CN108277330A - The scraping mechanism of mesh-belt quenching furnace - Google Patents

Abstract

The present invention provides the scraping mechanism of mesh-belt quenching furnace, including net belt type conveyer side shield, torsional spring and bearing；One piece of notch plate is provided at the discharge port position of net belt type conveyer rear, and the left and right sides inner wall of notch plate concave end mutually welds with the outer wall of the net belt type conveyer side shield of the left and right sides at the discharge port position of net belt type conveyer rear connect respectively.The setting of first scraper of the invention, conducive to when workpiece is delivered at feed opening position, workpiece of the slight adhesion on guipure is scraped via the boron-silicon rubber hairbrush in the first scraper first, it is set to be detached with guipure, further, the rectangular shaped slider that large rectangular block is welded by its left and right ends in first scraper can do front-rear reciprocation movement with being slidably matched for rectangle sliding slot along rectangle sliding slot, conducive to it before use, it can be according to the distance between different adjustment boron-silicon rubber hairbrush of specification of workpieces to guipure, to satisfy the use demand.

Description

The scraping mechanism of mesh-belt quenching furnace

Technical field

The invention belongs to quench corollary equipment technical field, more specifically, more particularly to the scraper of mesh-belt quenching furnace Mechanism.

Background technology

Mesh-belt quenching furnace carries the task of delivery workpiece, heats the workpiece after expansion on the guipure of mesh-belt quenching furnace, Guipure is generally rectangular, and workpiece is moved with guipure, and whereabouts oil sump is quickly cooled down reality at mesh-belt quenching furnace Muffle pot feed opening Now quench.The shortcomings that mesh-belt quenching furnace generally existing, is at this stage：Since the contact surface of workpiece and guipure has adhesion, make Obtaining workpiece cannot smoothly fall, and form clamping stagnation, and the workpiece of clamping stagnation enters low-temperature space with mesh-belt operation, and below, workpiece constantly hits Hit it is lower by the workpiece to have cooled down feeding oil sump cause workpiece not quench, belong to equipment design defect, there are great hidden danger of quality.

Such as application number：201420345359.8 the utility model is related to the technical field that valve is manufactured, specifically relate to And a kind of scraper of mesh-belt quenching furnace；Including the leading screw in mesh-belt quenching furnace side is arranged, rotation is provided on leading screw Axis, rotary shaft are fixed with mesh-belt quenching furnace, and side is provided with cross bar on the rotary shaft, is connected with scraper plate on the cross bar, scraper plate with Cross bar is flexibly connected；The scraper plate is rectangular, and scraper plate is arranged above the guipure of mesh-belt quenching furnace, and the cross bar is connected with rotation Motor, the length of the scraper plate are of same size with the guipure of the mesh-belt quenching furnace；Using technical solutions of the utility model The scraper of mesh-belt quenching furnace avoids workpiece clamping stagnation.

Such as application number：201420345174.7 the utility model is related to the technical field that valve is manufactured, specifically relate to And a kind of blockage prevention device of mesh-belt quenching furnace；Including being arranged the fixed seat at mesh-belt quenching furnace feed opening, the two of fixed seat End is connect with mesh-belt quenching furnace, U-shaped electromagnet is provided with above fixed seat, U-shaped electromagnet is connected with low frequency ac；The U Electromagnet protective cover is provided on shape electromagnet, the U-shaped electromagnet is arranged in the surface of oil quenching bath；Using this practicality The blockage prevention device of the mesh-belt quenching furnace of new technique scheme, keeping away makes workpiece smoothly fall, and avoids catching phenomenon.

Based on above-mentioned, by retrieving and combining the prior art, inventor find the workpiece to being adhered on guipure into Row exists insufficient when scraping separation：The workpiece adhesion strength being partly adhered on guipure is stronger, and electromagnetic attraction etc. does not contact work The method of part plays a role workpiece that is relatively low, and tightly being adhered to guipure on a small quantity, then the scraper mode by being in contact with workpiece When carrying out scraping operation, because workpiece is tightly adhered to guipure, easily causes scraper to be stuck at the location of workpiece, lead to guipure It can't continue to exercise, net belt type conveyer is caused to damage.

