Gum dipping pool for gum dipping gloves
Technical Field
The utility model relates to a rubber dipping pool for rubber dipping gloves.
Background
In order to achieve the purposes of wear resistance and skid resistance, a wear-resistant glue layer is coated on a traditional knitted labor protection glove body. In the traditional process method, a gum dipping device is adopted to carry out gum dipping treatment on the gloves, the gloves are sleeved on the hand molds and run along with the advance of the hand mold frame, and when the gloves run to a gum dipping position, the hand mold frame is turned over to enable the hand molds to incline at a certain angle, so that the gloves on the hand molds are dipped into a gum dipping tank to complete the gum dipping process. In the dipping process, colloid used for glove dipping is statically placed in a glue groove, the colloid is statically placed in the glue groove for a long time, and the phenomenon that the colloid is precipitated at the bottom of the glue groove often occurs, so that the colloid is unevenly distributed, and the quality of dipped gloves is unstable.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a gumming gloves dipping pond, the colloid in this dipping pond is through the constantly stirring of first (mixing) shaft and first rotation pole, and sustainable keeps mobility to avoid the emergence of precipitation phenomenon, do benefit to the production quality stability who improves the gumming gloves then.
The utility model provides a technical scheme that its technical problem adopted is: a gum dipping pool for gum dipping gloves comprises a square gum groove, first stirring shafts, partition boards and a rotating mechanism, wherein the two first stirring shafts are distributed at the lower side in the square gum groove relatively, a plurality of stirring blade groups distributed along the axial direction of the first stirring shafts are arranged at the left and right ends of the first stirring shafts, each stirring blade group comprises a plurality of stirring blades distributed at equal intervals along the circumferential direction of the first stirring shafts, a spiral blade is arranged in the middle of the first stirring shaft, one partition board is arranged above each first stirring shaft, partition gaps are reserved between the two partition boards and between the partition board and the adjacent side wall of the square gum groove, the rotating mechanism comprises a rotating motor, a rotating driving circular plate, a rotating connecting rod and a first rotating rod, and the first rotating rod is arranged in the square gum groove, and be located between two first (mixing) shafts be provided with on the first rotation pole with the relative dial plate of the baseplane in square gluey groove first rotation pole is located and sets up a first connecting rod on the tip in the square gluey groove outside, the rotation motor sets up on square gluey groove lateral wall, and rotate the motor with first connecting rod is adjacent, the setting of rotation drive plectane is in on the output shaft of rotation motor, rotate the connecting rod both ends and articulate with rotation drive plectane and first connecting rod both ends respectively and be connected.
Preferably, two sets of adjusting mechanisms corresponding to the separating plates are respectively arranged on the left side and the right side of the square rubber groove, each set of adjusting mechanism comprises a transverse sliding groove, a transverse sliding rail, a vertical sliding groove and an inverted U-shaped connecting rod, the transverse sliding grooves are transversely arranged on the side walls of the square rubber groove, the transverse sliding rails are sleeved in the transverse sliding grooves, the vertical sliding grooves are vertically fixed on the transverse sliding rails, a vertical rod of the inverted U-shaped connecting rod is sleeved in the vertical sliding groove, the other vertical rod of the inverted U-shaped connecting rod is connected with the end parts of the corresponding separating plates, a first positioning hole is arranged on the transverse sliding groove, a plurality of first adjusting holes matched with the first positioning holes are arranged on the transverse sliding rails, a pin shaft penetrates through the first positioning holes and the first adjusting holes to realize the positioning of the transverse sliding rails in the transverse sliding grooves, a second positioning hole is arranged on the vertical sliding grooves, and a plurality of second adjusting holes corresponding to the second positioning holes are formed in the vertical rod of the inverted U-shaped connecting rod corresponding to the vertical sliding groove, and a pin shaft penetrates through the second positioning holes and the second adjusting holes to realize the positioning of the inverted U-shaped connecting rod in the vertical sliding groove.
Furthermore, the stirring blades comprise fixed blades and adjusting blades, the fixed blades are fixedly arranged on the first stirring shaft, the adjusting blades are sleeved between two L-shaped clamping plates arranged on the fixed blades, a third positioning hole is formed in the adjusting blades, a plurality of third adjusting holes matched with the third positioning holes are formed in the fixed blades, and the fixed blades and the adjusting blades are fixedly connected through bolts.
