CN217249849U - Water spraying mechanism for slicing machine - Google Patents

Abstract

The utility model relates to the technical field of slicing machines, in particular to a water spraying mechanism for a slicing machine, which comprises a liquid receiving groove and a diversion groove, wherein the side wall of the liquid receiving groove is provided with a water inlet hole, the bottom of the liquid receiving groove is provided with a cleaning hole, the inside of the liquid receiving groove is provided with a baffle along the length direction, the baffle divides the liquid receiving groove into a first groove body and a second groove body which are communicated with each other at the bottom, the diversion groove is communicated with the top of the liquid receiving groove, and the diversion groove inclines downwards from the liquid receiving groove to the direction of a workpiece; the utility model discloses utilize the liquid that flows in the bottom cleaning hole to wash the gauze, and realize cutting area's cooling through the mode of overflow, combine cooling body and wiper mechanism, simple structure cost is lower.

Description

Water spraying mechanism for slicing machine

Technical Field

The utility model relates to a slicer technical field especially relates to a water spray mechanism for slicer.

Background

The slicing machine is a novel cutting processing method for simultaneously cutting a workpiece into hundreds of thin slices at one time through the high-speed reciprocating motion of a metal wire, and the working principle of the slicing machine is as follows: the workpiece to be processed is fed by descending the worktable, and the steel wire is guided by a plurality of wire guide wheels to form a wire net on the main roller to cut the workpiece.

A large amount of heat can be produced between copper wire and the work piece in the cutting process, consequently, need cool off the cutting position, current cooling body adopts the nozzle directly to spray online usually, because injection pressure is big and speed is very fast, can cause the gauze to go on the line and the clearance between the line changes, thereby lead to the thickness of slice quality uneven, reduce sliced qualification rate, and the copper wire has impurity after the cutting, the copper wire of laying on the home roll is at the rotatory in-process around the home roll, impurity will cause the damage to the home roll, reduce the life of home roll, consequently, need wash the wire gauze, and wiper mechanism among the prior art is generally mutually independent with cooling body, make slicer structure complicated and cost-push.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problems that the slicing quality is uneven in thickness due to a cooling mechanism and the cooling mechanism and a cleaning mechanism are mutually independent, so that the slicing machine is complex in structure and cost is increased, the water spraying mechanism for the slicing machine is provided.

In order to solve the technical problem, the utility model discloses a following technical scheme: a water spraying mechanism for a slicing machine comprises a liquid receiving groove and a flow guide groove;

connect the cistern lateral wall to have seted up the inlet opening, the outside water source of inlet opening intercommunication connects the cistern bottom to have seted up the cleaning hole, and the liquid that flows in the cleaning hole can wash the line net, connects the cistern inside to install the baffle along its length direction, the baffle will connect the cistern to divide into the first cell body and the second cell body of bottom intercommunication, and liquid gets into the guiding gutter behind first cell body and the second cell body in proper order and can slow down the liquid velocity of flow.

The guiding gutter with connect the top intercommunication in cistern, and the guiding gutter from connecing the cistern to the direction of work piece slope down gradually, rise constantly as the liquid level, liquid flows into the guiding gutter through the mode of overflow, the relative velocity of flow of liquid is slow this moment to can effectively reduce the later stage spray the time spray speed, the later stage of being convenient for stably sprays.

Liquid gets into the back from the inlet opening, at first slows down the liquid velocity of flow through first cell body and second cell body, then the overflow gets into the guiding gutter, further reduces the liquid velocity of flow, and the later stage of being convenient for is stably sprayed, and liquid simultaneously washs the gauze of below from the downthehole outflow of cleaning.

Above-mentioned technical scheme utilizes the downthehole outflow of bottom cleaning liquid to wash the gauze, and realizes the cooling in cutting area through the mode of overflow, combines cooling body and wiper mechanism, and simple structure cost is lower.

Furthermore, the diversion trench comprises a diversion plate positioned at the bottom, the diversion plate comprises a first diversion section, a second diversion section, a third diversion section and a fourth diversion section which are sequentially connected, the first diversion section is close to the liquid receiving tank, the first diversion section and the third diversion section are horizontally arranged, the second diversion section and the fourth diversion section are gradually inclined downwards from the liquid receiving tank to the direction of the workpiece, the horizontally arranged first diversion section enables the liquid entering from the overflow to uniformly enter the diversion trench, so that uniform spraying at the later stage is facilitated, and the obliquely arranged second diversion section enables the liquid to flow downwards to the cutting area for spraying; the third water conservancy diversion section that the level set up plays the cushioning effect, reduces the liquid velocity of flow, and the fourth water conservancy diversion section that the slope set up is used for spraying liquid to the cutting region.

Furthermore, the side wall of the liquid receiving groove close to the diversion groove is bent towards the diversion groove to form a lap joint part, and the lap joint part is lapped with the first diversion section, so that the connection strength of the liquid receiving groove and the diversion groove can be improved.

Furthermore, the inclination angle of the fourth diversion section is smaller than that of the second diversion section, so that the flow speed of liquid can be reduced, and the liquid can smoothly flow into the cutting area.

