CN113071040A - Gumming device for producing medical protective butyronitrile gloves - Google Patents

Abstract

The invention discloses a dipping device for producing medical protective butyronitrile gloves, which comprises: the hand mould glue dipping machine comprises a conveying rod, a conveying track and a glue dipping pool, wherein the glue dipping pool is located at the lower end of a hand mould and used for dipping the hand mould. And the lifting mechanisms are positioned on two sides of the dipping glue tank and comprise fixing seats, second cylinders and supporting pieces at the lower ends of the conveying rods. This gumming device of medical protection butyronitrile gloves of production simple structure, design benefit can mix glue through promotion part and the mixed flow room in the gumming pond and stir glue for glue is even from top to bottom, guarantees that glue can not solidify.

Description

Gumming device for producing medical protective butyronitrile gloves

Technical Field

The invention relates to the technical field of butyronitrile gloves, in particular to a gum dipping device for producing medical protective butyronitrile gloves.

Background

The butyronitrile gloves in the prior art are mainly processed by the butyronitrile rubber, have the advantages of avoiding protein allergy, being light and thin in wall thickness, comfortable to wear, rich in elasticity and good in waterproof performance, are widely used in the industries of medical treatment, sanitation, hairdressing and beauty, food processing and the like, effectively prevent cross infection and protect hands.

However, the existing butyronitrile gloves have the advantages that the structure of the glue dipping pool adopted in the manufacturing process is simple, the internal structure is small, glue in the glue dipping pool cannot be stirred well, and therefore needed glue is solidified, not only is glue wasted, but also the work progress is slowed down.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a gum dipping device for producing medical protective butyronitrile gloves.

The technical scheme of the invention is realized as follows:

a gumming device for producing medical protective butyronitrile gloves, comprising:

a transfer bar having a plurality of hand molds thereon;

the conveying rails are positioned at two ends of the conveying rod and used for supporting the conveying rod and conveying the conveying rod to different positions;

the glue dipping tank is positioned at the lower end of the hand mould and used for dipping the hand mould, one end of the glue dipping tank is provided with a stroke cylinder, the other end of the glue dipping tank is provided with an installation cylinder, the stroke cylinder and the installation cylinder are communicated with the inside of the glue dipping tank, the outside of the installation cylinder is provided with a motor, the motor is provided with a rotating piece, the rotating piece is arranged in the installation cylinder, the middle of the glue dipping tank is provided with a first push rod and a second push rod, the first push rod and the second push rod are provided with a plurality of pushing components, one end of the first push rod and one end of the second push rod are provided with a first spring, the other end of the first push rod and one end of the second push rod are fixed with a sliding block, the fixed sliding block is arranged on the inner wall of the glue dipping tank, one end of the first spring is contacted with the inner wall of the glue dipping tank, the other end of the first push rod and the second push, the lower end of the dipping pool is provided with a first air cylinder;

the pushing component comprises an extrusion part and a guide part, the guide part is positioned at the upper end of the extrusion part, the inner wall of the glue dipping pool is provided with a glue collecting part, the extrusion part is arranged in the glue collecting part, the lower end of the glue dipping pool is provided with a flow mixing chamber, and the lower end of the glue collecting part is provided with a flow guide hole communicated with the flow mixing chamber;

the lifting mechanism is positioned on two sides of the rubber dipping pool and at the lower end of the conveying rod, the lifting mechanism comprises a fixed seat, a second air cylinder and a supporting piece, the second air cylinder is installed on the fixed seat, a supporting block is arranged on the second air cylinder and positioned at the upper end of the fixed seat, a limiting cylinder is arranged on the fixed seat, a second spring is arranged in the middle of the limiting cylinder, the supporting piece comprises a supporting part and a limiting part, the supporting part is installed on the second spring through the supporting part and positioned on two sides of the limiting part, a limiting opening is formed in the middle of the limiting part, the conveying rod is arranged in the limiting opening, a limiting sleeve is arranged at the lower end of the supporting piece, the supporting block is arranged in the limiting sleeve, a third spring is arranged at the upper end of the supporting block, a fourth spring is arranged at the lower end of the supporting block, and the third spring and the fourth spring are, the lower end of the fourth spring is in contact with the fixed seat.

