CN216860116U - Glazing equipment is used in production of pottery bowl - Google Patents

Abstract

The utility model relates to glazing equipment for ceramic bowl production, which comprises a shell, wherein one side of the bottom in the shell is connected with a support column, and a charging barrel is connected to the support column; the conveying mechanism is arranged in the shell and is provided with a lifting mechanism; the conveying mechanism comprises a support, one side of the bottom in the shell, which is close to the support column, is connected with the support, the upper part of the support is provided with a motor, the motor is connected with a rotating shaft, and the rotating shaft is rotatably connected with the support; the two sides of the bottom in the shell are rotatably connected with rotating rods, and the lower part of one rotating rod is connected with a straight gear; the lower part of the rotating shaft is connected with a gear lack which is matched with a straight gear; the upper part of the rotating rod is connected with a belt pulley, and a flat belt is sleeved between the belt pulleys. According to the utility model, the ceramic bowl can be sucked by the lifting mechanism, the ceramic bowl can be conveyed to the position right above the charging barrel by matching the conveying mechanism and the lifting mechanism, and the ceramic bowl can enter the charging barrel for glazing by the lifting mechanism.

Description

Glazing equipment is used in ceramic bowl production

Technical Field

The utility model relates to glazing equipment, and particularly discloses glazing equipment for ceramic bowl production.

Background

In order to make the ceramic bowl soft in luster, waterproof and airtight, bring a bright feeling like a mirror to people, facilitate cleaning of the ceramic bowl and reduce corrosion, the ceramic bowl needs to be glazed, at present, glazing of the ceramic bowl is generally performed manually, when glazing of the ceramic bowl is performed manually, the ceramic bowl is held by a hand, then the ceramic bowl is placed into glaze liquid, and then the ceramic bowl is taken out of the glaze liquid, so that glazing of the ceramic bowl needs to be performed for a long time and the ceramic bowl is not good for health after being immersed in the glaze liquid for a long time.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide the glazing equipment for ceramic bowl production, which can automatically glaze ceramic bowls.

The utility model is realized by the following steps: a glazing device for ceramic bowl production comprises a shell, wherein one side of the bottom in the shell is connected with a support column, and a charging barrel is connected to the support column; the conveying mechanism is arranged in the shell and is provided with a lifting mechanism; the conveying mechanism comprises a support, one side of the bottom in the shell, which is close to the support column, is connected with the support, the upper part of the support is provided with a motor, the motor is connected with a rotating shaft, and the rotating shaft is rotatably connected with the support; the two sides of the bottom in the shell are rotatably connected with rotating rods, and the lower part of one rotating rod is connected with a straight gear; the lower part of the rotating shaft is connected with a gear lack which is matched with the straight gear; the upper part of the rotating rod is connected with a belt pulley, and a flat belt is sleeved between the belt pulleys; the lifting mechanism comprises a guide sleeve, the belt pulley is connected with a plurality of guide sleeves, a slide bar is connected in the guide sleeve in a sliding manner, the bottom end of the slide bar penetrates through the flat belt, and the bottom end of the slide bar is connected with a sucker; the top end of the sliding rod is connected with the movable block, and a first spring is connected between the movable block and the guide sleeve.

In a preferred embodiment of the utility model, the device further comprises a trigger mechanism, the trigger mechanism comprises a support frame, the other side of the bottom in the shell, which is close to the support column, is connected with the support frame, the support frame is internally and slidably connected with a movable rod, and the movable rod is matched with the movable block; the second spring is connected between the movable rod and the support frame; the movable rod is connected with the first wedge block; the outer wall of the guide sleeve is connected with a supporting rod, a second wedge-shaped block is connected onto the supporting rod, and the second wedge-shaped block is matched with the first wedge-shaped block.

In a preferred embodiment of the utility model, the collecting device further comprises a collecting mechanism, the collecting mechanism comprises fixing rods, the other side of the bottom in the shell is connected with two fixing rods, a collecting box is connected between the fixing rods, and a sponge block is connected in the collecting box; the end part of the collecting box is connected with a first support rod, the upper parts of two sides of the first support rod are both connected with inclined plates, one end part of each inclined plate is connected with a limiting rod, and the limiting rods are matched with the movable blocks.

