CN218195331U - Golden shallot powder production is with cutting device - Google Patents

Abstract

The utility model provides a golden shallot powder production is with cutting device, include the organism and all install unwinding mechanism, guide roll mechanism, tensioning roller mechanism, bundling mechanism and winding mechanism on the organism, bundling mechanism is including cutting the pole and cutting the subassembly, it includes slide rail and adjustable cutter to cut the subassembly, the cutter includes location module, jacking module and blade with adjustable, the location module is installed on the slide rail, the jacking module is installed on the location module, the blade is installed on the jacking module, works as during jacking module drive blade upward movement, the cutting edge laminating of blade is cutting under the pole. Through the utility model discloses can conveniently adjust the position of blade, improve production efficiency.

Description

Golden shallot powder production is with cutting device

Technical Field

The utility model relates to a gold spring onions powder processing technology field specifically is a gold spring onions powder production is with cutting device.

Background

Glitter powder is as improving the hi-lite material of product added value, it can improve the vividness of product color and luster, also can change the color and be the look effect, glitter powder includes the basement membrane, before processing the basement membrane, need be cut into the great big basement membrane branch of width into the less little basement membrane of multistage width, among the prior art, the processing of cutting of basement membrane is accomplished through general guillootine, need adjust the little basement membrane in order to surely go out other width specifications to the blade position of guillootine sometimes, this blade passes through the bolt fastening on the guillootine, make the inconvenient adjustment in position of blade, production efficiency reduces, consequently, need research and development a glitter powder production with cutting device.

Disclosure of Invention

An object of the utility model is to provide a golden shallot powder production is with cutting device to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a glitter powder production is with cutting device, includes the organism and all installs unwinding mechanism, guide roll mechanism, tensioning roller mechanism, bundling mechanism and winding mechanism on the organism, bundling mechanism is including cutting the pole and cutting the subassembly, cut the subassembly and include slide rail and adjustable cutter, the cutter includes location module, jacking module and blade with adjustable, the location module is installed on the slide rail, location module 4221 is used for locking current position in order to fix on the slide rail and can be used to carry out the unblock in order to slide on the slide rail current position, the jacking module is installed on the location module, the blade is installed on the jacking module, works as during jacking module drive blade upward movement, the cutting edge laminating of blade is under cutting the pole.

Further, the positioning module comprises a sliding seat, a left compression piston and a right compression piston, a sliding groove, a first left through hole and a first right through hole are formed in the sliding seat, the sliding groove is slidably connected to the sliding rail, the lower ends of the first left through hole and the first right through hole are communicated with the sliding groove, the upper ends of the first left through hole and the first right through hole are communicated with the jacking module, the first left through hole and the first right through hole are respectively sleeved outside the left compression piston and the right compression piston, and the left compression piston and the right compression piston are both attached to the sliding rail.

Further, the jacking module includes cylinder body, left piston cover, right piston cover, left piston rod, right piston rod and blade support, seted up gas circuit, left side down hole, right side down hole, upper left hole and upper right hole in the cylinder body, the lower extreme of hole and right side down all establishes outside left piston cover and right piston cover with the gas circuit intercommunication and respectively the cover, left side piston cover and right piston cover establish respectively outside the lower extreme of left piston rod and right piston rod, the lower extreme of upper left hole and upper right hole is linked together and establishes respectively outside left piston rod and right piston rod with the upper end of hole and right side down hole respectively under a left side, the blade support is installed between the upper end of left piston rod and right piston rod.

Further, still include piston rod orientation module, piston rod orientation module includes upper cover, the tight piston in left top and the tight piston in right top, the upper cover is opened and is equipped with Y axial air flue, X axial passage and left through-hole two and right through-hole two, X axial passage and Y axial air flue are linked together, the tight piston in left top and the tight piston in right top equal sliding connection just set up with left piston rod and right piston rod respectively in X axial passage, the lower extreme of left through-hole two and right through-hole two all is linked together with X axial passage and overlaps respectively and establish outside left piston rod and right piston rod.

The adjustable cutting knife mechanism further comprises a linear moving mechanism, the sliding rail is mounted on the machine body through the linear moving mechanism, and the linear moving mechanism drives the sliding rail to drive the adjustable cutting knife to move along the Y-axis direction.

