CN215491036U - Automatic programmable vacuum porcelain oven for false tooth processing - Google Patents

Abstract

The utility model discloses an automatic programmable vacuum porcelain oven for false tooth processing, which comprises a processing table, wherein the bottom end of the processing table is fixedly connected with a base, and one side inside the base is provided with a cooling mechanism. This automatic vacuum porcelain stove able to programme for artificial tooth processing is through being provided with the connecting seat, the reciprocal lead screw of second, second servo motor, movable block and porcelain stove case, start second servo motor, under second servo motor's effect, it is rotatory to drive the reciprocal lead screw of second, be threaded connection between the reciprocal lead screw of second and the movable block, thereby drive the downward vertical motion of movable block, one side and the porcelain stove case of movable block are connected, thereby with porcelain stove case downstream, utilize porcelain stove case to be porcelain processing to the artificial tooth, the artificial tooth porcelain is accomplished the back, restart second servo motor, utilize the reciprocal lead screw of second to drive the movable block rebound, reset porcelain stove case, it is automatic efficiency lower to solve, influence the problem of the efficiency of processing.

Description

Automatic programmable vacuum porcelain oven for false tooth processing

Technical Field

The utility model relates to the technical field of false tooth porcelain, in particular to an automatic programmable vacuum porcelain oven for false tooth processing.

Background

The false tooth porcelain mainly reaches the degree similar to true tooth color and function with the outside of false tooth through the mode of porcelain, generally can scribble low melting porcelain powder at the surface of false tooth during to false tooth porcelain, has guaranteed that the surface after the false tooth porcelain is smooth and the wearability is stronger, when to false tooth porcelain, needs to use the vacuum porcelain stove, still has some problems when current false tooth processing uses the vacuum porcelain stove. Firstly, the automation efficiency is low, and the processing efficiency is influenced; secondly, the false tooth after porcelain baking is inconvenient to be cooled, and the safety is insufficient; thirdly, the false tooth after porcelain is heated to a high temperature, which is inconvenient for workers to take. Therefore, further solutions to the above problems are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic programmable vacuum porcelain oven for false tooth processing, which aims to solve the problems of low automation efficiency and influence on processing efficiency in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an automatic programmable vacuum porcelain oven for false tooth processing comprises a processing table, wherein a base is fixedly connected to the bottom end of the processing table, a control panel is arranged on one side of one end of the base, a cooling mechanism is arranged on one side inside the base, a support is fixedly connected to the middle position of the top end of the processing table, a clamping mechanism is arranged on the top end inside the support, a through groove is formed in one side inside the processing table, a cooling disc is arranged above the through groove, a porcelain bottom table is arranged on the other side of the top end of the processing table, a placing groove is arranged above the porcelain bottom table, and a height adjusting mechanism is arranged above the placing groove;

the height adjusting mechanism comprises a connecting seat, the connecting seat is fixedly connected to the other side of the top end of the processing table, a second reciprocating lead screw is movably connected to the inside of the connecting seat, the top end of the second reciprocating lead screw is connected with the output end of a second servo motor through a shaft connector, a moving block is arranged outside the second reciprocating lead screw, one side of the moving block penetrates through the outside of the connecting seat and is connected with one side of a porcelain oven box, and the porcelain oven box is arranged right above the placing groove.

Preferably, the outer side wall of the second reciprocating screw rod is provided with an external thread, and the inner side wall of the moving block is provided with an internal thread.

Preferably, cooling mechanism comprises fixing base, fan, place seat, air intake, bracing piece, baffle, air outlet and semiconductor refrigeration piece, place seat fixed connection in the inside one side of base, the inside of placing the seat is provided with the fixing base, the both sides fixedly connected with bracing piece of fixing base bottom, the bottom of bracing piece with place the seat and be connected, the intermediate position department fixedly connected with fan of fixing base bottom, the air intake sets up the one side in the base bottom, be provided with the semiconductor refrigeration piece on the inner wall of fixing base, the inside both sides fixed link of fixing base has the multiunit baffle, the top of fixing base is provided with the air outlet.

Preferably, the baffle is provided with five groups and is staggered in the fixed seat.

