CN114050060B - Hot-melt forming device for manufacturing ceramic capacitor - Google Patents

Abstract

The invention discloses a hot-melt forming device for manufacturing a ceramic capacitor, which comprises a rotating mechanism for rotating a charging tray, a feeding mechanism for feeding, and a sintering mechanism for heating a bar block and treating the bar block at high temperature, wherein one side and the rear side of the rotating mechanism are provided with the sintering mechanism, and the other side of the rotating mechanism is provided with the feeding mechanism. According to the invention, the material tray and the telescopic rod are utilized to automatically send the blocks to be processed at high temperature to the sintering mechanism, and the cut blocks can be automatically put into the material tray by arranging the feeding mechanism.

Description

Hot-melt forming device for manufacturing ceramic capacitor

Technical Field

The invention relates to the field of electronic equipment manufacturing, in particular to a hot-melt forming device for manufacturing a ceramic capacitor.

Background

Ceramic capacitors, also known as ceramic capacitors or monolithic capacitors, are, as their name suggests, capacitors whose dielectric material is ceramic, and are widely used in electronic circuits in a variety of applications, where they perform different functions in different circuits, and typical applications of ceramic capacitors are classified into coupling, decoupling, smoothing, and filtering.

The ceramic capacitor is produced by laminating and cutting raw materials, then removing glue and sintering, and the traditional electric furnace is used for heating slowly, so that the process is complex, and a hot melt molding device for manufacturing the ceramic capacitor by microwave heating and sintering is needed.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a hot-melt molding apparatus for manufacturing a ceramic capacitor.

The invention realizes the above purpose through the following technical scheme:

the utility model provides a hot melt forming device for ceramic capacitor makes, includes rotary mechanism, the feed mechanism that is used for the material loading that is used for rotatory charging tray, still includes the sintering mechanism that is used for heating the barre and handles its high temperature, one side and the rear side of rotary mechanism are provided with sintering mechanism, the opposite side of rotary mechanism is provided with feed mechanism.

Preferably: the rotary mechanism comprises a first bottom plate, a first motor, a driving wheel, a driven wheel, a base, a rotating shaft, a telescopic rod, a charging tray, a stop block and a second motor, wherein the first motor is arranged at the upper end of the first bottom plate, the driving wheel is arranged on the first motor, one side of the first motor is provided with the base, the rotating shaft is arranged on the base, the driven wheel is arranged in the rotating shaft, the telescopic rod is arranged at the upper end of the rotating shaft, the second motor is arranged at the upper end of the telescopic rod, the stop block is arranged at one side of the telescopic rod, the charging tray is connected with the first bottom plate through a screw, the first bottom plate is welded with the base, the first motor is connected with the driving wheel through a key, the driven wheel is connected with the rotating shaft through a screw, the telescopic rod is connected with the rotating shaft through the screw, and the second motor is connected with the telescopic rod through the stop block through a screw, and the charging tray is welded with the stop block.

So set up, first bottom plate is used for installing the support with first motor, first motor is used for driving the pivot, the pivot is used for rotating the telescopic link, the telescopic link is used for controlling the charging tray gets into in the box, the dog is used for after the charging tray passes through the closure the chamber door.

Preferably: the feeding mechanism comprises a feeding hopper, a support column, a second bottom plate, a gate valve, a feeding pipe, a control panel and a controller, wherein one side of the rotating mechanism is provided with the second bottom plate, the upper end of the second bottom plate is provided with the controller, the upper end of the controller is provided with the control panel, one side of the control panel is provided with the support column, the upper end of the support column is provided with the feeding hopper, the lower end of the feeding hopper is provided with the feeding pipe, one side of the feeding pipe is provided with the gate valve, the second bottom plate is welded with the support column, the feeding hopper is welded with the support column, the controller is connected with the second bottom plate through a screw, the controller is connected with the control panel through a screw, the gate valve is connected with the feeding pipe through a screw, and the feeding pipe is welded with the feeding hopper.

So set up, the material loading hopper is used for storing the raw materials, the pillar is used for supporting the material loading hopper, the second bottom plate is used for installing the second pillar with the controller, the controller is used for controlling this device, control panel is used for inputing control signal.