Furthermore, the top end of the partition extends towards the diversion trench to form a baffle plate to guide the liquid in the second trench to flow into the diversion trench.

Further, the cleaning hole is rectangular shape and has a plurality of, and a plurality of cleaning hole are along connecing cistern length direction interval distribution, and the width of the cleaning hole of rectangular shape is far less than the width of connecing the cistern, avoids cleaning hole liquid outflow too much and influence follow-up overflow, and has certain impact force cleaning performance better by rectangular shape aperture spun liquid, the cleaning hole is located gauze and home roll contact site top, washs gauze and home roll contact site, and the impurity of avoiding the gauze after the cutting to carry causes the damage to the home roll.

Furthermore, a plurality of supporting plates are fixed between the partition plate and the side wall of the liquid receiving tank, the supporting plates are distributed at intervals along the length direction of the liquid receiving tank, and the partition plate is supported by the supporting plates, so that the strength of the partition plate can be improved.

Furthermore, the backup pad includes supporting part and the reinforcing part of buckling downwards from the supporting part tip, and the supporting part supports between the baffle and connect the cistern lateral wall, and reinforcing part and the laminating of connecing the cistern lateral wall have improved the support intensity of backup pad.

Furthermore, hanging lugs are arranged at two ends of the liquid receiving tank and used for fixing the liquid receiving tank.

The utility model has the advantages that: the utility model discloses utilize the downthehole liquid that flows of bottom cleaning to wash the gauze, and realize the cooling of cutting region through the mode of overflow, combine cooling body and wiper mechanism, simple structure cost is lower.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a perspective view of a water spray mechanism for a microtome;

FIG. 2 is a top view of a water spray mechanism for the microtome;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

in the figure:

1. a liquid receiving tank; 101. a water inlet hole; 102. cleaning the holes; 103. a first tank body; 104. a second tank body; 105. a lap joint section; 2. a diversion trench; 201. a baffle; 2011. a first flow guide section; 2012. a second flow guide section; 2013. a third flow guide section; 2014. a fourth flow guide section; 3. a partition plate; 301. a baffle plate; 4. a support plate; 401. a support portion; 402. a reinforcing part; 5. and (5) hanging a lug.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

The first embodiment is as follows:

as shown in fig. 1-3, the present invention relates to a water spraying mechanism for a slicer, which comprises a liquid receiving tank 1 and a diversion tank 2;

connect cistern 1 lateral wall to have seted up inlet opening 101, inlet opening 101 intercommunication outside water source, connect cistern 1 bottom to have seted up cleaning hole 102, the liquid that flows in cleaning hole 102 can wash the line network, connect cistern 1 inside along its length direction install baffle 3, baffle 3 will connect cistern 1 to divide into first cell body 103 and the second cell body 104 of bottom intercommunication, liquid gets into guiding gutter 2 after first cell body 103 and the second cell body 104 in proper order and can slow down the liquid velocity of flow.

The guiding gutter 2 with connect the top intercommunication of cistern 1, and guiding gutter 2 from connect cistern 1 to the direction of work piece slope down gradually, and when the liquid level rises constantly, liquid flows into guiding gutter 2 through the mode of overflow, and the relative velocity of flow of liquid is slow this moment to spray speed when can effectively reducing the later stage and spray, the later stage of being convenient for is stably sprayed.

After entering from the water inlet 101, the liquid firstly passes through the first tank body 103 and the second tank body 104 to slow down the flow rate of the liquid, then overflows into the diversion trench 2 to further reduce the flow rate of the liquid, and meanwhile, the liquid flows out from the cleaning hole 102 to clean the wire mesh below.

The guide groove 2 comprises a guide plate 201 located at the bottom, the guide plate 201 comprises a first guide section 2011, a second guide section 2012, a third guide section 2013 and a fourth guide section 2014 which are sequentially connected, the first guide section 2011 is close to the liquid receiving groove 1, the first guide section 2011 and the third guide section 2013 are horizontally arranged, the second guide section 2012 and the fourth guide section 2014 are gradually inclined downwards from the liquid receiving groove 1 to the direction of a workpiece, the first guide section 2011 which is horizontally arranged enables liquid entering through overflow to uniformly enter the guide groove 2 so as to be uniformly sprayed at the later stage, and the second guide section 2012 which is obliquely arranged enables the liquid to flow downwards to a cutting area for spraying; the third diversion section 2013 arranged horizontally plays a role in buffering and reducing the flow rate of liquid, and the fourth diversion section 2014 arranged obliquely is used for spraying the liquid to a cutting area.

The side wall of the liquid receiving groove 1 close to the diversion groove 2 is bent to form a lapping part 105 towards the diversion groove 2, the lapping part 105 is lapped with the first diversion section 2011, and the connection strength of the liquid receiving groove 1 and the diversion groove 2 can be improved.

The inclination angle of the fourth diversion section 2014 is smaller than that of the second diversion section 2012, so that the flow rate of the liquid can be reduced, and the liquid can smoothly flow into the cutting area.

