CN2291416Y - Full-automatic quick two-step bottle blowing machine - Google Patents

Abstract

The utility model provides a full-automatic quick two-step bottle blowing machine. The utility model is characterized in that one end of a chute of a charging device is provided with a charging manipulator, a sliding plate operating mechanism is connected with the charging manipulator at a position corresponding to a discharging inverted position; not less than four channels are arranged in a heating drying tunnel, and a discharging manipulator is arranged on the end side of a mould-closing mechanism; the manipulators are used for improving the conditions of charging and discharging, and the number of additionally provided channels for the drying tunnel can be obtained. The utility model can improve the work efficiency of equipment, and can decrease the manufacturing cost of products.

Description

Full-automatic two-step method blown bottle machine fast

The utility model relates to the used equipment of a kind of blowing moulding, particularly a kind of equipment that comprises the slide plate works.

Existing bottle blowing machine is by feeding device; the slide plate works; the heating drying tunnel; clamping; Stretch and Blow Mechanism and frame are formed; blank is sent into the slide plate works from feeding device by manual alignment; its blank mostly is to carry operation in a passage of heating drying tunnel; to adapt to the labour intensity of manual alignment blank; the blowing finished product also is to pick up by manually getting; this equipment is because manual alignment is picked up blank and bottle product with getting; not only labour intensity is big; and production efficiency is also low; with the drying tunnel of its cooperation also can only be to adopt the lower single drying tunnel structure of working efficiency; manual alignment blank and extract finished product in addition; make feed or get material by operator's various human factors and all be in inhomogeneous or unsteady state; to influence parts quality, its running cost will be increased, economic benefit lowers.

The purpose of this utility model is that a kind of full-automatic two-step method blown bottle machine fast will be provided, and it can improve equipment work efficient, reduces manpower consumption, reduces the product cost, improves the product quality.

Utility model is achieved in that at an end of the skewed slot of feeding device establishes a feeding manipulator; take out the upturned position corresponding section at feeding manipulator and be connected with the slide plate works; in the heating drying tunnel, be provided with and be no less than four passage, establish one group of reclaimer robot clamping distolateral.

Feeding manipulator is established two groups of paws, and is equipped with the corresponding operating cylinder, and reclaimer robot is established one group of paw.

The utility model adopts the mechanical manipulator material loading and gets material, make, get the material stable operation, guarantee parts quality, and provide condition for further increasing work efficiency, on this basis, the utility model adopts four of the heating drying tunnel or greater than the scheme of four passages, make the equipment work efficiency improve several times, and reduce a large amount of manual operation amounts, and reduce production costs, increase economic benefit.

The concrete structure of utility model is provided by following examples and accompanying drawing thereof.

Fig. 1 is the automatically quick two-step method blown bottle machine structure front elevational schematic of the utility model.

Fig. 2 is the vertical view of Fig. 1.

Fig. 3 is a feeding manipulator front elevational schematic among Fig. 1.

Fig. 4 is the vertical view of Fig. 3.

Fig. 5 is the left side view of Fig. 3.

Fig. 6 is a heating drying tunnel front elevational schematic among Fig. 1.

Fig. 7 is the cross-sectional synoptic diagram of looking of Fig. 6.

With reference to Fig. 1,2; full-automatic two-step method blown bottle machine fast is made up of feeding device 1, feeding manipulator 2, slide plate works 3, heating drying tunnel 4, clamping 5, Stretch and Blow Mechanism 6, reclaimer robot 7 and frame 8, and corresponding hydraulic power actuating system, pneumatic drive system and the electrical system of setting.

Feeding device 1 is established a hopper 11, and hopper 11 outlets connect conveying belt 12, and conveying belt 12 is the oblique ascension setting, and the outlet of conveying belt upper end connects a small powder bucket 13, and 13 outlets of small powder bucket are connected with skewed slot 14.

Establish a feeding manipulator 2 at an end of skewed slot 14; take out the upturned position corresponding section with feeding manipulator 2; be connected with one group of slide plate works 3; corresponding laying heating drying tunnel 4 on the skateboarding track of slide plate works 3; above heating drying tunnel 4, corresponding clamping 5 is set; Stretch and Blow Mechanism 6 is established in the inside and outside template below of clamping 5, and at the distolateral reclaimer robot 7 of establishing of clamping 5.Except that feeding device 1 and electric control box side an end of frame 8, above-mentionedly respectively form member and hydraulic pressure, the pneumatic drive system all puts on frame 8.

During work; blank is from the hopper of feeding device 1; be elevated to top small powder bucket 13 through conveying belt 12; upset is adjusted in small powder bucket 13; slip into track successively along skewed slot 14 again; feeding manipulator 2 is spaced successively with blank X; and blank X is taken out upset pack on the bottle base seat of slide plate works 3; slide plate works 3 is done operation clockwise, and the slide plate that blank X will be housed is off and on sent into heating drying tunnel 4, and blank reaches through drying tunnel 4 heating and draws; the temperature that blow moulding requires; enter clamping 5; the ECDC die drawing blows mechanism 6 with the blank inflation moulding that stretches, and reclaimer robot 7 takes out the finished product on the slide plate, finishes the stretch blow moulding flow process one time.