Preferably: the sintering mechanism comprises a box body, an upright post, a microwave generator, a waveguide tube, a box door and a bolt, wherein one side and the rear side of the rotating mechanism are provided with the box body, the lower end of the box body is provided with the upright post, one side of the box body, which is close to the rotating mechanism, is provided with the box door, one end of the box door is provided with the bolt, the upper end of the box body is provided with the waveguide tube, the upper end of the waveguide tube is provided with the microwave generator, the upright post is welded with the box body, the box door is hinged with the box body, the box door is in sliding connection with the bolt, the waveguide tube is connected with the box body through a screw, and the waveguide tube is connected with the microwave generator through a screw.

The microwave oven is characterized in that the oven body is used for reflecting microwaves to reduce microwave overflowing, the oven door is used for closing the oven body, the waveguide tube is used for converging microwaves generated by the microwave generator and transmitting the microwaves to the tray, and the bolt is used for locking the oven door.

Preferably: the sintering mechanism comprises a box body, an upright post, a microwave generator, an insulation box, a waveguide tube, a box door, a bolt, a junction box and an electric heating tube, wherein the upright post is arranged on one side of the rotating mechanism, the box body is arranged on the upper end of the upright post, the box door is arranged on one side of the box body, the bolt is arranged on one end of the box door, the waveguide tube is arranged on the upper end of the box body, the microwave generator is arranged on the upper end of the waveguide tube, the upright post is arranged on the rear side of the rotating mechanism, the insulation box is arranged on the upper end of the upright post, the box door is arranged on the front end of the insulation box, the bolt is arranged on one end of the box door, the electric heating tube is arranged on two sides of the inner wall of the insulation box, the junction box is arranged on the rear end of the electric heating tube, the upright post is welded with the insulation box, the box door is hinged with the insulation box, the insulation box is connected with the electric heating tube through a screw.

The insulation box is used for installing the junction box and the electric heating tube, the electric heating tube is used for heating air in the insulation box and is used for performing glue removal operation, and the junction box is used for installing a circuit and a safety required by the electric heating tube.

Preferably: the electric heating box is characterized in that the box body is made of metal, the insulation box is made of insulation steel plates, the electric heating tube is a resistance type heating tube, the box door is made of insulation steel plates, the controller is electrically connected with the control panel, the controller is electrically connected with the first motor, the controller is electrically connected with the second motor, the controller is electrically connected with the electric heating tube, the controller is electrically connected with the microwave generator, the gate valve is an electric flat gate valve, the first motor and the second motor are stepping motors, the number of the telescopic rods and the number of the second motor is eight, and the number of the stop blocks and the number of the material trays are eight.

So set up, metal material the box can effectually reflect microwave and prevent that it from escaping, and the insulation can of insulation steel sheet material is favorable to maintaining the temperature in the insulation can.

Compared with the prior art, the invention has the following beneficial effects:

1. the bar blocks which need high-temperature treatment can be automatically sent to the sintering mechanism by arranging the material tray and the telescopic rod;

2. the automatic feeding mechanism is arranged, so that the cut blocks can be automatically put into the tray.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment 1 of a hot melt molding apparatus for ceramic capacitor manufacture according to the present invention;

FIG. 2 is a top view of example 1 of a hot melt molding apparatus for ceramic capacitor manufacture according to the present invention;

FIG. 3 is an enlarged view of a part of the feeding mechanism of example 1 of a hot melt molding apparatus for ceramic capacitor manufacturing according to the present invention;

FIG. 4 is an enlarged view of a portion of a rotary mechanism of example 1 of a hot melt molding apparatus for ceramic capacitor manufacturing according to the present invention;

FIG. 5 is an enlarged view of a portion of the sintering mechanism of example 1 of a hot melt molding apparatus for ceramic capacitor manufacture according to the present invention;

FIG. 6 is a schematic view of an embodiment 2 of a hot melt molding apparatus for ceramic capacitor manufacture according to the present invention;

FIG. 7 is a top view of example 2 of a hot melt molding apparatus for ceramic capacitor manufacture according to the present invention;

fig. 8 is a left side view of example 2 of a hot melt molding apparatus for ceramic capacitor manufacturing according to the present invention.