The top end of the partition board 3 extends towards the diversion trench 2 to form a baffle 301 to guide the liquid in the second trough body 104 to flow into the diversion trench 2.

The cleaning holes 102 are long-strip-shaped and are provided with a plurality of cleaning holes 102, the cleaning holes 102 are distributed at intervals along the length direction of the liquid receiving tank 1, the width of each long-strip-shaped cleaning hole 102 is far smaller than that of the liquid receiving tank 1, the situation that the subsequent overflow is influenced due to the fact that liquid in the cleaning holes 102 flows out too much is avoided, cleaning effect is better due to the fact that liquid sprayed out of small long-strip-shaped holes has certain impact force, the cleaning holes 102 are located above the contact position of a wire net and a main roller, the contact position of the wire net and the main roller is cleaned, and the fact that impurities carried by the cut wire net damage the main roller is avoided.

A plurality of supporting plates 4 are fixed between the partition plate 3 and the side wall of the liquid receiving tank 1, the supporting plates 4 are distributed at intervals along the length direction of the liquid receiving tank 1, and the partition plate 3 is supported by the supporting plates 4, so that the strength of the partition plate 3 can be improved.

The supporting plate 4 comprises a supporting part 401 and a reinforcing part 402 bent downwards from the end part of the supporting part 401, the supporting part 401 is abutted between the partition plate 3 and the side wall of the liquid receiving tank 1, and the reinforcing part 402 is attached to the side wall of the liquid receiving tank 1, so that the supporting strength of the supporting plate 4 is improved.

Hanging lugs 5 are arranged at two ends of the liquid receiving tank 1 and used for fixing the liquid receiving tank 1.

The working principle is as follows: after entering from inlet opening 101, liquid overflows after passing through first cell body 103 and second cell body 104 in proper order and gets into guiding gutter 2, and liquid flows out from wasing hole 102 simultaneously and washs the gauze of below, and guiding gutter 2 is equipped with first water conservancy diversion section 2011, second water conservancy diversion section 2012, third water conservancy diversion section 2013 and fourth water conservancy diversion section 2014, and liquid evenly sprays after passing through in proper order.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides a water spray mechanism for slicer which characterized in that: comprises a liquid receiving groove (1) and a diversion groove (2);

the flow guide groove (2) is communicated with the top of the liquid receiving groove (1), and the flow guide groove (2) is gradually inclined downwards from the liquid receiving groove (1) to the direction of the workpiece;

connect cistern (1) lateral wall to have seted up inlet opening (101), washing hole (102) have been seted up to the bottom, connect cistern (1) inside along its length direction install baffle (3), baffle (3) will connect cistern (1) to divide into first cell body (103) and second cell body (104) of bottom intercommunication.

2. The water spray mechanism for a microtome according to claim 1, wherein: guide slot (2) are including guide plate (201) that is located the bottom, guide plate (201) are including first water conservancy diversion section (2011), second water conservancy diversion section (2012), third water conservancy diversion section (2013) and fourth water conservancy diversion section (2014) that connect gradually, first water conservancy diversion section (2011) is close to and connects cistern (1), first water conservancy diversion section (2011) and third water conservancy diversion section (2013) horizontal setting, and second water conservancy diversion section (2012) and fourth water conservancy diversion section (2014) are from connecing cistern (1) to the direction of work piece slope down gradually.

3. The water spray mechanism for a microtome according to claim 1, wherein: the cleaning holes (102) are long-strip-shaped and are provided with a plurality of cleaning holes, the cleaning holes (102) are distributed at intervals along the length direction of the liquid receiving tank (1), and the cleaning holes (102) are positioned above the contact part of the wire mesh and the main roller.

4. The water spray mechanism for a microtome according to claim 2, wherein: the side wall of the liquid receiving groove (1) close to the flow guide groove (2) is bent to the direction of the flow guide groove (2) to form a lap joint part (105), and the lap joint part (105) is lapped with the first flow guide section (2011).

5. The water spray mechanism for a microtome according to claim 2, wherein: the inclination angle of the fourth flow guide section (2014) is smaller than that of the second flow guide section (2012).

6. The water spray mechanism for a microtome according to claim 1, wherein: the top end of the clapboard (3) extends to the direction of the guide groove (2) to form a baffle (301).

7. The water spray mechanism for a microtome according to claim 1, wherein: a plurality of supporting plates (4) are fixed between the partition plate (3) and the side wall of the liquid receiving tank (1), and the supporting plates (4) are distributed at intervals along the length direction of the liquid receiving tank (1).

8. The water spray mechanism for a microtome according to claim 7, wherein: the supporting plate (4) comprises a supporting part (401) and a reinforcing part (402) bent downwards from the end part of the supporting part (401), the supporting part (401) is abutted between the partition plate (3) and the side wall of the liquid receiving tank (1), and the reinforcing part (402) is attached to the side wall of the liquid receiving tank (1).

9. The water spray mechanism for a microtome according to claim 1, wherein: two ends of the liquid receiving tank (1) are provided with hanging lugs (5).

Images