In a preferred embodiment of the utility model, the drying device further comprises a drying mechanism, the drying mechanism comprises second support rods, the other side of the bottom in the shell is connected with a plurality of second support rods, a connecting frame is connected between the second support rods, and the connecting frame is rotatably connected with the other rotating rod; two electric heating wires are connected in the connecting frame.

In a preferred embodiment of the utility model, the stirring device further comprises a stirring mechanism, wherein the stirring mechanism comprises a rotating rod, the lower part of one side of the charging barrel is rotatably connected with the rotating rod, the rotating rod is connected with a plurality of stirring rods, and the stirring rods are positioned in the charging barrel; the end part of the rotating rod and the upper part of the rotating shaft are connected with bevel gears, and the two bevel gears are meshed.

In a preferred embodiment of the present invention, the second support bar and the connecting frame are made of high temperature resistant materials.

The utility model has the beneficial effects that:

1. the ceramic bowl can be sucked by the lifting mechanism, the ceramic bowl can be conveyed to the position right above the charging barrel by matching the conveying mechanism and the lifting mechanism, and the ceramic bowl can enter the charging barrel for glazing by the lifting mechanism;

2. the lifting mechanism can be triggered to work through the triggering mechanism, so that the lifting mechanism does not need to be manually triggered to work, and the effect of automatically glazing the ceramic bowl is achieved;

3. the glazed ceramic bowl can be faded down from the sucker through the material receiving mechanism, and the glazed ceramic bowl can be collected through the material receiving mechanism, so that the glazed ceramic bowl is not required to be manually taken down from the sucker, and time and labor are saved;

4. the ceramic bowl can be dried through the drying mechanism, so that the glaze on the ceramic bowl can be quickly dried;

5. the glaze liquid in the charging barrel can be stirred by the stirring mechanism, so that the glaze substance can be prevented from precipitating.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a cross-sectional view of the present invention.

Fig. 4 is a schematic partial perspective view of a first embodiment of the present invention.

Fig. 5 is a schematic partial perspective view of a second embodiment of the present invention.

Fig. 6 is a third partial perspective view of the present invention.

Fig. 7 is a schematic perspective view of the material receiving mechanism of the present invention.

Fig. 8 is a schematic perspective view of the agitation mechanism of the present invention.

Fig. 9 is a schematic perspective view of the drying mechanism of the present invention.

Wherein: 1-shell, 2-charging barrel, 21-supporting column, 3-conveying mechanism, 30-motor, 31-support, 32-rotating shaft, 33-rotating rod, 34-straight gear, 35-missing gear, 36-belt pulley, 37-flat belt, 4-lifting mechanism, 41-guide sleeve, 42-sliding rod, 43-sucking disc, 44-first spring, 45-movable block, 5-trigger mechanism, 51-support frame, 52-movable rod, 53-second spring, 54-first wedge block, 55-supporting rod, 56-second wedge block, 6-material receiving mechanism, 61-fixed rod, 62-collecting box, 63-sponge block, 64-first supporting rod, 65-inclined plate, 66-limiting rod, 7-drying mechanism, 71-second supporting rod, 72-connecting frame, 73-electric heating wire, 8-stirring mechanism, 81-rotating rod, 82-stirring rod and 83-bevel gear.