The reference numerals are explained as follows:

1. a rotation mechanism; 2. a sintering mechanism; 3. a feeding mechanism; 101. a first base plate; 102. a first motor; 103. a base; 104. a rotating shaft; 105. a telescopic rod; 106. a second motor; 107. a material tray; 108. a stop block; 109. a driving wheel; 110. a driven wheel; 201. a case; 202. a microwave generator; 203. a column; 204. a door; 205. a plug pin; 206. a waveguide; 207. an insulation box; 208. a junction box; 209. an electric heating tube; 301. a second base plate; 302. a support post; 303. feeding a hopper; 304. feeding pipes; 305. a gate valve; 306. a control panel; 307. and a controller.

Detailed Description

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art in a specific case.

The invention is further described below with reference to the accompanying drawings:

a hot melt forming device for ceramic capacitor manufacturing comprises a rotating mechanism 1 for rotating a charging tray 107, a feeding mechanism 3 for feeding, a sintering mechanism 2 for heating a bar block and carrying out high-temperature treatment on the bar block, wherein one side and the rear side of the rotating mechanism 1 are provided with the sintering mechanism 2, and the other side of the rotating mechanism 1 is provided with the feeding mechanism 3.

Example 1

As shown in fig. 1, 2, 3, 4 and 5, the rotating mechanism 1 comprises a first bottom plate 101, a first motor 102, a driving wheel 109, a driven wheel 110, a base 103, a rotating shaft 104, a telescopic rod 105, a tray 107, a stop block 108 and a second motor 106, wherein the first motor 102 is arranged at the upper end of the first bottom plate 101, the driving wheel 109 is arranged on the first motor 102, the base 103 is arranged at one side of the first motor 102, the rotating shaft 104 is arranged on the base 103, the driven wheel 110 is arranged on the rotating shaft 104, the telescopic rod 105 is arranged at the upper end of the rotating shaft 104, the second motor 106 is arranged at the upper end of the telescopic rod 105, the stop block 108 is arranged at one end of the telescopic rod 105, the tray 107 is arranged at one side of the stop block 108, the first bottom plate 101 is connected with the first motor 102 through screws, the first bottom plate 101 is welded with the base 103, the first motor 102 is connected with the driving wheel 109 in a key way, the driven wheel 110 is connected with the rotating shaft 104 in a key way, the rotating shaft 104 is rotationally connected with the base 103, the telescopic rod 105 is connected with the rotating shaft 104 through screws, the second motor 106 is connected with the telescopic rod 105 through screws, the telescopic rod 105 is welded with the stop block 108, the material tray 107 is connected with the stop block 108 through screws, the first bottom plate 101 is used for installing a support and the first motor 102, the first motor 102 is used for driving the rotating shaft 104, the rotating shaft 104 is used for rotating the telescopic rod 105, the telescopic rod 105 is used for controlling the material tray 107 to enter the box 201, and the stop block 108 is used for closing the box door 204 after the material tray 107 passes through; the feeding mechanism 3 comprises a feeding hopper 303, a support column 302, a second bottom plate 301, a gate valve 305, a feeding pipe 304, a control panel 306 and a controller 307, wherein the second bottom plate 301 is arranged on one side of the rotating mechanism 1, the controller 307 is arranged at the upper end of the second bottom plate 301, the control panel 306 is arranged at the upper end of the controller 307, the support column 302 is arranged on one side of the control panel 306, the feeding hopper 303 is arranged at the upper end of the support column 302, the feeding pipe 304 is arranged at the lower end of the feeding hopper 303, the gate valve 305 is arranged at one side of the feeding pipe 304, the second bottom plate 301 is welded with the support column 302, the feeding hopper 303 is welded with the support column 302, the controller 307 is connected with the second bottom plate 301 through a screw, the controller 307 is connected with the control panel 306 through a screw, the gate valve 305 is connected with the feeding pipe 304 is welded with the feeding hopper 303, the support column 302 is used for supporting the feeding hopper 303, the second bottom plate 301 is used for installing the second support column 302 and the controller 307, the controller 307 is used for controlling the device, and the control panel 306 is used for inputting control signals; the sintering mechanism 2 comprises a box 201, an upright post 203, a microwave generator 202, a waveguide tube 206, a box door 204 and a bolt 205, wherein the box 201 is arranged on one side and the rear side of the rotating mechanism 1, the upright post 203 is arranged at the lower end of the box 201, the box door 204 is arranged on one side of the box 201 close to the rotating mechanism 1, the bolt 205 is arranged at one end of the box 204, the waveguide tube 206 is arranged at the upper end of the interior of the box 201, the microwave generator 202 is arranged at the upper end of the waveguide tube 206, the upright post 203 is welded with the box 201, the box door 204 is hinged with the box 201, the box door 204 is in sliding connection with the bolt 205, the waveguide tube 206 is connected with the box 201 through a screw, the waveguide tube 206 is connected with the microwave generator 202 through a screw, the box 201 is used for reflecting microwaves to reduce microwave overflow, the box door 204 is used for closing the box 201, the microwave generated by the waveguide tube 206 is used for collecting microwaves generated by the microwave generator 202 to conduct the microwaves to the material disc 107, and the bolt 205 is used for locking the box door 204.

