CN211687447U - Novel automatic feeding and discharging device - Google Patents

Abstract

The utility model provides a novel automatic business turn over material device, including the reaction chamber, feed pipeline, the feeding door, ejection of compact pipeline, the discharge door, the reaction chamber chassis, the apparatus further comprises a rotating shaft, the axle fixed block of turning left, the axle fixed block of turning right and host computer chassis, the reaction chamber is installed at reaction chamber chassis upside, the reaction chamber left side is connected with ejection of compact pipeline, discharge pipeline installs the discharge door in the left side, the reaction chamber right side is connected with feed pipeline, feed pipeline installs on the right side the feed door, the pivot is installed in reaction chamber chassis left side, the pivot penetrates axle fixed block of turning left and the axle fixed block of turning right, the axle fixed block of turning left and the axle fixed block of turning right are fixed in on the host computer chassis, compared with the prior art: the automatic feeding and discharging device has the advantages that the whole feeding and discharging process is completely automatically controlled, the manual tool is not needed for discharging, the labor cost is greatly reduced, the requirement of large-yield production is greatly met, and the productivity efficiency is improved.

Description

Novel automatic feeding and discharging device

Technical Field

The utility model relates to a novel automatic feeding and discharging device, which belongs to the technical field of feeding and discharging of heat treatment furnaces.

Background

In the prior art, the vacuum heat treatment furnace is suitable for vacuum sintering, annealing, dysprosium infiltration from neodymium iron boron and the like of magnetic materials, superconducting materials and alloy materials. The product material needs to be filled into the reaction cavity for treatment.

In the current like products in the industry, the equipment yield is limited, but along with the development of the technology and the requirement of a user on the equipment yield, the product loading is larger and larger, and an operator is more and more difficult to realize manual feeding and taking, so that the yield is greatly limited, and the manufacturing cost is increased, therefore, a novel automatic feeding and discharging device is needed to solve the problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a novel automatic business turn over material device to solve the problem that proposes in the above-mentioned background art, the utility model discloses a whole feeding ejection of compact realizes automated control completely, does not need people's frock to unload, greatly reduced the cost of labor, satisfied the demand of large-production greatly, improved productivity efficiency.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a novel automatic feeding and discharging device comprises a reaction cavity, a feeding pipeline, a feeding door, a discharging pipeline, a discharging door, a reaction cavity chassis, hydraulic cylinders, a rotating shaft, a left rotating shaft fixing block, a right rotating shaft fixing block, a host chassis, a feeding base, a feeding guide rail, a feeding trolley, a feeding pipe, a charging barrel and a feeding valve, wherein the reaction cavity is arranged on the upper side of the reaction cavity chassis, the left side of the reaction cavity is connected with the discharging pipeline, the left side of the discharging pipeline is provided with the discharging door, the right side of the reaction cavity is connected with the feeding pipeline, the right side of the feeding pipeline is provided with the feeding door, two sides of the middle position on the left side of the reaction cavity chassis are connected with the two hydraulic cylinders, the fixed ends of the two hydraulic cylinders are connected onto the host chassis, the rotating shaft is arranged on the left side of the reaction cavity chassis, the rotating shaft penetrates into, the feeding machine is characterized in that a feeding base is connected to the right side of the host machine chassis, a feeding chassis is installed on the upper side of the feeding base, a feeding guide rail is installed on the upper side of the feeding chassis, a feeding trolley is installed on the upper side of the feeding guide rail, a feeding pipe is installed in the feeding trolley, the top of the feeding pipe is connected with a feeding valve, and the upper portion of the feeding valve is connected with a charging barrel.

Further, a grating ruler is arranged between the reaction cavity underframe and the main machine underframe and used for measuring the rising height of the reaction cavity underframe

Furthermore, a heating furnace body opening and closing device is arranged in the middle of the mainframe chassis, and a left heating furnace body and a right heating furnace body are arranged on the heating furnace body opening and closing device

Further, a feeding vibrator is connected to the lower side of the feeding pipe, and a glove box is installed on the right side of the feeding pipe

Furthermore, a control cabinet is arranged in the middle of the feeding base and used for controlling the work of each system

The utility model has the advantages that: the utility model discloses a novel automatic business turn over material device, reasonable in design, reaction chamber use the pivot as the fixed stay point, raise the action of falling under the effect of pneumatic cylinder. When feeding, the reaction cavity is lifted to a feeding position; during the process treatment, the reaction cavity falls down, and the left heating body and the right heating body are closed; after the process is finished, the reaction cavity is lifted to a discharging position, a discharging door is opened, and the product materials are taken out.

