阅读说明：本技术 一种浴球生产装置 (Bath ball production device ) 是由 李金达 程度 李婷 于 2021-07-15 设计创作，主要内容包括：本发明公开了一种浴球生产装置,包括成型装置和用于对成型装置上料的上料装置,所述成型装置包括转动机构、若干下模组件、上模组件和出料机构,所述转动机构上设有间隔均匀分布的下模组件,所述下模组件在转动机构的带动下依次进入上模组件的正下方,所述出料机构包括顶料机构和位于顶料机构上方的取料机构,所述下模组件在转动机构的带动下依次进入顶料机构和取料机构之间,与现有技术相比,能够降低人工工作量,提高工作效率。(The invention discloses a bath ball production device which comprises a forming device and a feeding device used for feeding the forming device, wherein the forming device comprises a rotating mechanism, a plurality of lower die assemblies, an upper die assembly and a discharging mechanism, the rotating mechanism is provided with the lower die assemblies which are uniformly distributed at intervals, the lower die assemblies sequentially enter the position under the upper die assembly under the driving of the rotating mechanism, the discharging mechanism comprises a material ejecting mechanism and a material taking mechanism positioned above the material ejecting mechanism, and the lower die assemblies sequentially enter the position between the material ejecting mechanism and the material taking mechanism under the driving of the rotating mechanism.)

1. A bath ball production device is characterized in that: the forming device comprises a forming device (1) and a feeding device (2) used for feeding the forming device (1), wherein the forming device (1) comprises a rotating mechanism (11), a plurality of lower die assemblies (12), an upper die assembly (13) and a discharging mechanism (14), the lower die assemblies (12) which are uniformly distributed at intervals are arranged on the rotating mechanism (11), the lower die assemblies (12) sequentially enter the upper die assembly (13) under the driving of the rotating mechanism (11), the discharging mechanism (14) comprises an ejecting mechanism (141) and a material taking mechanism (142) positioned above the ejecting mechanism (141), the lower die assemblies (12) sequentially enter between the ejecting mechanism (141) and the material taking mechanism (142) under the driving of the rotating mechanism (11), and each lower die assembly (12) comprises a cylinder body (121) with an open upper end, a T-shaped hole (122) and a T-shaped ejector rod (123), the lower extreme of barrel (121) is equipped with T shape hole (122), be equipped with in T shape hole (122) rather than matched with T shape ejector pin (123), loading attachment (2) are including storage mechanism (21), discharge mechanism (22) and guide mechanism (23), discharge mechanism (22) are located the output of storage mechanism (21) for take out the raw materials in storage mechanism (21), the input of guide mechanism (23) is located the below of the output of discharge mechanism (22).

2. A bath ball production apparatus as claimed in claim 1, wherein: slewing mechanism (11) include step motor (111) and carousel (112), be equipped with carousel (112) in the axis of rotation of step motor (111), the lower extreme of carousel (112) is equipped with supporting wheel (113) with lower mould subassembly (12) one-to-one.

3. A bath ball production apparatus as claimed in claim 1, wherein: the upper die assembly (13) comprises an upper die cylinder (131) and an upper die (132) arranged at the lower end of a piston rod of the upper die cylinder (131).

4. A bath ball production apparatus as claimed in claim 1, wherein: the lower extreme of T shape ejector pin (123) is equipped with top (125), the cover is equipped with spring (124) on T shape ejector pin (123) between top (125) and barrel (121).

5. A bath ball production apparatus as claimed in claim 1, wherein: the material ejecting mechanism (141) is a driving cylinder.

6. A bath ball production apparatus as claimed in claim 1, wherein: the material taking mechanism (142) comprises a material taking cylinder (1421) and a pneumatic clamping jaw (1422), and the piston rod of the material taking cylinder (1421) is provided with the pneumatic clamping jaw (1422).

7. A bath ball production apparatus as claimed in claim 1, wherein: storage mechanism (21) include storage hopper (211), stirring motor (212), stirring rake (213) and two baffle (214), the upper end of storage hopper (211) is equipped with stirring motor (212), be equipped with stirring rake (213) that are located storage hopper (211) in the axis of rotation of stirring motor (212), the inside and outside both ends of the delivery outlet of storage hopper (211) all are equipped with baffle (214).

8. A bath ball production apparatus as claimed in claim 1, wherein: the discharging mechanism (22) comprises a conveying plate chain (221), a plurality of elastic blocking bodies (222) and a plurality of discharging mechanisms (223), the discharging mechanisms (223) which are uniformly distributed at intervals and pass through the space between the two blocking plates (214) are arranged on the conveying plate chain (221), and the elastic blocking bodies (222) are arranged between every two adjacent discharging mechanisms (223).