Working principle: when the device is used, the cut bar blocks are put into the feeding hopper 303, then the gate valve 305 releases a certain amount of raw materials to enable the raw materials to fall into the feeding tray 107, then the first motor 102 drives the rotating shaft 104 to rotate a certain angle to enable the next rotary table to move to the lower side of the feeding pipe 304 for feeding, then the telescopic rod 105 rotating to the rear side is extended to enable the feeding tray 107 and the raw materials to enter the rear side box 201, microwaves generated by the microwave generator 202 enable the temperature of the raw materials to rise through the waveguide tube 206 to remove organic matters such as adhesives in the raw materials, then the microwave generator is rotated to extend to one telescopic rod 105 far away from the feeding mechanism 3, the feeding tray 107 and the raw materials after glue discharge enter the box 201, the microwaves generated by the microwave generator 202 enable the temperature of the raw materials to rise through the waveguide tube 206 to reach the melting point of the material with the lowest melting point in the raw material components, the raw materials are sintered into a whole, and then the sintered raw materials are taken out when the processed raw materials rotate to the front end of the device.

Example 2

As shown in fig. 6, 7 and 8, the difference between embodiment 2 and embodiment 1 is that: the sintering mechanism 2 comprises a box 201, a vertical column 203, a microwave generator 202, an insulation box 207, a waveguide tube 206, a box door 204, a bolt 205, a junction box 208 and an electric heating tube 209, wherein the vertical column 203 is arranged on one side of the rotating mechanism 1, the box 201 is arranged at the upper end of the vertical column 203, the box door 204 is arranged on one side of the box 201, the bolt 205 is arranged at one end of the box 204, the waveguide tube 206 is arranged at the upper end of the interior of the box 201, the microwave generator 202 is arranged at the upper end of the waveguide tube 206, the vertical column 203 is arranged at the rear side of the rotating mechanism 1, the insulation box 207 is arranged at the upper end of the vertical column 203, the front end of the thermal insulation box 207 is provided with a box door 204, one end of the box door 204 is provided with a bolt 205, two sides of the inner wall of the thermal insulation box 207 are provided with electric heating pipes 209, the rear end of each electric heating pipe 209 is provided with a junction box 208, the upright posts 203 are welded with the thermal insulation box 207, the box door 204 is hinged with the thermal insulation box 207, the thermal insulation box 207 is connected with the electric heating pipes 209 through screws, the junction boxes 208 are connected with the thermal insulation box 207 through screws, the thermal insulation box 207 is used for installing the junction boxes 208 and the electric heating pipes 209, the electric heating pipes 209 are used for heating air in the thermal insulation box 207 for performing glue removal operation, and the junction boxes 208 are used for installing circuits and safeties required by the electric heating pipes 209; the box 201 is made of metal, the insulation box 207 is made of insulation steel plates, the electric heating tube 209 is a resistance heating tube, the box door 204 is made of insulation steel plates, the controller 307 is electrically connected with the control panel 306, the controller 307 is electrically connected with the first motor 102, the controller 307 is electrically connected with the second motor 106, the controller 307 is electrically connected with the electric heating tube 209, the controller 307 is electrically connected with the microwave generator 202, the gate valve 305 is an electric flat gate valve, the first motor 102 and the second motor 106 are stepping motors, eight telescopic rods 105 and eight second motors 106 are arranged, eight stop blocks 108 and eight charging trays 107 are arranged, the box 201 made of metal can effectively reflect microwaves and prevent the microwaves from escaping, and the insulation box 207 made of insulation steel plates is favorable for maintaining the temperature in the insulation box 207.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (7)