Further, the spiral blades on the two first stirring shafts have the same rotating direction.
Preferably, the first connecting rod is provided with a plurality of hinge positioning holes for being hinged with the rotating connecting rod.
The utility model has the advantages that: the utility model has simple structure and convenient use; in the practical application process, the rotation of the two first stirring shafts can drive the stirring blades and the spiral blades to continuously stir the colloid at the bottom of the square glue groove, the stirring blades realize the transverse stirring of the colloid, and the spiral blades realize the longitudinal stirring of the colloid, so that the fluidity of the colloid in the glue groove in the direction can be ensured, and the colloid precipitation phenomenon is avoided; the two first stirring shafts have different rotating directions, and the spiral blades on the two first stirring shafts have the same rotating direction, so that the spiral blades have different stirring directions for the colloid, and the improvement of the distribution uniformity of the colloid in the whole square colloid groove is facilitated; the reciprocating swing action of the rotating mechanism is beneficial to improving the fluidity of the colloid at the bottom of the square colloid groove; the stirring influence of the stirring blade, the spiral blade and the shifting plate on the colloid on the upper layer of the square glue groove can be reduced by the isolation effect of the isolation plate, so that the colloid on the upper layer is basically in a plane flowing state, and the gum dipping procedure is smoothly carried out; the division board can be adjusted from left to right and up and down, thereby being beneficial to adjusting the position of the division board according to requirements in actual work so as to achieve the best division effect.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some of the preferred embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a front view of the distribution of the first stirring shaft and the first rotating rod in the square glue groove;
FIG. 3 is a schematic view showing the arrangement of the dial plate on the first rotating rod;
FIG. 4 is an enlarged view taken at A in FIG. 1;
FIG. 5 is an enlarged view of FIG. 1 at B;
FIG. 6 is an enlarged view at C of FIG. 2;
FIG. 7 is an enlarged view of FIG. 2 at D;
in the figure: the automatic blade-rotating mechanism comprises a square glue groove 1, a first stirring shaft 2, a fixed blade 211, a 2111L-shaped clamping plate, a 2112 third positioning hole, an adjusting blade 212, a third adjusting hole 2121, a helical blade 22, a partition plate 3, a transverse sliding groove 31, a first positioning hole 311, a transverse sliding rail 32, a vertical sliding groove 33, a second positioning hole 331, a U-shaped connecting rod 34, a rotating motor 41, a rotating driving circular plate 42, a rotating connecting rod 43, a first rotating rod 44, a shifting plate 441, a first connecting rod 442 and a 4421 hinge hole.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the following specific embodiments and accompanying drawings 1 to 7, and it is obvious that the described embodiments are only a part of the preferred embodiments of the present invention, and not all embodiments. Those skilled in the art can make similar variations without departing from the spirit of the invention, and therefore the invention is not limited by the specific embodiments disclosed below.
The utility model provides a rubber dipping pond for rubber dipping gloves (as shown in figure 1), including square rubber groove 1, first (mixing) shaft 2, division board 3 and slewing mechanism, square rubber groove 1 is used for depositing the colloid, two in the gum dipping process first (mixing) shaft 2 relative distribution is in the inside downside of square rubber groove 1, each first (mixing) shaft 2 all drives rotatoryly at the outside motor of square rubber groove 1 through distributing, all is provided with a plurality of along the stirring vane group of first (mixing) shaft 2's axial direction distribution in both ends about first (mixing) shaft 2, each group stirring vane group all includes a plurality of along the equidistant stirring vane of the circumferencial direction of first (mixing) shaft 2, and in this embodiment, stirring vane's embodiment mode is: the stirring blade comprises a fixed blade 211 and an adjusting blade 212, the fixed blade 211 is fixedly arranged on the first stirring shaft 2, the adjusting blade 212 is sleeved between two L-shaped clamping plates 2111 arranged on the fixed blade 211, a third positioning hole 2121 is arranged on the adjusting blade 212, a plurality of third adjusting holes 2112 matched with the third positioning holes 2121 are formed in the fixed blade 211, the fixed blade 211 and the adjusting blade 212 are fixedly connected through bolts, and in practical application, the stirring strength of the stirring blade to colloid can be changed by changing the position of the adjusting blade 212 on the fixed blade 211.