Then, in view of this, being studied improvement for existing structure and missing, the scraper of mesh-belt quenching furnace is provided Mechanism, to achieve the purpose that with more more practical value.

Invention content

In order to solve the above technical problem, the present invention provides the scraping mechanism of mesh-belt quenching furnace, with solve it is existing by There is adhesion in the contact surface of workpiece and guipure so that workpiece cannot smoothly fall, and form clamping stagnation, the workpiece of clamping stagnation is with guipure Operating enters low-temperature space, causes workpiece not quench the workpiece to have cooled down feeding oil sump under the continuous shock of workpiece below, belongs to There is great hidden danger of quality in equipment design defect.

The purpose and effect of the scraping mechanism of mesh-belt quenching furnace of the present invention, are reached by technological means in detail below：

The scraping mechanism of mesh-belt quenching furnace, including net belt type conveyer side shield, guipure, net belt type conveyer are driven Roller, notch plate, anti-guncotton layer, rectangle sliding slot, the first scraper, large rectangular block, small rectangular block, boron-silicon rubber hairbrush, rectangle Sliding block, square plate, wing bolt, the second scraper, shaft, isosceles trapezoid scraper block, groove, torsional spring and bearing；Net belt type Be provided with one piece of notch plate at the discharge port position of conveyer rear, and the left and right sides inner wall of notch plate concave end respectively with The outer wall of the net belt type conveyer side shield of the left and right sides at the discharge port position of net belt type conveyer rear mutually welds connection； The notch plate left and right ends offer the rectangle sliding slot at one, and the cross central line of rectangle sliding slot is conveyed with net belt type The cross central line of the net belt type conveyer driven voller at the discharge port position of machine rear is in same horizontal line；The spill One group is provided in plate concave end by the large rectangular block, small rectangular block, boron-silicon rubber hairbrush, rectangular shaped slider, square plate and butterfly First scraper that shape bolt collectively constitutes；The large rectangular block is slided by the rectangle that its left and right ends is welded Block does front-rear reciprocation movement with being slidably matched for the rectangle sliding slot along the rectangle sliding slot；Two pieces of rectangular shaped sliders it is another End is welded with one piece of square plate, and the first half of two pieces of square plates and lower half center position are threadedly coupled There are one the wing bolts that tail end runs through the square plate；The large rectangular block front end face is welded with one piece of small rectangle Block, and the front end face of small rectangular block is inlaid with the boron-silicon rubber hairbrush of several rectangular array shapes distribution；The spill The net belt type conveyer driven voller following position directly in plate concave end at the discharge port position of net belt type conveyer rear Place is provided with one group of second scraper collectively constituted by the shaft, isosceles trapezoid scraper block and groove；Described turn The left and right ends of axis are rotatedly connected by bearing described in one group with the left and right sides inner wall of the notch plate concave end and are connect respectively； Shaft top outer wall is turned left with its transverse center position, and weldering is connected with one piece of isosceles trapezoid scraper jointly for right end extension Block；The left and right ends of the isosceles trapezoid scraper block offer the isosceles trapezoid that total height at one is less than isosceles trapezoid scraper block The groove of shape；The indent end face of the groove and the left and right two at the discharge port position of net belt type conveyer rear at two Torsional spring described in being socketed with one group on the shaft outer wall between the inner wall of the net belt type conveyer side shield of side, and should It fixes and is embedded in the inner wall of indent end face of the groove at end one at the two of torsional spring described in two groups, another place, which is fixed, inlays In the inner wall of the net belt type conveyer side shield.

Further, top end face and its surface of the isosceles trapezoid scraper block in second scraper are formed It is spaced 1cm between the guipure at the discharge port position of net belt type conveyer rear.