1. A hot melt forming device for ceramic capacitor makes, including rotary mechanism, the feed mechanism who is used for the material loading that is used for rotatory charging tray, its characterized in that: the device also comprises a sintering mechanism for heating the bar block and performing high-temperature treatment on the bar block, wherein one side and the rear side of the rotating mechanism are provided with the sintering mechanism, and the other side of the rotating mechanism is provided with the feeding mechanism;

the rotary mechanism comprises a first bottom plate, a first motor, a driving wheel, a driven wheel, a base, a rotary shaft, a telescopic rod, a charging tray, a stop block and a second motor, wherein the first motor is arranged at the upper end of the first bottom plate, the driving wheel is arranged on the first motor, the base is arranged on one side of the first motor, the rotary shaft is arranged on the base, the driven wheel is arranged on the rotary shaft, the telescopic rod is arranged at the upper end of the rotary shaft, the second motor is arranged at the upper end of the telescopic rod, the stop block is arranged at one end of the telescopic rod, and the charging tray is arranged on one side of the stop block;

the feeding mechanism comprises a feeding hopper, a support column, a second bottom plate, a gate valve, a feeding pipe, a control panel and a controller, wherein the second bottom plate is arranged on the other side of the rotating mechanism, the controller is arranged at the upper end of the second bottom plate, the control panel is arranged at the upper end of the controller, the support column is arranged on one side of the control panel, the feeding hopper is arranged at the upper end of the support column, the feeding pipe is arranged at the lower end of the feeding hopper, and the gate valve is arranged on one side of the feeding pipe;

the sintering mechanism comprises a box body, an upright post, a microwave generator, an insulation can, a waveguide tube, a box door, a bolt, a junction box and an electric heating tube, wherein the upright post is arranged on one side of the rotating mechanism, the box body is arranged at the upper end of the upright post, the box door is arranged on one side of the box body, the bolt is arranged at one end of the box door, the waveguide tube is arranged at the upper end of the inside of the box body, the microwave generator is arranged at the upper end of the waveguide tube, the upright post is arranged at the rear side of the rotating mechanism, the insulation can is arranged at the upper end of the upright post, the box door is arranged at the front end of the insulation can, the electric heating tube is arranged at the two sides of the inner wall of the insulation can, and the junction box is arranged at the rear end of the electric heating tube.

2. A hot melt molding apparatus for ceramic capacitor manufacture as defined in claim 1, wherein: the first bottom plate with first motor passes through the screw connection, first bottom plate with the base welding, first motor with action wheel key connection, the follower with pivot key connection, the pivot with the base rotates to be connected, the telescopic link with the pivot passes through the screw connection, the second motor with the telescopic link passes through the screw connection, the telescopic link with the dog welding, the charging tray with the dog passes through the screw connection.

3. A hot melt molding apparatus for ceramic capacitor manufacture as defined in claim 1, wherein: the second bottom plate with the pillar welding, the material loading bucket with the pillar welding, the controller with the second bottom plate passes through the screw connection, the controller with control panel passes through the screw connection, the gate valve with the material loading pipe passes through the screw connection, the material loading pipe with the material loading bucket welding.

4. A hot melt molding apparatus for ceramic capacitor manufacture as defined in claim 1, wherein: the gate valve is an electric flat gate valve, the first motor and the second motor are stepping motors, eight telescopic rods and eight second motors are arranged, and eight stop blocks and eight charging trays are arranged.

5. A hot melt molding apparatus for ceramic capacitor manufacture as defined in claim 1, wherein: the stand with the insulation can welding, the chamber door with the insulation can is articulated, the insulation can with the electrothermal tube passes through screw connection, the terminal box with the insulation can passes through screw connection.

6. A hot melt molding apparatus for ceramic capacitor manufacture as defined in claim 1, wherein: the box body is made of metal, the insulation box is made of insulation steel plates, the electric heating tube is a resistance type heating tube, and the box door is made of insulation steel plates.

7. A hot melt molding apparatus for ceramic capacitor manufacture as defined in claim 1, wherein: the controller is electrically connected with the control panel, the controller is electrically connected with the first motor, the controller is electrically connected with the second motor, the controller is electrically connected with the electric heating tube, and the controller is electrically connected with the microwave generator.