In the invention, the glue dipping device further comprises a limiting mechanism, the limiting mechanism comprises a third air cylinder, a mounting seat and a sliding plate, the lower end of the glue dipping pool is provided with a supporting leg, the supporting leg is provided with a first limiting rod, the third air cylinder is provided with a second limiting rod, the mounting seat is provided with a sliding groove, the sliding plate is provided with a sliding part, the sliding plate is mounted in the sliding groove through the sliding part, the sliding plate is further provided with a first guide hole and a second guide hole, the first guide hole is provided with a clamping part, the second guide hole is provided with a releasing part, the mounting seat is provided with a third guide hole and a fourth guide hole, the first limiting rod is arranged in the first guide hole and the third guide hole, the second limiting rod is arranged in the second guide hole and the fourth guide hole, and the sliding plate is provided with a first fixing block and a sliding groove, the mounting seat is provided with a second fixed block, the second fixed block is arranged in the sliding groove, and the first fixed block and the second fixed block are connected through a fifth spring.

In the present invention, the width of the first guide hole is equal to the width of the second guide hole, the width of the third guide hole is equal to the width of the fourth guide hole, and the width of the first guide hole is twice as large as the width of the third guide hole.

In the invention, the rotating member is provided with an inclined plane, the first push rod is contacted with the thickest part of the inclined plane through a ball, and the second push rod is contacted with the thinnest part of the inclined plane through a ball.

In the invention, two side surfaces of the guide piece are cambered surfaces, the cambered surfaces extend from the upper end surface to the lower end surface, and the width of the upper end of the guide piece is greater than that of the lower end of the guide piece.

In the invention, the cross section of the extrusion piece is in an inverted right trapezoid shape, one end surface of the extrusion piece is an inclined surface, a plurality of diversion grooves are formed on the inclined surface, and the lower ends of the diversion grooves penetrate through the extrusion piece.

In the invention, the bottom surface of the mixing chamber is provided with a flow guide piece, the flow guide piece is provided with a flow guide surface for guiding flow from two ends to the middle, and the flow guide surface is arc-shaped.

In the invention, the caliber of the flow guide hole at the lower end of the glue collecting piece is larger than that of the flow guide hole at the mixed flow chamber.

The gum dipping device for producing the medical protective butyronitrile gloves has the following beneficial effects that: this gumming device of medical protection butyronitrile gloves of production simple structure, design benefit can mix glue through promotion part and the mixed flow room in the gumming pond and stir glue for glue is even from top to bottom, guarantees that glue can not solidify.

Meanwhile, the hand model after being soaked with the glue can be shaken through the lifting mechanism, redundant glue is shaken off, the time for the redundant glue to fall off is shortened, and the working efficiency is improved.

And can carry out spacingly through stop gear to the steeping vat, prevent that first cylinder from appearing urgent problem and making the steeping vat drop and take place the accident.

Drawings

FIG. 1 is a schematic structural diagram of a gum dipping device for producing medical protective butyronitrile gloves, which is disclosed by the invention;

FIG. 2 is a schematic diagram of the lifting mechanism of FIG. 1;

FIG. 3 is a cross-sectional view of the second cylinder, support member and stop collar of FIG. 2;

FIG. 4 is a schematic structural view of the glue dipping tank and the limiting mechanism in FIG. 1;

FIG. 5 is a schematic diagram of the structure of the dipping tank in FIG. 4;

FIG. 6 is a top view of FIG. 5;

FIG. 7 is a cross-sectional view taken along line A-A of FIG. 6;

FIG. 8 is a cross-sectional view of the dip tank of FIG. 5;

FIG. 9 is a partial enlarged view of FIG. 8 taken at point B;

FIG. 10 is a schematic view showing the internal structure of the dipping tank in FIG. 5;

FIG. 11 is a schematic view of the pushing member of FIG. 10;

FIG. 12 is a schematic view of the extrusion configuration of FIG. 11;

FIG. 13 is a schematic structural view of the limiting mechanism in FIG. 4;

FIG. 14 is another schematic view of the structure of FIG. 13;

fig. 15 is an exploded view of fig. 13.