Further, form the left and right ends face of isosceles trapezoid scraper block described in second scraper not with net The net belt type conveyer side shield inner wall of the left and right sides at the discharge port position of ribbon conveyer rear is in contact, and is spaced Distance is 0.5cm.

Further, the length for forming large rectangular block described in first scraper is less than the notch plate concave end Spacing 2cm between the inner wall of the left and right sides.

Further, the length for forming small rectangular block described in first scraper is less than net belt type conveyer rear Spacing 1cm between the net belt type conveyer side shield inner wall of the left and right sides at discharge port position.

Further, the rear end inner wall of the notch plate concave end is stained with one layer of anti-guncotton layer, and anti-guncotton layer Thickness be 3cm.

Compared with prior art, the present invention has the advantages that：

The setting of first scraper of the invention, conducive to when workpiece is delivered at feed opening position, first via first Boron-silicon rubber hairbrush in scraper scrapes workpiece of the slight adhesion on guipure, so that it is detached with guipure, into one Step, the rectangular shaped slider that large rectangular block is welded by its left and right ends in the first scraper is slidably matched with rectangle sliding slot Front-rear reciprocation movement can be done along rectangle sliding slot, be conducive to it before use, can be according to the different adjustment boron-silicon rubber hair of specification of workpieces Brush is the distance between to guipure, to satisfy the use demand.

The setting of second scraper of the invention is not detached with guipure also conducive to after the first scraper scrapes When workpiece is via mesh-belt conveying to the second scraper position, because of the top end face of the isosceles trapezoid scraper block in the second scraper It is spaced 1cm with being located at right over it between guipure at discharge port position of net belt type conveyer rear, therefore this is adhered on guipure Workpiece will be in contact with the isosceles trapezoid scraper block in the second scraper, it is general to adhere under the action of two groups of torsional springs Workpiece on guipure will detach under the scraping of isosceles trapezoid scraper block with guipure, and part is tightly adhered to guipure On workpiece two groups of torsional springs will be made to trail under the drive of guipure, at this moment the shaft in the second scraper along bearing turn It is dynamic, the second scraper will be passed through in order to which this is tightly adhered to the workpiece on guipure, continues that guipure is followed to move, by this The setting of structure will not cause to cause scraper mutually to push up with workpiece always because workpiece can not be detached with guipure, cause that net occurs The generation of ribbon conveyer damaged condition.

Description of the drawings

Fig. 1 is the internal sectional structure schematic diagram of the present invention.

Fig. 2 be the present invention Fig. 1 in A-A schematic cross-sectional views.

Fig. 3 is the non-section view status architecture schematic diagram of the present invention.

Fig. 4 is the overlooking structure diagram of the present invention.

Fig. 5 is the present invention looks up structural representation of the present invention.

Fig. 6 is the second scraper main structure diagram of the present invention.

Fig. 7 is that the second scraper axis of the present invention regards structural schematic diagram.

In figure, the correspondence of component names and accompanying drawing number is：

1- net belt type conveyer side shields, 101- guipures, 102- net belt type conveyer driven vollers, 2- notch plates, 201- are anti- Guncotton layer, 202- rectangle sliding slots, the first scrapers of 3-, 301- large rectangular blocks, the small rectangular blocks of 302-, 303- boron-silicon rubber hairs Brush, 304- rectangular shaped sliders, 305- square plates, 306- wing bolts, the second scrapers of 4-, 401- shafts, 402- isosceles trapezoids Scraper block, 403- grooves, 01- torsional springs, 02- bearings.

Specific implementation mode

Embodiments of the present invention are described in further detail with reference to the accompanying drawings and examples.Following embodiment is used for Illustrate the present invention, but cannot be used for limiting the scope of the invention.

