CN215470825U - Easy-to-operate material changing device - Google Patents

Abstract

The utility model discloses an easy-to-operate material changing device which comprises a bottom plate, wherein a component flow channel is arranged on the bottom plate, a probe positioning assembly is arranged at the middle section of the component flow channel, a probe placing assembly is arranged below the probe positioning assembly, component limiting assemblies are arranged at the upper section and the lower section of the component flow channel, and a testing limiting assembly is arranged between the lower section probe positioning assembly of the component flow channel and the component limiting assembly; the probe positioning assembly comprises a cylinder mounting frame, a positioning cylinder is vertically mounted on the cylinder mounting frame, a compression cylinder assembly is mounted on the front side of the positioning cylinder on the cylinder mounting frame, a pressing block is connected to the piston end of the positioning cylinder, the vertical section of the pressing block is connected to the piston end of the positioning cylinder, and pressing blocks are connected to the tops of the two sides of the transverse section of the pressing block. The probe detection device can solve the problem that the conventional probe detection device is low in working efficiency when the probe is replaced.

Description

Easy-to-operate material changing device

Technical Field

The utility model relates to a material changing device, in particular to an easy-to-operate material changing device.

Background

The probe on the probe detection device is a wearing part and needs to be replaced frequently. At present, all parts of a commonly-used probe detection device need to be disassembled when the probe is replaced, the damaged probe is taken out, the intact probe is replaced, and the probe is reinstalled after being replaced, so that the working efficiency is low.

Therefore, it is necessary to design a material changing device which is easy to operate so as to improve the efficiency of the probe detection device for changing the probe.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an easy-to-operate material replacing device, which solves the problem that the conventional probe detection device provided in the background art has low working efficiency when a probe is replaced.

In order to achieve the purpose, the utility model provides the following technical scheme: an easy-to-operate material changing device comprises a bottom plate, wherein the bottom plate is obliquely arranged, a component flow channel is arranged on the bottom plate, a probe positioning assembly is arranged at the middle section of the component flow channel, a probe placing assembly is arranged below the probe positioning assembly, component limiting assemblies are arranged at the upper section and the lower section of the component flow channel, and a testing limiting assembly is arranged between the lower-section probe positioning assembly of the component flow channel and the component limiting assembly;

the probe positioning assembly comprises a cylinder mounting frame, a positioning cylinder is vertically mounted on the cylinder mounting frame, a compression cylinder assembly is mounted on the front side of the positioning cylinder on the cylinder mounting frame, a pressing block is connected to the piston end of the positioning cylinder, the pressing block is divided into a vertical section and a horizontal section, the vertical section of the pressing block is connected to the piston end of the positioning cylinder, a groove is formed in the middle of the horizontal section of the pressing block, and the tops of the two sides of the horizontal section of the pressing block are connected with a pressing block.

Preferably, the compressing cylinder assembly comprises a compressing cylinder, the compressing cylinder is mounted on a cylinder mounting frame, a piston end of the compressing cylinder is connected with a U-shaped material blocking block, and the material blocking block is positioned at the top of a component flow channel.

Preferably, the probe placing assembly comprises a connecting plate, a probe placing plate is connected above the connecting plate, a probe pressing block is arranged above the probe placing plate, and the pressing block is pressed on the probe pressing block.

Preferably, the component limiting assembly comprises a limiting cylinder seat, the limiting cylinder seat is connected to the bottom plate, a limiting cylinder is mounted on the limiting cylinder seat, the limiting cylinder is a finger cylinder, a first clamping finger and a second clamping finger are respectively arranged at the output end of the limiting cylinder, a first material blocking part is connected to the first clamping finger, and a second material blocking part is connected to the second clamping finger.

Preferably, the first material blocking part comprises a first connecting plate, one end of the first connecting plate is connected with the first clamping finger, the other end of the first connecting plate is connected with a pressing rod, and a spring is arranged between the first connecting plate and the pressing rod.

Preferably, the second material blocking part comprises a second connecting plate, one end of the second connecting plate is connected with the second clamping finger, and the other end of the second connecting plate is connected with a blocking rod.