In the figure: the device comprises a conveying rod 1, a hand model 2, a conveying track 3, a notch 4, a glue dipping pool 5, a stroke cylinder 6, a mounting cylinder 7, a motor 8, a rotating part 9, a first push rod 10, a second push rod 11, a pushing part 12, a fixed sliding block 14, a first spring 15, a ball 16, an inclined plane 17, a first air cylinder 18, an extrusion part 19, a guide part 20, an arc surface 21, an inclined plane 23, a guide groove 24, a glue collecting part 25, a mixed flow chamber 26, a guide hole 27, a guide part 28, a guide plane 29, a lifting mechanism 30, a fixed seat 31, a second air cylinder 32, a support part 33, a support block 34, a limiting cylinder 35, a second spring 36, a support part 37, a limiting part 38, a limiting port 39, a limiting sleeve 40, a third spring 41, a fourth spring 42, a limiting mechanism 43, a third air cylinder 44, a mounting seat 45, a sliding plate 46, a supporting foot 47, a first limiting rod 48, a second limiting rod 49, a sliding grooves 50, The first guide hole 52, the second guide hole 53, the blocking portion 54, the releasing portion 55, the third guide hole 56, the fourth guide hole 57, the first fixing block 58, the sliding groove 59, the second fixing block 60, and the fifth spring 61.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 15, the dipping apparatus for producing medical protective butyronitrile gloves of the invention comprises:

the conveying rod 1 is provided with a plurality of hand moulds 2.

And the conveying rails 3 are positioned at the two ends of the conveying rod 1, and are used for supporting the conveying rod 1 and conveying the conveying rod 1 to different positions. The transfer bar 1 does not roll on the transfer rail 3 but only moves, avoiding the rotation of the hand model 2. At the same time, a recess 4 is provided in the transport path 3, which recess 4 is provided for the transport rod 1 to pass through during the upward lifting.

And the glue dipping tank 5 is positioned at the lower end of the hand mould 2 and is used for dipping the hand mould 2. One end of the dipping pool 5 is provided with a stroke cylinder 6, the other end is provided with an installation cylinder 7, and the stroke cylinder 6 and the installation cylinder 7 are communicated with the inside of the dipping pool 5.

The motor 8 is arranged outside the mounting cylinder 7, the rotating part 9 is arranged on the motor 8, the motor 8 can drive the rotating part 9 to rotate, and the rotating part 9 is arranged in the mounting cylinder 7. The glue dipping pool 5 is provided with a first push rod 10 and a second push rod 11 in the middle, and the first push rod 10 and the second push rod 11 have the same structure. The first push rod 10 and the second push rod 11 are provided with a plurality of pushing components 12, the pushing components 12 are used for pushing glue in the glue dipping tank 5, the glue can be stirred to the lower end from the upper end, then the glue at the lower end is extruded and moves upwards, the glue inside the glue can move ceaselessly, and glue solidification is avoided.

One end of the first push rod 10 and one end of the second push rod 11 are provided with a first spring 15, the other end is fixed with a slide block 14, and the fixed slide block 14 is arranged on the inner wall of the dipping glue pool 5. One end of the first spring 15 is in contact with the inner wall of the dipping tank 5, and the other end is in contact with the pushing member 12. One end of the first push rod 10 and the second push rod 11 is placed in the stroke cylinder 6, and the other end is in contact with the rotary member 9 through the ball 16.

The rotating member 9 has a slope 17, the first push rod 10 contacts the thickest part of the slope 17 through the ball 16, and the second push rod 11 contacts the thinnest part of the slope 17 through the ball 16.

When the motor 8 drives the rotating member 9 to rotate, because the positions of the first push rod 10 and the second push rod 11 are different, when the thickest part of the rotating member 9 reaches the position of the first push rod 10, the thickest part of the rotating member 9 can push the first push rod 10, so that the other end of the first push rod 10 enters the stroke barrel 6, and the first spring 15 at the moment is extruded. The second push rod 11 is at the thinnest position of the rotating member 9 and is not pressed by the rotating member 9, so that the first spring 15 on the second push rod 11 is not deformed. When the first push rod 10 is shifted from the thickest part to the thinnest part of the rotating member 9, the first spring 15 is also shifted from the compressed state to the natural state, and the first push rod 10 is pushed by the elastic force of the first spring 15 to push the first push rod 10 out of the stroke cylinder 6. Through the continuous rotation of the motor 8, the first push rod 10 and the second push rod 11 can be continuously moved, so that the pushing components 12 on the first push rod 10 and the second push rod 11 push the glue in the glue dipping tank 5.