9. A bath ball production apparatus as claimed in claim 8, wherein: the elastic material blocking body (222) is internally provided with a supporting body (2221), the inner side of the baffle plate (214) is provided with a supporting groove (224) matched with the end part of the supporting body (2221), the discharging mechanism (223) comprises a box body (2231), a plate body (2232), a screw rod (2233) and a nut (2234), the bottom surface of the inner part of the box body (2231) is provided with the screw rod (2233), the screw rod (2233) is provided with the nut (2234), the nut (2234) is provided with a rotatable plate body (2232), and the peripheral surface of the plate body (2232) is provided with a sealing ring (2235).

10. A bath ball production apparatus as claimed in any one of claims 1 to 9, wherein: the material guiding mechanism (23) comprises a material receiving hopper (231) and a material guiding pipe (232) arranged at the output end of the material receiving hopper (231).

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of bath salt balls, in particular to the technical field of bath salt ball production devices.

[ background of the invention ]

The bath salt ball is also called as an explosion bath salt ball and a bubble bomb, and the use process of the bath salt ball is like the visual sense that a super large vitamin C effervescent tablet is thrown into a bathtub and quickly soaked. The common bath salt is mainly composed of natural land salt, natural sea salt, mineral substances, vegetable essential oil and other components, and the explosion bath salt ball is additionally added with sodium bicarbonate and citric acid, so that the effervescent effect is generated when the explosion bath salt ball meets water. The main materials are citric acid and sodium bicarbonate, and surfactant and anticaking agent, as well as sodium sulfate, sodium chloride, etc. are added. Can be dissolved in water quickly.

At present, the existing bath ball processing and forming device has large manual workload and low working efficiency.

[ summary of the invention ]

The invention aims to solve the problems in the prior art, and provides a bath ball production device which can reduce the manual workload and improve the working efficiency.

In order to achieve the purpose, the invention provides a bath ball production device which comprises a forming device and a feeding device used for feeding the forming device, wherein the forming device comprises a rotating mechanism, a plurality of lower die components, an upper die component and a discharging mechanism, the rotating mechanism is provided with the lower die components which are uniformly distributed at intervals, the lower die components sequentially enter the position right below the upper die component under the driving of the rotating mechanism, the discharging mechanism comprises a material ejecting mechanism and a material taking mechanism positioned above the material ejecting mechanism, the lower die components sequentially enter the position between the material ejecting mechanism and the material taking mechanism under the driving of the rotating mechanism, the lower die components comprise a cylinder body with an open upper end, a T-shaped hole and a T-shaped ejector rod, the lower end of the cylinder body is provided with the T-shaped hole, the T-shaped ejector rod matched with the T-shaped hole is arranged in the T-shaped hole, the feeding device comprises a material storing mechanism, a discharging mechanism and a material guiding mechanism, the discharging mechanism is located at the output end of the material storing mechanism and used for taking out raw materials in the material storing mechanism, and the input end of the material guiding mechanism is located below the output end of the discharging mechanism.

Preferably, the rotating mechanism comprises a stepping motor and a turntable, the turntable is arranged on a rotating shaft of the stepping motor, and supporting wheels in one-to-one correspondence with the lower die assemblies are arranged at the lower end of the turntable.

Preferably, the upper die assembly comprises an upper die cylinder and an upper die arranged at the lower end of a piston rod of the upper die cylinder.

Preferably, the lower end of the T-shaped ejector rod is provided with an ejector head, and a spring is sleeved on the T-shaped ejector rod between the ejector head and the barrel.

Preferably, the material ejecting mechanism is a driving cylinder.

Preferably, the material taking mechanism comprises a material taking cylinder and a pneumatic clamping jaw, and the piston rod of the material taking cylinder is provided with the pneumatic clamping jaw.

Preferably, the storage mechanism comprises a storage hopper, a stirring motor, a stirring paddle and two baffles, the stirring motor is arranged at the upper end of the storage hopper, the stirring paddle located in the storage hopper is arranged on a rotating shaft of the stirring motor, and the baffles are arranged at the inner end and the outer end of an output port of the storage hopper.

Preferably, the discharging mechanism comprises a conveying plate chain, a plurality of elastic material blocking bodies and a plurality of discharging mechanisms, the conveying plate chain is provided with the discharging mechanisms which are uniformly distributed at intervals and pass through the two baffles, and the elastic material blocking bodies are arranged between every two adjacent discharging mechanisms.