Preferably, the clamping mechanism comprises a connecting plate, a hydraulic telescopic rod, a movable plate, a first reciprocating lead screw, a shell, a first servo motor and an electric push rod, wherein the shell is fixedly connected to the top end inside the support, the inside of the shell is movably connected with the first reciprocating lead screw, one side of the first reciprocating lead screw is connected with the output end of the first servo motor through a shaft connector, the first servo motor is fixedly connected to one side of the shell, the movable plate is arranged on one side outside the first reciprocating lead screw, the outside of the shell is extended out of the bottom end of the movable plate, the hydraulic telescopic rod is fixedly connected to the bottom end of the movable plate, the connecting plate is arranged at the bottom end of the hydraulic telescopic rod, and the electric push rods are arranged at two ends inside the connecting plate.

Preferably, the electric push rods are provided with two groups and are symmetrically distributed about a vertical center line of the connecting plate.

Compared with the prior art, the utility model has the beneficial effects that: the automatic programmable vacuum porcelain oven for false tooth processing has the advantages that the automation efficiency is high, the processing efficiency is improved, the cooling treatment of the porcelain false tooth is realized, the use safety is improved, the porcelain false tooth is convenient to clamp and take, and the use efficiency is high;

(1) when the false tooth baking machine is used, false teeth to be processed are placed inside the placing groove, the second servo motor is started, the second reciprocating lead screw is driven to rotate under the action of the second servo motor, the second reciprocating lead screw is in threaded connection with the moving block, the moving block is driven to move vertically downwards, one side of the moving block is connected with the porcelain oven box, the porcelain oven box is moved downwards, porcelain baking processing is carried out on the false teeth by using the porcelain oven box, after porcelain baking of the false teeth is finished, the second servo motor is started again, the second reciprocating lead screw is used for driving the moving block to move upwards, the porcelain baking oven box is reset, porcelain baking processing on the false teeth is finished, the automation efficiency is high, and the processing efficiency of the machine is improved;

(2) by arranging the fixed seat, the fan, the placing seat, the air inlet, the supporting rod, the baffle, the air outlet and the semiconductor refrigerating sheet, when in use, the placing groove is placed inside the cooling disc by the clamping mechanism of the finished false tooth, the bottom end of the cooling disc is in a hollow design, the fan is started, the fan drives the external air to flow through the air inlet, the air flow is guided into the fixed seat, the semiconductor refrigerating sheet is arranged inside the fixed seat, after the air is contacted with the semiconductor refrigerating sheet, the surrounding air is cooled, a plurality of groups of baffles are staggered inside the fixed seat, the air flow moves in an S shape inside the fixed seat, the energy-saving effect is achieved, the cooled air flow flows upwards through the air outlet, the placing groove inside the cooling disc is cooled through the through groove, after a period of time, the temperature of the placing groove becomes low, and a worker can take the false tooth, the subsequent processing is convenient, the structure is simple, and the use effect of the equipment is improved;

(3) by arranging the connecting plate, the hydraulic telescopic rod, the movable plate, the first reciprocating screw rod, the shell, the first servo motor and the electric push rod, when in use, the false tooth after porcelain baking is put into the cooling disc, the cooling treatment is carried out on the false tooth, the first servo motor is started, the first reciprocating screw rod drives the movable plate to move horizontally, the connecting plate is moved to the front of the porcelain oven box and then is stopped, the hydraulic telescopic rod is controlled to drive the connecting plate to move downwards, the electric push rod is adjusted to the positions at two sides of the placing groove, the connecting plate is moved to the upper part of the placing groove through the movable plate, the distance between the hydraulic telescopic rods is larger than the width of the porcelain oven box, then the electric push rod is controlled to clamp the placing groove, after the clamping is finished, the horizontal movement is controlled, the placing groove can be placed in the movable plate inside the cooling disc, the placing of the placing groove is finished, and the manual direct contact is avoided, the processing safety is ensured.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic side view of the cross-sectional structure of the present invention;

FIG. 3 is a schematic view of a front cross-sectional view of the fixing base of the present invention;

FIG. 4 is a schematic top sectional view of a cooling plate according to the present invention.

In the figure: 1. a processing table; 2. a porcelain bottom table; 3. a cooling mechanism; 301. a fixed seat; 302. a fan; 303. a placing seat; 304. an air inlet; 305. a support bar; 306. a baffle plate; 307. an air outlet; 308. a semiconductor refrigeration sheet; 4. a base; 5. a through groove; 6. a cooling pan; 7. a gripping mechanism; 701. a connecting plate; 702. a hydraulic telescopic rod; 703. moving the plate; 704. a first reciprocating screw rod; 705. a housing; 706. a first servo motor; 707. an electric push rod; 8. a support; 9. a porcelain oven box; 10. a second servo motor; 11. a connecting seat; 12. a moving block; 13. a second reciprocating screw rod; 14. a placement groove; 15. a control panel.

