CN209615092U - A kind of wide-belt sander - Google Patents

Abstract

The utility model relates to a kind of wide-belt sanders, it is related to timber grinding technology field, since existing apparatus can only realize the single side polishing of plank, operator needs to carry back the plank for completing single side polishing the input terminal of feeding mechanism, the labor intensity of aforesaid operations, operator is high.This programme includes cabinet, feeding mechanism, mechanism of sanding machine, material return mechanism are installed in cabinet, material return mechanism and mechanism of sanding machine are located at feeding mechanism following above and, and material return mechanism includes feed back conveyer belt, and the conveying direction of material return mechanism and the conveying direction of feeding mechanism are opposite；Organic frame is fixed in cabinet side, and lane-change component is equipped in rack, and lane-change component is used to the plank in feeding conveying belt being directed to feed back conveyer belt.Input terminal due to the plank sent back to by material return mechanism apart from feeding mechanism is closer, then reduces the labor intensity that plank is carried back the input terminal of feeding mechanism by operator.

Description

A kind of wide-belt sander

Technical field

The utility model relates to timber grinding technology fields, more particularly, to a kind of wide-belt sander.

Background technique

In furniture production technology, it usually needs it is polished board surface, polishing treatment, and in existing operation, it adopts Plank is processed by shot blasting with wide-belt sander.

If Authorization Notice No. is a kind of wide-belt sander of CN201863092U, including casing, feeding is installed in casing Device, sanding device etc., plank is under the drive of feed device, by below sanding device, sanding device can carry out timber Grinding process.

, can only be to polishing discharging be carried out on the upside of plank, therefore but after above-mentioned this kind of wide-belt sander Shortcomings, behaviour Author needs that the input terminal of feed device will be moved back to again by the plank of polishing, then goes over sanding device.It is above-mentioned this Under mode of operation, the labor intensity of operator is high.

Utility model content

The purpose of the utility model is to provide a kind of wide-belt sanders, can reduce the labor intensity of worker.

The above-mentioned purpose of utility model of the utility model has the technical scheme that

A kind of wide-belt sander, including cabinet are equipped with feeding mechanism and mechanism of sanding machine in cabinet, and feeding mechanism is located at sand Below ray machine structure, the space between feeding mechanism and mechanism of sanding machine is polishing channel, and the both ends in channel of polishing are connected to out cabinet, Material return mechanism is also equipped in the cabinet, material return mechanism is located at below feeding mechanism, and material return mechanism includes feed back conveyer belt, returns Expect that the conveying direction of mechanism is opposite with the conveying direction of feeding mechanism；Organic frame is fixed in cabinet side, is equipped with lane-change in rack Component, lane-change component are in the output of feeding mechanism between feeding mechanism and material return mechanism, and lane-change component includes Lane-change plate and shaft, shaft is fixed on rack and lane-change plate is rotationally connected with shaft, and the rotational plane of lane-change plate is perpendicular to feed back The conveying direction of mechanism；Lane-change plate far from magnetic block is fixed on the downside of feeding mechanism one end, be fixed in rack electromagnet and Electromagnet is located at below magnetic block, is fixedly connected with reset spring in rack, and to be connected to lane-change plate separate for reset spring one end The downside of feeding mechanism one end；For lane-change plate far from barrier plate is fixed on the upside of feeding mechanism one end, rack, which is equipped with, is used for root The lane-change circuit of magnet switching electricity is controlled according to the spacing between plank and barrier plate.

By using above-mentioned technical proposal, plank can be under the drive of feeding mechanism, by mechanism of sanding machine lower section, and by sand Ray machine structure polishes to plank upper side；Continue to transport plank later, until sliding on the upside of lane-change plate, when plank moves completely When on to lane-change plate, the power-off of lane-change circuit controling electromagnetism iron, then under the thrust of reset spring, lane-change plate one end is turned over downwards Turn and be undertaken in the input end of feed back conveyer belt, plank is transferred under self gravity and the draw of feed back conveyer belt The input terminal of feed back conveyer belt；After plank is completely moved on feed back conveyer belt, lane-change circuit controling electromagnetism iron obtains electric, and attracts Magnetic block is flipped up lane-change plate one end, and resets back at the output end position of feeding conveying belt.