Detailed Description

According to the figures 1-6, the utility model comprises a shell 1, a charging barrel 2, a supporting column 21, a transportation mechanism 3 and a lifting mechanism 4, wherein the left side of the bottom in the shell 1 is connected with the supporting column 21, the top of the supporting column 21 is connected with the charging barrel 2, the shell 1 is internally provided with the transportation mechanism 3, the transportation mechanism 3 is provided with the lifting mechanism 4, the transportation mechanism 3 comprises a motor 30, a bracket 31, a rotating shaft 32, a rotating rod 33, a straight gear 34, a missing gear 35, a belt pulley 36 and a flat belt 37, the left side of the bottom in the shell 1 is connected with the bracket 31, the bracket 31 is positioned on the left side of the supporting column 21, the upper part of the bracket 31 is provided with the motor 30, the output shaft of the motor 30 is connected with the rotating shaft 32 through a coupler, the rotating shaft 32 is rotatably connected with the bracket 31, the rotating rod 33 is rotatably connected with the left side and the right side of the bottom in the shell 1, the straight gear 34 is connected with the lower part of the rotating rod 33, the missing gear 35 is connected with the lower part of the rotating shaft 32, the gear-lacking wheel 35 is matched with the straight gear 34, the upper part of the rotating rod 33 is connected with the belt pulley 36, a flat belt 37 is sleeved between the two belt pulleys 36, the lifting mechanism 4 comprises a guide sleeve 41, a sliding rod 42, a suction cup 43, a first spring 44 and a movable block 45, the top of the belt pulley 36 is connected with the guide sleeves 41 at even intervals along the circumferential direction, the sliding rod 42 is connected in the guide sleeve 41 in a sliding manner, the bottom end of the sliding rod 42 penetrates through the flat belt 37, the bottom end of the sliding rod 42 is connected with the suction cup 43, the top end of the sliding rod 42 is connected with the movable block 45, and the first spring 44 is connected between the movable block 45 and the guide sleeve 41.

When the ceramic bowl is to be glazed, the equipment can be used, firstly, glaze liquid is poured into the material cylinder 2, then the ceramic bowl is reversely buckled on the suction disc 43, then the motor 30 is started to enable the rotating shaft 32 to rotate, the rotating shaft 32 rotates to enable the straight gear 34 to rotate through the missing gear 35, the straight gear 34 rotates to drive the rotating rod 33 on the left side to rotate, the rotating rod 33 on the left side rotates to enable the flat belt 37 to rotate through the belt pulley 36, the rotating rod 33 on the right side rotates along with the rotating rod, the flat belt 37 rotates to drive the components on the flat belt to rotate, so that the ceramic bowl to be glazed can be transported towards the material cylinder 2, when the ceramic bowl to be glazed is transported to the position right above the material cylinder 2, the missing gear 35 rotates along with the flat belt 34 to be separated from the straight gear 34, the flat belt 37 stops rotating along with the flat belt 37, and the ceramic bowl stops moving along with the flat belt; then, the movable block 45 can be manually pressed downwards, so that the sliding rod 42 moves downwards, the first spring 44 is compressed, the sliding rod 42 moves downwards, the ceramic bowl is driven by the sucker 43 to move downwards, and the ceramic bowl can enter the charging barrel 2 for glazing. After the glazing of the ceramic bowl is finished, the movable block 45 is loosened, the movable block 45 can be moved upwards to reset under the action of the first spring 44, so that the ceramic bowl can be moved upwards to reset, the glazing of the ceramic bowl can be repeated, the ceramic bowl can be taken down after the glaze on the ceramic bowl is dried, and the motor 30 is turned off when the glazing is not needed. So this equipment can hold ceramic bowl through elevating system 4, through the cooperation of transport mechanism 3 and elevating system 4, can transport ceramic bowl to feed cylinder 2 directly over, and can make ceramic bowl get into through elevating system 4 and carry out the glazing in the feed cylinder 2.

According to the figures 3-5, the utility model further comprises a trigger mechanism 5, the trigger mechanism 5 comprises a support frame 51, a movable rod 52, a second spring 53, a first wedge-shaped block 54, a support rod 55 and a second wedge-shaped block 56, the support frame 51 is connected to the bottom in the shell 1, the support frame 51 is located on the front side of the support column 21, the movable rod 52 is connected in the support frame 51 in a sliding manner, the movable rod 52 is matched with the movable block 45, the second spring 53 is connected between the movable rod 52 and the support frame 51, the first wedge-shaped block 54 is connected to the lower portion of the movable rod 52, the support rod 55 is connected to the outer wall of the guide sleeve 41, the second wedge-shaped block 56 is connected to the top end of the support rod 55, and the second wedge-shaped block 56 is matched with the first wedge-shaped block 54.