In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more；Term "upper", The orientation or positional relationship of the instructions such as "lower", "left", "right", "inner", "outside", " front end ", " rear end ", " head ", " tail portion " is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark Show that signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore should not be understood as pair The limitation of the present invention.In addition, term " first ", " second ", " third " etc. are used for description purposes only, and should not be understood as instruction or Imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " connected " " connects Connect " it shall be understood in a broad sense, for example, it may be being fixedly connected, it may be a detachable connection, or be integrally connected；It can be machine Tool connects, and can also be electrical connection；It can be directly connected, it can also be indirectly connected through an intermediary.For this field For those of ordinary skill, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

Embodiment：

As shown in attached drawing 1 to attached drawing 7：

The present invention provides the scraping mechanism of mesh-belt quenching furnace, including net belt type conveyer side shield 1, guipure 101, guipure Formula conveyer driven voller 102, notch plate 2, anti-guncotton layer 201, rectangle sliding slot 202, the first scraper 3, large rectangular block 301, Small rectangular block 302, boron-silicon rubber hairbrush 303, rectangular shaped slider 304, square plate 305, wing bolt 306, the second scraper 4, Shaft 401, isosceles trapezoid scraper block 402, groove 403, torsional spring 01 and bearing 02；At the discharge port position of net belt type conveyer rear It is provided with one piece of notch plate 2, and the left and right sides inner wall of 2 concave end of notch plate discharges with net belt type conveyer rear respectively The outer wall of the net belt type conveyer side shield 1 of the left and right sides at oral area position mutually welds connection；2 left and right ends of the notch plate Offer the rectangle sliding slot 202 at one, and the cross central line of rectangle sliding slot 202 and net belt type conveyer rear discharge port The cross central line of the net belt type conveyer driven voller 102 at position is in same horizontal line；2 concave end of the notch plate One group is inside provided with by the large rectangular block 301, small rectangular block 302, boron-silicon rubber hairbrush 303, rectangular shaped slider 304, square plate 305 and first scraper 3 that collectively constitutes of wing bolt 306；The large rectangular block 301 is welded by its left and right ends The rectangular shaped slider 304 connect does front and back reciprocal fortune with being slidably matched for the rectangle sliding slot 202 along the rectangle sliding slot 202 It is dynamic；The other end of two pieces of rectangular shaped sliders 304 is welded with one piece of square plate 305, and two pieces of square plates 305 The first half and lower half center position are threadedly coupled the wing bolt through the square plate 305 there are one tail end 306；301 front end face of the large rectangular block is welded with one piece of small rectangular block 302, and the front end face of small rectangular block 302 is inlayed There is the boron-silicon rubber hairbrush 303 that several rectangular array shapes are distributed；It is defeated to be located at net belt type in 2 concave end of the notch plate It send and is provided with one group by described turn at 102 following position directly of net belt type conveyer driven voller at the discharge port position of machine rear Second scraper 4 that axis 401, isosceles trapezoid scraper block 402 and groove 403 collectively constitute；The left and right of the shaft 401 Both ends are rotatedly connected by bearing 02 described in one group with the left and right sides inner wall of 2 concave end of the notch plate and are connect respectively；It is described 401 top outer wall of shaft is turned left with its transverse center position, and weldering is connected with one piece of isosceles trapezoid scraper block jointly for right end extension 402；The left and right ends of the isosceles trapezoid scraper block 402 offer total height at one and are less than isosceles trapezoid scraper block 402 The groove 403 of isosceles trapezoid shape；The indent end face of the groove 403 and net belt type conveyer rear discharge port at two It is socketed on 401 outer wall of the shaft between the inner wall of the net belt type conveyer side shield 1 of the left and right sides at position Torsional spring 01 described in having one group, and the indent for being embedded in the groove 403 is fixed at two of torsional spring 01 described in this two groups at end one In the inner wall of end face, another place fixes and is embedded in the inner wall of the net belt type conveyer side shield 1.