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.

Example 1: referring to fig. 1-4, an automatic programmable vacuum porcelain oven for false tooth processing comprises a processing table 1, wherein the bottom end of the processing table 1 is fixedly connected with a base 4, one side of one end of the base 4 is provided with a control panel 15, one side inside the base 4 is provided with a cooling mechanism 3, a support 8 is fixedly connected at the middle position of the top end of the processing table 1, the top end inside the support 8 is provided with a clamping mechanism 7, one side inside the processing table 1 is provided with a through groove 5, a cooling disc 6 is arranged above the through groove 5, the other side of the top end of the processing table 1 is provided with a porcelain bottom table 2, a placing groove 14 is arranged above the porcelain bottom table 2, and a height adjusting mechanism is arranged above the placing groove 14;

referring to fig. 1-4, the automatic programmable vacuum porcelain oven for false tooth processing further comprises a height adjusting mechanism, the height adjusting mechanism comprises a connecting seat 11, the connecting seat 11 is fixedly connected to the other side of the top end of the processing table 1, a second reciprocating screw 13 is movably connected inside the connecting seat 11, the top end of the second reciprocating screw 13 is connected with the output end of a second servo motor 10 through a shaft connector, a moving block 12 is arranged outside the second reciprocating screw 13, one side of the moving block 12 penetrates through the outside of the connecting seat 11 and is connected with one side of a porcelain oven box 9, and the porcelain oven box 9 is arranged right above the placing groove 14;

the outer side wall of the second reciprocating screw rod 13 is provided with external threads, and the inner side wall of the moving block 12 is provided with internal threads;

specifically, as shown in fig. 1, 2 and 4, the false tooth to be processed is placed inside the placement groove 14, the second servo motor 10 is started, the second reciprocating lead screw 13 is driven to rotate under the action of the second servo motor 10, the second reciprocating lead screw 13 is in threaded connection with the moving block 12, the moving block 12 is driven to move vertically downwards, one side of the moving block 12 is connected with the porcelain oven box 9, the porcelain oven box 9 is moved downwards, porcelain processing is performed on the false tooth by using the porcelain oven box 9, after porcelain processing of the false tooth is completed, the second servo motor 10 is restarted, the moving block 12 is driven to move upwards by using the second reciprocating lead screw 13, the porcelain oven box 9 is reset, porcelain processing of the false tooth is completed, the automation efficiency is high, and the processing efficiency of the device is improved.

Example 2: the cooling mechanism 3 is composed of a fixed seat 301, a fan 302, a placing seat 303, an air inlet 304, a supporting rod 305, a baffle 306, an air outlet 307 and a semiconductor refrigerating sheet 308, the placing seat 303 is fixedly connected to one side inside the base 4, the fixed seat 301 is arranged inside the placing seat 303, the supporting rod 305 is fixedly connected to two sides of the bottom end of the fixed seat 301, the bottom end of the supporting rod 305 is connected with the placing seat 303, the fan 302 is fixedly connected to the middle position of the bottom end of the fixed seat 301, the air inlet 304 is arranged on one side of the bottom end of the base 4, the semiconductor refrigerating sheet 308 is arranged on the inner wall of the fixed seat 301, multiple groups of baffles 306 are fixedly connected to two sides inside the fixed seat 301, and the air outlet 307 is arranged at the top end of the fixed seat 301;

five groups of baffles 306 are arranged and staggered inside the fixed seat 301;

specifically, as shown in fig. 1 and fig. 3, the finished denture is obtained by placing the placement groove 14 inside the cooling plate 6 through the clamping mechanism 7, the bottom end of the cooling plate 6 is designed to be hollow, the blower 302 is started, the blower 302 drives the external air to flow through the air inlet 304, and guides the air flow into the inside of the fixing base 301, the inside of the fixing base 301 is provided with the semiconductor chilling plate 308, after the air contacts with the semiconductor chilling plate 308, the air around is cooled, the inside of the fixing base 301 is provided with a plurality of groups of baffles 306 in a staggered manner, so that the air flow moves in an S-shaped manner inside the fixing base 301, which plays a role of energy saving, the cooled air flow flows upwards through the air outlet 307, the placement groove 14 inside the cooling plate 6 is cooled through the through groove 5, after a period of time, the temperature of the placement groove 14 becomes low, and the worker can take the denture to facilitate subsequent processing, simple structure has improved the result of use of equipment.