The guide sleeve 41 rotates to enable the second wedge-shaped block 56 to rotate through the support rod 55, when the second wedge-shaped block 56 rotates to be in contact with the first wedge-shaped block 54, the first wedge-shaped block 54 can move downwards under the action of the second wedge-shaped block 56, the first wedge-shaped block 54 can drive the movable rod 52 to move downwards when moving downwards, the second spring 53 is stretched along with the first wedge-shaped block, the movable rod 52 moves downwards to push the movable block 45 to move downwards, the first spring 44 is compressed along with the first wedge-shaped block, and therefore ceramic bowls can enter the charging barrel 2 to be glazed, manual downward pressing on the movable block 45 is not needed, and the effect of automatically glazing the ceramic bowls is achieved; when the second wedge block 56 is rotated to be disengaged from the first wedge block 54, the movable rod 52 can be moved upward and restored by the second spring 53, and the movable block 45 can be moved upward and restored by the first spring 44. Like this can trigger elevating system 4 through trigger mechanism 5 and carry out work to need not artifical manual trigger elevating system 4 and carry out work, and then reached and to have carried out glazed effect to ceramic bowl automatically.

As shown in fig. 1, 2, 3 and 7, the utility model further comprises a material receiving mechanism 6, wherein the material receiving mechanism 6 comprises fixing rods 61, a collecting box 62, a sponge block 63, a first supporting rod 64, an inclined plate 65 and a limiting rod 66, the two fixing rods 61 are connected to the rear side of the bottom in the shell 1 and are bilaterally symmetrical, the collecting box 62 is connected between the tops of the two fixing rods 61, the sponge block 63 is connected in the collecting box 62, the first supporting rod 64 is connected to the bottom of the collecting box 62, the inclined plates 65 are connected to the upper portions of the front side and the rear side of the first supporting rod 64, the limiting rod 66 is connected to the top of the front side inclined plate 65, and the limiting rod 66 is matched with the movable block 45.

When sucking disc 43 rotates to when contacting with swash plate 65, sucking disc 43 continues to rotate under swash plate 65's effect, can fade the ceramic bowl of the good glaze from sucking disc 43, can carry on spacingly to movable block 45 through gag lever post 66, so can prevent movable block 45 downstream, thereby can prevent slide bar 42 downstream, and then the ceramic bowl that will go up the good glaze that can be smooth and easy fades from sucking disc 43, the ceramic bowl of the good glaze that goes up falls into collection box 62 along with it, can protect the ceramic bowl through sponge piece 63, so need not artifical manual taking off the ceramic bowl of the good glaze from sucking disc 43, thereby can labour saving and time saving. So can fade the ceramic bowl of the good glaze from sucking disc 43 through receiving agencies 6, and can collect the ceramic bowl of the good glaze through receiving agencies 6 to need not artifical manual taking off from sucking disc 43 the ceramic bowl of the good glaze, and then can labour saving and time saving.

As shown in fig. 3 and 9, the present invention further includes a drying mechanism 7, wherein the drying mechanism 7 includes a second support rod 71, a connection frame 72 and heating wires 73, the right side of the bottom inside the casing 1 is connected with four second support rods 71, the connection frame 72 is connected between the top ends of the four second support rods 71, the connection frame 72 is rotatably connected with the right rotating rod 33, and the connection frame 72 is connected with two heating wires 73.

The electric heating wire 73 can be turned on, the ceramic bowl can be dried through the electric heating wire 73, so that the glaze on the ceramic bowl can be dried quickly, and when the drying work is not needed, the electric heating wire 73 is turned off; so can dry the ceramic bowl through drying mechanism 7 to can make the glaze rapid draing on the ceramic bowl.

According to the illustration in fig. 8, the utility model further comprises an agitating mechanism 8, wherein the agitating mechanism 8 comprises a rotating rod 81, a plurality of agitating rods 82 and bevel gears 83, the rotating rod 81 is rotatably connected to the lower part of the right side of the charging barrel 2, the plurality of agitating rods 82 are connected to the rotating rod 81, the agitating rods 82 are positioned in the charging barrel 2, the bevel gears 83 are connected to the left end of the rotating rod 81 and the upper part of the rotating shaft 32, and the two bevel gears 83 are meshed.