Final plank can be exported from the output end of feed back conveyer belt, at this point, input terminal of the plank apart from feeding mechanism is closer, Plank more can be carried to the input terminal of feeding mechanism in labour-saving by operator, so as to polish plank another side.

The utility model is further arranged to: the lane-change circuit includes:

Range sensor is installed on barrier plate, and for detecting between plank and barrier plate on the upside of lane-change plate between Away from so that output is apart from detected value；

Comparing unit is coupled to the output end of range sensor, to receive apart from detected value, when apart from detected value be greater than than Compared with unit preset value when, export the comparison signal of high level；

Delay cell is coupled to the output end of comparing unit, for postponing the comparison signal of comparing unit output end output；

Control unit is coupled to the output end of delay cell, to receive the comparison signal after delay, and controls electromagnet Power on/off.

By using above-mentioned technical proposal, due to being equipped with delay cell in lane-change circuit, then can be moved completely until plank When on the upside of to lane-change plate, control unit just receives low level comparison signal, then electromagnet just powers off, and later, lane-change plate is It can realize overturning.Similarly, until plank is moved fully on the upside of feed back conveyer belt, control unit just receives the ratio of high level Compared with signal, then electromagnet just it is electric, later, lane-change plate can just be flipped back to original state.

The utility model is further arranged to: the upper side of the lane-change plate is rotatably connected to several and disposed in parallel leads To roller, several guide rollers are linearly arranged, and the length direction of guide roller is parallel to the length direction of shaft.

By using above-mentioned technical proposal, moving resistance of the guide roller for reducing plank on the upside of lane-change plate, thus compared with It residence time of the small plank on the upside of lane-change plate, improves work efficiency.

The utility model is further arranged to: limition orientation arc groove is provided in the rack, lane-change plate side is fixed with It is clamped bar, clamping bar sliding is connected in limition orientation arc groove；When clamping bar respectively slides to the two of limition orientation arc groove When end, lane-change plate corrects the input terminal of the output end and material return mechanism that are undertaken in feeding mechanism respectively close to feeding mechanism one.

By using above-mentioned technical proposal, when clamping bar slides into the upper end of limition orientation arc groove, lane-change plate is close Feeding mechanism one corrects the output end for being undertaken in feeding mechanism；When clamping bar slides into the lower end of limition orientation arc groove, Lane-change plate corrects the input terminal for being undertaken in material return mechanism close to feeding mechanism one.Limition orientation arc groove is for limiting lane-change plate Overturning range, to prevent the overturning of lane-change plate excessive.

The utility model is further arranged to: the feeding mechanism includes feeding conveying belt, and the outside of feeding conveying belt Several impellers are fixed on zone face, several impellers are equidistantly arranged along feeding conveying belt conveying direction.

By using above-mentioned technical proposal, plank be can be placed between two neighboring impeller, and the height of impeller is less than The thickness of plank, impeller can be used for more stable promotion plank and advance.

The utility model is further arranged to: the cabinet is connected with buffer board far from rack side, and buffer board is located at back Expect the output of conveyer belt, and the output end of feed back conveyer belt extends to outside cabinet.

By using above-mentioned technical proposal, buffer board is for preventing the plank on feed back conveyer belt from falling from output end.

The utility model is further arranged to: the cabinet is connected with pusher cylinder and splicing platform far from rack side, pushes away Material cylinder and splicing platform are located at the two sides of feed back conveyer belt.

By using above-mentioned technical proposal, the plank being connected on buffer board can be pushed on the upside of splicing platform by pusher cylinder, It to facilitate operator by plank turn-over, and is carried in feeding conveying belt, carries out the polishing of another side.

The utility model is further arranged to: being equipped with lifting actuator on the downside of the splicing platform.

By using above-mentioned technical proposal, lifting actuator is cylinder, and operator's lifting controllable actuator rises splicing Platform, and rise to plank near feeding conveying belt upper side, to save the acting that operator carries plank up and down.