Preferably, the test limiting assembly comprises a limiting assembly seat, a connecting rod air cylinder is installed on the limiting assembly seat, an articulated seat is arranged between the limiting assembly seat and the component flow channel, a connecting rod is articulated on the articulated seat, one end of the connecting rod is connected to a piston rod of the connecting rod air cylinder, the other end of the connecting rod is connected with a vertical barrier strip, and the barrier strip is located above the component flow channel.

Preferably, a top runner is arranged between the barrier strip and the component runner.

Preferably, the left side and the right side of the bottom plate are provided with a plurality of groups of sensors.

Preferably, the probe positioning assembly and the component limiting assembly are fixed on the bottom plate; the cylinder mounting frame is fixed on the bottom plate.

Compared with the prior art, the utility model provides the easy-to-operate material changing device, which has the following beneficial effects:

the probe on the whole device is fixed on the probe placing component through the probe positioning component. The method specifically comprises the following steps: place the probe on the board is placed to the probe, start the location cylinder, the location cylinder drives the briquetting downstream to pressing and holding a downstream and pressing and fix the probe on the probe briquetting, when changing after the probe is impaired, only need manipulate the location cylinder and loosen and press and hold the piece, take out impaired probe, then change, easy operation does not need the people to unpack apart spare part, has improved work efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model without limiting the utility model in which:

FIG. 1 is a schematic structural diagram of an easy-to-operate refueling device;

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

FIG. 3 is a schematic structural diagram of the component spacing assembly of FIG. 1;

fig. 4 is a schematic structural diagram of a component on a flow channel of the component in fig. 1;

in the figure: a base plate 100; a component flow channel 200; a probe positioning assembly 300; a cylinder mount 301; a positioning cylinder 302; a compaction cylinder assembly 303; a compaction cylinder 303.1; the material blocking block 303.2; a briquetting 304; a pressure block 305; a component spacing assembly 400; a limiting cylinder block 401; a limit cylinder 402; a first clamping finger 402.1; a second clamping finger 402.2; a first material blocking member 403; a first connecting plate 403.1; a compression bar 403.2; a second dam 404; a second connecting plate 404.1; a bar 404.2; testing the limit assembly 500; a limiting component seat 501; a connecting rod cylinder 502; a hinge base 503; a connecting rod 504; a barrier strip 505; a top runner 506; a probe placement assembly 600; a connecting plate 601; a probe placement plate 602; a probe press block 603; a sensor 700.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an easy-to-operate material changing device comprises a bottom plate 100, wherein the bottom plate 100 is obliquely arranged, a component flow channel 200 is arranged on the bottom plate 100, a probe positioning assembly 300 is arranged at the middle section of the component flow channel 200, a probe placing assembly 600 is arranged below the probe positioning assembly 300, component limiting assemblies 400 are arranged at the upper section and the lower section of the component flow channel 200, and a testing limiting assembly 500 is arranged between the lower-section probe positioning assembly 300 of the component flow channel 200 and the component limiting assemblies 400;

the probe positioning assembly 300 comprises an air cylinder mounting rack 301, a positioning air cylinder 302 is vertically mounted on the air cylinder mounting rack 301, a compressing air cylinder assembly 303 is mounted on the front side of the positioning air cylinder 302 on the air cylinder mounting rack 301, a piston end of the positioning air cylinder 302 is connected with a pressing block 304, the pressing block 304 is divided into a vertical section and a horizontal section, the vertical section of the pressing block 304 is connected to the piston end of the positioning air cylinder 302, a groove is formed in the middle of the horizontal section of the pressing block 304, pressing blocks 305 are connected to the tops of two sides of the horizontal section of the pressing block 304, and the pressing blocks 305 can press on the probe placement assembly 600;

the pressing cylinder assembly 303 comprises a pressing cylinder 303.1, the pressing cylinder 303.1 is mounted on the cylinder mounting frame 301, the piston end of the pressing cylinder 303.1 is connected with a U-shaped material blocking block 303.2, and the material blocking block 303.2 is positioned at the top of the component flow channel 200;

the probe placing assembly 600 comprises a connecting plate 601, a probe placing plate 602 is connected above the connecting plate 601, probes are placed on the probe placing plate 602, a probe pressing block 603 is arranged above the probe placing plate 602, and the pressing block 305 presses on the probe pressing block 603;