The rotating shaft 32 can rotate the rotating rod 81 through the bevel gear 83, the rotating rod 81 can stir the glaze liquid in the charging barrel 2 through the stirring rod 82, and thus the glaze substance can be prevented from precipitating; the glaze liquid in the barrel 2 can be stirred by the stirring mechanism 8 in this manner, and the glaze material can be prevented from settling.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that various changes, modifications and substitutions may be made by those skilled in the art without departing from the spirit of the utility model, and all are intended to be included within the scope of the utility model. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. A glazing equipment for ceramic bowl production is characterized by comprising:

one side of the bottom in the shell (1) is connected with a support column (21), and the support column (21) is connected with a charging barrel (2);

the conveying mechanism (3) is arranged in the shell (1), and the lifting mechanism (4) is arranged on the conveying mechanism (3);

the transport mechanism (3) comprises:

the support (31) is connected to one side, close to the supporting column (21), of the bottom in the shell (1), the motor (30) is installed on the upper portion of the support (31), the rotating shaft (32) is connected to the motor (30), and the rotating shaft (32) is rotatably connected with the support (31);

the two sides of the bottom in the shell (1) are rotatably connected with the rotating rods (33), and the lower part of one rotating rod (33) is connected with a straight gear (34);

the lower part of the rotating shaft (32) is connected with a gear lack (35), and the gear lack (35) is matched with the straight gear (34);

the upper part of the rotating rod (33) is connected with a belt pulley (36), and a flat belt (37) is sleeved between the belt pulleys (36);

the lifting mechanism (4) comprises:

the belt pulley (36) is connected with a plurality of guide sleeves (41), the guide sleeves (41) are connected with a sliding rod (42) in a sliding manner, the bottom end of the sliding rod (42) penetrates through the flat belt (37), and the bottom end of the sliding rod (42) is connected with a sucker (43);

the top end of the sliding rod (42) is connected with the movable block (45), and a first spring (44) is connected between the movable block (45) and the guide sleeve (41).

2. A glazing device for ceramic bowl production according to claim 1, further comprising a triggering mechanism (5), the triggering mechanism (5) comprising:

the other side, close to the supporting column (21), of the bottom in the shell (1) is connected with the supporting frame (51), the supporting frame (51) is connected with a movable rod (52) in an inner sliding mode, and the movable rod (52) is matched with the movable block (45);

a second spring (53), wherein the second spring (53) is connected between the movable rod (52) and the support frame (51);

the movable rod (52) is connected with the first wedge-shaped block (54);

the outer wall of the guide sleeve (41) is connected with the supporting rod (55), the supporting rod (55) is connected with a second wedge-shaped block (56), and the second wedge-shaped block (56) is matched with the first wedge-shaped block (54).

3. A glazing device for ceramic bowl production according to claim 2, further comprising a receiving mechanism (6), wherein the receiving mechanism (6) comprises:

the other side of the bottom in the shell (1) is connected with two fixing rods (61), a collection box (62) is connected between the fixing rods (61), and a sponge block (63) is connected in the collection box (62);

the end of the collecting box (62) is connected with the first supporting rod (64), the upper parts of two sides of the first supporting rod (64) are connected with inclined plates (65), one inclined plate (65) is connected with a limiting rod (66), and the limiting rod (66) is matched with the movable block (45).

4. A glazing device for ceramic bowl production according to claim 3, further comprising a drying mechanism (7), the drying mechanism (7) comprising:

the other side of the bottom in the shell (1) is connected with a plurality of second supporting rods (71), a connecting frame (72) is connected between the second supporting rods (71), and the connecting frame (72) is rotatably connected with the other rotating rod (33);

two electric heating wires (73) are connected in the connecting frame (72).

5. A glazing device for ceramic bowl production according to claim 4, further comprising a stirring mechanism (8), the stirring mechanism (8) comprising:

the lower part of one side of the charging barrel (2) is rotatably connected with the rotating rod (81), the rotating rod (81) is connected with a plurality of stirring rods (82), and the stirring rods (82) are positioned in the charging barrel (2);

the end part of the rotating rod (81) and the upper part of the rotating shaft (32) are connected with the bevel gears (83), and the two bevel gears (83) are meshed.

6. A glazing device for ceramic bowl production according to claim 5, characterized in that the second support rod (71) and the connecting frame (72) are made of high temperature resistant material.

Images