At the lower end of the dip tank 5 there is a first cylinder 18. The first air cylinder 18 is used for pushing the whole glue dipping pool 5 upwards, so that the glue in the glue dipping pool 5 can dip the hand die 2 on the transmission rod.

The pushing member 12 includes a pressing member 19 and a guide 20, and the guide 20 is located at an upper end of the pressing member 19. Both sides of guide 20 are cambered surface 21, and cambered surface 21 extends to the lower terminal surface from the up end, and the upper end width of guide 20 is greater than the width of lower extreme. It can be facilitated that the guide 20 guides glue at the upper end to the lower end through the arc 21. The cross section of the extrusion piece 19 is an inverted right trapezoid, one end surface of the extrusion piece 19 is an inclined surface 23, a plurality of guide grooves 24 are arranged on the inclined surface 23, and the lower ends of the guide grooves 24 penetrate through the extrusion piece 19.

The inner wall of the dipping pond 5 is provided with a glue collecting piece 25, and the glue collecting piece 25 and the inner wall of the dipping pond 5 are combined to form a box chamber with only one opening. The pressing member 19 is placed in the glue collecting member 25, and when the pressing member 19 is pushed by the first push rod 10, the pressing member 19 is placed in the glue collecting member 25, and the glue in the glue dipping tank 5 can be pushed into the glue collecting member 25. And because the surface of the extrusion piece 19 entering the glue collecting piece 25 is the inclined surface 23, and the inclined surface 23 is also provided with the diversion groove 24, the glue can be further guided into the diversion hole 27 through the diversion groove 24.

The lower end of the dipping pool 5 is provided with a mixing chamber 26, and the lower end of the glue collecting piece 25 is provided with a flow guide hole 27 communicated with the mixing chamber 26. The caliber of the flow guide hole 27 at the lower end of the glue collecting piece 25 is larger than that of the flow guide hole 27 at the position of the flow mixing chamber 26, so that glue entering from the glue collecting piece 25 can be guided into the flow mixing chamber 26 through the flow guide hole 27, and the glue can be extruded due to the fact that the caliber at the position of the glue collecting piece 25 is larger and the caliber at the position of the flow mixing chamber 26 is smaller, and the pressure intensity during extrusion is larger.

And a flow guide member 28 is arranged on the bottom surface of the flow mixing chamber 26, a flow guide surface 29 for guiding the flow from two ends to the middle is arranged on the flow guide member 28, and the flow guide surface 29 is arc-shaped. After the glue extruded from the guiding holes 27 enters the mixing chamber 26, the extruded glue can be guided by the guiding surfaces 29 on the guiding members 28, so that the glue on both sides of the mixing chamber 26 is guided to one, and collides with each other to blend the glue, and then moves upwards to the upper end of the glue dipping tank 5.

And the lifting mechanisms 30 are positioned at two sides of the dipping glue tank 5, and are arranged at the lower end of the conveying rod 1. The lifting mechanism 30 includes a fixing base 31, a second cylinder 32, and a support 33. The second cylinder 32 is installed on the fixing seat 31, and the second cylinder 32 is provided with a supporting block 34, and the supporting block 34 is located at the upper end of the fixing seat 31. The fixed seat 31 is provided with a limiting cylinder 35, and the middle of the limiting cylinder 35 is provided with a second spring 36.

The supporting member 33 includes a supporting portion 37 and a stopper portion 38, the supporting member 33 is mounted on the second spring 36 through the supporting portion 37, and the supporting portion 37 is located at both sides of the stopper portion 38. The middle of the limiting part 38 is provided with a limiting opening 39, and the transmission rod 1 is arranged in the limiting opening 39. The lower end of the supporting member 33 is provided with a limiting sleeve 40, the supporting block 34 is arranged in the limiting sleeve 40, the upper end of the supporting block 34 is provided with a third spring 41, the lower end of the supporting block 34 is provided with a fourth spring 42, the third spring 41 and the fourth spring 42 are both arranged in the limiting sleeve 40, and the lower end of the fourth spring 42 is in contact with the fixed seat 31.