Wherein, top end face and its surface of the isosceles trapezoid scraper block 402 in second scraper 4 are formed It is spaced 1cm between the guipure 101 at the discharge port position of net belt type conveyer rear, convenient for being adhered to guipure 101 On workpiece scrape itself and guipure 101 made to be separated.

Wherein, form the left and right ends face of isosceles trapezoid scraper block 402 described in second scraper 4 not with net 1 inner wall of net belt type conveyer side shield of the left and right sides at the discharge port position of ribbon conveyer rear is in contact, and Gauge is from for 0.5cm, ensureing the second scraper 4 when encountering the workpiece being tightly adhered on guipure 101, the rotation of its own It is unaffected.

Wherein, the length for forming large rectangular block 301 described in first scraper 3 is less than 2 indent of the notch plate Spacing 2cm between the inner wall of the end left and right sides.

Wherein, the length for forming small rectangular block 302 described in first scraper 3 is less than net belt type conveyer rear Spacing 1cm between 1 inner wall of net belt type conveyer side shield of the left and right sides at discharge port position fills convenient for the first scraper It sets 3 longitudinal separations and adjusts operation.

Wherein, the rear end inner wall of 2 concave end of the notch plate is stained with one layer of anti-guncotton layer 201, and anti-guncotton layer 201 thickness is 3cm, convenient for playing cushioning effect to the workpiece to rebound via the second scraper 4.

The specifically used mode of the present embodiment and effect：

Operating personnel can according to the difference of specification of workpieces, can or front or rear the first scraper of adjusting 3 position, with Meet the whereabouts that workpiece is not interfered under the premise of scraping operation；It is first when at guipure 101 conveying workpieces to feed opening position First the boron-silicon rubber hairbrush 303 in the first scraper 3 will be in contact with workpiece, and workpiece will on guipure 101 for slight adhesion It can scrape via boron-silicon rubber hairbrush 303, and the strong workpiece of a small amount of adhesion strength is then by the first scraper 3 via net Band 101 is delivered at 4 position of the second scraper, because the isosceles trapezoid scraper block 402 in the second scraper 4 top end face with It is located between the guipure 101 at the discharge port position of net belt type conveyer rear right over it and is spaced 1cm, therefore isosceles trapezoid scraper block 402 will be in contact in workpiece, and under the active force of two groups of torsional springs 01, then workpiece will be separated with guipure 101, and notch plate The rear end inner wall of 2 concave ends is stained with one layer of anti-guncotton layer 201, and the thickness of anti-guncotton layer 201 is 3cm, convenient for via the The workpiece that two scrapers 4 rebound plays cushioning effect；When encountering the workpiece being tightly adhered on guipure 101, and part is Workpiece through being tightly adhered on guipure 101 will make two groups of torsional springs 01 trail under the drive of guipure 101, and at this moment second Shaft 401 in scraper 4 is rotated along bearing 02, and the will be passed through in order to which this is tightly adhered to the workpiece on guipure 101 Two scrapers 4 continue that guipure 101 is followed to move, and setting with this configuration will not be caused because workpiece can not be with guipure 101 Separation causes scraper mutually to be pushed up with workpiece always, causes the generation that net belt type conveyer damaged condition occurs.

The embodiment of the present invention provides for the sake of example and description, and is not exhaustively or by this to send out It is bright to be limited to disclosed form.Many modifications and variations are obvious for the ordinary skill in the art.Choosing It is and to make those skilled in the art to more preferably illustrate the principle of the present invention and practical application to select and describe embodiment It will be appreciated that various embodiments with various modifications of the present invention to design suitable for special-purpose.