In conclusion the advantageous effects of the utility model are as follows:

1. then being reduced in the present solution, the input terminal due to the plank sent back to by material return mechanism apart from feeding mechanism is closer Plank is carried back the labor intensity of the input terminal of feeding mechanism by operator；

2. in the present solution, moving resistance of the guide roller for reducing plank on the upside of lane-change plate, so that smaller plank is changing It residence time on the upside of guidance tape, improves work efficiency.

Detailed description of the invention

Fig. 1 is the schematic cross-section of the present embodiment.

Fig. 2 is lane-change circuit diagram.

Fig. 3 is the top view of the present embodiment.

In figure, 1, cabinet；11, plank；12, buffer board；13, connecting rod；14, actuator is gone up and down；15, splicing platform；16, it pushes away Expect cylinder；17, rack；18, limition orientation arc groove；19, it is clamped bar；2, mechanism of sanding machine；21, preceding sanding component；211, preceding sand Band；212, preceding sand roller；22, rear sanding component；221, rear abrasive band；222, rear sand roller；223, pressure pad；3, feeding mechanism；31, feeding Conveyer belt；311, impeller；32, feeding roller；4, material return mechanism；41, feed back conveyer belt；42, feed back roller；5, lane-change component；51, Shaft；52, lane-change plate；53, guide roller；54, barrier plate；55, magnetic block；56, reset spring；57, electromagnet；58, mounting plate； 6, lane-change circuit；61, range sensor；62, comparing unit；63, delay cell；64, control unit.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

With reference to Fig. 1, it is a kind of wide-belt sander disclosed by the utility model, including cabinet 1, feeding is installed in cabinet 1 Mechanism 3, mechanism of sanding machine 2, material return mechanism 4, feeding mechanism 3 is between mechanism of sanding machine 2 and material return mechanism 4,3 both ends of feeding mechanism Extend the two sides of cabinet 1, the two sides of cabinet 1 are also extended at the both ends of material return mechanism 4.

Feeding mechanism 3 includes: feeding conveying belt 31, two feeding rollers 32 for being used to support feeding conveying belt 31, for driving The driving source (not shown) that dynamic feeding roller 32 rotates, driving source (not shown) are motor, and with 32 end of feeding roller (not shown) is connected by gear.Several impellers 311 are fixed on the outside zone face of feeding conveying belt 31, several Impeller 311 is equidistantly arranged along 31 conveying direction of feeding conveying belt, and plank 11 can be placed between two neighboring impeller 311, And the height of impeller 311 is less than the thickness of plank 11, impeller 311 can be used for more stable promotion plank 11 and advance.

Mechanism of sanding machine 2 includes: preceding sanding component 21 and rear sanding component 22, and preceding sanding component 21 includes: about two rows Cloth and preceding sand roller 212 disposed in parallel, two preceding sand rollers 212 are cased with preceding abrasive band 211 outside jointly, and rear sanding component 22 includes: three Root is arranged in parallel and in the rear sand roller 222 of triangular shape arrangement, is cased with rear abrasive band 221 after three outside sand roller 222 jointly, in cabinet 1 It is also equipped with pressure pad 223, pressure pad 223 is between sand roller 222 after two on the lower.Plank 11 is under the drive of feeding mechanism 3, warp The downside of mechanism of sanding machine 2 is crossed, then preceding sanding component 21 and rear sanding component 22 can be successively to being polished on the upside of plank 11, thrown Light.Driving source (not shown) for driving a certain preceding sand roller 212 to rotate is installed, driving source is (in figure not in cabinet 1 Show) it is motor, and (not shown) is connect by gear with preceding 212 end of sand roller.It is equipped in cabinet 1 for driving certain After one sand roller 222 rotate driving source (not shown), driving source (not shown) be motor, and with rear sand roller 222 End connects (not shown) by gear.

Material return mechanism 4 includes: feed back conveyer belt 41, two feed back rollers 42 for being used to support feed back conveyer belt 41, for driving The driving source (not shown) that dynamic feed back roller 42 rotates, driving source (not shown) are motor, and with 42 end of feed back roller (not shown) is connected by gear.