When the second cylinder 32 pushes the whole supporting member 33 upward, the second spring 36 is directly stretched, the supporting block 34 is separated from the fourth spring 42 at the lower end, the third spring 41 is lifted by the supporting block 34, the supporting member 33 is supported to move upward, and the hand mold 2 after gum dipping can be shaken by the continuous upward and downward movement of the second cylinder 32 due to the arrangement of the springs, so that the redundant glue is shaken off.

The rubber dipping device further comprises a limiting mechanism 43, and the limiting mechanism 43 comprises a third air cylinder 44, a mounting seat 45 and a sliding plate 46. The lower end of the dipping pool 5 is provided with a supporting leg 47, the supporting leg 47 is provided with a first limit rod 48, the third cylinder 44 is provided with a second limit rod 49, the mounting seat 45 is provided with a sliding groove 50, the sliding plate 46 is provided with a sliding part 51, and the sliding plate 46 is arranged in the sliding groove 50 through the sliding part 51.

The slide plate 46 further has a first guide hole 52 and a second guide hole 53, the first guide hole 52 having a click portion 54, the second guide hole 53 having a release portion 55, the release portion 55 having a width larger than that of the click portion 54. The mounting seat 45 has a third guide hole 56 and a fourth guide hole 57, the first stopper rod 48 is disposed in the first guide hole 52 and the third guide hole 56, and the second stopper rod 49 is disposed in the second guide hole 53 and the fourth guide hole 57. The width of the first guide hole 52 is equal to the width of the second guide hole 53, the width of the third guide hole 56 is equal to the width of the fourth guide hole 57, and the width of the first guide hole 52 is twice as large as the width of the third guide hole 56.

The sliding plate 46 is provided with a first fixed block 58 and a sliding groove 59, the mounting seat 45 is provided with a second fixed block 60, the second fixed block 60 is arranged in the sliding groove 59, and the first fixed block 58 and the second fixed block 60 are connected through a fifth spring 61.

When the first cylinder 18 pushes the dipping basin 5 to rise, the first limiting rod 48 on the supporting leg 47 can move from the lower end to the upper end of the first guide hole 52 and the third guide hole 56, so that the first limiting rod 48 contacts with the blocking part 54, and then the blocking part 54 is pushed, and since the blocking part 54 is on the sliding plate 46, the whole sliding plate 46 can move, and the fifth spring 61 at this time can be stretched. When the dipping pool 5 is lifted to different positions by the first cylinder 18, the first limit rod 48 will arrive at different clamping parts 54.

When the dipping bath 5 needs to be lowered, the third air cylinder 44 moves upward to move the second limiting rod 49 upward, so that the second limiting rod 49 touches the releasing part 55, then the releasing part 55 pushes the sliding plate 46, so that the first limiting rod 48 is separated from the limit of the clamping part 54, and then the first air cylinder 18 lowers the dipping bath 5 as a whole. The fifth spring 61 is also restored to its original state.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a gumming device of medical protection butyronitrile gloves of production which characterized in that, gumming device includes:

a transfer bar having a plurality of hand molds thereon;

the conveying rails are positioned at two ends of the conveying rod and used for supporting the conveying rod and conveying the conveying rod to different positions;

the glue dipping tank is positioned at the lower end of the hand mould and used for dipping the hand mould, one end of the glue dipping tank is provided with a stroke cylinder, the other end of the glue dipping tank is provided with an installation cylinder, the stroke cylinder and the installation cylinder are communicated with the inside of the glue dipping tank, the outside of the installation cylinder is provided with a motor, the motor is provided with a rotating piece, the rotating piece is arranged in the installation cylinder, the middle of the glue dipping tank is provided with a first push rod and a second push rod, the first push rod and the second push rod are provided with a plurality of pushing components, one end of the first push rod and one end of the second push rod are provided with a first spring, the other end of the first push rod and one end of the second push rod are fixed with a sliding block, the fixed sliding block is arranged on the inner wall of the glue dipping tank, one end of the first spring is contacted with the inner wall of the glue dipping tank, the other end of the first push rod and the second push, the lower end of the dipping pool is provided with a first air cylinder;