Claims (6)

1. the scraping mechanism of mesh-belt quenching furnace, it is characterised in that：The scraping mechanism of the mesh-belt quenching furnace includes that net belt type is defeated Send pusher side baffle, guipure, net belt type conveyer driven voller, notch plate, anti-guncotton layer, rectangle sliding slot, the first scraper, big square Shape block, small rectangular block, boron-silicon rubber hairbrush, rectangular shaped slider, square plate, wing bolt, the second scraper, shaft, isosceles ladder Shape scraper block, groove, torsional spring and bearing；One piece of notch plate is provided at the discharge port position of net belt type conveyer rear, and The left and right sides inner wall of notch plate concave end respectively with described in the left and right sides at the discharge port position of net belt type conveyer rear The outer wall of net belt type conveyer side shield mutually welds connection；The notch plate left and right ends offer the rectangle sliding slot at one, And the net belt type conveyer driven voller at the cross central line of rectangle sliding slot and net belt type conveyer rear discharge port position Cross central line be in same horizontal line；One group is provided in the notch plate concave end by the large rectangular block, small rectangle First scraper that block, boron-silicon rubber hairbrush, rectangular shaped slider, square plate and wing bolt collectively constitute；The big square The rectangular shaped slider that shape block is welded by its left and right ends is slidably matched with the rectangle sliding slot along the rectangle sliding slot Do front-rear reciprocation movement；The other end of two pieces of rectangular shaped sliders is welded with one piece of square plate, and two pieces described rectangular The first half and lower half center position of plate are threadedly coupled the wing bolt through the square plate there are one tail end； The large rectangular block front end face is welded with one piece of small rectangular block, and the front end face of small rectangular block be inlaid with several it is rectangular The boron-silicon rubber hairbrush of array-like distribution；It is located at net belt type conveyer rear discharge port position in the notch plate concave end One group is provided at the net belt type conveyer driven voller following position directly at place by the shaft, isosceles trapezoid scraper block and recessed Second scraper that slot collectively constitutes；The left and right ends of the shaft by bearing described in one group respectively with it is described recessed The left and right sides inner wall of shape plate concave end, which is rotatedly connected, to be connect；Shaft top outer wall is prolonged with its transverse center position right end of turning left It stretches common weldering and is connected with one piece of isosceles trapezoid scraper block；The left and right ends of the isosceles trapezoid scraper block offer at one The groove of the total height less than the isosceles trapezoid shape of isosceles trapezoid scraper block；The indent end face of the groove and net at two It is described between the inner wall of the net belt type conveyer side shield of the left and right sides at the discharge port position of ribbon conveyer rear Torsional spring described in being socketed with one group on shaft outer wall, and at two of torsional spring described in this two groups at end one fix be embedded in it is described recessed In the inner wall of the indent end face of slot, another place fixes and is embedded in the inner wall of the net belt type conveyer side shield.

2. the scraping mechanism of mesh-belt quenching furnace as described in claim 1, it is characterised in that：It forms in second scraper The isosceles trapezoid scraper block top end face and its right over be located at net belt type conveyer rear discharge port position at it is described 1cm is spaced between guipure.

3. the scraping mechanism of mesh-belt quenching furnace as claimed in claim 1 or 2, it is characterised in that：Form the second scraper dress The left and right ends face of isosceles trapezoid scraper block described in setting not with the left and right two at the discharge port position of net belt type conveyer rear The net belt type conveyer side shield inner wall of side is in contact, and spacing distance is 0.5cm.

4. the scraping mechanism of mesh-belt quenching furnace as described in claim 1, it is characterised in that：It forms in first scraper The length of the large rectangular block is less than at left and right sides of the notch plate concave end spacing 2cm between inner wall.

5. the scraping mechanism of mesh-belt quenching furnace as described in claim 1 or 4, it is characterised in that：Form the first scraper dress The length of small rectangular block described in setting is less than the net belt type of the left and right sides at the discharge port position of net belt type conveyer rear Spacing 1cm between conveyer side shield inner wall.

6. the scraping mechanism of mesh-belt quenching furnace as described in claim 1, it is characterised in that：The rear end of the notch plate concave end Inner wall is stained with one layer of anti-guncotton layer, and the thickness of anti-guncotton layer is 3cm.