The left heating furnace body and the right heating furnace body are opened and closed according to different process sections, and the heating body is opened during feeding; during the process treatment, the heating body is closed; and when discharging, the heating body is opened.

When feeding, the reaction cavity reaches a feeding position, and the feeding door is opened; the feeding trolley sends the feeding pipe into the feeding pipeline along the feeding guide rail, the feeding valve on the upper side of the feeding pipe is opened, the material in the charging barrel enters the feeding pipe, and the material is sent into the reaction cavity under the action of the feeding vibrator.

The glove box arranged on the right side of the feeding pipe can realize manual feeding of special small-batch production materials, and is convenient, safe and reliable.

The grating ruler arranged between the reaction cavity bottom frame and the host machine bottom frame can accurately measure the rising position of the reaction cavity, accurately feed back the rising position signal of the reaction cavity to the control cabinet, and realize the automatic rising and falling actions of the cavity.

The whole feeding and discharging process is fully automatically controlled, the operation is convenient and reliable, the labor cost is greatly saved, the production cost is reduced, and the productivity of the equipment is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic front view of a novel automatic feeding and discharging device of the present invention;

fig. 2 is a left side view schematically illustrating the novel automatic feeding and discharging device of the present invention;

fig. 3 is a schematic view of a feeding component in the novel automatic feeding and discharging device of the present invention;

fig. 4 is a schematic diagram of the rising and discharging position of the reaction chamber of the novel automatic feeding and discharging device of the present invention;

in the figure: 1-reaction chamber, 2-feeding pipeline, 3-feeding door, 4-discharging pipeline, 5-discharging door, 6-reaction chamber chassis, 7-hydraulic cylinder, 8-grating ruler, 9-rotating shaft, 10-left rotating shaft fixing block, 11-right rotating shaft fixing block, 12-host chassis, 13-left heating furnace body, 14-right heating furnace body, 15-heating furnace body opening and closing device, 16-feeding chassis, 17-feeding base, 18-feeding guide rail, 19-feeding trolley, 20-feeding pipe, 21-feeding vibrator, 22-charging barrel, 23-feeding valve, 24-glove box and 25-control cabinet.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1 to 4, the present invention provides a technical solution: a novel automatic feeding and discharging device comprises a reaction cavity 1, a feeding pipeline 2, a feeding door 3, a discharging pipeline 4, a discharging door 5, a reaction cavity chassis 6, hydraulic cylinders 7, a rotating shaft 9, a left rotating shaft fixing block 10, a right rotating shaft fixing block 11, a main frame chassis 12, a feeding chassis 16, a feeding base 17, a feeding guide rail 18, a feeding trolley 19, a feeding pipe 20, a charging barrel 22 and a feeding valve 23, wherein the reaction cavity 1 is arranged on the upper side of the reaction cavity chassis 6, the left side of the reaction cavity 1 is connected with the discharging pipeline 4, the left side of the discharging pipeline 4 is provided with the discharging door 5, the right side of the reaction cavity 1 is connected with the feeding pipeline 2, the right side of the feeding pipeline 2 is provided with the feeding door 3, the feeding door 3 is opened during feeding, the discharging door 5 is opened during discharging, two sides of the middle position on the left side of the reaction, a rotating shaft 9 is arranged on the left side of a reaction cavity underframe 6, the rotating shaft 9 penetrates a left rotating shaft fixing block 10 and a right rotating shaft fixing block 11, the left rotating shaft fixing block 10 and the right rotating shaft fixing block 11 are fixed on a host underframe 12, the right side of the host underframe 12 is connected with a feeding base 17, the upper side of the feeding base 17 is provided with a feeding underframe 16, the upper side of the feeding underframe 16 is provided with a feeding guide rail 18, the upper side of the feeding guide rail 18 is provided with a feeding trolley 19, a feeding pipe 20 is arranged in the feeding trolley 19, the top of the feeding pipe 20 is connected with a feeding valve 23, the upper part of the feeding valve 23 is connected with a charging barrel 22, during feeding, the left heating furnace body 13 and the right heating furnace body 14 are opened, the reaction cavity underframe 6 is lifted to a feeding position under the action of two hydraulic cylinders 7, during process treatment, the reaction cavity underframe 6 falls to an, the reaction chamber underframe 6 is lifted to a discharging position under the action of the two hydraulic cylinders 7, when feeding, the feeding trolley sends a feeding pipe into the feeding pipeline 2 along the feeding guide rail, the feeding valve 23 at the upper side of the feeding pipe is opened, the material in the charging barrel 22 enters the feeding pipe, and the material is sent into the reaction chamber 1 under the action of the feeding vibrator; the glove box 24 arranged on the right side of the feeding pipe can realize manual feeding of materials produced in special small batches, and is convenient, safe and reliable.