the component limiting assembly 400 comprises a limiting cylinder seat 401, the limiting cylinder seat 401 is connected to the bottom plate 100, a limiting cylinder 402 is mounted on the limiting cylinder seat 401, the limiting cylinder 402 is a finger cylinder, the output end of the limiting cylinder 402 is respectively provided with a first clamping finger 402.1 and a second clamping finger 402.2, the first clamping finger 402.1 is connected with a first material blocking part 403, and the second clamping finger 402.2 is connected with a second material blocking part 404;

the first material blocking part 403 comprises a first connecting plate 403.1, one end of the first connecting plate 403.1 is connected with a first clamping finger 402.1, the other end of the first connecting plate 403.1 is connected with a pressure lever 403.2, and a spring is arranged between the first connecting plate 403.1 and the pressure lever 403.2;

the second material blocking part 404 comprises a second connecting plate 404.1, one end of the second connecting plate 404.1 is connected with the second clamping finger 402.2, and the other end of the second connecting plate 404.1 is connected with a stop lever 404.2;

the test limiting assembly 500 comprises a limiting assembly seat 501, a connecting rod cylinder 502 is mounted on the limiting assembly seat 501, a hinge seat 503 is arranged between the limiting assembly seat 501 and the component flow channel 200, a connecting rod 504 is hinged on the hinge seat 503, one end of the connecting rod 504 is connected to a piston rod of the connecting rod cylinder 502, the other end of the connecting rod 504 is connected with a vertical barrier strip 505, and the barrier strip 505 is located above the component flow channel 200;

a top runner 506 is arranged between the barrier strips 505 and the component runner 200;

a plurality of groups of sensors 700 are arranged on the left side and the right side of the bottom plate 100, and the sensors 700 are used for detecting the positions of components;

the probe positioning assembly 300 and the component limiting assembly 400 are fixed on the bottom plate 100;

the cylinder mounting bracket 301 is fixed on the bottom plate 100;

the working principle is as follows:

the bottom plate 100 is obliquely arranged, the component starts to slide down in the component runner 200 by virtue of gravity, the component slides down to the component limiting assembly 400 above the bottom plate 100, at the moment, the limiting cylinder 402 on the component limiting assembly 400 starts to act, because the limiting cylinder 402 is a finger cylinder, firstly, the first clamping finger 402.1 acts downwards to drive the first connecting plate 403.1 to move downwards, the first connecting plate 403.1 drives the press rod 403.2 to move downwards, the end part of the press rod 403.2 presses on the component to stop the component from sliding down continuously in the component runner 200 temporarily, after the component stays on the component runner 200 for a little moment, the first material blocking piece 403 is lifted up by the driving of the limiting cylinder 402, the component continues to slide down along the component runner 200, meanwhile, the second clamping finger 402.2 acts downwards to drive the second connecting plate 404.1 to move downwards, the second connecting plate 404.1 drives the blocking rod 404.2 to move downwards to block the component sliding down, the components are stopped temporarily on the component flow channel 200, then the second material stopping component 404 is lifted, the components continuously slide down in the component flow channel 200, when the components slide down to the position below the probe positioning assembly 300, the piston rod of the pressing cylinder 303.1 of the pressing cylinder assembly 303 extends out and drives the material stopping block 303.2 to stop the components, after the components are stopped, the probes fixed on the probe placing plate 602 detect the components, after the detection is finished, the components continuously slide down in the component flow channel 200, when the components slide down to the top flow channel 506, the piston rod of the connecting rod cylinder 502 contracts to drive the connecting rod 504 to rotate for a certain angle on the hinged seat 503, so that the blocking strip 505 blocks the going-out path of the components, after the components are stopped temporarily in the component flow channel 200, the connecting rod cylinder 502 acts to lift the blocking strip 505, the components slide down to the component limiting assembly 400 below the bottom plate 100, and the components pass through the component limiting assembly 400 below the bottom plate 100 and then are separated from the whole device, in the process that the components slide down in the component flow channels 200, the multiple groups of sensors 700 always detect the specific positions of the components on the component flow channels 200;