The utility model has the advantages that:

when the position of the blade needs to be adjusted, the current position is unlocked through the positioning module, the positioning module can slide, then the positioning module is driven manually to move on the sliding rail, the position of the adjustable cutter is adjusted, after the adjustment is completed, the current position is locked through the positioning module, then the jacking module drives the blade to move upwards, the cutting edge of the blade is attached to the lower portion of the slitting rod, and the preparation work is completed.

When cutting, unreel to big basement membrane material book through unwinding mechanism, lead to the big basement membrane material area that big basement membrane material book was played through guide roll mechanism, through tensioning roller mechanism to big basement membrane material area tensioning, big basement membrane material area passes the blade and cuts between the pole, cuts into the little basement membrane material area of different width specifications with big basement membrane material area through the blade, at last rolls up little basement membrane material area through winding mechanism in unison.

Compared with the prior art, through the utility model discloses can conveniently adjust the position of blade, improve production efficiency.

Drawings

FIG. 1: a schematic view of a slitting device for glitter powder production.

FIG. 2: a schematic view of a slitting component of a slitting device for glitter powder production.

FIG. 3: a left-view schematic diagram of a slitting assembly of a slitting device for glitter powder production.

FIG. 4 is a schematic view of: a main section schematic view of a slitting component of a slitting device for glitter powder production.

FIG. 5: a schematic front view of a sliding seat of a slitting device for glitter powder production.

FIG. 6: a schematic front view of a cylinder body of a slitting device for glitter powder production.

FIG. 7: a schematic view of an upper cover of a slitting device for glitter powder production.

FIG. 8: a left-view section schematic diagram of a slitting component of a slitting device for glitter powder production.

Detailed Description

The invention is further explained below with reference to the drawings:

referring to fig. 1 to 3, a glitter powder production slitting device includes a body, an unwinding mechanism 1, a guide roller mechanism 2, a tension roller mechanism 3, a bundling mechanism 4, and a winding mechanism 5, all of which are mounted on the body, the bundling mechanism 4 includes a slitting rod 41 and a slitting assembly 42, the slitting assembly 42 includes a sliding rail 421 and an adjustable cutter 422, the unwinding mechanism 1 and the winding mechanism 5 are driven by a driving mechanism, the adjustable cutter 422 includes a positioning module 4221, a jacking module 4222, and a blade 4223, the positioning module 4221 is mounted on the sliding rail 421, the positioning module 4221 is used for locking a current position to be fixed on the sliding rail 421 and unlocking the current position to slide on the sliding rail 421, the jacking module 4222 is mounted on the positioning module 4221, the blade 4223 is mounted on the jacking module 4222, and when the jacking module 4222 drives the blade 4223 to move upward, a blade of the blade 4223 fits under the slitting rod 41.

Referring to fig. 2, 4 and 5, the positioning module 4221 comprises a sliding seat 4221-1, a left pressing piston 4221-2 and a right pressing piston 4221-3, the sliding seat 4221-1 is provided with a sliding groove 4221-11, a left through hole 4221-12 and a right through hole 4221-13, the sliding groove 4221-11 can be connected to the sliding rail 421 in a sliding mode, the lower ends of the left through hole 4221-12 and the right through hole 4221-13 are communicated with the sliding groove 4221-11, the upper ends of the inside of the left through hole 4221-12 and the inside of the right through hole 4221-13 are communicated with the jacking module 4222, the left through hole 4221-12 and the right through hole 4221-13 are sleeved outside the left pressing piston 4221-2 and the right pressing piston 4221-3 respectively, and the left pressing piston 4221-2 and the right pressing piston 4221-3 are attached to the sliding rail 421.

Referring to fig. 2, 4 and 6, the jacking module 4222 comprises a cylinder 4222-1, a left piston sleeve 4222-2, a right piston sleeve 4222-3, a left piston rod 4222-4, a right piston rod 4222-5 and a blade support 4222-6, a gas circuit 4222-11, a left lower inner hole 4222-12, a right lower inner hole 4222-13, a left upper inner hole 4222-14 and a right upper inner hole 4222-15 which are axially and coaxially in the Z axial direction are arranged in the cylinder 4222-1, the lower ends of the left lower inner hole 4222-12 and the right lower inner hole 4222-13 are communicated with the gas circuit 4222-11 and are respectively sleeved outside the left piston sleeve 4222-2 and the right piston sleeve 4222-3, the lower ends of the left piston rod 4222-4 and the right piston rod 4222-5 are respectively sleeved outside the left lower end of the left piston sleeve 4222-4 and the right piston sleeve 4222-3, the lower ends of the left upper inner hole 4222-14 and the right upper inner hole 4222-15 are respectively communicated with the upper inner hole 4212 and the upper end of the left lower inner hole 4222-12 and the right piston rod 4222-4-5, and the upper end of the left piston rod 4222-424-425 is respectively sleeved outside the right piston rod 4222-425, and the upper end of the left piston rod 4222-425 is respectively arranged between the left piston rod 424-424 and the right piston rod 425.