A grating ruler 8 is arranged between the reaction chamber chassis 6 and the main frame chassis 12 and is used for measuring the lifting height of the reaction chamber chassis 6.

The middle part of the host chassis 12 is provided with a heating furnace body opening and closing device 15, and the heating furnace body opening and closing device 15 is provided with a left heating furnace body 13 and a right heating furnace body 14.

A feeding vibrator 21 is connected with the lower side of the feeding pipe 20, and a glove box 24 is arranged on the right side of the feeding pipe 20.

The middle part of the feeding base 17 is provided with a control cabinet 25 for controlling the work of each system, and the grating ruler 8 feeds back the measurement signal to the control cabinet 25 for controlling the action of each position.

As an embodiment of the present invention: during feeding, the heating body is opened, the reaction chamber 1 is lifted to a feeding position under the action of the hydraulic cylinder 7, the feeding door 3 is opened, the feeding trolley 19 sends the feeding pipe 20 into the feeding pipeline 2, the feeding valve 23 is opened, materials in the charging barrel 22 enter the feeding pipe 20, the materials are sent into the reaction chamber 1 under the action of the feeding vibrator, after feeding is finished, the reaction chamber 1 falls back to an initial position, process treatment is carried out, after the process treatment is finished, the heating body is opened during discharging, the reaction chamber 1 is lifted to a discharging position, the discharging door 5 is opened, the materials are poured out, the material taking process is completed, automatic control is completely realized for the whole feeding and discharging, the discharging is not required by a human tool, the labor cost is greatly reduced, the requirement of large-scale production is greatly met, and the capacity efficiency is improved.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiments, and although the present invention has been disclosed with the preferred embodiments, it is not limited to the present invention, and any skilled person in the art can make some modifications or equivalent embodiments without departing from the scope of the present invention, but all the technical matters of the present invention are within the scope of the present invention.

Claims (5)

1. The utility model provides a novel automatic business turn over material device, includes reaction chamber, feeding pipeline, feeding gate, ejection of compact pipeline, discharge door, reaction chamber chassis, pneumatic cylinder, pivot, left turn axle fixed block, right turn axle fixed block, host computer chassis, pay-off base, pay-off guide rail, pay-off dolly, conveying pipe, feed cylinder and feed valve, its characterized in that: the reaction cavity is arranged on the upper side of a reaction cavity chassis, the left side of the reaction cavity is connected with a discharge pipeline, the left side of the discharge pipeline is provided with a discharge door, the right side of the reaction cavity is connected with a feeding pipeline, the right side of the feeding pipeline is provided with a feeding door, the two sides of the middle position of the left side of the reaction cavity chassis are connected with two hydraulic cylinders, the fixed ends of the two hydraulic cylinders are connected with a host chassis, the left side of the reaction cavity chassis is provided with a rotating shaft, the rotating shaft penetrates into a left rotating shaft fixed block and a right rotating shaft fixed block, the left rotating shaft fixed block and the right rotating shaft fixed block are fixed on the host chassis, the right side of the host chassis is connected with a feeding base, the upper side of the feeding base is provided with a feeding chassis, the upper side of the feeding chassis is, the upper part of the feed valve is connected with a charging barrel.

2. The novel automatic feeding and discharging device as claimed in claim 1, wherein: and a grating ruler is arranged between the reaction cavity underframe and the host underframe and is used for measuring the rising height of the reaction cavity underframe.

3. The novel automatic feeding and discharging device as claimed in claim 1, wherein: the heating furnace body opening and closing device is installed in the middle of the host chassis, and the left heating furnace body and the right heating furnace body are installed on the heating furnace body opening and closing device.

4. The novel automatic feeding and discharging device as claimed in claim 1, wherein: the lower side of the feeding pipe is connected with a feeding vibrator, and the right side of the feeding pipe is provided with a glove box.

5. The novel automatic feeding and discharging device as claimed in claim 1, wherein: and the middle part of the feeding base is provided with a control cabinet for controlling the work of each system.

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