Example 3: the clamping mechanism 7 comprises a connecting plate 701, a hydraulic telescopic rod 702, a moving plate 703, a first reciprocating screw rod 704, a shell 705, a first servo motor 706 and an electric push rod 707, the shell 705 is fixedly connected to the top end inside the bracket 8, the first reciprocating screw rod 704 is movably connected inside the shell 705, one side of the first reciprocating screw rod 704 is connected with the output end of the first servo motor 706 through a coupling, the first servo motor 706 is fixedly connected to one side of the shell 705, the moving plate 703 is arranged on one side outside the first reciprocating screw rod 704, the bottom end of the moving plate 703 extends out of the shell 705, the hydraulic telescopic rod 702 is fixedly connected to the bottom end of the moving plate 703, the connecting plate 701 is arranged at the bottom end of the hydraulic telescopic rod 702, and the electric push rods 707 are arranged at two ends inside the connecting plate 701;

the electric push rods 707 are arranged in two groups and are symmetrically distributed about the vertical center line of the connecting plate 701;

specifically, as shown in fig. 1 and 2, the denture after porcelain baking is put into the cooling plate 6, and is subjected to cooling treatment, the first servo motor 706 is started, the first reciprocating screw 704 drives the moving plate 703 to move horizontally, the connecting plate 701 is moved to the front of the porcelain oven box 9 and then stops, the hydraulic telescopic rod 702 is controlled to drive the connecting plate 701 to move downwards, the electric push rods 707 are adjusted to the positions at the two sides of the placing groove 14, the connecting plate 701 is moved above the placing groove 14 by the moving plate 703, the distance between the hydraulic telescopic rods 702 is larger than the width of the porcelain oven box 9, and then the electric push rod 707 is controlled, the placing groove 14 is clamped, after clamping is completed, the moving plate 703 is controlled to move horizontally, the placing groove 14 is placed in the cooling disc 6, the placing groove 14 is placed, manual direct contact is avoided, and processing safety is guaranteed.

The working principle is as follows: when the false tooth porcelain baking machine is used, firstly, false teeth to be processed are placed in the placing groove 14, a worker inputs a designated code on the interface of the control panel 15, the second servo motor 10 is started, the second reciprocating screw rod 13 is driven to rotate under the action of the second servo motor 10, the second reciprocating screw rod 13 is in threaded connection with the moving block 12, the moving block 12 is driven to move downwards and vertically, one side of the moving block 12 is connected with the porcelain baking oven box 9, the porcelain baking oven box 9 is driven to move downwards, porcelain baking processing is carried out on the false teeth by using the porcelain baking oven box 9, after porcelain baking of the false teeth is finished, the worker inputs the designated code on the interface of the control panel 15, then the second servo motor 10 is started, the moving block 12 is driven to move upwards by using the second reciprocating screw rod 13, the porcelain baking oven box 9 is reset, porcelain processing on the false teeth is finished, the automation efficiency is high, and the false teeth after porcelain baking are put into the cooling disc 6, cooling the porcelain oven, inputting a designated code on the interface of the control panel 15 by a worker, starting the first servo motor 706, driving the moving plate 703 to move horizontally through the first reciprocating screw rod 704, moving the connecting plate 701 to the front of the porcelain oven box 9 and then stopping the porcelain oven box, inputting the designated code on the interface of the control panel 15 by the worker, controlling the hydraulic telescopic rod 702 to drive the connecting plate 701 to move downwards, adjusting the electric push rod 707 to the positions of the two sides of the placing groove 14, moving the connecting plate 701 to the upper side of the placing groove 14 through the moving plate 703, wherein the distance between the hydraulic telescopic rods 702 is larger than the width of the porcelain oven box 9, inputting the designated code on the interface of the control panel 15 by the worker, controlling the electric push rod 707 to clamp the placing groove 14, controlling the moving plate 703 to move horizontally after clamping is completed, and placing the placing groove 14 in the cooling disc 6, the inside bottom of cooling pan 6 is the fretwork design, the staff inputs appointed code on control panel 15 interface, start fan 302, fan 302 drives outside air flow through air intake 304, the inside with the leading-in fixing base 301 of air current, the inside of fixing base 301 is provided with semiconductor refrigeration piece 308, the air is with the back of semiconductor refrigeration piece 308 contact, do cooling process to the air on every side, the air current after the cooling passes through air outlet 307 and upwards flows, through leading to groove 5 department and handle the cooling of the standing groove 14 of 6 inside cooling pans, after a period, the temperature step-down of standing groove 14, the staff alright with take it, make things convenient for subsequent processing, moreover, the steam generator is simple in structure, the use effect of equipment is improved.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an automatic vacuum porcelain stove able to programme for artificial tooth processing, includes processing platform (1), its characterized in that: the processing table is characterized in that a base (4) is fixedly connected to the bottom end of the processing table (1), a control panel (15) is arranged on one side of one end of the base (4), a cooling mechanism (3) is arranged on one side inside the base (4), a support (8) is fixedly connected to the middle position of the top end of the processing table (1), a clamping mechanism (7) is arranged on the top end inside the support (8), a through groove (5) is arranged on one side inside the processing table (1), a cooling disc (6) is arranged above the through groove (5), a porcelain baking base table (2) is arranged on the other side of the top end of the processing table (1), a placing groove (14) is arranged above the porcelain baking base table (2), and a height adjusting mechanism is arranged above the placing groove (14);

