CN109955353B - Bottle embryo moisturizing machine - Google Patents

Abstract

The invention discloses a bottle embryo water supplementing machine which comprises a frame, wherein a support frame driven by a first power device is arranged on the frame in a sliding manner along an X axis, and a water supplementing mechanism driven by a second power device is arranged on the support frame in a sliding manner along a Z axis; the bottle embryo rotary pressing mechanism is arranged on the frame and is positioned in the feeding direction of the water supplementing mechanism. The mechanical water supplementing work of the bottle embryo is realized, the water supplementing efficiency is improved, and the labor intensity of staff is greatly reduced; meanwhile, the water supplementing effect in the height direction and the circumferential direction of the bottle blank is guaranteed through the movement of the water supplementing mechanism in the X-axis direction and the Z-axis direction, and the cleaning of the outer surface of the bottle blank can be synchronously completed.

Description

Bottle embryo moisturizing machine

Technical Field

The invention belongs to the technical field of grouting ceramic bottle production equipment, and particularly relates to a bottle embryo water supplementing machine.

Background

At present, in the production of grouting ceramic wine bottles, bottle blanks need to be molded firstly, then a glaze injection process is carried out, and water supplementing is needed to be carried out on the bottle blanks before glaze injection. At present, the bottle blank is supplemented with water in the following way: manually sprinkling water on the bottle embryo, the following defects exist in the mode:

1. the bottle embryo is irregular in shape, and the sprinkling uniformity is poor, so that the water supplementing effect is poor;

2. the labor intensity of staff is high, and the water supplementing efficiency is low;

3. the outer surface of the bottle embryo (dust, dirt and the like are attached to the outer surface of the bottle embryo) cannot be cleaned.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the bottle embryo water supplementing machine achieves the purposes of mechanically supplementing water to bottle embryos, improving water supplementing effect and water supplementing efficiency, reducing labor intensity and synchronously cleaning the outer surfaces of the bottle embryos.

In order to solve the technical problems, the technical scheme of the invention is as follows: the bottle embryo water replenishing machine comprises a frame, wherein a support frame driven by a first power device is arranged on the frame in a sliding manner along an X axis, and a water replenishing mechanism driven by a second power device is arranged on the support frame in a sliding manner along a Z axis; the bottle embryo rotary pressing mechanism is arranged on the frame and is positioned in the feeding direction of the water supplementing mechanism.

As an improvement, the water supplementing mechanism comprises a sliding seat arranged on the second power device, a sponge wheel driven by the third power device is rotatably arranged on the sliding seat, and the periphery of the sponge wheel protrudes out of the sliding seat and is in contact fit with the surface of the bottle embryo.

As a further improvement, a drain wheel is rotatably arranged on the sliding seat far away from one end of the bottle embryo rotary pressing mechanism, an annular groove is arranged on the drain wheel, and the periphery of the sponge wheel is positioned in the annular groove and is in extrusion fit with the drain wheel; and a collecting disc is arranged on the sliding seat below the sewage draining wheel.

As a still further improvement, the second power device comprises a screw rod vertically arranged on the supporting frame, and the screw rod is driven by a motor;

the screw is provided with a screw nut in a threaded manner, and the sliding seat is fixedly arranged on the screw nut.

As a further improvement, the bottle embryo rotary pressing mechanism comprises a first rotary seat rotatably arranged on the frame and driven by a fourth power device;

the support device comprises a frame, a first rotating seat and a pressing plate, wherein the frame is arranged on one side of the first rotating seat, a sliding block is arranged on the sliding block in a sliding mode, a support mounting plate extending towards the direction of the first rotating seat is arranged on the sliding block, a supporting column is vertically arranged on the support mounting plate, and a pressing plate is rotatably arranged on the supporting column.

As a further improvement, the support column is slidably mounted on the support mounting plate, a first baffle is sleeved on the support column above the support mounting plate, and a limit element is arranged on the support column above the first baffle;

the support column positioned above the pressure plate is sleeved with a second baffle, and an elastic element is abutted between the second baffle and the lower surface of the support mounting plate.

As a further development, the slide is provided with distance measuring elements for measuring the distance between the bottle blank and the sponge wheel.

As a further improvement, the water replenishing mechanism further comprises a second rotating seat, the second rotating seat and the first rotating seat are arranged side by side, and the distance measuring element is arranged on one side of the sliding seat and corresponds to the second rotating seat in position.

As a further improvement, the first power device comprises a supporting seat, a sliding rod arranged along an X axis is arranged on the supporting seat, a sliding table driven by an air cylinder is slidably arranged on the sliding rod, and the supporting frame is arranged on the sliding table;

the sliding table is characterized in that a stop block is arranged on at least one side of the sliding table, and a first limiting block is arranged on the supporting seat at a position corresponding to the stop block.