The conveying direction of feed back conveyer belt 41 is opposite with the conveying direction of feeding conveying belt 31.The fixation of 1 side of cabinet is organic Frame 17 is equipped with lane-change component 5 in rack 17, and lane-change component 5 is in feeding between feeding mechanism 3 and material return mechanism 4 The output of mechanism 3, lane-change component 5 are used to the plank 11 in feeding conveying belt 31 being directed to feed back conveyer belt 41.

Lane-change component 5 includes: lane-change plate 52 and shaft 51, and shaft 51 is fixed on rack 17 and lane-change plate 52 is rotationally connected with Shaft 51, the conveying direction of the rotational plane of lane-change plate 52 perpendicular to material return mechanism 4.Limition orientation arc groove is provided in rack 17 18,52 side of lane-change plate is fixed with clamping bar 19, and the clamping sliding of bar 19 is connected in limition orientation arc groove 18.When clamping bar 19 When sliding into the upper end of limition orientation arc groove 18, lane-change plate 52 corrects close to feeding mechanism 3 and is undertaken in feeding mechanism 3 Output end；When clamping bar 19 slides into the lower end of limition orientation arc groove 18, lane-change plate 52 is corrected close to feeding mechanism 3 It is undertaken in the input terminal of material return mechanism 4.

Lane-change plate 52 is fixed with mounting plate 58 far from magnetic block 55 is fixed on the downside of 3 one end of feeding mechanism in rack 17, It is fixed with one block of electromagnet 57 on the upside of mounting plate 58 and electromagnet 57 is located at 55 lower section of magnetic block, is fixedly connected on the upside of mounting plate 58 There is reset spring 56, and 56 upper end of reset spring is connected to downside of the lane-change plate 52 far from 3 one end of feeding mechanism.Lane-change plate 52 is remote From barrier plate 54 is fixed on the upside of 3 one end of feeding mechanism, barrier plate 54 can prevent plank 11 from skidding off lane-change plate 52.

The upper side of lane-change plate 52 is rotatably connected to several guide rollers 53 disposed in parallel, and several guide rollers 53 are in line Property arrangement, and the length direction of guide roller 53 is parallel to the length direction of shaft 51.Guide roller 53 is changing for reducing plank 11 The moving resistance of 52 upside of guidance tape, so that smaller plank 11 is improved work efficiency in the residence time of 52 upside of lane-change plate.

With reference to Fig. 1 and Fig. 2, rack 17 is equipped with lane-change circuit 6, and lane-change circuit 6 is used for according to plank 11 and barrier plate 54 Between spacing, to control 57 power on/off of electromagnet.When plank 11 is moved fully to lane-change 52 upside of plate, electromagnet 57 is disconnected Electricity, under the thrust of reset spring 56,52 one end of lane-change plate downwardly turns over and is undertaken in the input terminal of feed back conveyer belt 41 Place, plank 11 are transferred on feed back conveyer belt 41 under self gravity and the draw of feed back conveyer belt 41；It is complete in plank 11 After moving on feed back conveyer belt 41 entirely, electromagnet 57 obtains electric and attracts magnetic block 55, is flipped up 52 one end of lane-change plate, and multiple Position is returned at the output end position of feeding conveying belt 31.

Lane-change circuit 6 includes:

Range sensor 61 is installed on barrier plate 54, and plank 11 and barrier plate for detecting 52 upside of lane-change plate Spacing between 54, so that output is apart from detected value；

Comparing unit 62 is coupled to the output end of range sensor 61, to receive apart from detected value, when big apart from detected value When the preset value of comparing unit 62, the comparison signal of high level is exported；

Delay cell 63 is coupled to the output end of comparing unit 62, for postponing the ratio of 62 output end of comparing unit output Compared with signal；

Control unit 64 is coupled to the output end of delay cell 63, to receive the comparison signal after delay, and controls electromagnetism The power on/off of iron 57.

Comparing unit 62 includes: comparator A, resistance R1, resistance R2, and the forward end of comparator A is coupled to range sensor 61 output end, resistance R1 are serially connected between the reverse side of comparator A and direct current VCC, and resistance R2 is serially connected with the anti-of comparator A Between phase end and ground, the voltage value at the both ends resistance R2 is the preset value of comparing unit 62.