the height adjusting mechanism comprises a connecting seat (11), the connecting seat (11) is fixedly connected to the other side of the top end of the processing table (1), a second reciprocating screw rod (13) is movably connected to the inside of the connecting seat (11), the top end of the second reciprocating screw rod (13) is connected with the output end of a second servo motor (10) through a shaft connector, a moving block (12) is arranged outside the second reciprocating screw rod (13), one side of the moving block (12) penetrates through the outside of the connecting seat (11) and is connected with one side of a porcelain oven box (9), and the porcelain oven box (9) is arranged right above the placing groove (14).

2. The automatic programmable vacuum porcelain oven for denture processing according to claim 1, wherein: the outer side wall of the second reciprocating screw rod (13) is provided with external threads, and the inner side wall of the moving block (12) is provided with internal threads.

3. The automatic programmable vacuum porcelain oven for denture processing according to claim 1, wherein: the cooling mechanism (3) comprises a fixed seat (301), a fan (302), a placing seat (303), an air inlet (304), a supporting rod (305), a baffle (306), an air outlet (307) and semiconductor refrigerating sheets (308), the placing seat (303) is fixedly connected to one side inside the base (4), the fixed seat (301) is arranged inside the placing seat (303), the supporting rods (305) are fixedly connected to two sides of the bottom end of the fixed seat (301), the bottom end of the supporting rod (305) is connected with the placing seat (303), the fan (302) is fixedly connected to the middle position of the bottom end of the fixed seat (301), the air inlet (304) is arranged on one side of the bottom end of the base (4), the semiconductor refrigerating sheets (308) are arranged on the inner wall of the fixed seat (301), and a plurality of groups of baffle plates (306) are fixedly connected to two sides inside the fixed seat (301), an air outlet (307) is arranged at the top end of the fixed seat (301).

4. The automatic programmable vacuum porcelain oven for denture processing according to claim 3, wherein: the baffle plates (306) are provided with five groups and are arranged in the fixed seat (301) in a staggered mode.

5. The automatic programmable vacuum porcelain oven for denture processing according to claim 1, wherein: the clamping mechanism (7) comprises a connecting plate (701), a hydraulic telescopic rod (702), a moving plate (703), a first reciprocating screw rod (704), a shell (705), a first servo motor (706) and an electric push rod (707), the shell (705) is fixedly connected to the top end inside the bracket (8), the first reciprocating screw rod (704) is movably connected inside the shell (705), one side of the first reciprocating screw rod (704) is connected with the output end of the first servo motor (706) through a coupler, the first servo motor (706) is fixedly connected to one side of the shell (705), the moving plate (703) is arranged on one side outside the first reciprocating screw rod (704), the bottom end of the moving plate (703) extends out of the shell (703), the hydraulic telescopic rod (702) is fixedly connected to the bottom end of the moving plate (703), the connecting plate (701) is arranged at the bottom end of the hydraulic telescopic rod (702), and electric push rods (707) are arranged at two ends inside the connecting plate (701).

6. The automatic programmable vacuum porcelain oven for denture processing according to claim 5, wherein: the electric push rods (707) are arranged in two groups and are symmetrically distributed about the vertical center line of the connecting plate (701).

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