the probes on the whole device are fixed on the probe placing component 600 through the probe positioning component 300. The method specifically comprises the following steps: the probe is placed on the probe placing plate 602, the positioning cylinder 302 is started, and the positioning cylinder 302 drives the pressing block 304 to move downwards, so that the pressing block 305 moves downwards and presses on the probe pressing block 603 to fix the probe.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an easy device of reloading of operating which characterized in that: the testing device comprises a bottom plate (100), wherein the bottom plate (100) is obliquely arranged, a component flow channel (200) is arranged on the bottom plate (100), a probe positioning assembly (300) is arranged at the middle section of the component flow channel (200), a probe placing assembly (600) is arranged below the probe positioning assembly (300), component limiting assemblies (400) are arranged at the upper section and the lower section of the component flow channel (200), and a testing limiting assembly (500) is arranged between the lower-section probe positioning assembly (300) of the component flow channel (200) and the component limiting assembly (400);

the probe positioning assembly (300) comprises a cylinder mounting frame (301), a positioning cylinder (302) is vertically mounted on the cylinder mounting frame (301), a compression cylinder assembly (303) is mounted on the front side of the positioning cylinder (302) on the cylinder mounting frame (301), a pressing block (304) is connected to the piston end of the positioning cylinder (302), the pressing block (304) is divided into a vertical section and a horizontal section, the vertical section of the pressing block (304) is connected to the piston end of the positioning cylinder (302), a groove is formed in the middle of the horizontal section of the pressing block (304), and pressing blocks (305) are connected to the tops of the two sides of the horizontal section of the pressing block (304).

2. An easily operable reloading device according to claim 1, characterized in that: the pressing air cylinder assembly (303) comprises a pressing air cylinder (303.1), the pressing air cylinder (303.1) is installed on the air cylinder installation frame (301), the piston end of the pressing air cylinder (303.1) is connected with a U-shaped material blocking block (303.2), and the material blocking block (303.2) is located at the top of the component flow channel (200).

3. An easily operable reloading device according to claim 1, characterized in that: the probe placing assembly (600) comprises a connecting plate (601), a probe placing plate (602) is connected above the connecting plate (601), a probe pressing block (603) is arranged above the probe placing plate (602), and the pressing block (305) is pressed on the probe pressing block (603).

4. An easily operable reloading device according to claim 1, characterized in that: the component limiting assembly (400) comprises a limiting cylinder seat (401), the limiting cylinder seat (401) is connected to the bottom plate (100), a limiting cylinder (402) is mounted on the limiting cylinder seat (401), the limiting cylinder (402) is a finger cylinder, the output end of the limiting cylinder (402) is provided with a first clamping finger (402.1) and a second clamping finger (402.2) respectively, the first clamping finger (402.1) is connected with a first material blocking part (403), and the second clamping finger (402.2) is connected with a second material blocking part (404).

5. An easily operable reloading device according to claim 4, characterized in that: the first material blocking part (403) comprises a first connecting plate (403.1), one end of the first connecting plate (403.1) is connected with a first clamping finger (402.1), the other end of the first connecting plate (403.1) is connected with a pressing rod (403.2), and a spring is arranged between the first connecting plate (403.1) and the pressing rod (403.2).

6. An easily operable reloading device according to claim 4, characterized in that: the second material blocking part (404) comprises a second connecting plate (404.1), one end of the second connecting plate (404.1) is connected with the second clamping finger (402.2), and the other end of the second connecting plate (404.1) is connected with a blocking rod (404.2).

7. An easily operable reloading device according to claim 1, characterized in that: test spacing subassembly (500) includes spacing subassembly seat (501), install connecting rod cylinder (502) on spacing subassembly seat (501), be provided with articulated seat (503) between spacing subassembly seat (501) and components and parts runner (200), articulated on articulated seat (503) have connecting rod (504), the one end of connecting rod (504) is connected on the piston rod of connecting rod cylinder (502), the other end of connecting rod (504) is connected with vertical blend stop (505), blend stop (505) are in the top of components and parts runner (200).

8. An easily operable reloading device according to claim 7, characterized in that: and a top runner (506) is arranged between the barrier strip (505) and the component runner (200).

9. An easily operable reloading device according to claim 1, characterized in that: the left side and the right side of the bottom plate (100) are provided with a plurality of groups of sensors (700).

10. An easily operable reloading device according to claim 1, characterized in that: the probe positioning assembly (300) and the component limiting assembly (400) are fixed on the bottom plate (100); the cylinder mounting frame (301) is fixed on the bottom plate (100).

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