Control unit 64 includes: resistance R3, resistance R4, triode Q1, sustained diode 1, relay KM1.

One end of resistance R3 is coupled to the output end of delay cell 63, and the other end of resistance R3 is coupled to the base of triode Q1 Pole, resistance R4 are serially connected between the base stage and ground of triode Q1, and the emitter ground connection of triode Q1, relay KM1 has coil And normally open contact, for the coil tandem of relay KM1 between the collector and direct current VCC of triode Q1, relay KM1's is normal Open contact is serially connected in the current supply circuit of electromagnet 57, and the anode of sustained diode 1 is coupled to the collector of triode Q1, is continued The cathode of stream diode D1 is coupled to direct current VCC.

Referring to figs. 2 and 3, cabinet 1 is equipped with buffer board 12 far from 17 side of rack, fixed between buffer board 12 and cabinet 1 It is connected with connecting rod 13, buffer board 12 is located at the output of feed back conveyer belt 41, and for preventing on feed back conveyer belt 41 Plank 11 is fallen from output end.Cabinet 1 is connected with pusher cylinder 16 and splicing platform 15,16 He of pusher cylinder far from 17 side of rack Splicing platform 15 is located at the two sides of feed back conveyer belt 41, and the plank 11 being connected on buffer board 12 can be pushed by pusher cylinder 16 15 upside of splicing platform, to facilitate operator by 11 turn-over of plank, and is carried in feeding conveying belt 31, carries out another side Polishing.Lifting actuator 14 is installed, lifting actuator 14 is cylinder, operator's lifting controllable actuator on the downside of splicing platform 15 14 rise splicing platform 15, and rise to plank 11 near 31 upper side of feeding conveying belt, carry up and down to save operator The acting of plank 11.

The implementation principle of the present embodiment are as follows: plank 11 can be put to the input terminal of feeding conveying belt 31, and mechanism of sanding machine 2 can later To polishing on the upside of plank 11, then plank 11 is transported on lane-change plate 52 by feeding conveying belt 31, and when plank 11 is complete When being moved on lane-change plate 52 entirely, lane-change circuit 6 controls electromagnet 57 and powers off, then under the thrust of reset spring 56, changes 52 one end of guidance tape downwardly turns over and is undertaken in the input end of feed back conveyer belt 41, and plank 11 is in self gravity and feed back conveyer belt Under 41 draw, it is transferred to the input terminal of feed back conveyer belt 41；After plank 11 is completely moved on feed back conveyer belt 41, change Road circuit 6 controls electromagnet 57 must be electric, and attracts magnetic block 55, is flipped up 52 one end of lane-change plate, and it is defeated to reset loopback material At the output end position for sending band 31.Plank 11 is transported at buffer board 12 by feed back conveyer belt 41, and will be supported by pusher cylinder 16 It connects the plank 11 on buffer board 12 and is pushed into 15 upside of splicing platform；Operator's lifting controllable actuator 14 rises splicing platform later 15, rise to plank 11 near 31 upper side of feeding conveying belt, and overturn plank 11, the one side court that plank 11 is not polished On, it is sent in feeding conveying belt 31, polishes via mechanism of sanding machine 2.

Wherein it is worth noting that, due to being equipped with delay cell 63 in lane-change circuit 6, then it can wait until that plank 11 is completely mobile When to lane-change 52 upside of plate, control unit 64 just receives low level comparison signal, then electromagnet 57 just powers off, and later, changes Guidance tape 52 can just realize overturning.Similarly, until plank 11 is moved fully to feed back 41 upside of conveyer belt, control unit 64 is just connect Receive the comparison signal of high level, then electromagnet 57 just it is electric, later, lane-change plate 52 can just be flipped back to original state.

The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical Within novel protection scope.