With reference to Fig. 3,4,5, feeding manipulator 2 is made of paw A201, guide rail 202, movable positioning plate 203, cylinder 204, slim cylinder 205, paw B206, slim cylinder 207, gear 208, ratch 209, rotary cylinder 210, cylinder 211 and guide rail 212.The skewed slot 14 of feeding device 1 abuts against movable positioning plate 203, and movable positioning plate 203 1 sides are established one group of paw A201, and paw A201 is set on the guide rail 202, and paw A201 front side is connected with a cylinder 204, and paw A201 avris is connected with a slim cylinder 205; Paw B206 is arranged on the side of paw A201, and the front end of paw B206 is established a cylinder 212, and rotary cylinder 210 is established in its rear end, and its avris is established slim cylinder 207, and slim cylinder 213 is established in its below.

During work, blank X is after skewed slot 14 slips into feeding manipulator 2 successively, by movable positioning plate 203 location, slim cylinder 205 piston-retraction, one group of paw A201 inserts respectively, cylinder 204 piston rods stretch out, each paw A201 equidistantly is separated to desired position, movable positioning plate 203 resets, the withdrawal of slim cylinder 207 piston rods, the one group of paw B206 promotion by cylinder 212 and the effect of gear 208, ratch 209, clamp blank X, the piston rod of slim cylinder 205 stretches out, and makes each paw A201 decontrol blank, the withdrawal of cylinder 204 piston rods.Slim cylinder 213 piston rods stretch out, make blank X break away from slide rail 202, blank X is by 180 ° of rotary cylinder 210 upsets, slim cylinder 207 piston rods are stretched out, and the withdrawal of cylinder 213 piston rods makes blank X insert the bottle base seat of slide plate works 3 respectively, cylinder 212 actions make each paw B206 decontrol blank, rotary cylinder 210 resets, and finishes a blank X and carries, and work continuously by this recirculation.Each cylinder of feeding manipulator 2 is equipped with two near switch, in order to determine that piston moves forward and backward the position.

The paw B206 of the structure of reclaimer robot 7 and feeding manipulator 2 and the structure of relevant portion thereof are identical; be that equidistant isolating construction spare no longer is set in the reclaimer robot 7; establish the distolateral correspondence of paw B206 and clamping 5 in the reclaimer robot 7; the front end of paw B206 is established a cylinder 212; paw B206 establishes rotary cylinder in the rear end; the avris of paw B206 is established slim cylinder 207, and slim cylinder 213 is established in the below of paw B206, and the pawl quantity of paw B206 is identical with the pawl quantity of paw A201.

With reference to Fig. 6,7, heating drying tunnel 4 is arranged in the skateboarding track of slide plate works 3, and heating drying tunnel 4 is made up of housing 41, phototube 42, infrared temperature measuring head 43, blower fan 44, heating tube 45, heating pipe holder 46, spring grab 47 and reflector 48.Heating drying tunnel 4 constitutes the passage 49 that blank X moves through by reflector 48 and heating tube 45 are alternate, the pawl quantity of the quantity of passage 49 and paw A201 is identical, Figure 7 shows that the heating drying tunnel 4 of four passages 49, can need be provided with four or by producing greater than the structure of four passages 49.Establish at least two row heating tubes 45 in the drying tunnel 4, every row heating tube 45 has eight layers at least, forms by two for every layer, eight layers of temperature can be regulated respectively, every row temperature also can be regulated respectively, and to adapt to the requirement of different material base X, eight layers of heating tube 45 can be selected zone of heating according to blank X length.Blower fan 44 is provided with air door, may command and the temperature of regulating drying tunnel 4 interior passageways 49, and can make the temperature in the passage 49 even.Phototube 42 is used for monitoring in the passage 49 of drying tunnel 4 and has or not pipe, and infrared temperature measuring head 43 is used for the temperature in the sense channel 49.

Claims (4)

1. full-automatic two-step method blown bottle machine fast; form by feeding device (1), slide plate works (3), heating drying tunnel (4), clamping (5), Stretch and Blow Mechanism (6) and frame (8); it is characterized in that: the end at the skewed slot (14) of feeding device (1) is established a feeding manipulator (2); take out the upturned position corresponding section at feeding manipulator (2) and be connected with slide plate works (3); setting is no less than four passage (49) in heating drying tunnel (4), at the distolateral one group of reclaimer robot (7) of establishing of clamping (5).

2. two-step method blown bottle machine according to claim 1, the movable positioning plate (203) and skewed slot (14) adjacency that it is characterized in that feeding manipulator (2), movable positioning plate (203) one sides are established paw A (201), paw A (201) is set on the guide rail (202), paw A (201) front side is connected with a cylinder (204), paw A (201) avris is connected with a slim cylinder (205), paw B (206) is arranged on the side of paw A (201), the front end of paw B (206) is established a cylinder (212), paw B (206) establishes rotary cylinder (210) in the rear end, the avris of paw B (206) is established slim cylinder (207), and slim cylinder (213) is established in the below of paw B (206).

3. two-step method blown bottle machine according to claim 1 and 2 is characterized in that the structure of the paw B (206) of the structure of reclaimer robot (7) and feeding manipulator (2) and relevant portion is identical, the distolateral correspondence of its paw B (206) and clamping (5).

4. two-step method blown bottle machine according to claim 1 is characterized in that the pawl number of pawl number, paw B (206) of paw A (201) is identical with the road number of the passage (49) of heating drying tunnel.

Images