The pneumatic control system comprises a first air nozzle, a first air pipe, a first electromagnetic valve, a second air pipe, a first pressure regulating valve and a third air pipe, the outer end of an air path 4222-11 is communicated with the first air source through the first air nozzle, the first air pipe, the first electromagnetic valve, the second air pipe, the first pressure regulating valve and the third air pipe, when the blade 4223 needs to move upwards, the first electromagnetic valve is opened, the first air source supplies air, air pressure in the cylinder 4222-1 is increased, under the pressurization effect, the left piston sleeve 4222-2 and the right piston sleeve 4222-3 respectively drive the left piston rod 4222-4 and the right piston rod 4222-5 to move upwards, the blade support 4222-6 is enabled to move upwards in linkage with the blade 4223, and meanwhile, the left pressing piston 4221-2 and the right pressing piston 4221-3 are both pressed on the sliding rail 421, and the sliding seat 4221-1 is locked on the sliding rail 421;

when the blade 4223 needs to move downwards, the air source I exhausts air to reduce the air pressure in the cylinder 4222-1, under the action of pressure reduction, the left piston sleeve 4222-2 and the right piston sleeve 4222-3 respectively drive the left piston rod 4222-4 and the right piston rod 4222-5 to move downwards, the blade support 4222-6 is enabled to be linked with the blade 4223 to move downwards, meanwhile, the left pressing piston 4221-2 and the right pressing piston 4221-3 release pressing force on the sliding rail 421, and the sliding seat 4221-1 can slide on the sliding rail 421.

Referring to fig. 2, 4 and 7, the piston rod positioning module is further included and is used for tightly jacking the left piston rod 4222-4 and the right piston rod 4222-5 to position the left piston rod 4222-4 and the right piston rod 4222-5, the piston rod positioning module includes an upper cover 4222-7, a left tightly-jacking piston 4222-8 and a right tightly-jacking piston 4222-9, the upper cover 4222-7 is provided with a Y axial air passage 4222-71, an X axial passage 4222-72, a left through hole II 4222-73 and a right through hole II 4222-74, the X axial passage 4222-72 is communicated with the Y axial air passage 4222-71, the left tightly-jacking piston 4222-8 and the right tightly-jacking piston 4222-9 can be connected in the X axial passage 4222-72 in a sliding mode and are arranged opposite to the left piston rod 4222-4 and the right piston rod 4222-5 respectively, the lower ends of the left through hole II 4222-73 and the right through hole II 4222-74 are communicated with the X axial passage 4222-72 and are sleeved outside the left piston rod 4222-4 and the right piston rod 4222-5 respectively.

The pneumatic control system II comprises a second air nozzle, a fourth air pipe, a second electromagnetic valve, a fifth air pipe, a second pressure regulating valve and a sixth air pipe, the outer end of the Y-axis air passage 4222-71 passes through the second air nozzle, the fourth air pipe, the second electromagnetic valve, the fifth air pipe, the second pressure regulating valve and the sixth air pipe in sequence, after the blade 4223 rises, the second electromagnetic valve is opened, the second air pipe supplies air, the air pressure in the X-axis channel 4222-72 is increased, under the pressurization effect, the left tightening piston 4222-8 and the right tightening piston 4222-9 move back to back along the X-axis direction and respectively tighten the left piston rod 4222-4 and the right piston rod 4222-5, and the left piston rod 4222-4 and the right piston rod 4222-5 are positioned.

Referring to fig. 1 to 3, the film cutting machine further includes a linear moving mechanism 423, the sliding rail 421 is mounted on the machine body through the linear moving mechanism 423, the linear moving mechanism 423 drives the sliding rail 421 to drive the adjustable cutter 422 to move along the Y axis direction, so as to adjust the position of the cutting assembly 42 in the front-back direction, and conveniently adapt to a large film roll with a changed width.