Preferably, be equipped with the supporter in the elasticity keeps off the material body, the inboard of baffle all is equipped with the tip matched with support groove with the supporter, discharge mechanism includes box body, plate body, screw rod and nut, the inside bottom surface of box body is equipped with the screw rod, be equipped with the nut on the screw rod, be equipped with rotatable plate body on the nut, the global sealing washer that is equipped with of plate body.

Preferably, the material guiding mechanism comprises a material receiving hopper and a material guiding pipe arranged at the output end of the material receiving hopper.

The invention has the beneficial effects that: according to the invention, the forming device is loaded through the loading device, the rotating mechanism drives the lower die assemblies to sequentially enter the lower part of the upper die assembly, the upper die assembly performs extrusion forming on raw materials in the corresponding lower die assembly, and simultaneously, the formed products in the corresponding lower die assemblies are taken out through the matching of the material ejecting mechanism and the material taking mechanism.

The design of the discharging mechanism 22 can adjust the loading capacity as required, and has the advantages of good adaptability, good discharging stability, small error, simple structure and convenient use.

The features and advantages of the present invention will be described in detail by embodiments in conjunction with the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a schematic structural view of a bath ball production apparatus according to the present invention;

FIG. 2 is a schematic view of the construction of the lower die assembly;

FIG. 3 is a partial top view of the molding apparatus;

FIG. 4 is a schematic structural diagram of a feeding device;

fig. 5 is a partial plan view of the loading device.

In the figure: 1-forming device, 2-feeding device, 11-rotating mechanism, 12-lower die component, 13-upper die component, 14-discharging mechanism, 111-stepping motor, 112-turntable, 113-supporting wheel, 121-cylinder, 122-T-shaped hole, 123-T-shaped ejector rod, 124-spring, 125-ejector head, 131-upper die cylinder, 132-upper die, 141-ejecting mechanism, 142-material-taking mechanism, 151-stepping conveyer belt, 152-material-placing seat, 1421-material-taking cylinder, 1422-pneumatic clamping jaw, 21-material-storing mechanism, 22-discharging mechanism, 23-material-guiding mechanism, 211-material-storing hopper, 212-stirring motor, 213-stirring paddle, 214-baffle, 221-conveying plate chain, 222-elastic baffle body, 223-a discharging mechanism, 2221-a supporting body, 2222-a supporting groove, 2231-a box body, 2232-a plate body, 2233-a screw rod, 2234-a nut, 2235-a sealing ring, 231-a receiving hopper and 232-a material guide pipe.