As a further improvement, a second limiting block is arranged on the supporting seat above the sliding rod.

After the technical scheme is adopted, the invention has the following effects:

the bottle embryo water replenishing machine comprises a frame, wherein a support frame driven by a first power device is arranged on the frame in a sliding manner along an X axis, and a water replenishing mechanism driven by a second power device is arranged on the support frame in a sliding manner along a Z axis; the bottle embryo rotating and compressing mechanism is arranged on the frame and is positioned on the feeding direction of the water supplementing mechanism, so that in operation, the bottle embryo to be supplemented is fixed through the bottle embryo rotating and compressing mechanism, then the bottle embryo rotating and compressing mechanism drives the bottle embryo to rotate, then the first power device drives the support frame to slide and enable the water supplementing mechanism to be in contact with the bottle embryo, and further the requirement of circumferential water supplementing of the bottle embryo is met.

In conclusion, by adopting the bottle embryo water supplementing machine, the mechanized water supplementing work of bottle embryos is realized, the water supplementing efficiency is improved, and the labor intensity of staff is greatly reduced; meanwhile, the water supplementing effect in the height direction and the circumferential direction of the bottle blank is guaranteed through the movement of the water supplementing mechanism in the X-axis direction and the Z-axis direction, and the cleaning of the outer surface of the bottle blank can be synchronously completed.

Because moisturizing mechanism is including setting up the slide on second power device, rotate on the slide and install third power device driven sponge wheel, the periphery protrusion slide of sponge wheel and with bottle embryo surface contact adaptation to when moisturizing, third power device drives the sponge wheel rotatory, and the water through rotatory throwing out of sponge wheel is to bottle embryo moisturizing, accomplishes the work of clearance bottle embryo surface through the contact of sponge wheel and bottle embryo, simple structure, and is effectual to the moisturizing of bottle embryo and clearance.

Because the drain wheel is rotatably arranged on the sliding seat, the drain wheel is provided with an annular groove, and the periphery of the sponge wheel is positioned in the annular groove and is in extrusion fit with the drain wheel; the collecting disc is arranged on the sliding seat below the blowdown wheel, so that in the water supplementing process, the sponge wheel is matched with the blowdown wheel in an extrusion mode in the rotation process, the sponge wheel is used for treating dirt carried in the water supplementing process, and the treated dirt is collected through the collecting disc. By adopting the structure, a foundation is laid for the sponge wheel to effectively supplement water and clean the bottle embryo, and dirt can be collected in a concentrated mode.

The second power device comprises a lead screw vertically arranged on the support frame, and the lead screw is driven by a motor; screw nut is installed to the screw thread on the lead screw, and slide fixed mounting is on screw nut, through the removal of screw nut on the lead screw, realizes the removal of moisturizing mechanism along the Z axle, and simple structure provides the guarantee for carrying out moisturizing and clearance along the direction of height of bottle embryo.

The bottle embryo rotary pressing mechanism comprises a first rotating seat which is rotatably arranged on the frame and driven by a fourth power device; the machine frame on one side of the first rotating seat is provided with a sliding frame, a sliding block is arranged on the sliding frame in a sliding manner, a supporting installation plate extending towards the direction of the first rotating seat is arranged on the sliding block, a supporting column is vertically arranged on the supporting installation plate, and a pressure plate is rotatably arranged on the supporting column, so that a bottle blank is arranged on the first rotating seat driven by the fourth power device during working, and then the sliding of the sliding block on the sliding frame is used for pressing the bottle opening of the bottle blank to ensure the fixability of the bottle blank in the cleaning and water supplementing process.

The support column is slidably arranged on the support mounting plate, a first baffle plate is sleeved on the support column above the support mounting plate, and a limiting element is arranged on the support column above the first baffle plate; the support column located above the pressure plate is sleeved with the second baffle, and an elastic element is abutted between the second baffle and the lower surface of the support mounting plate, so that the pressure plate is guaranteed to have enough pressing force on the bottle embryo through the sliding support column and the elastic element sleeved on the support column, meanwhile, the elastic element can play a role in buffering, and the condition that the pressure plate is in hard contact with the bottle embryo to damage the bottle embryo in the cleaning and water supplementing process is avoided.

Because the distance measuring element is arranged on the sliding seat, the accuracy of contact between the sponge wheel and the bottle embryo water supplementing position is ensured through measurement of the distance measuring element.

The water supplementing mechanism also comprises a second rotating seat which is arranged side by side with the first rotating seat, and the distance measuring element is arranged on one side of the sliding seat and corresponds to the position of the second rotating seat, so that the distance measuring element can measure the distance of the bottle embryo on the second rotating seat through the structure (because the bottle embryo on the first rotating seat is contacted with the sponge wheel, the distance measuring element can not accurately measure the distance between the current water supplementing position of the bottle embryo and the sponge wheel), and the distance measuring accuracy is further improved; meanwhile, the next water bottle embryo to be supplemented can be supported and placed in advance through the second rotating seat, and the improvement of work continuity and work efficiency is facilitated.