The winding mechanism 1, the winding mechanism 5, the first electromagnetic valve, the first air source, the second electromagnetic valve, the second air source and the linear moving mechanism 423 are electrically connected with the control mechanism and are controlled through the control mechanism, and the winding mechanism 1, the first electromagnetic valve, the first air source, the second electromagnetic valve, the second air source, the linear moving mechanism 423 and the control mechanism are electrically connected with the power supply.

The working principle is as follows:

in this embodiment, five sets of adjustable cutters 422 are provided, and when the positions of five blades 4223 need to be adjusted respectively to produce six small basement membranes with different width specifications, the current positions of the five sets of adjustable cutters 422 are unlocked respectively by the positioning modules 4221, so that the positioning modules 4221 can slide, at this time, the five sets of adjustable cutters 422 are manually driven to move on the slide rails 421 to adjust the positions of the five sets of adjustable cutters 422, after the adjustment is completed, the current positions of the five sets of adjustable cutters 422 are locked respectively by the positioning modules 4221, and then the jacking modules 4222 of the five sets of adjustable cutters 422 synchronously move upwards, so that the blades of the five blades 4223 are attached under the slitting bars 41, and the preparation work is completed.

When cutting, unreel to big basement membrane material book through unwinding mechanism 1, lead to the big basement membrane material area that big basement membrane material book was played through guide roll mechanism 2, through tensioning roller mechanism 3 tensioning big basement membrane material area, big basement membrane material area passes five blades 4223 and cuts between the pole 41, cuts into six little basement membrane material areas of different width specifications with big basement membrane material area through five blades 4223, rolls up six little basement membrane material areas through winding mechanism 5 in unison at last, finally produces six kinds of little basement membrane material rolls of different width specifications.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (5)

1. The utility model provides a golden shallot powder production is with cutting device which characterized in that: including the organism and all install unwinding mechanism, guide roll mechanism, tensioning roller mechanism, bundling mechanism and winding mechanism on the organism, bundling mechanism is including cutting the pole and cutting the subassembly, cut the subassembly and include slide rail and adjustable cutter, adjustable cutter includes location module, jacking module and blade, the location module is installed on the slide rail, the jacking module is installed on the location module, the blade is installed on the jacking module, works as during jacking module drive blade upward movement, the cutting edge laminating of blade is cutting under the pole.

2. The slitting device for glitter powder production according to claim 1, which is characterized in that: the positioning module comprises a sliding seat, a left compression piston and a right compression piston, a sliding groove, a first left through hole and a first right through hole are formed in the sliding seat, the sliding groove is slidably connected to the sliding rail, the lower ends of the first left through hole and the first right through hole are communicated with the sliding groove, the upper ends of the first left through hole and the first right through hole are communicated with the jacking module, the first left through hole and the first right through hole are respectively sleeved outside the left compression piston and the right compression piston, and the left compression piston and the right compression piston are both attached to the sliding rail.

3. The glitter powder production slitting device of claim 1, wherein the glitter powder slitting device comprises: the jacking module includes cylinder body, left piston cover, right piston cover, left piston rod, right piston rod and blade support, seted up gas circuit, left side down hole, right side down hole, upper left hole and upper right hole in the cylinder body, the lower extreme of hole and right side down hole all establishes outside left piston cover and right piston cover with the gas circuit intercommunication and respectively the cover, left side piston cover and right piston cover establish respectively outside the lower extreme of left piston rod and right piston rod, the lower extreme of upper left hole and upper right hole is linked together and establishes respectively outside left piston rod and right piston rod with the upper end of hole and right side down hole under a left side respectively, the blade support mounting is between the upper end of left piston rod and right piston rod.

4. The glitter powder production slitting device of claim 3, wherein the glitter powder slitting device comprises: still include piston rod orientation module, piston rod orientation module includes upper cover, the tight piston in left top and the tight piston in right top, the upper cover is opened and is equipped with Y axial air flue, X axial passage and left through-hole two and right through-hole two, X axial passage and Y axial air flue are linked together, the equal slidable connection in X axial passage of the tight piston in left top and right top just sets up with left piston rod and right piston rod respectively relatively, the lower extreme of left side through-hole two and right through-hole two all is linked together with X axial passage and overlaps respectively and establish outside left piston rod and right piston rod.

5. The glitter powder production slitting device of claim 1, wherein the glitter powder slitting device comprises: the adjustable cutting knife is characterized by further comprising a linear moving mechanism, the sliding rail is mounted on the machine body through the linear moving mechanism, and the linear moving mechanism drives the sliding rail to drive the adjustable cutting knife to move along the Y axial direction.

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