the pushing component comprises an extrusion part and a guide part, the guide part is positioned at the upper end of the extrusion part, the inner wall of the glue dipping pool is provided with a glue collecting part, the extrusion part is arranged in the glue collecting part, the lower end of the glue dipping pool is provided with a flow mixing chamber, and the lower end of the glue collecting part is provided with a flow guide hole communicated with the flow mixing chamber;

the lifting mechanism is positioned on two sides of the rubber dipping pool and at the lower end of the conveying rod, the lifting mechanism comprises a fixed seat, a second air cylinder and a supporting piece, the second air cylinder is installed on the fixed seat, a supporting block is arranged on the second air cylinder and positioned at the upper end of the fixed seat, a limiting cylinder is arranged on the fixed seat, a second spring is arranged in the middle of the limiting cylinder, the supporting piece comprises a supporting part and a limiting part, the supporting part is installed on the second spring through the supporting part and positioned on two sides of the limiting part, a limiting opening is formed in the middle of the limiting part, the conveying rod is arranged in the limiting opening, a limiting sleeve is arranged at the lower end of the supporting piece, the supporting block is arranged in the limiting sleeve, a third spring is arranged at the upper end of the supporting block, a fourth spring is arranged at the lower end of the supporting block, and the third spring and the fourth spring are, the lower end of the fourth spring is in contact with the fixed seat.

2. The dipping device for producing medical protective butyronitrile gloves according to claim 1, further comprising a limiting mechanism, wherein the limiting mechanism comprises a third cylinder, a mounting seat and a sliding plate, the lower end of the dipping tank is provided with a supporting foot, the supporting foot is provided with a first limiting rod, the third cylinder is provided with a second limiting rod, the mounting seat is provided with a sliding groove, the sliding plate is provided with a sliding part, the sliding plate is mounted in the sliding groove through the sliding part, the sliding plate is further provided with a first guide hole and a second guide hole, the first guide hole is provided with a clamping part, the second guide hole is provided with a releasing part, the mounting seat is provided with a third guide hole and a fourth guide hole, the first limiting rod is arranged in the first guide hole and the third guide hole, and the second limiting rod is arranged in the second guide hole and the fourth guide hole, the sliding plate is provided with a first fixed block and a sliding groove, the mounting seat is provided with a second fixed block, the second fixed block is arranged in the sliding groove, and the first fixed block and the second fixed block are connected through a fifth spring.

3. The dipping device for producing medical protective nitrile gloves according to claim 2, wherein the width of the first guiding hole is equal to the width of the second guiding hole, the width of the third guiding hole is equal to the width of the fourth guiding hole, and the width of the first guiding hole is twice as large as the width of the third guiding hole.

4. The dipping device for producing medical protective nitrile gloves according to claim 1, wherein the rotating member has a bevel, the first push rod contacts with the thickest part of the bevel through a ball, and the second push rod contacts with the thinnest part of the bevel through a ball.

5. The dipping device for producing medical protective butyronitrile gloves as claimed in claim 1, wherein the two side surfaces of the guide are cambered surfaces, the cambered surfaces extend from the upper end surface to the lower end surface, and the width of the upper end of the guide is greater than that of the lower end.

6. The gum dipping device for producing the medical protective butyronitrile gloves as claimed in claim 1, wherein the cross section of the extrusion piece is an inverted right trapezoid, one end surface of the extrusion piece is an inclined surface, a plurality of diversion trenches are arranged on the inclined surface, and the lower ends of the diversion trenches penetrate through the extrusion piece.

7. The gum dipping device for producing medical protective nitrile gloves according to claim 1, wherein the bottom surface of the mixing chamber is provided with a flow guide member, the flow guide member is provided with a flow guide surface for guiding flow from two ends to the middle, and the flow guide surface is arc-shaped.

8. The gum dipping device for producing medical protective nitrile gloves according to claim 1, wherein the caliber of the diversion hole at the lower end of the gum collecting piece is larger than the caliber of the diversion hole at the mixing chamber.

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