motion more reliable and more stable.

The push block vertically pushes the sliding plate; the moving direction of the push bar strip is parallel to the push sliding plate; the moving direction of the shifting block is vertical to the sliding plate; the shifting block cylinder and the material barrel are positioned on the first side of the pushing sliding plate.

The use method of the ceramic wafer arrangement mechanism comprises the following steps:

1) the following tooling plate is driven by the conveying belt until being blocked by the extending blocking cylinder; at the moment, after the equipment detects that the follow tooling plate is in place, the jacking cylinder jacks up to position the follow tooling plate and pushes the follow tooling plate up until the follow tooling plate is fixed by the pressing plate;

2) the ceramic wafer in the charging barrel is pushed out by the push block cylinder, and the ceramic wafer on the push sliding plate is pushed to a specified block position by the push block cylinder;

3) the shifting block cylinder extends out again to push the ceramic plate to a picking position;

4) the lower detection probe rises to contact the bottom surface of the ceramic chip, the upper detection probe moves to the upper part of the ceramic chip through the movable cylinder and then presses downwards, and the upper detection probe and the lower detection probe finish the detection of the ceramic chip;

5) the linear module moves to a ceramic chip pickup position, sucks the ceramic chip and then moves to the traveling tooling plate, and the linear module places the ceramic chip on the traveling tooling plate;

6) and (5) releasing the follow-up tooling plate to the conveying line after 4 times of completion.

After the scheme is adopted, the ceramic plates can be automatically regulated, so that the ceramic plates can be installed regularly and reliably.

The present invention has been described above with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above-mentioned manner, and various insubstantial improvements can be made without modification to the method and technical solution of the present invention, or the present invention can be directly applied to other occasions without modification, all within the scope of the present invention.

Claims (6)

1. A ceramic wafer arrangement mechanism is characterized by comprising:

a tooling bottom plate;

the charging barrel is arranged on the tool bottom plate and can accommodate a ceramic plate; the charging barrel is provided with a through groove, and the ceramic plates in the charging barrel can be conveyed out through the through groove;

the push block cylinder is arranged on the tool bottom plate;

the first end of the push block is connected with a piston rod of the push block cylinder; the second end of the push block can extend into the through groove and push out the ceramic plate in the charging barrel;

the pushing sliding plate is arranged at the discharging end of the through groove of the charging barrel, and the ceramic plate can be pushed onto the pushing sliding plate by the pushing block;

the regulating block is arranged at the second end of the pushing sliding plate;

the push plate cylinder is arranged on the tool bottom plate;

the push plate strip is connected with a piston rod of the push plate cylinder and can push the ceramic plate, which is sent out from the discharge end of the through groove to the push sliding plate, to the regulating block;

the shifting block cylinder is arranged on the tool bottom plate;

the shifting block is connected with a piston rod of the shifting block air cylinder and arranged on the first side of the second end of the pushing sliding plate.

2. The ceramic wafer arrangement mechanism as claimed in claim 1, wherein a positioning plate is provided on a second side of the second end of the push slide plate.

3. The ceramic wafer arrangement mechanism as claimed in claim 2, wherein the bottom of the charging barrel is provided with four through slots, and four push blocks respectively adapted to the four through slots are provided, first ends of the four push blocks are connected by a connecting rod, and the connecting rod is connected with the piston rods of the push blocks.

4. The ceramic wafer ejection mechanism of claim 3, wherein the cartridge is provided with bumpers on both sides to stop the connecting rod.

5. The ceramic wafer ejection mechanism of claim 4, wherein the push blocks and push bar strips are guided by guide rails on the tooling bottom plate.

6. The ceramic wafer arrangement mechanism as claimed in claim 5, wherein the push block is perpendicular to the push sliding plate; the moving direction of the push plate strip is parallel to the push sliding plate; the moving direction of the shifting block is vertical to the pushing sliding plate; the shifting block cylinder and the material barrel are positioned on the first side of the pushing sliding plate.

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