Claims (8)

1. a kind of wide-belt sander, including cabinet (1), cabinet (1) is interior to be equipped with feeding mechanism (3) and mechanism of sanding machine (2), feeding Mechanism (3) is located at below mechanism of sanding machine (2), and the space between feeding mechanism (3) and mechanism of sanding machine (2) is polishing channel, polishing The both ends in channel are connected to out cabinet (1), which is characterized in that are also equipped with material return mechanism (4), feed back machine in the cabinet (1) Structure (4) is located at below feeding mechanism (3), and material return mechanism (4) includes feed back conveyer belt (41), the conveying direction of material return mechanism (4) It is opposite with the conveying direction of feeding mechanism (3)；Cabinet (1) side is fixed organic frame (17), and rack is equipped with lane-change group on (17) Part (5), lane-change component (5) are located between feeding mechanism (3) and material return mechanism (4), and are in the output end of feeding mechanism (3) Place, lane-change component (5) include lane-change plate (52) and shaft (51), and shaft (51) is fixed on rack (17) and lane-change plate (52) rotates It is connected to shaft (51), the conveying direction of the rotational plane of lane-change plate (52) perpendicular to material return mechanism (4)；Lane-change plate (52) is separate It is fixed with magnetic block (55) on the downside of feeding mechanism (3) one end, electromagnet (57) and electromagnet (57) is fixed in rack (17) Below magnetic block (55), it is fixedly connected with reset spring (56) in rack (17), and reset spring (56) one end is connected to Downside of the lane-change plate (52) far from feeding mechanism (3) one end；Lane-change plate (52) is fixed on the upside of separate feeding mechanism (3) one end Barrier plate (54), rack (17) are equipped with for controlling electromagnet according to the spacing between plank (11) and barrier plate (54) (57) the lane-change circuit (6) of power on/off.

2. a kind of wide-belt sander according to claim 1, which is characterized in that the lane-change circuit (6) includes:

Range sensor (61) is installed on barrier plate (54), and for detecting plank (11) and resistance on the upside of lane-change plate (52) Spacing between baffle (54), so that output is apart from detected value；

Comparing unit (62), is coupled to the output end of range sensor (61), to receive apart from detected value, when big apart from detected value When the preset value of comparing unit (62), the comparison signal of high level is exported；

Delay cell (63), is coupled to the output end of comparing unit (62), for postponing the output of comparing unit (62) output end Comparison signal；

Control unit (64), is coupled to the output end of delay cell (63), to receive the comparison signal after delay, and controls electromagnetism The power on/off of iron (57).

3. a kind of wide-belt sander according to claim 1, which is characterized in that the upper side of the lane-change plate (52) rotates Several guide rollers (53) disposed in parallel are connected with, several guide rollers (53) are linearly arranged, and the length of guide roller (53) Degree is oriented parallel to the length direction of shaft (51).

4. a kind of wide-belt sander according to claim 1, which is characterized in that be provided with limition orientation on the rack (17) Arc groove (18), lane-change plate (52) side are fixed with clamping bar (19), and clamping bar (19) sliding is connected to limition orientation arc groove (18) in；When clamping bar (19) respectively slides to the both ends of limition orientation arc groove (18), lane-change plate (52) is close to feeder Structure (3) one corrects the input terminal of the output end for being undertaken in feeding mechanism (3) respectively and material return mechanism (4).

5. a kind of wide-belt sander according to claim 1, which is characterized in that the feeding mechanism (3) includes that feeding is defeated Band (31) is sent, and is fixed with several impellers (311), several impellers on the outside zone face of feeding conveying belt (31) (311) along feeding conveying belt (31), conveying direction is equidistantly arranged.

6. a kind of wide-belt sander according to claim 1, which is characterized in that the cabinet (1) is far from rack (17) one Side is connected with buffer board (12), and buffer board (12) is located at the output of feed back conveyer belt (41), and feed back conveyer belt (41) Output end extends to cabinet (1) outside.

7. a kind of wide-belt sander according to claim 6, which is characterized in that the cabinet (1) is far from rack (17) one Side is connected with pusher cylinder (16) and splicing platform (15), and pusher cylinder (16) and splicing platform (15) are located at feed back conveyer belt (41) two sides.

8. a kind of wide-belt sander according to claim 7, which is characterized in that be equipped with liter on the downside of the splicing platform (15) It drops actuator (14).