Because first power device includes the supporting seat, is equipped with the slide bar of arranging along the X axle on the supporting seat, slidable mounting has cylinder driven slip table on the slide bar, and the supporting frame sets up on the slip table to when realizing moisturizing mechanism along the X axle slip, cylinder drive slip table slides along the slide bar, and then realizes slip table and upper bracket and moisturizing mechanism along the slip of X axle, simple structure, it is effectual to slide.

Because at least one side of the sliding table is provided with a stop block, a first limiting block is arranged on a supporting seat at a position corresponding to the stop block; be located the second stopper on the supporting seat of slide bar top to the double spacing through first stopper and second stopper restricts the slip displacement of slip table, avoids slip displacement too big and causes the injury to the bottle embryo.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a view in the direction A of FIG. 1;

FIG. 3 is an enlarged view of B in FIG. 1;

wherein, 1-rack; 2-a first power plant; 201-a supporting seat; 202-a slide bar; 203-cylinder; 204-sliding table; 205-stop; 206-a first limiting block; 207-a second limiting block; 3-supporting frames; 4-a second power plant; 401-a lead screw; 402-a lead screw nut; 403-an electric motor; 5-a water supplementing mechanism; 501-a slide; 502-a third power device; 503-sponge wheel; 504-a blowdown wheel; 505-annular groove; 506-collecting tray; 507-ranging elements; 508-a second swivel; 6-a bottle embryo rotating and compacting mechanism; 601-fourth power plant; 602-a first swivel; 603-a carriage; 604-a slider; 605-supporting the mounting plate; 606-support columns; 607-platen; 608-a first baffle; 609-a second flap; 610-an elastic element; 611-a limiting element; 7-bottle embryo.

Detailed Description

The present invention will be described in further detail with reference to the following examples.

For ease of description, the definition: the length direction of the frame 1 is an X axis, and the height direction of the frame 1 is a Z axis. The bottle blanks mentioned in this embodiment may also be other ceramic products, such as can blanks of ceramic cans, for example.

As shown in fig. 1 and fig. 2 together, a bottle embryo water replenishing machine comprises a frame 1, wherein a support frame 3 driven by a first power device 2 is slidably arranged on the frame 1 along an X axis, and a water replenishing mechanism 5 driven by a second power device 4 is slidably arranged on the support frame 3 along a Z axis; the machine frame 1 is provided with a bottle embryo rotary pressing mechanism 6, and the bottle embryo rotary pressing mechanism 6 is positioned in the feeding direction of the water supplementing mechanism 5.

The water supplementing mechanism 5 comprises a sliding seat 501 arranged on the second power device 4, a sponge wheel 503 driven by a third power device 502 is rotatably arranged on the sliding seat 501, and the periphery of the sponge wheel 503 protrudes out of the sliding seat 501 and is in contact fit with the surface of the bottle embryo 7; the slide 501 is provided with a distance measuring element 507 for measuring the distance between the bottle embryo 7 and the sponge wheel 503, and the distance measuring element 507 is a laser displacement sensor. Preferably, the slide 501 is rotatably provided with a drain wheel 504, the drain wheel 504 is provided with an annular groove 505, and the periphery of the sponge wheel 503 is positioned in the annular groove 505 and is in extrusion fit with the drain wheel 504; a collection tray 506 is provided on the slide 501 below the drain wheel 504.

In this embodiment, the second power device 4 includes a screw 401 vertically disposed and rotatably mounted on the support frame 3, the screw 401 is driven by a motor 403, a screw nut 402 is screwed on the screw 401, and the slide 501 is fixedly mounted on the screw nut 402; the third power device 502 is an electric motor.

The bottle embryo rotary pressing mechanism 6 comprises a first rotary seat 602 which is rotatably arranged on the frame 1 and driven by a fourth power device 601, wherein the fourth power device 601 is a motor; the frame 1 at one side of the first rotating seat 602 is provided with a sliding frame 603, a sliding block 604 is slidably arranged on the sliding frame 603, a support mounting plate 605 extending towards the direction of the first rotating seat 602 is arranged on the sliding block 604, a support column 606 is vertically arranged on the support mounting plate 605, and a pressure plate 607 is rotatably arranged on the support column 606.

Preferably, the support column 606 is vertically slidably mounted on the support mounting plate 605, a first baffle 608 is sleeved on the support column 606 above the support mounting plate 605, a limit element 611 is arranged on the support column 606 above the first baffle 608, and the limit element 611 is a nut which is threadedly mounted on the support column 606; a second blocking piece 609 is sleeved on the support column 606 above the pressure plate 607, and an elastic element 610 is abutted between the second blocking piece 609 and the lower surface of the support mounting plate 605, and the elastic element 610 is a spring (see fig. 3).