[ detailed description ] embodiments

Referring to fig. 1, 2, 3, 4 and 5, the bath ball production apparatus of the present invention includes a forming apparatus 1 and a feeding apparatus 2 for feeding the forming apparatus 1, the forming apparatus 1 includes a rotating mechanism 11, a plurality of lower mold assemblies 12, an upper mold assembly 13 and a discharging mechanism 14, the rotating mechanism 11 is provided with the lower mold assemblies 12 uniformly distributed at intervals, the lower mold assemblies 12 are driven by the rotating mechanism 11 to sequentially enter under the upper mold assembly 13, the discharging mechanism 14 includes a material ejecting mechanism 141 and a material taking mechanism 142 located above the material ejecting mechanism 141, the lower mold assemblies 12 are driven by the rotating mechanism 11 to sequentially enter between the material ejecting mechanism 141 and the material taking mechanism 142, the lower mold assemblies 12 include a cylinder 121 with an open upper end, a T-shaped hole 122 and a T-shaped ejector rod 123, the lower end of the cylinder 121 is provided with a T-shaped hole 122, the T-shaped ejector rod 123 matched with the cylinder 121 is provided in the T-shaped hole, the feeding device 2 comprises a material storing mechanism 21, a material discharging mechanism 22 and a material guiding mechanism 23, wherein the material discharging mechanism 22 is located at the output end of the material storing mechanism 21 and used for taking out raw materials in the material storing mechanism 21, the input end of the material guiding mechanism 23 is located below the output end of the material discharging mechanism 22, the rotating mechanism 11 comprises a stepping motor 111 and a turntable 112, the turntable 112 is arranged on the rotating shaft of the stepping motor 111, supporting wheels 113 which are in one-to-one correspondence with the lower die assemblies 12 are arranged at the lower end of the turntable 112, the upper die assembly 13 comprises an upper die cylinder 131 and an upper die 132 arranged at the lower end of a piston rod of the upper die cylinder 131, a top 125 is arranged at the lower end of a T-shaped ejector rod 123, a spring 124 is sleeved on the T-shaped ejector rod 123 between the top 125 and a cylinder body 121, the top mechanism 141 is a driving cylinder, and the material taking mechanism 142 comprises a material taking cylinder 1421 and a pneumatic clamping jaw 1422, the piston rod of the material taking cylinder 1421 is provided with a pneumatic clamping jaw 1422, the material storing mechanism 21 includes a material storing hopper 211, a stirring motor 212, a stirring paddle 213 and two baffles 214, the upper end of the material storing hopper 211 is provided with the stirring motor 212, the rotating shaft of the stirring motor 212 is provided with the stirring paddle 213 positioned in the material storing hopper 211, the inner end and the outer end of the output port of the material storing hopper 211 are provided with the baffles 214, the material discharging mechanism 22 includes a conveying plate chain 221, a plurality of elastic material blocking bodies 222 and a plurality of material discharging mechanisms 223, the conveying plate chain 221 is provided with the material discharging mechanisms 223 which are uniformly distributed at intervals and pass through the two baffles 214, the elastic material blocking bodies 222 are arranged between the two adjacent material discharging mechanisms 223, the elastic material blocking bodies 222 are internally provided with supporting bodies 2221, the inner sides of the baffles 214 are provided with supporting grooves 224 matched with the end portions of the supporting bodies 2221, and the material discharging mechanisms 223 include box bodies 2231, The material guide device comprises a plate body 2232, a screw rod 2233 and a nut 2234, wherein the screw rod 2233 is arranged on the bottom surface inside the box body 2231, the nut 2234 is arranged on the screw rod 2233, the rotatable plate body 2232 is arranged on the nut 2234, a sealing ring 2235 is arranged on the peripheral surface of the plate body 2232, and the material guide mechanism 23 comprises a material receiving hopper 231 and a material guide pipe 232 arranged at the output end of the material receiving hopper 231.

The working process of the invention is as follows:

during the operation of the bath ball production device, when the forming device 1 works, the upper die air cylinder 131 pushes the upper die 132 to move downwards to enter the cylinder 121 to extrude raw materials in the cylinder 121, the cylinder 121 from which a formed product is taken out is fed and the formed product in the corresponding cylinder 121 is taken out through the matching of the material ejecting mechanism 141 and the material taking mechanism 142, after the operation is completed, the stepping motor 111 drives the disc 112 to rotate step by step to enable the fed cylinder 121 to enter the upper die assembly 13 to be formed, the cylinder 121 from which the formed product is taken out enters the output end of the material guide pipe 232 to be fed, and the cylinder 121 with the formed product therein enters the material taking mechanism 14 to be taken out.

When the discharging mechanism 14 works, the ejecting mechanism 141 pushes the T-shaped ejector rod 123 to move upwards, the T-shaped ejector rod 123 pushes the molded product to move upwards until the upper end of the T-shaped ejector rod 123 is flush with the upper end of the cylinder 121, then the pneumatic clamping jaws 1422 are started to clamp the molded product, then the material taking cylinder 1421 pushes the pneumatic clamping jaws 1422 to move backwards, the pneumatic clamping jaws 1422 drive the molded product to enter the upper side of the corresponding material placing seat 152, then the pneumatic clamping jaws 1422 are loosened, the molded product falls on the corresponding material placing seat 152, then the material taking cylinder 1421 drives the pneumatic clamping jaws 1422 to return, and the conveyer belt 151 rotates step by step to move to bring the next material placing seat 152 into the material receiving position.

When the feeding device 2 works, the conveying plate chain 221 moves step by step, the conveying plate chain 221 drives the box 2231 to pass through the storage hopper 211, raw materials in the storage hopper 211 enter the box 2231, the raw materials entering the box 2231 move backwards along with the box 2231, and when the box 2231 is turned over under the driving of the conveying plate chain 221, the raw materials in the box 2231 fall into the receiving hopper 231 and finally enter the corresponding cylinder 121 through the material guide pipe 232.

The stirring motor 212 drives the stirring paddle 213 to stir the raw material in the storage hopper 211, so that the raw material can better enter the output end of the storage hopper 211.

By rotating the nut 2234 clockwise or counterclockwise, the nut 2234 drives the plate 2232 to move upward or downward, thereby adjusting the loading amount of the box 2231.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.