Be provided with helical blade 22 in the middle part of first (mixing) shaft 2, in this embodiment, helical blade 22 on two first (mixing) shafts 2 revolves to the same, and first (mixing) shaft 2 is different in the rotation direction of work to make helical blade 22 different to the stirring propelling movement direction of colloid, realize then stirring to the horizontal circulation of colloid, at each first (mixing) shaft 2's top all sets up one division board 3, and all leave the separation clearance between two division boards 3 and between division board 3 and the adjacent square rubber groove 1 lateral wall, division board 3 is used for keeping apart the influence of the stirring motion of first (mixing) shaft 2 to the upper colloid, and in this embodiment, the concrete implementation mode of the setting of division board 3 in square rubber groove 1 does: two groups of adjusting mechanisms corresponding to the partition boards 3 are respectively arranged at the left side and the right side of the square rubber groove 1, each group of adjusting mechanisms comprises a transverse sliding groove 31, a transverse sliding rail 32, a vertical sliding groove 33 and an n-shaped connecting rod 34, the transverse sliding groove 31 is transversely arranged on the side wall of the square rubber groove 1, the transverse sliding rail 32 is sleeved in the transverse sliding groove 31, the vertical sliding groove 33 is vertically fixed on the transverse sliding rail 32, a vertical rod of the n-shaped connecting rod 34 is sleeved in the vertical sliding groove 33, another vertical rod of the n-shaped connecting rod 34 is connected with the end part of the corresponding partition board 3, a first positioning hole 311 is arranged on the transverse sliding groove 31, a plurality of first adjusting holes matched with the first positioning hole 311 are arranged on the transverse sliding rail 32, a pin shaft penetrates through the first positioning hole 311 and the first adjusting holes to realize the positioning of the transverse sliding rail 32 in the transverse sliding groove 31, set up a second locating hole 331 on the vertical spout 33, be provided with a plurality of second regulation holes corresponding with second locating hole 331 on the montant that connecting rod 34 and vertical spout 33 correspond, a round pin axle passes second locating hole 331 and second regulation hole realize the location of link 34 in vertical spout 33, and in the practical application process, division board 3 can realize its adjustment of upper and lower left and right sides direction in square gluey groove 1 through adjustment mechanism to obtain best isolation effect.
The rotating mechanism comprises a rotating motor 41, a rotating driving circular plate 42, a rotating connecting rod 43 and a first rotating rod 44, the first rotating rod 44 is arranged in the square glue groove 1 and is positioned between two first stirring shafts 2, a shifting plate 441 opposite to the bottom plane of the square glue groove 1 is arranged on the first rotating rod 44, a first connecting rod 442 is arranged on the end part of the first rotating rod 44 positioned at the outer side of the square glue groove 1, the rotating motor 41 is arranged on the outer side wall of the square glue groove 1, the rotating motor 41 is adjacent to the first connecting rod 442, the rotating driving circular plate 42 is arranged on the output shaft of the rotating motor 41, two ends of the rotating connecting rod 43 are respectively hinged with two ends of the rotating driving circular plate 42 and the first connecting rod 442, the reciprocating rotation of the shifting plate 441 can be realized through the rotation of the rotating motor 41, so as to realize the stirring of glue at the bottom of the square glue groove 1, in order to change the rotation range of the dial plate 441, a plurality of hinge positioning holes 431 for hinge connection with the rotation connection are formed on the first connecting rod 442.
The utility model discloses in, stirring through first (mixing) shaft 2 and stirring of dialling board 441 can realize the abundant stirring of the colloid of the inside low level of square glue groove 1 to can prevent that in long-time gumming process, the phenomenon that the colloid subsides takes place for square glue groove 1 bottom.
In the present invention, "left" and "right" are relative positions used for describing positional relationships, and therefore, cannot be interpreted as limiting the protection range as absolute positions.
In addition to the technical features described in the specification, the technology is known to those skilled in the art.
The above description is provided for the preferred embodiments and examples of the present invention with reference to the accompanying drawings, but the present invention is not limited to the above embodiments and examples, and it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit of the present invention, and these modifications and variations should be construed as the protection scope of the present invention.