In this embodiment, the water replenishing mechanism 5 further includes a second rotating seat 508, the second rotating seat 508 is disposed side by side with the first rotating seat 602, and the distance measuring element 507 is disposed on one side of the sliding seat 501 and corresponds to the second rotating seat 508. Preferably, the distance measuring element 507 is positioned at the same height as the sponge wheel 503.

The first power device 2 comprises a supporting seat 201, a sliding rod 202 arranged along an X axis is arranged on the supporting seat 201, a sliding table 204 driven by an air cylinder 203 is slidably arranged on the sliding rod 202, the supporting frame 3 is arranged on the sliding table 204, a stop block 205 is arranged on at least one side of the sliding table 204, and a first limiting block 206 is arranged on the supporting seat 201 at a position corresponding to the stop block 205; a second limiting block 207 is arranged on the supporting seat 201 above the sliding rod 202.

The executing devices such as the air cylinder, the motor and the like mentioned in the embodiment are all conventional technologies at present, the specific structure, the principle and other designs of the air cylinder, the motor and other transmission mechanisms are disclosed in detail in a mechanical design manual fifth edition printed by a Beijing fifth edition of 4 months of 2008, the structure is clear, the vacuum element, the gas circuit and the program control are disclosed in detail in a modern practical pneumatic technology 3 rd edition SMC training teaching material published by a mechanical industry press on the year 08 and 01 of 2008, the gas circuit structure in the embodiment is also the prior art, the control and the travel switch of the motor are also described in detail in a motor driving and speed regulating book published by a chemical industry press on the year 07 and 01 of 2015 are clearly shown, and therefore, the circuit and the gas circuit connection are clear.

The above examples are merely illustrative of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and adaptations of the technical solution of the present invention should and are intended to fall within the scope of the present invention as defined in the claims.

Claims (3)

1. The utility model provides a bottle embryo moisturizing machine, includes frame, its characterized in that: the support frame is provided with a support frame driven by a first power device in a sliding manner along an X axis, and the support frame is provided with a water supplementing mechanism driven by a second power device in a sliding manner along a Z axis; the bottle embryo rotating and compressing mechanism is arranged on the frame and is positioned in the feeding direction of the water supplementing mechanism; the water supplementing mechanism comprises a sliding seat arranged on the second power device, a sponge wheel driven by the third power device is rotatably arranged on the sliding seat, and the periphery of the sponge wheel protrudes out of the sliding seat and is in contact fit with the surface of the bottle embryo; a drain wheel is rotatably arranged on the sliding seat, an annular groove is formed in the drain wheel, and the periphery of the sponge wheel is positioned in the annular groove and is in extrusion fit with the drain wheel; a collecting disc is arranged on the sliding seat below the sewage discharging wheel; the bottle embryo rotary pressing mechanism comprises a first rotating seat which is rotatably arranged on the frame and driven by a fourth power device; the rack positioned at one side of the first rotating seat is provided with a sliding frame, a sliding block is slidably arranged on the sliding frame, a support mounting plate extending towards the direction of the first rotating seat is arranged on the sliding block, a support column is vertically arranged on the support mounting plate, and a pressure plate is rotatably arranged on the support column; the support column is slidably mounted on the support mounting plate, a first baffle plate is sleeved on the support column above the support mounting plate, and a limiting element is arranged on the support column above the first baffle plate; a second baffle plate is sleeved on the support column above the pressure plate, and an elastic element is abutted between the second baffle plate and the lower surface of the support mounting plate; the distance measuring element is arranged on the sliding seat and used for measuring the distance between the bottle blank and the sponge wheel; the water supplementing mechanism further comprises a second rotating seat, the second rotating seat is arranged side by side with the first rotating seat, and the distance measuring element is arranged on one side of the sliding seat and corresponds to the second rotating seat in position; the second power device comprises a screw rod vertically arranged on the supporting frame, and the screw rod is driven by a motor;

the screw is provided with a screw nut in a threaded manner, and the sliding seat is fixedly arranged on the screw nut.

2. The bottle embryo moisturizing machine of claim 1, wherein: the first power device comprises a supporting seat, a sliding rod arranged along an X axis is arranged on the supporting seat, a sliding table driven by an air cylinder is slidably arranged on the sliding rod, and the supporting frame is arranged on the sliding table;

the sliding table is characterized in that a stop block is arranged on at least one side of the sliding table, and a first limiting block is arranged on the supporting seat at a position corresponding to the stop block.

3. The bottle embryo moisturizing machine of claim 2, wherein: and a second limiting block is arranged on the supporting seat above the sliding rod.